
Article 1 
Annex II to Directive 2002/49/EC is replaced by the text set out in the Annex to this Directive.
Article 2 

1. Member States shall bring into force the laws, regulations and administrative provisions necessary to comply with this Directive by 31 December 2018 at the latest. They shall forthwith communicate to the Commission the text of those provisions.When Member States adopt those provisions, they shall contain a reference to this Directive or be accompanied by such a reference on the occasion of their official publication. Member States shall determine how such reference is to be made.
2. Member States shall communicate to the Commission the text of the main provisions of national law which they adopt in the field covered by this Directive.
Article 3 
This Directive shall enter into force on the day following that of its publication in the Official Journal of the European Union.
Article 4 
This Directive is addressed to the Member States.
Done at Brussels, 19 May 2015.
For the Commission,
On behalf of the President,
Karmenu VELLA
Member of the Commission
ANNEX
ASSESSMENT METHODS FOR THE NOISE INDICATORS  1. 
The values of Lden and Lnight shall be determined at the assessment positions by computation, according to the method set out in Chapter 2 and the data described in Chapter 3. Measurements may be performed according to Chapter 4.
 2.  2.1.  2.1.1. 
Noise calculations shall be defined in the frequency range from 63 Hz to 8 kHz. Frequency band results shall be provided at the corresponding frequency interval.

Calculations are performed in octave bands for road traffic, railway traffic and industrial noise, except for the railway noise source sound power, that uses third octave bands. For road traffic, railway traffic and industrial noise, based on these octave band results, the A-weighted long term average sound pressure level for the day, evening and night period, as defined in Annex I and referred to in Art. 5 of Directive 2002/49/EC, is computed by summation over all frequencies:


LAeq,T=10×lg∑i=110Leq,T,i+Ai∕10 (2.1.1)

where


 Ai denotes the A-weighting correction according to IEC 61672-1
 i = frequency band index
 and T is the time period corresponding to day, evening or night.

Noise parameters:


Lp Instantaneous sound pressure level [dB](re. 2 10–5 Pa)
LAeq,LT Global long-term sound level LAeq due to all sources and image sources at point R [dB](re. 2 10–5 Pa)
LW ‘In situ’ sound power level of a point source (moving or steady) [dB](re. 10–12 W)
LW,i,dir Directional ‘in situ’ sound power level for the i-th frequency band [dB](re. 10–12 W)
LW′ Average ‘in situ’ sound power level per metre of source line [dB/m](re. 10–12 W)

Other physical parameters:


p r.m.s. of the instantaneous sound pressure [Pa]
p0 Reference sound pressure = 2 10–5 Pa [Pa]
W0 Reference sound power = 10–12 W [watt]
 2.1.2. 
All input values affecting the emission level of a source shall be determined with at least the accuracy corresponding to an uncertainty of ± 2dB(A) in the emission level of the source (leaving all other parameters unchanged).

In the application of the method, the input data shall reflect the actual usage. In general there shall be no reliance on default input values or assumptions. Default input values and assumptions are accepted if the collection of real data is associated with disproportionately high costs.

Software used to perform the calculations shall prove compliance with the methods herewith described by means of certification of results against test cases.
 2.2.  2.2.1. 
The road traffic noise source shall be determined by combining the noise emission of each individual vehicle forming the traffic flow. These vehicles are grouped into five separate categories with regard to their characteristics of noise emission:

Category 1Light motor vehiclesCategory 2Medium heavy vehiclesCategory 3Heavy vehiclesCategory 4Powered two-wheelersCategory 5Open category

In the case of powered two-wheelers, two separate subclasses are defined for mopeds and more powerful motorcycles, since they operate in very different driving modes and their numbers usually vary widely.

The first four categories shall be used, and the fifth category is optional. It is foreseen for new vehicles that may be developed in the future and may be sufficiently different in their noise emission to require an additional category to be defined. This category could cover, for example, electric or hybrid vehicles or any vehicle developed in the future substantially different from those in categories 1 to 4.

The details of the different vehicle classes are given in Table [2.2.a].


Category Name Description Vehicle category in ECWhole Vehicle Type Approval
1 Light motor vehicles Passenger cars, delivery vans ≤ 3,5 tons, SUVs, MPVs including trailers and caravans M1 and N1
2 Medium heavy vehicles Medium heavy vehicles, delivery vans > 3,5 tons, buses, motorhomes, etc. with two axles and twin tyre mounting on rear axle M2, M3 and N2, N3
3 Heavy vehicles Heavy duty vehicles, touring cars, buses, with three or more axles M2 and N2 with trailer, M3 and N3
4 Powered two-wheelers 4a Two-, Three- and Four-wheel Mopeds L1, L2, L6
4b Motorcycles with and without sidecars, Tricycles and Quadricycles L3, L4, L5, L7
5 Open category To be defined according to future needs N/A




In this method, each vehicle (category 1, 2, 3, 4 and 5) is represented by one single point source radiating uniformly into the 2-π half space above the ground. The first reflection on the road surface is treated implicitly. As depicted in Figure [2.2.a], this point source is placed 0,05 m above the road surface.

Figure [2.2.a]
The traffic flow is represented by a source line. In the modelling of a road with multiple lanes, each lane should ideally be represented by a source line placed in the centre of each lane. However, it is also acceptable to model one source line in the middle of a two way road or one source line per carriageway in the outer lane of multi-lane roads.

The sound power of the source is defined in the ‘semi-free field’, thus the sound power includes the effect of the reflection of the ground immediately under the modelled source where there are no disturbing objects in its immediate surroundings except for the reflection on the road surface not immediately under the modelled source.

The noise emission of a traffic flow is represented by a source line characterised by its directional sound power per metre per frequency. This corresponds to the sum of the sound emission of the individual vehicles in the traffic flow, taking into account the time spent by the vehicles in the road section considered. The implementation of the individual vehicle in the flow requires the application of a traffic flow model.

If a steady traffic flow of Qm vehicles of category m per hour is assumed, with an average speed vm (in km/h), the directional sound power per metre in frequency band i of the source line LW′, eq,line,i,m is defined by:


LW′,eq,line,i,m=LW,i,m+10×lgQm1000×vm (2.2.1)

where LW,i,m is the directional sound power of a single vehicle. LW′,m is expressed in dB (re. 10–12 W/m). These sound power levels are calculated for each octave band i from 125 Hz to 4 kHz.

Traffic flow data Qm shall be expressed as yearly average per hour, per time period (day-evening-night), per vehicle class and per source line. For all categories, input traffic flow data derived from traffic counting or from traffic models shall be used.

The speed vm is a representative speed per vehicle category: in most cases the lower of the maximum legal speed for the section of road and the maximum legal speed for the vehicle category. If local measurement data is unavailable the maximum legal speed for the vehicle category shall be used.

In the traffic flow, all vehicles of category m are assumed to drive at the same speed, i.e. vm, the average speed of the flow of vehicles of the category.

A road vehicle is modelled by a set of mathematical equations representing the two main noise sources:


1.. Rolling noise due to the tyre/road interaction;
2.. Propulsion noise produced by the driveline (engine, exhaust, etc.) of the vehicle.

Aerodynamic noise is incorporated in the rolling noise source.

For light, medium and heavy motor vehicles (categories 1, 2 and 3), the total sound power corresponds to the energetic sum of the rolling and the propulsion noise. Thus, the total sound power level of the source lines m = 1, 2 or 3 is defined by:


LW,i,mvm=10×lg10LWR,i,mvm∕10+10LWP,i,mvm∕10 (2.2.2)

where LWR,i,m is the sound power level for rolling noise and LWP,i,m is the sound power level for propulsion noise. This is valid on all speed ranges. For speeds less than 20 km/h it shall have the same sound power level as defined by the formula for vm = 20 km/h.

For two-wheelers (category 4), only propulsion noise is considered for the source:


LW,i,m = 4(vm = 4) = LWP,i,m = 4(vm = 4) (2.2.3)

This is valid on all speed ranges. For speeds less than 20 km/h it shall have the same sound power level as defined by the formula for vm = 20 km/h.
 2.2.2. 
The source equations and coefficients are valid for the following reference conditions:


— a constant vehicle speed
— a flat road
— an air temperature τref = 20 °C
— a virtual reference road surface, consisting of an average of dense asphalt concrete 0/11 and stone mastic asphalt 0/11, between 2 and 7 years old and in a representative maintenance condition
— a dry road surface
— no studded tyres.
 2.2.3. 
The rolling noise sound power level in the frequency band i for a vehicle of class m = 1,2 or 3 is defined as:


LWR,i,m=AR,i,m+BR,i,m×lgvmvref+ΔLWR,i,m (2.2.4)

The coefficients AR,i,m and BR,i,m are given in octave bands for each vehicle category and for a reference speed vref = 70 km/h. ΔLWR,i,m corresponds to the sum of the correction coefficients to be applied to the rolling noise emission for specific road or vehicle conditions deviating from the reference conditions:


ΔLWR,i,m = ΔLWR,road,i,m + ΔLstuddedtyres,i,m + ΔLWR,acc,i,m + ΔLW,temp (2.2.5)

ΔLWR,road,i,m accounts for the effect on rolling noise of a road surface with acoustic properties different from those of the virtual reference surface as defined in Chapter 2.2.2. It includes both the effect on propagation and on generation.

ΔLstudded tyres,i,m is a correction coefficient accounting for the higher rolling noise of light vehicles equipped with studded tyres.

ΔLWR,acc,i,m accounts for the effect on rolling noise of a crossing with traffic lights or a roundabout. It integrates the effect on noise of the speed variation.

ΔLW,temp is a correction term for an average temperature τ different from the reference temperature τref = 20 °C.

In situations where a significant number of light vehicles in the traffic flow use studded tyres during several months every year, the induced effect on rolling noise shall be taken into account. For each vehicle of category m = 1 equipped with studded tyres, a speed-dependent increase in rolling noise emission is evaluated by:


Δstud,i(v) = ai + bi × lg(50/70) for v < 50 km/h (2.2.6)
ai + bi × lg(v/70) for 50 ≤ v ≤ 90 km/h
ai + bi × lg(90/70) for v > 90 km/h

where coefficients ai and bi are given for each octave band.

The increase in rolling noise emission shall only be attributed according to the proportion of light vehicles with studded tyres and during a limited period Ts (in months) over the year. If Qstud,ratio is the average ratio of the total volume of light vehicles per hour equipped with studded tyres during the period Ts (in months), then the yearly average proportion of vehicles equipped with studded tyres ps is expressed by:


ps=Qstud,ratio×Ts12 (2.2.7)

The resulting correction to be applied to the rolling sound power emission due to the use of studded tyres for vehicles of category m = 1 in frequency band i shall be:


ΔLstuddedtyres,i,m=1=10×lg1−ps+ps 10Δstud,i,m=110 (2.2.8)

For vehicles of all other categories no correction shall be applied:


ΔLstuddedtyres,i,m ≠ 1 = 0 (2.2.9)

The air temperature affects rolling noise emission; the rolling sound power level decreases when the air temperature increases. This effect is introduced in the road surface correction. Road surface corrections are usually evaluated at an air temperature of τref = 20 °C. In the case of a different yearly average air temperature °C, the road surface noise shall be corrected by:


ΔLW,temp,m(τ) = Km × (τref – τ) (2.2.10)

The correction term is positive (i.e. noise increases) for temperatures lower than 20 °C and negative (i.e. noise decreases) for higher temperatures. The coefficient K depends on the road surface and the tyre characteristics and in general exhibits some frequency dependence. A generic coefficient Km = 1 = 0,08 dB/°C for light vehicles (category 1) and Km = 2 = Km = 3 = 0,04 dB/°C for heavy vehicles (categories 2 and 3) shall be applied for all road surfaces. The correction coefficient shall be applied equally on all octave bands from 63 to 8 000 Hz.
 2.2.4. 
The propulsion noise emission includes all contributions from engine, exhaust, gears, air intake, etc. The propulsion noise sound power level in the frequency band i for a vehicle of class m is defined as:


LWP,i,m=AP,i,m+BP,i,m×vm−vrefvref+ΔLWP,i,m (2.2.11)

The coefficients AP,i,m and BP,i,m are given in octave bands for each vehicle category and for a reference speed vref = 70 km/h.

ΔLWP,i,m corresponds to the sum of the correction coefficients to be applied to the propulsion noise emission for specific driving conditions or regional conditions deviating from the reference conditions:


ΔLWP,i,m = ΔLWP,road,i,m + ΔLWP,grad,i,m + ΔLWP,acc,i,m (2.2.12)

ΔLWP,road,i,m accounts for the effect of the road surface on the propulsion noise via absorption. The calculation shall be performed according to Chapter 2.2.6.

ΔLWP,acc,i,m and ΔLWP,grad,i,m account for the effect of road gradients and of vehicle acceleration and deceleration at intersections. They shall be calculated according to Chapters 2.2.4 and 2.2.5 respectively.

The road gradient has two effects on the noise emission of the vehicle: first, it affects the vehicle speed and thus the rolling and propulsion noise emission of the vehicle; second, it affects both the engine load and the engine speed via the choice of gear and thus the propulsion noise emission of the vehicle. Only the effect on the propulsion noise is considered in this section, where a steady speed is assumed.

The effect of the road gradient on the propulsion noise is taken into account by a correction term ΔLWP,grad,m which is a function of the slope s (in %), the vehicle speed vm (in km/h) and the vehicle class m. In the case of a bi-directional traffic flow, it is necessary to split the flow into two components and correct half for uphill and half for downhill. The correction term is attributed to all octave bands equally:


 For m = 1

ΔLWP,grad,i,m = 1(vm) = Min12 %;−s−6 %1 % for s < – 6 % (2.2.13)
0 for – 6 % ≤ s ≤ 2 %
Min12 %;s−2 %1,5 %×vm100 for s > 2 %
 For m = 2

ΔLWP,grad,i,m = 2(vm) = Min12 %;−s−4 %0,7 %×vm−20100 for s < – 4 % (2.2.14)
0 for – 4 % ≤ s ≤ 0 %
Min12 %;s1 %×vm100 for s > 0 %
 For m = 3

ΔLWP,grad,i,m = 3(vm) = Min12 %;−s−4 %0,5 %×vm−10100 for s < – 4 % (2.2.15)
0 for – 4 % ≤ s ≤ 0 %
Min12 %;s0,8 %×vm100 for s > 0 %
 For m = 4

ΔLWP,grad,i,m = 4 = 0 (2.2.16)

The correction ΔLWP,grad,m implicitly includes the effect of slope on speed.
 2.2.5. 
Before and after crossings with traffic lights and roundabouts a correction shall be applied for the effect of acceleration and deceleration as described below.

The correction terms for rolling noise, ΔLWR,acc,m,k, and for propulsion noise, ΔLWP,acc,m,k, are linear functions of the distance x (in m) of the point source to the nearest intersection of the respective source line with another source line. They are attributed to all octave bands equally:


ΔLWR,acc,m,k=CR,m,k×Max1−x100 ;0 (2.2.17)
ΔLWP,acc,m,k=CP,m,k×Max1−x100 ;0 (2.2.18)

The coefficients CR,m,k and CP,m,k depend on the kind of junction k (k = 1 for a crossing with traffic lights; k = 2 for a roundabout) and are given for each vehicle category. The correction includes the effect of change in speed when approaching or moving away from a crossing or a roundabout.

Note that at a distance |x| ≥ 100 m, ΔLWR,acc,m,k = ΔLWP,acc,m,k = 0.
 2.2.6. 
For road surfaces with acoustic properties different from those of the reference surface, a spectral correction term for both rolling noise and propulsion noise shall be applied.

The road surface correction term for the rolling noise emission is given by:


ΔLWR,road,i,m=αi,m+βm×lgvmvref (2.2.19)

where


 αi,m is the spectral correction in dB at reference speed vref for category m (1, 2 or 3) and spectral band i.
 βm is the speed effect on the rolling noise reduction for category m (1, 2 or 3) and is identical for all frequency bands.

The road surface correction term for the propulsion noise emission is given by:


ΔLWP,road,i,m = min{αi,m;0} (2.2.20)

Absorbing surfaces decrease the propulsion noise, while non-absorbing surfaces do not increase it.

The noise characteristics of road surfaces vary with age and the level of maintenance, with a tendency to become louder over time. In this method the road surface parameters are derived to be representative for the acoustic performance of the road surface type averaged over its representative lifetime and assuming proper maintenance.
 2.3.  2.3.1. 
For the purposes of this noise calculation method, a vehicle is defined as any single railway sub-unit of a train (typically a locomotive, a self-propelled coach, a hauled coach or a freight wagon) that can be moved independently and can be detached from the rest of the train. Some specific circumstances may occur for sub-units of a train that are a part of a non-detachable set, e.g. share one bogie between them. For the purpose of this calculation method, all these sub-units are grouped into a single vehicle.

For the purpose of this calculation method, a train consists of a series of coupled vehicles.

Table [2.3.a] defines a common language to describe the vehicle types included in the source database. It presents the relevant descriptors to be used to classify the vehicles in full. These descriptors correspond to properties of the vehicle, which affect the acoustic directional sound power per metre length of the equivalent source line modelled.

The number of vehicles for each type shall be determined on each of the track sections for each of the time periods to be used in the noise calculation. It shall be expressed as an average number of vehicles per hour, which is obtained by dividing the total number of vehicles travelling in a given time period by the duration in hours of this time period (e.g. 24 vehicles in 4 hours means 6 vehicles per hour). All vehicle types travelling on each track section shall be used.


Digit 1 2 3 4
Descriptor Vehicle type Number of axles per vehicle Brake type Wheel measure
Explanation of the descriptor A letter that describes the type The actual number of axles A letter that describes the brake type A letter that describes the noise reduction measure type
Possible descriptors hhigh speed vehicle (> 200 km/h) 1 ccast-iron block nno measure
mself-propelled passenger coaches 2 kcomposite or sinter metal block ddampers
phauled passenger coaches 3 nnon-tread braked, like disc, drum, magnetic sscreens
ccity tram or light metro self-propelled and non-self-propelled coach 4  oother
ddiesel loco etc.  
eelectric loco   
aany generic freight vehicle   
oother (i.e. maintenance vehicles etc.)   

The existing tracks may differ because there are several elements contributing to and characterising their acoustic properties. The track types used in this method are listed in Table [2.3.b] below. Some of the elements have a large influence on acoustic properties, while others have only secondary effects. In general, the most relevant elements influencing the railway noise emission are: railhead roughness, rail pad stiffness, track base, rail joints and radius of curvature of the track. Alternatively, the overall track properties can be defined and, in this case, the railhead roughness and the track decay rate according to ISO 3095 are the two acoustically essential parameters, plus the radius of curvature of the track.

A track section is defined as a part of a single track, on a railway line or station or depot, on which the track's physical properties and basic components do not change.

Table [2.3.b] defines a common language to describe the track types included in the source database.


Digit 1 2 3 4 5 6
Descriptor Track base Railhead Roughness Rail pad type Additional measures Rail joints Curvature
Explanation of the descriptor Type of track base Indicator for roughness Represents an indication of the ‘acoustic’ stiffness A letter describing acoustic device Presence of joints and spacing Indicate the radius of curvature in m
Codes allowed BBallast EWell maintained and very smooth SSoft(150-250 MN/m) NNone NNone NStraight track
SSlab track MNormally maintained MMedium(250 to 800 MN/m) DRail damper SSingle joint or switch LLow(1 000-500 m)
LBallasted bridge NNot well maintained HStiff(800-1 000 MN/m) BLow barrier DTwo joints or switches per 100 m MMedium(Less than 500 m and more than 300 m)
NNon-ballasted bridge BNot maintained and bad condition  AAbsorber plate on slab track MMore than two joints or switches per 100 m HHigh(Less than 300 m)
TEmbedded track   EEmbedded rail  
OOther   OOther  

Figure [2.3.a]
The different equivalent noise line sources are placed at different heights and at the centre of the track. All heights are referred to the plane tangent to the two upper surfaces of the two rails.

The equivalent sources include different physical sources (index p). These physical sources are divided into different categories depending on the generation mechanism, and are: (1) rolling noise (including not only rail and track base vibration and wheel vibration but also, where present, superstructure noise of the freight vehicles); (2) traction noise; (3) aerodynamic noise; (4) impact noise (from crossings, switches and junctions); (5) squeal noise and (6) noise due to additional effects such as bridges and viaducts.


((1)) The roughness of wheels and railheads, through three transmission paths to the radiating surfaces (rails, wheels and superstructure), constitutes the rolling noise. This is allocated to h = 0,5 m (radiating surfaces A) to represent the track contribution, including the effects of the surface of the tracks, especially slab tracks (in accordance with the propagation part), to represent the wheel contribution and to represent the contribution of the superstructure of the vehicle to noise (in freight trains).
((2)) The equivalent source heights for traction noise vary between 0,5 m (source A) and 4,0 m (source B), depending on the physical position of the component concerned. Sources such as gear transmissions and electric motors will often be at an axle height of 0,5 m (source A). Louvres and cooling outlets can be at various heights; engine exhausts for diesel-powered vehicles are often at a roof height of 4,0 m (source B). Other traction sources such as fans or diesel engine blocks may be at a height of 0,5 m (source A) or 4,0 m (source B). If the exact source height is in between the model heights, the sound energy is distributed proportionately over the nearest adjacent source heights.
For this reason, two source heights are foreseen by the method at 0,5 m (source A), 4,0 m (source B), and the equivalent sound power associated with each is distributed between the two depending on the specific configuration of the sources on the unit type.
((3)) Aerodynamic noise effects are associated with the source at 0,5 m (representing the shrouds and the screens, source A), and the source at 4,0 m (modelling all over roof apparatus and pantograph, source B). The choice of 4,0 m for pantograph effects is known to be a simple model, and has to be considered carefully if the objective is to choose an appropriate noise barrier height.
((4)) Impact noise is associated with the source at 0,5 m (source A).
((5)) Squeal noise is associated with the sources at 0,5 m (source A).
((6)) Bridge noise is associated with the source at 0,5 m (source A).
 2.3.2. 
The model for railway traffic noise, analogously to road traffic noise, describes the noise sound power emission of a specific combination of vehicle type and track type which fulfils a series of requirements described in the vehicle and track classification, in terms of a set of sound power per each vehicle (LW,0).

The noise emission of a traffic flow on each track shall be represented by a set of 2 source lines characterised by its directional sound power per metre per frequency band. This corresponds to the sum of the sound emissions due to the individual vehicles passing by in the traffic flow and, in the specific case of stationary vehicles, taking into account the time spent by the vehicles in the railway section under consideration.

The directional sound power per metre per frequency band, due to all the vehicles passing by each track section on the track type (j), is defined:


— for each frequency band (i),
— for each given source height (h) (for sources at 0,5 m h = 1, at 4,0 m h = 2),

and is the energy sum of all contributions from all vehicles running on the specific j-th track section. These contributions are:


— from all vehicle types (t)
— at their different speeds (s)
— under the particular running conditions (constant speed) (c)
— for each physical source type (rolling, impact, squeal, traction, aerodynamic and additional effects sources such as for example bridge noise) (p).

To calculate the directional sound power per metre (input to the propagation part) due to the average mix of traffic on the j-th track section, the following is used:


LW′,eq,T,dir,i=10×lg∑x=1X10Lw′,eq,line,x∕10 (2.3.1)

where

Trefreference time period for which the average traffic is consideredXtotal number of existing combinations of i, t, s, c, p for each j-th track sectiontindex for vehicle types on the j-th track sectionsindex for train speed: there are as many indexes as the number of different average train speeds on the j-th track sectioncindex for running conditions: 1 (for constant speed), 2 (idling)pindex for physical source types: 1 (for rolling and impact noise), 2 (curve squeal), 3 (traction noise), 4 (aerodynamic noise), 5 (additional effects)LW′,eq,line,xx-th directional sound power per metre for a source line of one combination of t, s, c, p on each j-th track section

If a steady flow of Q vehicles per hour is assumed, with an average speed v, on average at each moment in time there will be an equivalent number of Q/v vehicles per unit length of the railway section. The noise emission of the vehicle flow in terms of directional sound power per metre LW′,eq,line (expressed in dB/m (re. 10–12 W)) is integrated by:


LW′,eq,line,iψ,φ=LW,0,dir,iψ,φ+10×lgQ1000v(for c = 1) (2.3.2)

where


— Q is the average number of vehicles per hour on the j-th track section for vehicle type t, average train speed s and running condition c
— v is their speed on the j-th track section for vehicle type t and average train speed s
— LW,0,dir is the directional sound power level of the specific noise (rolling, impact, squeal, braking, traction, aerodynamic, other effects) of a single vehicle in the directions ψ, φ defined with respect to the vehicle's direction of movement (see Figure [2.3.b]).

In the case of a stationary source, as during idling, it is assumed that the vehicle will remain for an overall time Tidle at a location within a track section with length L. Therefore, with Tref as the reference time period for the noise assessment (e.g. 12 hours, 4 hours, 8 hours), the directional sound power per unit length on that track section is defined by:


LW′,eq,line,iψ,φ=LW,0,dir,iψ,φ+10×lgTidleTrefL(for c = 2) (2.3.4)

In general, directional sound power is obtained from each specific source as:


LW,0,dir,i(ψ,φ) = LW,0,i + ΔLW,dir,vert,i + ΔLW,dir,hor,i (2.3.5)

where


— ΔLW,dir,vert,i is the vertical directivity correction (dimensionless) function of ψ (Figure [2.3.b])
— ΔLW,dir,hor,i is the horizontal directivity correction (dimensionless) function of φ (Figure [2.3.b]).

And where LW,0,dir,i(ψ,φ) shall, after being derived in 1/3 octave bands, be expressed in octave bands by energetically adding each pertaining 1/3 octave band together into the corresponding octave band.

Figure [2.3.b]
For the purpose of the calculations, the source strength is then specifically expressed in terms of directional sound power per 1 m length of track LW′,tot,dir,i to account for the directivity of the sources in their vertical and horizontal direction, by means of the additional corrections.

Several LW,0,dir,i (ψ,φ) are considered for each vehicle-track-speed-running condition combination:


— for a 1/3 octave frequency band (i)
— for each track section (j)
— source height (h) (for sources at 0,5 m h = 1, at 4,0 m h = 2)
— directivity (d) of the source

A set of LW,0,dir,i (ψ,φ) are considered for each vehicle-track-speed-running condition combination, each track section, the heights corresponding to h = 1 and h = 2 and the directivity.

The vehicle contribution and the track contribution to rolling noise are separated into four essential elements: wheel roughness, rail roughness, vehicle transfer function to the wheels and to the superstructure (vessels) and track transfer function. Wheel and rail roughness represent the cause of the excitation of the vibration at the contact point between the rail and the wheel, and the transfer functions are two empirical or modelled functions that represent the entire complex phenomena of the mechanical vibration and sound generation on the surfaces of the wheel, the rail, the sleeper and the track substructure. This separation reflects the physical evidence that roughness present on a rail may excite the vibration of the rail, but it will also excite the vibration of the wheel and vice versa. Not including one of these four parameters would prevent the decoupling of the classification of tracks and trains.

Rolling noise is mainly excited by rail and wheel roughness in the wavelength range from 5-500 mm.

The roughness level Lr is defined as 10 times the logarithm to the base 10 of the square of the mean square value r2 of the roughness of the running surface of a rail or a wheel in the direction of motion (longitudinal level) measured in μm over a certain rail length or the entire wheel diameter, divided by the square of the reference value r20:


Lr=10×lgrr02dB (2.3.6)

where

r01 μmrr.m.s. of the vertical displacement difference of the contact surface to the mean level

The roughness level Lr is typically obtained as a spectrum of wavelength λ and it shall be converted to a frequency spectrum f = v/λ, where f is the centre band frequency of a given 1/3 octave band in Hz, λ is the wavelength in m, and v is the train speed in km/h. The roughness spectrum as a function of frequency shifts along the frequency axis for different speeds. In general cases, after conversion to the frequency spectrum by means of the speed, it is necessary to obtain new 1/3 octave band spectra values averaging between two corresponding 1/3 octave bands in the wavelength domain. To estimate the total effective roughness frequency spectrum corresponding to the appropriate train speed, the two corresponding 1/3 octave bands defined in the wavelength domain shall be averaged energetically and proportionally.

The rail roughness level (track side roughness) for the i-th wave-number band is defined as Lr,TR,i

By analogy, the wheel roughness level (vehicle side roughness) for the i-th wave-number band is defined as Lr,VEH,i.

The total and effective roughness level for wave-number band i (LR,tot,i) is defined as the energy sum of the roughness levels of the rail and that of the wheel plus the A3(λ) contact filter to take into account the filtering effect of the contact patch between the rail and the wheel, and is in dB:


LR,TOT,i=10×lg10Lr,TR,i∕10+10Lr,VEH,i∕10+A3,i (2.3.7)

where expressed as a function of the i-th wave-number band corresponding to the wavelength λ.

The contact filter depends on the rail and wheel type and the load.

The total effective roughness for the j-th track section and each t-th vehicle type at its corresponding v speed shall be used in the method.

Three speed-independent transfer functions, LH,TR,i LH,VEH,i and LH,VEH,SUP,i, are defined: the first for each j-th track section and the second two for each t-th vehicle type. They relate the total effective roughness level with the sound power of the track, the wheels and the superstructure respectively.

The superstructure contribution is considered only for freight wagons, therefore only for vehicle type ‘a’.

For rolling noise, therefore, the contributions from the track and from the vehicle are fully described by these transfer functions and by the total effective roughness level. When a train is idling, rolling noise shall be excluded.

For sound power per vehicle the rolling noise is calculated at axle height, and has as an input the total effective roughness level LR,TOT,i as a function of the vehicle speed v, the track, vehicle and superstructure transfer functions LH,TR,i, LH,VEH,i and LH,VEH,SUP,i, and the total number of axles Na:

for h = 1:


LW,0,TR,i = LR,TOT,i + LH,TR,i + 10 × lg(Na) dB (2.3.8)
LW,0,VEH,i = LR,TOT,i + LH,VEH,i + 10 × lg(Na) dB (2.3.9)
LW,0,VEHSUP,i = LR,TOT,i + LH,VEHSUP,i + 10 × lg(Na) dB (2.3.10)

where Na is the number of axles per vehicle for the t-th vehicle type.

Figure [2.3.c]
A minimum speed of 50 km/h (30 km/h only for trams and light metro) shall be used to determine the total effective roughness and therefore the sound power of the vehicles (this speed does not affect the vehicle flow calculation) to compensate for the potential error introduced by the simplification of rolling noise definition, braking noise definition and impact noise from crossings and switches definition.

Impact noise can be caused by crossings, switches and rail joints or points. It can vary in magnitude and can dominate rolling noise. Impact noise shall be considered for jointed tracks. For impact noise due to switches, crossings and joints in track sections with a speed of less than 50 km/h (30 km/h only for trams and light metro), since the minimum speed of 50 km/h (30 km/h only for trams and light metro) is used to include more effects according to the description of the rolling noise chapter, modelling shall be avoided. Impact noise modelling shall also be avoided under running condition c = 2 (idling).

Impact noise is included in the rolling noise term by (energy) adding a supplementary fictitious impact roughness level to the total effective roughness level on each specific j-th track section where it is present. In this case a new LR,TOT + IMPACT,i shall be used in place of LR,TOT,i and it will then become:


LR,TOT+IMPACT,i=10×lg10LR,TOT,i∕10+10LR,IMPACT,i∕10 dB (2.3.11)

LR,IMPACT,i is a 1/3 octave band spectrum (as a function of frequency). To obtain this frequency spectrum, a spectrum is given as a function of wavelength λ and shall be converted to the required spectrum as a function of frequency using the relation λ = v/f, where f is the 1/3 octave band centre frequency in Hz and v is the s-th vehicle speed of the t-th vehicle type in km/h.

Impact noise will depend on the severity and number of impacts per unit length or joint density, so in the case where multiple impacts are given, the impact roughness level to be used in the equation above shall be calculated as follows:


LR,IMPACT,i=LR, IMPACT−SINGLE,i+10×lgnl0,01 dB (2.3.12)

where LR,IMPACT–SINGLE,i is the impact roughness level as given for a single impact and nl is the joint density.

The default impact roughness level is given for a joint density nl = 0,01 m–1, which is one joint per each 100 m of track. Situations with different numbers of joints shall be approximated by adjusting the joint density nl. It should be noted that when modelling the track layout and segmentation, the rail joint density shall be taken into account, i.e. it may be necessary to take a separate source segment for a stretch of track with more joints. The LW,0 of track, wheel/bogie and superstructure contribution are incremented by means of the LR,IMPACT,i for +/– 50 m before and after the rail joint. In the case of a series of joints, the increase is extended to between – 50 m before the first joint and + 50 m after the last joint.

The applicability of these sound power spectra shall normally be verified on-site.

For jointed tracks, a default nl of 0,01 shall be used.

Curve squeal is a special source that is only relevant for curves and is therefore localised. As it can be significant, an appropriate description is required. Curve squeal is generally dependent on curvature, friction conditions, train speed and track-wheel geometry and dynamics. The emission level to be used is determined for curves with radius below or equal to 500 m and for sharper curves and branch-outs of points with radii below 300 m. The noise emission should be specific to each type of rolling stock, as certain wheel and bogie types may be significantly less prone to squeal than others.

The applicability of these sound power spectra shall normally be verified on-site, especially for trams.

Taking a simple approach, squeal noise shall be considered by adding 8 dB for R < 300 m and 5 dB for 300 m < R < 500 m to the rolling noise sound power spectra for all frequencies. Squeal contribution shall be applied on railway track sections where the radius is within the ranges mentioned above for at least a 50 m length of track.

Although traction noise is generally specific to each characteristic operating condition amongst constant speed, deceleration, acceleration and idling, the only two conditions modelled are constant speed (that is valid as well when the train is decelerating or when it is accelerating) and idling. The source strength modelled only corresponds to maximum load conditions and this results in the quantities LW,0,const,i = LW,0,idling,i. Also, the LW,0,idling,i corresponds to the contribution of all physical sources of a given vehicle attributable to a specific height, as described in 2.3.1.

The LW,0,idling,i is expressed as a static noise source in the idling position, for the duration of the idling condition, and to be used modelled as a fixed point source as described in the following chapter for industrial noise. It shall be considered only if trains are idling for more than 0,5 hours.

These quantities can either be obtained from measurements of all sources at each operating condition, or the partial sources can be characterised individually, determining their parameter dependency and relative strength. This may be done by means of measurements on a stationary vehicle, by varying shaft speeds of the traction equipment, following ISO 3095:2005. As far as relevant, several traction noise sources have to be characterised which might not be all directly depending on the train speed:


— noise from the power train, such as diesel engines (including inlet, exhaust and engine block), gear transmission, electrical generators, mainly dependent on engine round per minute speed (rpm), and electrical sources such as converters, which may be mostly load-dependent,
— noise from fans and cooling systems, depending on fan rpm; in some cases fans can be directly coupled to the driveline,
— intermittent sources such as compressors, valves and others with a characteristic duration of operation and corresponding duty cycle correction for the noise emission.

As each of these sources can behave differently at each operating condition, the traction noise shall be specified accordingly. The source strength is obtained from measurements under controlled conditions. In general, locomotives will tend to show more variation in loading as the number of vehicles hauled and thereby the power output can vary significantly, whereas fixed train formations such as electric motored units (EMUs), diesel motored units (DMUs) and high-speed trains have a better defined load.

There is no a priori attribution of the source sound power to the source heights, and this choice shall depend on the specific noise and vehicle assessed. It shall be modelled to be at source A (h = 1) and at source B (h = 2).

Aerodynamic noise is only relevant at high speeds above 200 km/h and therefore it should first be verified whether it is actually necessary for application purposes. If the rolling noise roughness and transfer functions are known, it can be extrapolated to higher speeds and a comparison can be made with existing high-speed data to check whether higher levels are produced by aerodynamic noise. If train speeds on a network are above 200 km/h but limited to 250 km/h, in some cases it may not be necessary to include aerodynamic noise, depending on the vehicle design.

The aerodynamic noise contribution is given as a function of speed:


LW,0,i=LW,0,1,iv0+α1,i×lgvv0 dB For h = 1 (2.3.13)
LW,0,i=LW,0,2,iv0+α2,i×lgvv0 dB For h = 2 (2.3.14)

where


 v0 is a speed at which aerodynamic noise is dominant and is fixed at 300 km/h
 LW,0,1,i is a reference sound power determined from two or more measurement points, for sources at known source heights, for example the first bogie
 LW,0,2,i is a reference sound power determined from two or more measurement points, for sources at known source heights, for example the pantograph recess heights
 α1,i is a coefficient determined from two or more measurement points, for sources at known source heights, for example the first bogie
 α2,i is a coefficient determined from two or more measurement points, for sources at known source heights, for example the pantograph recess heights.

The horizontal directivity ΔLW,dir,hor,i in dB is given in the horizontal plane and by default can be assumed to be a dipole for rolling, impact (rail joints etc.), squeal, braking, fans and aerodynamic effects, given for each i-th frequency band by:


ΔLW,dir,hor,i = 10 × lg(0,01 + 0,99 · sin2φ) (2.3.15)

The vertical directivity ΔLW,dir,ver,i in dB is given in the vertical plane for source A (h = 1), as a function of the centre band frequency fc,i of each i-th frequency band, and for – π/2 < ψ < π/2 by:


ΔLW,dir,ver,i=403×23×sin2×ψ−sinψ×lgfc,i+600200 (2.3.16)

For source B (h = 2) for the aerodynamic effect:


ΔLW,dir,ver,i = 10 × lg(cos2ψ) for ψ < 0 (2.3.17)

ΔLW,dir,ver,i = 0 elsewhere

Directivity ΔLdir,ver,i is not considered for source B (h = 2) for other effects, as omni-directionality is assumed for these sources in this position.
 2.3.3. 
In the case where the track section is on a bridge, it is necessary to consider the additional noise generated by the vibration of the bridge as a result of the excitation caused by the presence of the train. Because it is not simple to model the bridge emission as an additional source, given the complex shapes of bridges, an increase in the rolling noise is used to account for the bridge noise. The increase shall be modelled exclusively by adding a fixed increase in the noise sound power per each third octave band. The sound power of only the rolling noise is modified when considering the correction and the new LW,0,rolling–and–bridge,i shall be used instead of LW,0,rolling-only,i:


LW,0,rolling–and–bridge,i = LW,0,rolling–only,i + Cbridge dB (2.3.18)

where Cbridge is a constant that depends on the bridge type, and LW,0,rolling–only,i is the rolling noise sound power on the given bridge that depends only on the vehicle and track properties.

Various sources like depots, loading/unloading areas, stations, bells, station loudspeakers, etc. can be present and are associated with the railway noise. These sources are to be treated as industrial noise sources (fixed noise sources) and shall be modelled, if relevant, according to the following chapter for industrial noise.
 2.4.  2.4.1. 
The industrial sources are of very variable dimensions. They can be large industrial plants as well as small concentrated sources like small tools or operating machines used in factories. Therefore, it is necessary to use an appropriate modelling technique for the specific source under assessment. Depending on the dimensions and the way several single sources extend over an area, with each belonging to the same industrial site, these may be modelled as point sources, source lines or area sources. In practice, the calculations of the noise effect are always based on point sources, but several point sources can be used to represent a real complex source, which mainly extends over a line or an area.

The real sound sources are modelled by means of equivalent sound sources represented by one or more point sources so that the total sound power of the real source corresponds to the sum of the single sound powers attributed to the different point sources.

The general rules to be applied in defining the number of point sources to be used are:


— line or surface sources where the largest dimension is less than 1/2 of the distance between the source and the receiver can be modelled as single point sources,
— sources where the largest dimension is more than 1/2 of the distance between the source and the receiver should be modelled as a series of incoherent point sources in a line or as a series of incoherent point sources over an area, such that for each of these sources the condition of 1/2 is fulfilled. The distribution over an area can include vertical distribution of point sources,
— for sources where the largest dimensions in height are over 2 m or near the ground, special care should be administered to the height of the source. Doubling the number of sources, redistributing them only in the z-component, may not lead to a significantly better result for this source,
— in the case of any source, doubling the number of sources over the source area (in all dimensions) may not lead to a significantly better result.

The position of the equivalent sound sources cannot be fixed, given the large number of configurations that an industrial site can have. Best practices will normally apply.

The following information constitutes the complete set of input data for sound propagation calculations with the methods to be used for noise mapping:


— Emitted sound power level spectrum in octave bands
— Working hours (day, evening, night, on a yearly averaged basis)
— Location (coordinates x, y) and elevation (z) of the noise source
— Type of source (point, line, area)
— Dimensions and orientation
— Operating conditions of the source
— Directivity of the source.

The point, line and area source sound power are required to be defined as:


— For a point source, sound power LW and directivity as a function of the three orthogonal coordinates (x, y, z);
— Two types of source lines can be defined:
— source lines representing conveyor belts, pipe lines, etc., sound power per metre length LW′ and directivity as a function of the two orthogonal coordinates to the axis of the source line,
— source lines representing moving vehicles, each associated with sound power LW and directivity as a function of the two orthogonal coordinates to the axis of the source line and sound power per metre LW′ derived by means of the speed and number of vehicles travelling along this line during day, evening and night; The correction for the working hours, to be added to the source sound power to define the corrected sound power that is to be used for calculations over each time period, CW in dB is calculated as follows:

CW=−10lgl×n1000×V×T0 (2.4.1)
Where:
VSpeed of the vehicle [km/h];nNumber of vehicles passages per period [-];lTotal length of the source [m].
— For an area source, sound power per square metre LW/m2, and no directivity (may be horizontal or vertical).

The working hours are an essential input for the calculation of noise levels. The working hours shall be given for the day, evening and night period and, if the propagation is using different meteorological classes defined during each of the day, night and evening periods, then a finer distribution of the working hours shall be given in sub-periods matching the distribution of meteorological classes. This information shall be based on a yearly average.

The correction for the working hours, to be added to the source sound power to define the corrected sound power that shall be used for calculations over each time period, CW in dB is calculated as follows:


CW=10×lgTTref (2.4.2)

where


 T is the active source time per period based on a yearly averaged situation, in hours;
 Tref is the reference period of time in hours (e.g. day is 12 hours, evening is 4 hours, night is 8 hours).

For the more dominant sources, the yearly average working hours correction shall be estimated at least within 0,5 dB tolerance in order to achieve an acceptable accuracy (this is equivalent to an uncertainty of less than 10 % in the definition of the active period of the source).

The source directivity is strongly related to the position of the equivalent sound source next to nearby surfaces. Because the propagation method considers the reflection of the nearby surface as well its sound absorption, it is necessary to consider carefully the location of the nearby surfaces. In general, these two cases will always be distinguished:


— a source sound power and directivity is determined and given relative to a certain real source when this is in free field (excluding the terrain effect). This is in agreement with the definitions concerning the propagation, if it is assumed that there is no nearby surface less than 0,01 m from the source and surfaces at 0,01 m or more are included in the calculation of the propagation,
— a source sound power and directivity is determined and given relative to a certain real source when this is placed in a specific location and therefore the source sound power and directivity is in fact an ‘equivalent’ one, since it includes the modelling of the effect of the nearby surfaces. This is defined in ‘semi-free field’ according to the definitions concerning the propagation. In this case, the nearby surfaces modelled shall be excluded from the calculation of propagation.

The directivity shall be expressed in the calculation as a factor ΔLW,dir,xyz (x, y, z) to be added to the sound power to obtain the right directional sound power of a reference sound source seen by the sound propagation in the direction given. The factor can be given as a function of the direction vector defined by (x,y,z) with x2+y2+z2=1. This directivity can also be expressed by means of other coordinate systems such as angular coordinate systems.
 2.5.  2.5.1. 
This document specifies a method for calculating the attenuation of noise during its outdoor propagation. Knowing the characteristics of the source, this method predicts the equivalent continuous sound pressure level at a receiver point corresponding to two particular types of atmospheric conditions:


— downward-refraction propagation conditions (positive vertical gradient of effective sound celerity) from the source to the receiver,
— homogeneous atmospheric conditions (null vertical gradient of effective sound celerity) over the entire area of propagation.

The method of calculation described in this document applies to industrial infrastructures and land transport infrastructures. It therefore applies in particular to road and railway infrastructures. Aircraft transport is included in the scope of the method only for the noise produced during ground operations and excludes take-off and landing.

Industrial infrastructures that emit impulsive or strong tonal noises as described in ISO 1996-2:2007 do not fall within the scope of this method.

The method of calculation does not provide results in upward-refraction propagation conditions (negative vertical gradient of effective sound speed) but these conditions are approximated by homogeneous conditions when computing Lden.

To calculate the attenuation due to atmospheric absorption in the case of transport infrastructure, the temperature and humidity conditions are calculated according to ISO 9613-1:1996.

The method provides results per octave band, from 63 Hz to 8 000 Hz. The calculations are made for each of the centre frequencies.

Partial covers and obstacles sloping, when modelled, more than 15° in relation to the vertical are out of the scope of this calculation method.

A single screen is calculated as a single diffraction calculation, two or more screens in a single path are treated as a subsequent set of single diffractions by applying the procedure described further.
 2.5.2. 
All distances, heights, dimensions and altitudes used in this document are expressed in metres (m).

The notation MN stands for the distance in 3 dimensions (3D) between the points M and N, measured according to a straight line joining these points.

The notation M̂N stands for the curved path length between the points M and N, in favourable conditions.

It is customary for real heights to be measured vertically in a direction perpendicular to the horizontal plane. Heights of points above the local ground are denoted h, absolute heights of points and absolute height of the ground are to be noted by the letter H.

To take into account the actual relief of the land along a propagation path, the notion of ‘equivalent height’ is introduced, to be noted by the letter z. This substitutes real heights in the ground effect equations.

The sound levels, noted by the capital letter L, are expressed in decibels (dB) per frequency band when index A is omitted. The sound levels in decibels dB(A) are given the index A.

The sum of the sound levels due to mutually incoherent sources is noted by the sign ⊕ in accordance with the following definition:


 (2.5.1)
 2.5.3. 
Real sources are described by a set of point sources or, in the case of railway traffic or road traffic, by incoherent source lines. The propagation method assumes that line or area sources have previously been split up to be represented by a series of equivalent point sources. This may have occurred as pre-processing of the source data, or may occur within the pathfinder component of the calculation software. The means by which this has occurred is outside the scope of the current methodology.

The method operates on a geometrical model consisting of a set of connected ground and obstacles surfaces. A vertical propagation path is deployed on one or more vertical planes with respect to the horizontal plane. For trajectories including reflections onto vertical surfaces not orthogonal to the incident plane, another vertical plane is subsequently considered including the reflected part of the propagation path. In these cases, where more vertical planes are used to describe the entire trajectory from the source to the receiver, the vertical planes are then flattened, like an unfolding Chinese screen.

The equivalent heights are obtained from the mean ground plane between the source and the receiver. This replaces the actual ground with a fictitious plane representing the mean profile of the land.

Figure 2.5.a1Actual relief2Mean plane
The equivalent height of a point is its orthogonal height in relation to the mean ground plane. The equivalent source height zs and the equivalent receiver height zr can therefore be defined. The distance between the source and receiver in projection over the mean ground plane is noted by dp.

If the equivalent height of a point becomes negative, i.e. if the point is located below the mean ground plane, a null height is retained, and the equivalent point is then identical with its possible image.

In the plane of the path, the topography (including terrain, mounds, embankments and other man-made obstacles, buildings, …) may be described by an ordered set of discrete points (xk, Hk); k є {1,…,n}. This set of points defines a polyline, or equivalently, a sequence of straight segments Hk = akx + bk, x є [xk, xk + 1]; k є {1,…n}, where:


 ak = (Hk + 1 – Hk)/(xk + 1 – xk) (2.5.2)
bk = (Hk · xk + 1 – Hk + 1 · xk)/(xk + 1 – xk)

The mean plane is represented by the straight line Z = ax + b; x є [x1, xn], which is adjusted to the polyline by means of a least-square approximation. The equation of the mean line can be worked out analytically.

Using:


 A=23∑k=1n−1akx3k+1−x3k+∑k=1n−1bkx2k+1−x2k (2.5.3)
B=∑k=1n−1akx2k+1−x2k+2∑k=1n−1bkxk+1−xk

The coefficients of the straight line are given by:


 a=32A−Bxn+x1xn−x13 (2.5.4)
b=2x3n−x31xn−x14B−3xn+x1xn−x13A

Where segments with xk + 1 = xk shall be ignored when evaluating eq. 2.5.3.

Contributions from reflections are taken into account by the introduction of image sources as described further.
 2.5.4. 
For a receiver R the calculations are made according to the following steps:


((1)) on each propagation path:

— calculation of the attenuation in favourable conditions,
— calculation of the attenuation in homogeneous conditions,
— calculation of the long-term sound level for each path;
((2)) accumulation of the long-term sound levels for all paths affecting a specific receiver, therefore allowing the total sound level to be calculated at the receiver point.

It should be noted that only the attenuations due to the ground effect (Aground) and diffraction (Adif) are affected by meteorological conditions.
 2.5.5. 
For a point source S of directional sound power Lw,0,dir and for a given frequency band, the equivalent continuous sound pressure level at a receiver point R in given atmospheric conditions is obtained according to the equations following below.


LF = LW,0,dir – AF (2.5.5)

The term AF represents the total attenuation along the propagation path in favourable conditions, and is broken down as follows:


LF = Adiv + Aatm + Aboundary,F (2.5.6)

where


 Adiv is the attenuation due to geometrical divergence;
 Aatm is the attenuation due to atmospheric absorption;
 Aboundary,F is the attenuation due to the boundary of the propagation medium in favourable conditions. It may contain the following terms:
 Aground,F which is the attenuation due to the ground in favourable conditions;
 Adif,F which is the attenuation due to diffraction in favourable conditions.

For a given path and frequency band, the following two scenarios are possible:


— either Aground,F is calculated with no diffraction (Adif,F = 0 dB) and Aboundary,F = Aground,F;
— or Adif,F is calculated. The ground effect is taken into account in the Adif,F equation itself (Aground,F = 0 dB). This therefore gives Aboundary,F = Adif,F.

The procedure is strictly identical to the case of favourable conditions presented in the previous section.


LH = LW,0,dir – AH (2.5.7)

The term AH represents the total attenuation along the propagation path in homogeneous conditions and is broken down as follows:


AH = Adiv + Aatm + Aboundary,H (2.5.8)

where


 Adiv is the attenuation due to geometrical divergence;
 Αatm is the attenuation due to atmospheric absorption;
 Aboundary,H is the attenuation due to the boundary of the propagation medium in homogeneous conditions. It may contain the following terms:
 Αground,H which is the attenuation due to the ground in homogeneous conditions;
 Adif,H which is the attenuation due to diffraction in homogeneous conditions.

For a given path and frequency band, the following two scenarios are possible:


— either Αground,H (Adif,H = 0 dB) is calculated with no diffraction and Aboundary,H = Αground,H;
— or Adif,H (Αground,H = 0 dB) is calculated. The ground effect is taken into account in the Adif,H equation itself. This therefore gives Aboundary,H = Adif,H

Inside urban areas, a statistical approach to the calculation of the sound propagation behind the first line of buildings is also allowed, provided that such a method is duly documented, including relevant information on the quality of the method. This method may replace the calculation of the Aboundary,H and Aboundary,F by an approximation of the total attenuation for the direct path and all reflections. The calculation will be based on the average building density and the average height of all buildings in the area.

The ‘long-term’ sound level along a path starting from a given point source is obtained from the logarithmic sum of the weighted sound energy in homogeneous conditions and the sound energy in favourable conditions.

These sound levels are weighted by the mean occurrence p of favourable conditions in the direction of the path (S,R):


LLT=10×lgp×10LF10+1−p×10LH10 (2.5.9)
NB: The occurrence values for p are expressed in percentages. So for example, if the occurrence value is 82 %, equation (2.5.9) would have p = 0,82.
The total long-term sound level at the receiver for a frequency band is obtained by energy summing contributions from all N paths, all types included:


Ltot,LT=10×lg∑n10Ln,LT10 (2.5.10)

where

n is the index of the paths between S and R.

Taking reflections into account by means of image sources is described further. The percentage of occurrences of favourable conditions in the case of a path reflected on a vertical obstacle is taken to be identical to the occurrence of the direct path.

If S′ is the image source of S, then the occurrence p′ of the path (S′,R) is taken to be equal to the occurrence p of the path (Si,R).

The total sound level in decibels A (dBA) is obtained by summing levels in each frequency band:


LAeq,LT=10×lg∑i10Ltot,LT,i+AWCf,i∕10 (2.5.11)

where i is the index of the frequency band. AWC is the A-weighting correction according to the international standard IEC 61672-1:2003.

This level LAeq,LT constitutes the final result, i.e. the long-term A-weighted sound pressure level at the receiver point on a specific reference time interval (e.g. day or evening, or night or a shorter time during day, evening or night).
 2.5.6. 
The attenuation due to geometrical divergence, Adiv, corresponds to a reduction in the sound level due to the propagation distance. For a point sound source in free field, the attenuation in dB is given by:


Adiv = 20 × lg(d) + 11 (2.5.12)

where d is the direct 3D slant distance between the source and the receiver.

The attenuation due to atmospheric absorption Aatm during propagation over a distance d is given in dB by the equation:


Aatm = αatm · d/1 000 (2.5.13)

where


 d is the direct 3D slant distance between the source and the receiver in m;
 αatm is the atmospheric attenuation coefficient in dB/km at the nominal centre frequency for each frequency band, in accordance with ISO 9613-1.

The values of the αatm coefficient are given for a temperature of 15 °C, a relative humidity of 70 % and an atmospheric pressure of 101 325 Pa. They are calculated with the exact centre frequencies of the frequency band. These values comply with ISO 9613-1. Meteorological average over the long term shall be used if meteorological data is available.

The attenuation due to the ground effect is mainly the result of the interference between the reflected sound and the sound that is propagated directly from the source to the receiver. It is physically linked to the acoustic absorption of the ground above which the sound wave is propagated. However, it is also significantly dependent on atmospheric conditions during propagation, as ray bending modifies the height of the path above the ground and makes the ground effects and land located near the source more or less significant.

In case the propagation between the source and the receiver is affected by any obstacle in the propagation plane, the ground effect is calculated separately on the source and receiver side. In this case, zs and zr refer to the equivalent source and/or receiver position as indicated further where the calculation of the diffraction Adif is presented.

The acoustic absorption properties of the ground are mainly linked to its porosity. Compact ground is generally reflective and porous ground is absorbent.

For operational calculation requirements, the acoustic absorption of a ground is represented by a dimensionless coefficient G, between 0 and 1. G is independent of the frequency. Table 2.5.a gives the G values for the ground outdoors. In general, the average of the coefficient G over a path takes values between 0 and 1.


Description Type (kPa · s/m2) G value
Very soft (snow or moss-like) A 12,5 1
Soft forest floor (short, dense heather-like or thick moss) B 31,5 1
Uncompacted, loose ground (turf, grass, loose soil) C 80 1
Normal uncompacted ground (forest floors, pasture field) D 200 1
Compacted field and gravel (compacted lawns, park area) E 500 0,7
Compacted dense ground (gravel road, car park) F 2 000 0,3
Hard surfaces (most normal asphalt, concrete) G 20 000 0
Very hard and dense surfaces (dense asphalt, concrete, water) H 200 000 0

Gpath is defined as the fraction of absorbent ground present over the entire path covered.

When the source and receiver are close-by so that dp ≤ 30(zs + zr), the distinction between the type of ground located near the source and the type of ground located near the receiver is negligible. To take this comment into account, the ground factor Gpath is therefore ultimately corrected as follows:


G′path = Gpathdp30zs+zr+Gs1−dp30zs+zr if dp ≤ 30(zs + zr) (2.5.14)
Gpath otherwise

where Gs is the ground factor of the source area. Gs = 0 for road platforms, slab tracks. Gs = 1 for rail tracks on ballast. There is no general answer in the case of industrial sources and plants.

G may be linked to the flow resistivity.

Figure 2.5.b
The following two subsections on calculations in homogeneous and favourable conditions introduce the generic Ḡw and Ḡm notations for the absorption of the ground. Table 2.5.b gives the correspondence between these notations and the Gpath and G′path variables.


 Homogeneous conditions Favourable conditions
Aground Δground(S,O) Δground(O,R) Aground Δground(S,O) Δground(O,R)
Ḡw G′path Gpath
Ḡm G′path Gpath G′path Gpath

The attenuation due to the ground effect in homogeneous conditions is calculated according to the following equations:

if Gpath ≠ 0


Aground,H=max−10×lg4k2d2pz2s−2Cfkzs+Cfkz2r−2Cfkzr+Cfk ,Aground,H,min (2.5.15)

where

fm is the nominal centre frequency of the frequency band considered, in Hz, c is the speed of the sound in the air, taken as equal to 340 m/s, and Cf is defined by:


Cf=dp1+3wdpe−wdp1+wdp (2.5.16)

where the values of w are given by the equation below:


 (2.5.17)

Ḡw may be equal to either Gpath or G′path depending on whether the ground effect is calculated with or without diffraction, and according to the nature of the ground under the source (real source or diffracted). This is specified in the following subsections and summarised in Table 2.5.b.


 (2.5.18)

is the lower bound of Aground,H.

For a path (Si,R) in homogeneous conditions without diffraction:


 Ḡw = G′path
 Ḡm = G′path

With diffraction, refer to the section on diffraction for the definitions of Ḡw and Ḡm.

if Gpath = 0: Aground,H = – 3 dB

The term – 3(1 – Ḡm) takes into account the fact that when the source and the receiver are far apart, the first reflection source side is no longer on the platform but on natural land.

The ground effect in favourable conditions is calculated with the equation of Aground,H, provided that the following modifications are made:


 If Gpath ≠ 0
((a)) In the equation of Aground,H, the heights zs and zr are replaced by zs + δ zs + δ zT and zr + δ zr + δ zT respectively where

 δzs=a0zszs+zr2d2p2 (2.5.19)
δzr=a0zrzs+zr2d2p2
ao =2 × 10–4 m–1 is the reverse of the radius of curvature
δzT=6×10−3dpzs+zr
((b)) The lower bound of Aground,F depends on the geometry of the path:

 (2.5.20)
 If Gpath = 0
Aground,F = Aground,F,min

The height corrections δ zs and δ zr convey the effect of the sound ray bending. δ zT accounts for the effect of the turbulence.

Ḡm may also be equal to either Gpath or G′path depending on whether the ground effect is calculated with or without diffraction, and according to the nature of the ground under the source (real source or diffracted). This is specified in the following subsections.

For a path (Si,R) in favourable conditions without diffraction:


 Ḡw = Gpath in equation (2.5.17);
 Ḡm = G′path.

With diffraction, refer to the next section for the definitions of Ḡw and Ḡm.

As a general rule, the diffraction shall be studied at the top of each obstacle located on the propagation path. If the path passes ‘high enough’ over the diffraction edge, Adif = 0 can be set and a direct view calculated, in particular by evaluating Aground.

In practice, for each frequency band centre frequency, the path difference δ is compared with the quantity – λ/20. If an obstacle does not produce diffraction, this for instance being determined according to Rayleigh's criterion, there is no need to calculate Adif for the frequency band considered. In other words, Adif = 0 in this case. Otherwise, Adif is calculated as described in the remainder of this part. This rule applies in both homogeneous and favourable conditions, for both single and multiple diffraction.

When, for a given frequency band, a calculation is made according to the procedure described in this section, Aground is set as equal to 0 dB when calculating the total attenuation. The ground effect is taken into account directly in the general diffraction calculation equation.

The equations proposed here are used to process the diffraction on thin screens, thick screens, buildings, earth berms (natural or artificial), and by the edges of embankments, cuttings and viaducts.

When several diffracting obstacles are encountered on a propagation path, they are treated as a multiple diffraction by applying the procedure described in the following section on calculation of the path difference.

The procedures presented here are used to calculate the attenuations in both homogeneous conditions and favourable conditions. Ray bending is taken into account in the calculation of the path difference and to calculate the ground effects before and after diffraction.

Figure 2.5.c illustrates the general method of calculation of the attenuation due to diffraction. This method is based on breaking down the propagation path into two parts: the ‘source side’ path, located between the source and the diffraction point, and the ‘receiver side’ path, located between the diffraction point and the receiver.

The following are calculated:


— a ground effect, source side, Δground(S,O)
— a ground effect, receiver side, Δground(O,R)
— and three diffractions:
— between the source S and the receiver R: Δdif(S,R)
— between the image source S′ and R: Δdif(S′,R)
— between S and the image receiver R′: Δdif(S,R′).

Figure 2.5.c1Source side2Receiver sidewhere
 S is the source;
 R is the receiver;
 S′ is the image source in relation to the mean ground plane source side;
 R′ is the image receiver in relation to the mean ground plane receiver side;
 O is the diffraction point;
 zs is the equivalent height of the source S in relation to the mean plane source side;
 zo,s is the equivalent height of the diffraction point O in relation to the mean ground plane source side;
 zr is the equivalent height of the receiver R in relation to the mean plane receiver side;
 zo,r is the equivalent height of the diffraction point O in relation to the mean ground plane receiver side.
The irregularity of the ground between the source and the diffraction point, and between the diffraction point and the receiver, is taken into account by means of equivalent heights calculated in relation to the mean ground plane, source side first and receiver side second (two mean ground planes), according to the method described in the subsection on significant heights above the ground.

For pure diffraction, with no ground effects, the attenuation is given by:


Δdif = 10Ch×lg3+40λC″δ if40λC″δ≥−2 (2.5.21)
0 otherwise

where


Ch = 1 (2.5.22)

λ is the wavelength at the nominal centre frequency of the frequency band considered;

δ is the path difference between the diffracted path and the direct path (see next subsection on calculation of the path difference);

C″ is a coefficient used to take into account multiple diffractions:

C″ = 1 for a single diffraction.

For a multiple diffraction, if e is the total distance along the path, O1 to O2 + O2 to O3 + O3 to O4 from the ‘rubber band method’, (see Figures 2.5.d and 2.5.f) and if e exceeds 0,3 m (otherwise C″ = 1), this coefficient is defined by:


 (2.5.23)

The values of Δdif shall be bound:


— if Δdif < 0: Δdif = 0 dB
— if Δdif > 25: Δdif = 25 dB for a diffraction on a horizontal edge and only on the term Δdif which figures in the calculation of Adif. This upper bound shall not be applied in the Δdif terms that intervene in the calculation of Δground, or for a diffraction on a vertical edge (lateral diffraction) in the case of industrial noise mapping.

The path difference δ is calculated in a vertical plane containing the source and the receiver. This is an approximation in relation to the Fermat principle. The approximation remains applicable here (source lines). The path difference δ is calculated as in the following Figures, based on the situations encountered.

Figure 2.5.dNote: For each configuration, the expression of δ is given.
Figure 2.5.e
In favourable conditions, it is considered that the three curved sound rays SO, OR, and SR have an identical radius of curvature Γ defined by:


Γ = max(1 000,8d) (2.5.24)

The length of a sound ray curve MN is noted M̂N in favourable conditions. This length is equal to:


 (2.5.25)

In principle, three scenarios should be considered in the calculation of the path difference in favourable conditions δF (see Figure 2.5.e). In practice, two equations are sufficient:


— if the straight sound ray SR is masked by the obstacle (1st and 2nd case in Figure 2.5.e):

 (2.5.26)
— if the straight sound ray SR is not masked by the obstacle (3rd case in Figure 2.5.e):

 (2.5.27)

where A is the intersection of the straight sound ray SR and the extension of the diffracting obstacle.

For the multiple diffractions in favourable conditions:


— determine the convex hull defined by the various potential diffraction edges;
— eliminate the diffraction edges which are not on the boundary of the convex hull;
— calculate δF based on the lengths of the curved sound ray, by breaking down the diffracted path into as many curved segments as necessary (see Figure 2.5.f)

 (2.5.28)

Figure 2.5.f
In the scenario presented in Figure 2.5.f, the path difference is:


 (2.5.29)

The attenuation due to diffraction, taking the ground effects on the source side and receiver side into account, is calculated according to the following general equations:


Adif=ΔdifS,R+ΔgroundS,O+ΔgroundOn ,R (2.5.30)

where


— Δdif (S,R) is the attenuation due to the diffraction between the source S and the receiver R
— Δground(S,O) is the attenuation due to the ground effect on the source side, weighted by the diffraction on the source side; where it is understood that O = O1 in case of multiple diffractions as in Figure 2.5.f
— Δground(O,R) is the attenuation due to the ground effect on the receiver side, weighted by the diffraction on the receiver side (see the following subsection on calculation of the term Δground(O,R)).


 (2.5.31)

where


— Aground(S,O) is the attenuation due to the ground effect between the source S and the diffraction point O. This term is calculated as indicated in the previous subsection on calculations in homogeneous conditions and in the previous subsection on calculation in favourable conditions, with the following hypotheses:
zr = zo,s,
— Gpath is calculated between S and O,
— In homogeneous conditions: Ḡw = G′path in equation (2.5.17), Ḡm = G′path in equation (2.5.18),
— In favourable conditions: Ḡw = Gpath in equation (2.5.17), Ḡm = G′path in equation (2.5.20),
— Δdif(S′,R) is the attenuation due to the diffraction between the image source S′ and R, calculated as in the previous subsection on pure diffraction,
— Δdif(S,R) is the attenuation due to the diffraction between S and R, calculated as in Subsection VI.4.4.b.


 (2.5.32)

where


— Aground (O,R) is the attenuation due to the ground effect between the diffraction point O and the receiver R. This term is calculated as indicated in the previous subsection on calculation in homogeneous conditions and in the previous subsection on calculation in favourable conditions, with the following hypotheses:
zs = zo,r
— Gpath is calculated between O and R.

The G′path correction does not need to be taken into account here as the source considered is the diffraction point. Therefore, Gpath shall indeed be used in the calculation of ground effects, including for the lower bound term of the equation which becomes – 3(1 – Gpath).


— In homogeneous conditions, Ḡw = Gpath in equation (2.5.17) and Ḡm = Gpath in equation (2.5.18);
— In favourable conditions, Ḡw = Gpath in equation (2.5.17) and Ḡm = Gpath in equation (2.5.20);
— Δdif(S,R′) is the attenuation due to the diffraction between S and the image receiver R′, calculated as in the previous section on pure diffraction;
— Δdif(S,R) is the attenuation due to the diffraction between S and R, calculated as in the previous subsection on pure diffraction.

Equation (2.5.21) may be used to calculate the diffractions on vertical edges (lateral diffractions) in case of industrial noise. If this is the case, Adif = Δdif(S,R) is taken and the term Aground is kept. In addition, Aatm and Aground shall be calculated from the total length of the propagation path. Adiv is still calculated from the direct distance d. Equations (2.5.8) and (2.5.6) respectively become:


AH=Adiv+Apathatm+Apathground,H+Δdif,HS,R (2.5.33)
AF=Adiv+Apathatm+Apathground,F+Δdif,HS,R (2.5.34)

Δdif is indeed used in homogeneous conditions in equation (2.5.34).

The reflections on vertical obstacles are dealt with by means of image sources. Reflections on building façades and noise barriers are thus treated in this way.

An obstacle is considered to be vertical if its slope in relation to the vertical is less than 15°.

When dealing with reflections on objects which slope in relation to the vertical is more or equal to 15° the object is not considered.

The obstacles where at least one dimension is less than 0,5 m shall be ignored in the reflection calculation, except for special configurations.

Note that reflections on the ground are not dealt with here. They are taken into account in the calculations of attenuation due to the boundary (ground, diffraction).

If LWS is the power level of the source S and αr the absorption coefficient of the surface of the obstacle as defined by the EN 1793-1:2013, then the power level of the image source S′ is equal to:


LWS′ = LWS + 10 · lg(1 – αr) = LWS + Arefl (2.5.35)

where 0 ≤ αr < 1

The propagation attenuations described above are then applied to this path (image source, receiver), as for a direct path.

Figure 2.5.g
In the geometrical research of sound paths, during reflection on a vertical obstacle (barrier wall, building), the position of the impact of the ray in relation to the upper edge of this obstacle determines the more or less significant proportion of energy effectively reflected. This loss of acoustic energy when the ray undergoes a reflection is called attenuation through retrodiffraction.

In the case of potential multiple reflections between two vertical walls, at least the first reflection shall be considered.

In the case of a trench (see for example Figure 2.5.h), the attenuation through retrodiffraction shall be applied to each reflection on the retaining walls.

Figure 2.5.h
In this representation, the sound ray reaches the receiver ‘by successively passing through’ the retaining walls of the trench, which can therefore be compared to openings.

When calculating propagation through an opening, the sound field at the receiver is the sum of the direct field and the field diffracted by the edges of the opening. This diffracted field ensures the continuity of the transition between the clear area and the shadow area. When the ray approaches the edge of the opening, the direct field is attenuated. The calculation is identical to that of the attenuation by a barrier in the clear area.

The path difference δ′ associated with each retrodiffraction is the opposite of the path difference between S and R relatively at each upper edge O, and this in a view according to a deployed cross-section (see Figure 2.5.i).


δ′ = – (SO + OR – SR) (2.5.36)

Figure 2.5.i
The ‘minus’ sign of equation (2.5.36) means that the receiver is considered here in the clear area.

Attenuation through retrodiffraction Δretrodif is obtained by equation (2.5.37), which is similar to equation (2.5.21) with reworked notations.


Δretrodif = 10Ch×lg3+40λδ′ if40λδ′≥−2 (2.5.37)
0 otherwise

This attenuation is applied to the direct ray each time it ‘passes through’ (reflects on) a wall or building. The power level of the image source S′ therefore becomes:


LW′ = LW + 10 × lg(1 – αr) – Δretrodif (2.5.38)

In complex propagation configurations, diffractions may exist between reflections, or between the receiver and the reflections. In this case, the retrodiffraction by the walls is estimated by considering the path between source and first diffraction point R′ (therefore considered as the receiver in equation (2.5.36)). This principle is illustrated in Figure 2.5.j.

Figure 2.5.j
In case of multiple reflections the reflections due to every single reflections are added.
 2.6.  2.6.1. 
Some important terms are described here by the general meanings attributed to them in this document. The list is not exhaustive; only expressions and acronyms used frequently are included. Others are described where they first occur.

The mathematical symbols (listed after the terms) are the main ones used in equations in the main text. Other symbols used locally in both the text and the appendices are defined where they are used.

The reader is reminded periodically of the interchangeability of the words sound and noise in this document. Although the word noise has subjective connotations — it is usually defined by acousticians as ‘unwanted sound’ — in the field of aircraft noise control it is commonly taken to mean just sound — airborne energy transmitted by acoustic wave motion. The symbol → denotes cross references to other terms included in the list.

AIPAeronautical Information PublicationAircraft configurationThe positions of slats, flaps and landing gearAircraft movementAn arrival, departure or other aircraft action that affects noise exposure around an aerodromeAircraft noise and performance dataData describing the acoustic and performance characteristics of different aeroplanes types that are required by the modelling process. They include → NPD relationships and information that allows engine thrust/power to be calculated as a function of → flight configuration. The data are usually supplied by the aircraft manufacturer although when that is not possible it is sometimes obtained from other sources. When no data are available, it is usual to represent the aircraft concerned by adapting data for a suitably similar aircraft — this is referred to as substitutionAltitudeHeight above mean sea levelANP databaseThe Aircraft Noise and Performance database included in Appendix IA-weighted sound level, LABasic sound/noise level scale used for measuring environmental noise including that from aircraft and on which most noise contour metrics are basedBackbone ground trackA representative or nominal ground track which defines the centre of a swathe of tracksBaseline noise event levelThe noise event level read from an NPD databaseBrake release→ Start of rollCorrected net thrustAt a given power setting (e.g. EPR or N1) net thrust falls with air density and thus with increasing aircraft altitude; corrected net thrust is the value at sea levelCumulative sound/noise levelA decibel measure of the noise received over a specified period of time, at a point near an airport, from aeroplane traffic using normal operating conditions and flight paths. It is calculated by accumulating in some way the event sound/noise levels occurring at that pointDecibel sum or averageSometimes referred to elsewhere as ‘energy’ or ‘logarithmic’ (as opposed to arithmetic) values. Used when it is appropriate to sum or average the underlying energy-like quantities; e.g. decibel sum=10×lg ∑10Li∕10Energy fraction, FRatio of sound energy received from segment to energy received from infinite flight pathEngine power settingValue of the → noise related power parameter used to determine noise emission from the NPD databaseEquivalent (continuous) sound level, LeqA measure of long-term sound. The level of a hypothetical steady sound, which over a specified period of time, contains the same total energy as the actual variable soundEvent sound/noise levelA decibel measure of the finite quantity of sound (or noise) received from a passing aeroplane → sound exposure levelFlight configuration= → Aircraft configuration + → Flight parametersFlight parametersAircraft power setting, speed, bank angle and weightFlight pathThe path of an aeroplane through the air, defined in three dimensions, usually with reference to an origin at the start of take-off roll or at the landing thresholdFlight path segmentPart of an aircraft flight path represented for noise modelling purposes by a straight line of finite lengthFlight procedureThe sequence of operational steps followed by the aircraft crew or flight management system: expressed as changes of flight configuration as a function of distance along the ground trackFlight profileVariation of aeroplane height along the ground track (sometimes includes changes of → flight configuration too) — described by a set of → profile pointsGround plane(Or Nominal Ground Plane) Horizontal ground surface through the aerodrome reference point on which the contours are normally calculatedGround speedAircraft speed relative to a fixed point on the groundGround trackVertical projection of the flight path onto the ground planeHeightVertical distance between aircraft and → ground planeIntegrated sound levelOtherwise termed → single event sound exposure levelISAInternational Standard Atmosphere — defined by ICAO. Defines variation of air temperature, pressure, and density with height above mean sea level. Used to normalise the results of aircraft design calculations and analysis of test dataLateral attenuationExcess attenuation of sound with distance attributable, directly or indirectly, to the presence of the ground surface. Significant at low angles of elevation (of the aircraft above the ground plane)Maximum noise/sound levelThe maximum sound level reached during an eventMean Sea Level, MSLThe standard earth surface elevation to which the → ISA is referredNet thrustThe propulsive force exerted by an engine on the airframeNoiseNoise is defined as unwanted sound. But metrics such as A-weighted sound level (LA) and effective perceived noise level (EPNL) effectively convert sound levels into noise levels. Despite a consequent lack of rigour, the terms sound and noise are sometimes used interchangeably in this document, as elsewhere — especially in conjunction with the word levelNoise contourA line of constant value of a cumulative aircraft noise level or index around an airportNoise impactThe adverse effect(s) of noise on its recipients; importantly it is implied that noise metrics are indicators of noise impactNoise indexA measure of long term, or cumulative sound which correlates with (i.e. is considered to be a predictor of) its effects on people. May take some account of factors in addition to the magnitude of sound (especially time of day). An example is day-evening-night level LDENNoise levelA decibel measure of sound on a scale which indicates its loudness or noisiness. For environmental noise from aircraft, two scales are generally used: A-weighted sound level and Perceived Noise Level. These scales apply different weights to sound of different frequencies — to mimic human perceptionNoise metricAn expression used to describe any measure of quantity of noise at a receiver position whether it be a single event or an accumulation of noise over extended time. There are two commonly used measures of single event noise: the maximum level reached during the event, or its sound exposure level, a measure of its total sound energy determined by time integrationNoise-power-distance (NPD) relationships/dataNoise event levels tabulated as a function of distance below an aeroplane in steady level flight at a reference speed in a reference atmosphere, for each of a number of → engine power settings. The data account for the effects of sound attenuation due to spherical wave spreading (inverse-square law) and atmospheric absorption. The distance is defined perpendicular to the aeroplane flight path and the aircraft wing-axis (i.e. vertically below the aircraft in non-banked flight)Noise-related power parameterParameter that describes or indicates the propulsive effort generated by an aircraft engine to which acoustic power emission can logically be related; usually taken to be → corrected net thrust. Loosely termed ‘power’ or ‘power setting’ throughout the textNoise significanceThe contribution from a flight path segment is ‘noise significant’ if it affects the event noise level to an appreciable extent. Disregarding segments that are not noise-significant yields massive savings in computer processingObserver→ ReceiverProcedural stepsPrescription for flying a profile — steps include changes of speed and/or altitudeProfile pointHeight of flight path segment end point — in vertical plane above the ground trackReceiverA recipient of noise that arrives from a source; principally at a point on or near the ground surfaceReference atmosphereA tabulation of sound absorption rates used to standardise NPD data (see Appendix D)Reference dayA set of atmospheric conditions on which ANP data are standardisedReference durationA nominal time interval used to standardise single event sound exposure level measurements; equal to 1 second in the case of → SELReference speedAeroplane groundspeed to which NPD → SEL data are normalisedSEL→ Sound Exposure LevelSingle event sound exposure levelThe sound level an event would have if all its sound energy were compressed uniformly into a standard time interval known as the → reference durationSoft groundA ground surface that is acoustically ‘soft’, typically grassy, that surrounds most aerodromes. Acoustically hard, i.e. highly reflective, ground surfaces includes concrete and water. The noise contour methodology described herein applies to soft ground conditionsSoundEnergy transmitted through air by (longitudinal) wave motion which is sensed by the earSound attenuationThe decrease in sound intensity with distance along a propagation path. For aircraft noise its causes include spherical wave spreading, atmospheric absorption and → lateral attenuationSound exposureA measure of total sound energy immission over a period of timeSound Exposure Level, LAE(Acronym SEL) A metric standardised in ISO 1996-1 or ISO 3891 = A-weighted single event sound exposure level referenced to 1 secondSound intensityThe strength of sound immission at a point — related to acoustical energy (and indicated by measured sound levels)Sound levelA measure of sound energy expressed in decibel units. Received sound is measured with or without ‘frequency weighting’; levels measured with a weighting are often termed → noise levelsStage/trip lengthDistance to first destination of departing aircraft; taken to be an indicator of aircraft weightStart of Roll, SORThe point on the runway from which a departing aircraft commences its take-off. Also termed ‘brake release’True airspeedActual speed of aircraft relative to air (= groundspeed in still air)Weighted equivalent sound level, Leq,WAn modified version of Leq in which different weights are assigned to noise occurring during different period of the day (usually day, evening and night)

dShortest distance from an observation point to a flight path segmentdpPerpendicular distance from an observation point to the flight path (slant distance or slant range)dλScaled distanceFnActual net thrust per engineFn/δCorrected net thrust per enginehAircraft altitude (above MSL)LEvent noise level (scale undefined)L(t)Sound level at time t (scale undefined)LA, LA(t)A-weighted sound pressure level (at time t) — measured on the slow sound level meter scaleLAE(SEL) Sound Exposure LevelLAmaxMaximum value of LA(t) during an eventLESingle event sound exposure levelLE∞Single event sound exposure level determined from NPD databaseLEPNEffective Perceived Noise LevelLeqEquivalent (continuous) sound levelLmaxMaximum value of L(t) during an eventLmax,segMaximum level generated by a segmentℓPerpendicular distance from an observation point to the ground tracklgLogarithm to base 10NNumber of segments or sub-segmentsNATNumber of events with Lmax exceeding a specified thresholdPPower parameter in NPD variable L(P,d)PsegPower parameter relevant to a particular segmentqDistance from start of segment to closest point of approachRRadius of turnSStandard deviationsDistance along ground tracksRWYRunway lengthtTimeteEffective duration of single sound eventt0Reference time for integrated sound levelVGroundspeedVsegEquivalent segment groundspeedVrefReference groundspeed for which NPD data are definedx,y,zLocal coordinatesx′,y′,z′Aircraft coordinatesXARP,YARP,ZARPPosition of aerodrome reference point in geographical coordinateszHeight of aircraft above ground plane/aerodrome reference pointαParameter used for calculation of the finite segment correction DFβElevation angle of aircraft relative to ground planeεAircraft bank angleγClimb/descent angleφDepression angle (lateral directivity parameter)λTotal segment lengthψAngle between direction of aircraft movement and direction to observerξAircraft heading, measured clockwise from magnetic northΛ(β,ℓ)Air-to-ground lateral attenuationΛ(β)Long range air-to-ground lateral attenuationΓ(ℓ)Lateral attenuation distance factorΔChange in value of a quantity, or a correction (as indicated in the text)ΔFFinite segment correctionΔIEngine installation correctionΔiWeighting for ith time of day period, dBΔrevReverse thrustΔSORStart of roll correctionΔVDuration (speed) correction

1, 2Subscripts denoting start and end values of an interval or segmentEExposureiAircraft type/category summation indexjGround track/subtrack summation indexkSegment summation indexmaxMaximumrefReference valuesegSegment specific valueSORRelated to start of rollTOTakeoff
 2.6.2. 
All input values affecting the emission level of a source, including the position of the source, shall be determined with at least the accuracy corresponding to an uncertainty of ± 2dB(A) in the emission level of the source (leaving all other parameters unchanged).

In the application of the method, the input data shall reflect the actual usage. In general there shall be no reliance on default input values or assumptions. Specifically, flight paths derived from radar data to derive the flight paths shall be used whenever they exist and is of sufficient quality. Default input values and assumptions are accepted, for example, to be used for modelled routes instead of radar derived flight paths, if the collection of real data is associated with disproportionately high costs.

Software used to perform the calculations shall prove compliance with the methods herewith described by means of certification of results against test cases.
 2.7.  2.7.1. 
Contour maps are used to indicate the extent and magnitude of aircraft noise impact around airports, that impact being indicated by values of a specified noise metric or index. A contour is a line along which the index value is constant. The index value aggregates in some way all the individual aircraft noise events that occur during some specified period of time, normally measured in days or months.

The noise at points on the ground from aircraft flying into and out of a nearby aerodrome depends on many factors. Principal among these are the types of aeroplane and their powerplant; the power, flap and airspeed management procedures used on the aeroplanes themselves; the distances from the points concerned to the various flight paths; and local topography and weather. Airport operations generally include different types of aeroplanes, various flight procedures and a range of operational weights.

Contours are generated by calculating surfaces of local noise index values mathematically. This document explains in detail how to calculate, at one observer point, the individual aircraft noise event levels, each for a specific aircraft flight or type of flight, that are subsequently averaged in some way, or accumulated, to yield index values at that point. The required surface of index values is generated merely by repeating the calculations as necessary for different aircraft movements — taking care to maximise efficiency by excluding events that are not ‘noise-significant’ (i.e. which do not contribute significantly to the total).

Where noise generating activities associated with airport operations do not contribute materially to the overall population exposure to aircraft noise and associated noise contours, they may be excluded. These activities include: helicopters, taxiing, engine testing and use of auxiliary power-units. This does not necessarily mean that their impact is insignificant and where these circumstances occur assessment of the sources can be undertaken as set out in paragraphs 2.7.21 and 2.7.22.
 2.7.2. 
The noise contour generation process is illustrated in Figure 2.7.a. Contours are produced for various purposes and these tend to control the requirements for sources and pre-processing of input data. Contours that depict historical noise impact might be generated from actual records of aircraft operations — of movements, weights, radar-measured flight paths, etc. Contours used for future planning purposes of necessity rely more on forecasts — of traffic and flight tracks and the performance and noise characteristics of future aircraft.

Figure 2.7.a
Whatever the source of flight data, each different aircraft movement, arrival or departure, is defined in terms of its flight path geometry and the noise emission from the aircraft as it follows that path (movements that are essentially the same in noise and flight path terms are included by simple multiplication). The noise emission depends on the characteristics of the aircraft — mainly on the power generated by its engines. The recommended methodology involves dividing the flight path into segments. Sections 2.7.3 to 2.7.6 outline the elements of the methodology and explain the principle of segmentation on which it is based; that the observed event noise level is an aggregation of contributions from all ‘noise-significant’ segments of the flight path, each of which can be calculated independently of the others. Sections 2.7.3 to 2.7.6 also outline the input data requirements for producing a set of noise contours. Detailed specifications for the operational data needed are set out in Appendix A.

How the flight path segments are calculated from pre-processed input data is described in Sections 2.7.7 to 2.7.13. This involves applications of aircraft flight performance analysis, equations for which are detailed in Appendix B. Flight paths are subject to significant variability — aircraft following any route are dispersed across a swathe due to the effects of differences in atmospheric conditions, aircraft weights and operating procedures, air traffic control constraints, etc. This is taken into account by describing each flight path statistically — as a central or ‘backbone’ path which is accompanied by a set of dispersed paths. This too is explained in Sections 2.7.7 to 2.7.13 with reference to additional information in Appendix C.

Sections 2.7.14 to 2.7.19 set out the steps to be followed in calculating the noise level of one single event — the noise generated at a point on the ground by one aircraft movement. Appendix D deals with the re-calculation of NPD-data for non-reference conditions. Appendix E explains the acoustic dipole source used in the model to define sound radiation from flight path segments of finite length.

Applications of the modelling relationships described in Chapters 3 and 4 require, apart from the relevant flight paths, appropriate noise and performance data for the aircraft in question.

Determining the event level for a single aircraft movement at a single observer point is the core calculation. It has to be repeated for all aircraft movements at each of a prescribed array of points covering the expected extent of the required noise contours. At each point the event levels are aggregated or averaged in some way to arrive at a ‘cumulative level’ or noise index value. This part of the process is described in Sections 2.7.20 and 2.7.23 to 2.7.25.

Sections 2.7.26 to 2.7.28 summarise the options and requirement for fitting noise contours to arrays of noise index values. They provide guidance on contour generation and post-processing.
 2.7.3. 
For any specific aircraft, the database contains baseline Noise-Power-Distance (NPD) relationships. These define, for steady straight flight at a reference speed in specified reference atmospheric conditions and in a specified flight configuration, the received sound event levels, both maximum and time integrated, directly beneath the aircraft as a function of distance. For noise modelling purposes, the all-important propulsive power is represented by a noise-related power parameter; the parameter generally used is corrected net thrust. Baseline event levels determined from the database are adjusted to account for, firstly, differences between actual (i.e. modelled) and reference atmospheric conditions and (in the case of sound exposure levels) aircraft speed and, secondly, for receiver points that are not directly beneath the aircraft, differences between downwards and laterally radiated noise. This latter difference is due to lateral directivity (engine installation effects) and lateral attenuation. But the event levels so adjusted still apply only to the total noise from the aircraft in steady level flight.

Segmentation is the process by which the recommended noise contour model adapts the infinite path NPD and lateral data to calculate the noise reaching a receiver from a non-uniform flight path, i.e. one along which the aircraft flight configuration varies. For the purposes of calculating the event sound level of an aircraft movement, the flight path is represented by a set of contiguous straight-line segments, each of which can be regarded as a finite part of an infinite path for which an NPD and the lateral adjustments are known. The maximum level of the event is simply the greatest of the individual segment values. The time integrated level of the whole noise event is calculated by summing the noise received from a sufficient number of segments, i.e. those which make a significant contribution to the total event noise.

The method for estimating how much noise one finite segment contributes to the integrated event level is a purely empirical one. The energy fraction F — the segment noise expressed as a proportion of the total infinite path noise — is described by a relatively simple expression which allows for the longitudinal directivity of aircraft noise and the receiver's ‘view’ of the segment. One reason why a simple empirical method is generally adequate is that, as a rule, most of the noise comes from the nearest, usually, adjacent segment — for which the closest point of approach (CPA) to the receiver lies within the segment (not at one of its ends). This means that estimates of the noise from non-adjacent segments can be increasingly approximate as they get further away from the receiver without compromising the accuracy significantly.
 2.7.4. 
In the modelling context, a flight path (or trajectory) is a full description of the motion of the aircraft in space and time. Together with the propulsive thrust (or other noise related power parameter) this is the information required to calculate the noise generated. The ground track is the vertical projection of the flight path on level ground. This is combined with the vertical flight profile to construct the 3-D flight path. Segmentation modelling requires that the flight path of every different aircraft movement is described by a series of contiguous straight segments. The manner in which the segmentation is performed is dictated by a need to balance accuracy and efficiency — it is necessary to approximate the real curved flight path sufficiently closely while minimising the computational burden and data requirements. Each segment has to be defined by the geometrical coordinates of its end points and the associated speed and engine power parameters of the aircraft (on which sound emission depends). Flight paths and engine power may be determined in various ways, the main ones involving (a) synthesis from a series of procedural steps and (b) analysis of measured flight profile data.

Synthesis of the flight path (a) requires knowledge of (or assumptions for) ground tracks and their lateral dispersions, aircraft weight, speed, flap and thrust-management procedures, airport elevation, and wind and air temperature. Equations for calculating the flight profile from the required propulsion and aerodynamic parameters are given in Appendix B. Each equation contains coefficients (and/or constants) which are based on empirical data for each specific aircraft type. The aerodynamic-performance equations in Appendix B permit the consideration of any reasonable combination of aircraft operational weight and flight procedure, including operations at different takeoff gross weights.

Analysis of measured data (b), e.g. from flight data recorders, radar or other aircraft tracking equipment, involves ‘reverse engineering’, effectively a reversal of the synthesis process (a). Instead of estimating the aircraft and powerplant states at the ends of the flight segments by integrating the effects of the thrust and aerodynamic forces acting on the airframe, the forces are estimated by differentiating the changes of height and speed of the airframe. Procedures for processing the flight path information are described in Section 2.7.12.

In an ultimate noise modelling application, each individual flight could, theoretically, be represented independently; this would guarantee accurate accounting for the spatial dispersion of flight paths — which can be very significant. But to keep data preparation and computer time within reasonable bounds it is normal practice to represent flight path swathes by a small number of laterally displaced ‘subtracks’. (Vertical dispersion is usually represented satisfactorily by accounting for the effects of varying aircraft weights on the vertical profiles.)
 2.7.5. 
The ANP database provided in Appendix I covers most existing aircraft types. For aircraft types or variants for which data are not currently listed, they can best be represented by data for other, normally similar, aircraft that are listed.

The ANP database includes default ‘procedural steps’ to enable the construction of flight profiles for at least one common noise abatement departure procedure. More recent database entries cover two different noise abatement departure procedures.
 2.7.6. 
Case-specific data from which to calculate the noise contours for a particular airport scenario includes the following.


— The aerodrome reference point (simply to locate the aerodrome in appropriate geographic coordinates). The reference point is set as the origin of the local Cartesian coordinate system used by the calculation procedure.
— The aerodrome reference altitude (= altitude of aerodrome reference point). This is the altitude of the nominal ground plane on which, in the absence of topography corrections, the noise contours are defined.
— Average meteorological parameters at or close to the aerodrome reference point (temperature, relative humidity, average windspeed and wind direction).

For each runway:


— Runway designation
— Runway reference point (centre of runway expressed in local coordinates)
— Runway length, direction and mean gradient
— Location of start-of-roll and landing threshold.

Aircraft ground tracks shall be described by a series of coordinates in the (horizontal) ground-plane. The source of ground track data depends on whether relevant radar data are available or not. If they are, a reliable backbone track and suitable associated (dispersed) sub-tracks shall be established by statistical analysis of the data. If not, backbone tracks are usually constructed from appropriate procedural information, e.g. using standard instrument departure procedures from Aeronautical Information Publications. This conventional description includes the following information:


— Designation of the runway the track originates from
— Description of the track origin (start of roll, landing threshold)
— Length of segments (for turns, radius and change of direction).

This information is the minimum necessary to define the core (backbone) track. But average noise levels calculated on the assumption that aircraft follow the nominal routes exactly can be liable to localised errors of several decibels. Thus lateral dispersion shall be represented, and the following additional information is necessary:


— Width of the swathe (or other dispersion statistic) at each segment end
— Number of subtracks
— Distribution of movements perpendicular to the backbone track.

Air traffic data are


— the time period covered by the data and
— the number of movements (arrivals or departures) of each aircraft type on each flight track, subdivided by (1) time of day as appropriate for specified noise descriptors, (2) for departures, operating weights or stage lengths, and (3), if necessary, operating procedures.

Most noise descriptors require that events (i.e. aircraft movements) are defined as average daily values during specified periods of the day (e.g. day, evening and night) — see Sections 2.7.23 to 2.7.25.

The terrain around most airports is relatively flat. However this is not always the case and there may sometimes be a need to account for variations in terrain elevation relative to the airport reference elevation. The effect of terrain elevation can be especially important in the vicinity of approach tracks, where the aircraft is operating at relatively low altitudes.

Terrain elevation data are usually provided as a set of (x,y,z) coordinates for a rectangular grid of certain mesh-size. But the parameters of the elevation grid are likely to be different from those of the grid used for the noise computation. If so linear interpolation may be used to estimate the appropriate z-coordinates in the latter.

Comprehensive analysis of the effects of markedly non-level ground on sound propagation is complex and beyond the scope of this method. Moderate unevenness can be accounted for by assuming ‘pseudo-level’ ground; i.e. simply raising or lowering the level ground plane to the local ground elevation (relative to the reference ground plane) at each receiver point (see Section 2.7.4).

The international aircraft noise and performance (ANP) data are normalised to standard reference conditions that are widely used for airport noise studies (see Appendix D).

(1) Atmospheric pressure101,325 kPa (1 013,25 mb)(2) Atmospheric absorptionAttenuation rates listed in Table D-1 of Appendix D(3) PrecipitationNone(4) Wind SpeedLess than 8 m/s (15 knots)(5) Groundspeed160 knots(6) Local terrainFlat, soft ground free of large structures or other reflecting objects within several kilometres of aircraft ground tracks.

Standardised aircraft sound measurements are made 1,2 m above the ground surface. However no special account of this is necessary as, for modelling purposes, it may be assumed that event levels are relatively insensitive to receiver height.

Comparisons of estimated and measured airport noise levels indicate that the NPD data can be assumed applicable when the near surface average conditions lie within the following envelope:


— Air temperature less than 30 °C
— Product of air temperature (°C), and relative humidity, (percent) greater than 500
— Wind speed less than 8 metres per second (15 knots).

This envelope is believed to encompass conditions encountered at most of the world's major airports. Appendix D provides a method for converting NPD data to average local conditions which fall outside it, but, in extreme cases, it is suggested that the relevant aeroplane manufacturers be consulted.

(1) Runway ElevationMean sea level(2) Air temperature15 °C(3) Takeoff gross weightAs defined as a function of stage length in the ANP database(4) Landing gross weight90 percent of maximum landing gross weight(5) Engines supplying thrustAll

Although ANP aerodynamic and engine data are based on these conditions, they can be used as tabulated for non-reference runway elevations and average air temperatures in ECAC states without significantly affecting the accuracy of the calculated contours of cumulative average sound level. (see Appendix B.)

The ANP database tabulates aerodynamic data for the takeoff and landing gross weights noted in items 3 and 4 above. Although, for cumulative noise calculations, the aerodynamic data themselves need not be adjusted for other gross weights, calculation of the takeoff and climbout flight profiles, using the procedures described in Appendix B, shall be based on the appropriate operational takeoff gross weights.
 2.7.7. 
The noise model requires that each different aircraft movement is described by its three-dimensional flight path and the varying engine power and speed along it. As a rule, one modelled movement represents a subset of the total airport traffic, e.g. a number of (assumed) identical movements, with the same aircraft type, weight and operating procedure, on a single ground track. That track may itself be one of several dispersed ‘sub-tracks’ used to model what is really a swathe of tracks following one designated route. The ground track swathes, the vertical profiles and the aircraft operational parameters are all determined from the input scenario data — in conjunction with aircraft data from the ANP database.

The noise-power-distance data (in the ANP database) define noise from aircraft traversing idealised horizontal flight paths of infinite length at constant speed and power. To adapt this data to terminal area flight paths that are characterised by frequent changes of power and velocity, every path is broken into finite straight-line segments; the noise contributions from each of these are subsequently summed at the observer position.
 2.7.8. 
The three-dimensional flight path of an aircraft movement determines the geometrical aspects of sound radiation and propagation between aircraft and observer. At a particular aircraft weight and in particular atmospheric conditions, the flight path is governed entirely by the sequence of power, flap and altitude changes that are applied by the pilot (or automatic flight management system) in order to follow routes and maintain heights and speeds specified by ATC — in accordance with the aircraft operator's standard operating procedures. These instructions and actions divide the flight path into distinct phases which form natural segments. In the horizontal plane they involve straight legs, specified as a distance to the next turn, and turns, defined by radius and change of heading. In the vertical plane, segments are defined by the time and/or distance taken to achieve required changes of forward speed and/or height at specified power and flap settings. The corresponding vertical coordinates are often referred to as profile points.

For noise modelling, flight path information is generated either by synthesis from a set of procedural steps (i.e. those followed by the pilot) or by analysis of radar data — physical measurements of actual flight paths flown. Whatever method is used, both horizontal and vertical shapes of the flight path, are reduced to segmented forms. Its horizontal shape (i.e. its 2-dimensional projection on the ground) is the ground track defined by the inbound or outbound routeing. Its vertical shape, given by the profile points, and the associated flight parameters speed, bank angle and power setting, together define the flight profile which depends on the flight procedure that is normally prescribed by the aircraft manufacturer and/or the operator. The flight path is constructed by merging the 2-D flight profile with the 2-D ground track to form a sequence of 3-D flight path segments.

It should be remembered that, for a given set of procedural steps, the profile depends on the ground track; e.g. at the same thrust and speed the aircraft climb rate is less in turns than in straight flight. Although this guidance explains how to take this dependency into account, it has to be acknowledged that doing so would normally involve a very large computing overhead and users may prefer to assume that, for noise modelling purposes, the flight profile and ground track can be treated as independent entities; i.e. that the climb profile is unaffected by any turns. However, it is important to determine changes of bank angle that turns require as this has an important bearing on the directionality of sound emission.

The noise received from a flight path segment depends on the geometry of the segment in relation to the observer and the aircraft flight configuration. But these are interrelated — a change in one causes a change in the other and it is necessary to ensure that, at all points on the path, the configuration of the aircraft is consistent with its motion along the path.

In a flight path synthesis, i.e. when constructing a flight path from a set of ‘procedural steps’ that describe the pilot's selections of engine power, flap angle, and acceleration/vertical speed, it is the motion that has to be calculated. In a flight path analysis, the reverse is the case: the engine power settings have to be estimated from the observed motion of the aeroplane — as determined from radar data, or sometimes, in special studies, from aircraft flight recorder data (although in the latter case engine power is usually part of the data). In either case, the coordinates and flight parameters at all segment end points have to be fed into the noise calculation.

Appendix B presents the equations that relate the forces acting on an aircraft and its motion and explains how they are solved to define the properties of the segments that make up the flight paths. The different kinds of segments (and the sections of Appendix B that cover them) are take-off ground roll (B5), climb at constant speed (B6), power cutback (B7), accelerating climb and flap retraction (B8), accelerating climb after flap retraction (B9), descent and deceleration (B10) and final landing approach (B11).

Inevitably, practical modelling involves varying degrees of simplification — the requirement for this depends on the nature of the application, the significance of the results and the resources available. A general simplifying assumption, even in the most elaborate applications, is that when accounting for flight track dispersion, the flight profiles and configurations on all the sub-tracks are the same as those on the backbone track. As at least 6 subtracks are to be used (see Section 2.7.11) this reduces computations massively for an extremely small penalty in fidelity.
 2.7.9. 
Although aircraft flight data recorders can yield very high quality data, this is difficult to obtain for noise modelling purposes and radar data shall be regarded as the most readily accessible source of information on actual flight paths flown at airports. As it is usually available from airport noise and flight path monitoring systems, it is now used increasingly for noise modelling purposes.

Secondary surveillance radar presents the flight path of an aircraft as a sequence of positional coordinates at intervals equal to the period of rotation of the radar scanner, typically about 4 seconds. The position of the aircraft over the ground is determined in polar coordinates — range and azimuth — from the reflected radar return (although the monitoring system normally transforms these to Cartesian coordinates); its height is measured by the aeroplane's own altimeter and transmitted to the ATC computer by a radar-triggered transponder. But inherent positional errors due to radio interference and limited data resolution are significant (although of no consequence for the intended air traffic control purposes). Thus, if the flight path of a specific aircraft movement is required, it is necessary to smooth the data using an appropriate curve-fitting technique. However, for noise modelling purposes the usual requirement is for a statistical description of a swathe of flight paths; e.g. for all movements on a route or for just those of a specific aircraft type. Here the measurement errors associated with the relevant statistics can be reduced to insignificance by the averaging processes.

In many cases is not possible to model flight paths on the basis of radar data — because the necessary resources are not available or because the scenario is a future one for which there are no relevant radar data.

In the absence of radar data, or when its use is inappropriate, it is necessary to estimate the flight paths on the basis of operational guidance material, for example instructions given to flight crews via AIPs and aircraft operating manuals — referred to here as procedural steps. Advice on interpreting this material shall be sought from air traffic control authorities and the aircraft operators where necessary.
 2.7.10. 
The local coordinate system (x,y,z) is a Cartesian one and has its origin (0,0,0) at the aerodrome reference point (XARP,YARP,ZARP), where ZARP is the airport reference altitude and z = 0 defines the nominal ground plane on which contours are usually calculated. The aircraft heading ξ in the xy-plane is measured clockwise from magnetic north (see Figure 2.7.b). All observer locations, the basic calculation grid and the noise contour points are expressed in local coordinates.

Figure 2.7.b
This coordinate is specific for each ground track and represents distance s measured along the track in the flight direction. For departure tracks s is measured from the start of roll, for approach tracks from the landing threshold. Thus s becomes negative in areas


— behind the start of roll for departures and
— before crossing the runway landing threshold for approaches.

Flight operational parameters such as height, speed and power setting are expressed as functions of s.

The aircraft-fixed Cartesian coordinate system (x′,y′,z′) has its origin at the actual aircraft location. The axis-system is defined by the climb-angle γ, the flight direction ξ and the bank-angle ε (see Figure 2.7.c).

Figure 2.7.c
In cases where topography has to be taken into account (see Section 2.7.6), the aircraft height coordinate z has to be replaced by z′= z – zo (where zo is the z-coordinate of the observer location O) when estimating the propagation distance d. The geometry between aircraft and observer is shown in Figure 2.7.d. For the definitions of d and ℓ see Sections 2.7.14 to 2.7.19.

Figure 2.7.d(The nominal ground plane z = 0 passes through the aerodrome reference point. O is the observer location.) 2.7.11. 
The backbone track defines the centre of the swathe of tracks followed by aircraft using a particular routeing. For the purposes of aircraft noise modelling it is defined either (i) by prescriptive operational data such as the instructions given to pilots in AIPs, or (ii) by statistical analysis of radar data as explained in Section 2.7.9 — when this is available and appropriate to the needs of the modelling study. Constructing the track from operational instructions is normally quite straightforward as these prescribe a sequence of legs which are either straight — defined by length and heading, or circular arcs defined by turn rate and change of heading; see Figure 2.7.e for an illustration.

Figure 2.7.e
Fitting a backbone track to radar data is more complex, firstly because actual turns are made at a varying rate and secondly because its line is obscured by the scatter of the data. As explained, formalised procedures have not yet been developed and it is common practice to match segments, straight and curved, to the average positions calculated from cross-sections of radar tracks at intervals along the route. Computer algorithms to perform this task are likely to be developed in future but, for the present, it is for the modeller to decide how to use available data to best advantage. A major factor is that the aircraft speed and turn radius dictate the angle of bank and, as will be seen in Section 2.7.19, non-symmetries of sound radiation around the flight path govern noise on the ground, as well as the position of the flight path itself.

Theoretically, seamless transition from straight flight to fixed radius turn would require an instantaneous application of bank angle ε, which is physically impossible. In reality it takes a finite time for the bank angle to reach the value required to maintain a specified speed and turn radius r, during which the turn radius tightens from infinity to r. For modelling purposes the radius transition can be disregarded and the bank angle assumed to increase steadily from zero (or other initial value) to ε at the start of the turn and to be the next value of ε at the end of the turn.

Where possible, definitions of lateral dispersion and representative sub-tracks shall be based on relevant past experience from the study airport; normally via an analysis of radar data samples. The first step is to group the data by route. Departure tracks are characterised by substantial lateral dispersion which, for accurate modelling, has to be taken into account. Arrival routes normally coalesce into a very narrow swathe about the final approach path and it is usually sufficient to represent all arrivals by a single track. But if the approach swathes are wide within the region of the noise contours they might need to be represented by sub-tracks in the same way as departure routes.

It is common practice to treat the data for a single route as a sample from a single population; i.e. to be represented by one backbone track and one set of dispersed subtracks. However, if inspection indicates that the data for different categories of aircraft or operations differ significantly (e.g. should large and small aircraft have substantially different turn radii), further subdivision of the data into different swathes may be desirable. For each swathe, the lateral track dispersions are determined as a function of distance from the origin; movements then being apportioned between a backbone track and a suitable number of dispersed sub-tracks on the basis of the distribution statistics.

As it is normally unwise to disregard the effects of track dispersion, in the absence of measured swathe data a nominal lateral spread across and perpendicular to the backbone track shall be defined by a conventional distribution function. Calculated values of noise indices are not particularly sensitive to the precise shape of the lateral distribution: the Normal (Gaussian) Distribution provides an adequate description of many radar-measured swathes.

Typically a 7-point discrete approximation is used (i.e. representing the lateral dispersion by 6 subtracks equally spaced around the backbone track). The spacing of the subtracks depends on the standard deviation of the lateral dispersion function.

For normally distributed tracks with a standard deviation S, 98,8 % of the tracks are located within a corridor with boundaries located at ± 2,5 · S. Table 2.7.a gives the spacing of the six subtracks and the percentage of the total movements assigned to each. Appendix C gives values for other numbers of subtracks.


Subtrack number Location of subtrack Percentage of movements on subtrack
7 – 2,14 · S 3 %
5 – 1,43 · S 11 %
3 – 0,71 · S 22 %
1 0 28 %
2 0,71 · S 22 %
4 1,43 · S 11 %
6 2,14 · S 3 %

The standard deviation S is a function of the coordinate s along the backbone-track. It can be specified — together with the description of the backbone-track — in the flight track data sheet shown in Appendix A3. In the absence of any indicators of the standard deviation — e.g. from radar data describing comparable flight tracks — the following values are recommended:


 For tracks involving turns of less than 45 degrees:

S(s) = 0,055 · s – 150 for 2 700 m ≤ s ≤30 000 m (2.7.1)
S(s) = 1 500 for s > 30 000 m
 For tracks involving turns of more than 45 degrees:

S(s) = 0,128 · s – 420 for 3 300 m ≤ s ≤ 15 000 m (2.7.2)
S(s) = 1 500 m for s > 15 000 m

For practical reasons, S(s) is assumed to be zero between the start of roll and s = 2 700 m or s = 3 300 m depending on the amount of turn. Routes involving more than one turn shall be treated as per equation (2.7.2). For arrivals, lateral dispersion can be neglected within 6 000 m of touchdown.
 2.7.12. 
The flight profile is a description of the aircraft motion in the vertical plane above the ground track, in terms of its position, speed, bank angle and engine power setting. One of the most important tasks facing the model user is that of defining aircraft flight profiles that adequately meet the requirements of the modelling application — efficiently, without consuming excessive time and resources. Naturally, to achieve high accuracy, the profiles have to reflect closely the aircraft operations they are intended to represent. This requires reliable information on the atmospheric conditions, aircraft types and variants, operating weights and the operating procedures — the variations of thrust and flap settings and the trade-offs between changes of height and speed — all appropriately averaged over the time period(s) of interest. Often such detailed information are not available but this is not necessarily an obstacle; even if they are, the modeller has to exercise judgement to balance the accuracy and detail of the input information with the needs for, and uses of, the contour outputs.

The synthesis of flight profiles from ‘procedural steps’ obtained from the ANP database or from aircraft operators is described in Section 2.7.13 and Appendix B. That process, usually the only recourse open to the modeller when no radar data are available, yields both the flight path geometry and the associated speed and thrust variations. It would normally be assumed that all (alike) aircraft in a swathe, whether assigned to the backbone or the dispersed subtracks, follow the backbone track profile.

Beyond the ANP database, which provides default information on procedural steps, the aircraft operators are the best source of reliable information, i.e. the procedures they use and the typical weights flown. For individual flights, the ‘gold standard’ source is the aircraft flight data recorder (FDR) from which all relevant information can be obtained. But even if such data are available, the pre-processing task is formidable. Thus, and in keeping with the necessary modelling economies, the normal practical solution is to make educated assumptions about mean weights and operating procedures.

Caution must be exercised before adopting default procedural steps provided in the ANP database (customarily assumed when actual procedures are not known). These are standardised procedures that are widely followed but which may or may not be used by operators in particular cases. A major factor is the definition of take-off (and sometimes climb) engine thrust that can depend to an extent on prevailing circumstances. In particular, it is common practice to reduce thrust levels during departure (from maximum available) in order to extend engine life. Appendix B gives guidance on representing typical practice; this will generally produce more realistic contours than a full thrust assumption. However, if, for example, runways are short and/or average air temperatures are high, full thrust is likely to be a more realistic assumption.

When modelling actual scenarios, improved accuracy can be achieved by using radar data to supplement or replace this nominal information. Flight profiles can be determined from radar data in a similar way to the lateral backbone tracks — but only after segregating the traffic by aircraft type and variant and sometimes by weight or stage length (but not by dispersion) — to yield for each sub-group a mean profile of height and speed against ground distance travelled. Again, when merging with the ground tracks subsequently, this single profile is normally assigned to the backbone and subtracks alike.

Knowing the aircraft weight, the variation of speed and propulsive thrust can be calculated via step-by-step solution of the equations of motion. Before doing so it is helpful to pre-process the data to minimise the effects of radar errors which can make acceleration estimates unreliable. The first step in each case is to redefine the profile by fitting straight line segments to represent the relevant stages of flight; with each segment being appropriately classified; i.e. as a ground roll, constant speed climb or descent, thrust cutback, or acceleration/deceleration with or without flap change. The aircraft weight and atmospheric state are also required inputs.

Section 2.7.11 makes it clear that special provision has to be made to account for the lateral dispersion of flight tracks about the nominal or backbone routeings. Radar data samples are characterised by similar dispersions of flight paths in the vertical plane. However it is not usual practice to model vertical dispersion as an independent variable; it arises mainly due to differences in aircraft weights and operating procedures that are taken into account when pre-processing traffic input data.
 2.7.13. 
Each flight path has to be defined by a set of segment coordinates (nodes) and flight parameters. The starting point is to determine the coordinates of the ground track segments. The flight profile is then calculated, remembering that for a given set of procedural steps, the profile depends on the ground track; e.g. at the same thrust and speed the aircraft climb rate is less in turns than in straight flight. Finally the 3-D flight path segments are constructed by merging the 2-D flight profile with the 2-D ground track.

A ground track, whether a backbone track or a dispersed sub-track, is defined by a series of (x,y) coordinates in the ground plane (e.g. from radar information) or by a sequence of vectoring commands describing straight segments and circular arcs (turns of defined radius r and change of heading Δξ).

For segmentation modelling, an arc is represented by a sequence of straight segments fitted to sub-arcs. Although they do not appear explicitly in the ground-track segments, the banking of aircraft during turns influences their definition. Appendix B4 explains how to calculate bank angles during a steady turn but of course these are not actually applied or removed instantaneously. How to handle the transitions between straight and turning flight, or between one turn and an immediately sequential one, is not prescribed. As a rule, the details, which are left to the user (see Section 2.7.11), are likely to have a negligible effect on the final contours; the requirement is mainly to avoid sharp discontinuities at the ends of the turn and this can be achieved simply, for example, by inserting short transition segments over which the bank angle changes linearly with distance. Only in the special case that a particular turn is likely to have a dominating effect on the final contours would it be necessary to model the dynamics of the transition more realistically, to relate bank angle to particular aircraft types and to adopt appropriate roll rates. Here it is sufficient to state that the end sub-arcs Δξtrans in any turn are dictated by bank angle change requirements. The remainder of the arc with change of heading Δξ – 2 · Δξtrans degrees is divided into nsub sub-arcs according to the equation:


nsub = int(1 + (Δξ – 2 · Δξtrans)/30) (2.7.3)

where int(x) is a function that returns the integer part of x. Then the change of heading Δξsub of each sub-arc is computed as


Δξsub = (Δξ – 2 · Δξtrans)/nsub (2.7.4)

where nsub needs to be large enough to ensure that Δξsub ≤ 30 degrees. The segmentation of an arc (excluding the terminating transition sub-segments) is illustrated in Figure 2.7.f.

Figure 2.7.f
The parameters describing each flight profile segment at the start (suffix 1) and end (suffix 2) of the segment are:

s1, s2distance along the ground track,z1, z2aeroplane height,V1, V2groundspeed,P1, P2noise-related power parameter (matching that for which the NPD-curves are defined), andε1, ε2bank angle.

To build a flight profile from a set of procedural steps (flight path synthesis), segments are constructed in sequence to achieve required conditions at the end points. The end-point parameters for each segment become the start-point parameters for the next segment. In any segment calculation the parameters are known at the start; required conditions at the end are specified by the procedural step. The steps themselves are defined either by the ANP defaults or by the user (e.g. from aircraft flight manuals). The end conditions are usually height and speed; the profile building task is to determine the track distance covered in reaching those conditions. The undefined parameters are determined via flight performance calculations described in Appendix B.

If the ground track is straight, the profile points and associated flight parameters can be determined independently of the ground track (bank angle is always zero). However ground tracks are rarely straight; they usually incorporate turns and, to achieve best results, these have to be accounted for when determining the 2-dimensional flight profile, where necessary splitting profile segments at ground track nodes to inject changes of bank angle. As a rule the length of the next segment is unknown at the outset and it is calculated provisionally assuming no change of bank angle. If the provisional segment is then found to span one or more ground track nodes, the first being at s, i.e. s1 < s < s2, the segment is truncated at s, calculating the parameters there by interpolation (see below). These become the end-point parameters of the current segment and the start-point parameters of a new segment — which still has the same target end conditions. If there is no intervening ground track node the provisional segment is confirmed.

If the effects of turns on the flight profile are to be disregarded, the straight flight, single segment solution is adopted although the bank angle information is retained for subsequent use.

Whether or not turn effects are fully modelled, each 3-dimensional flight path is generated by merging its 2-dimensional flight profile with its 2-dimensional ground track. The result is a sequence of coordinate sets (x,y,z), each being either a node of the segmented ground track, a node of the flight profile or both, the profile points being accompanied by the corresponding values of height z, ground speed V, bank angle ε and engine power P. For a track point (x,y) which lies between the end points of a flight profile segment, the flight parameters are interpolated as follows:


z = z1 + f · (z2 – z1) (2.7.5)
V=V21+f×V22−V21 (2.7.6)
ε = ε1 + f · (ε2 – ε1) (2.7.7)
P=P21+f×P22−P21 (2.7.8)

Where


f = (s – s1)/(s2 – s1) (2.7.9)

Note that whilst z and ε are assumed to vary linearly with distance, V and P are assumed to vary linearly with time (i.e. constant acceleration).

When matching flight profile segments to radar data (flight path analysis) all end-point distances, heights, speeds and bank angles are determined directly from the data; only the power settings have to be calculated using the performance equations. As the ground track and flight profile coordinates can also be matched appropriately, this is usually quite straightforward.

When taking off, as an aircraft accelerates between the point of brake release (alternatively termed Start-of-Roll SOR) and the point of lift-off, speed changes dramatically over a distance of 1 500 to 2 500 m, from zero to between around 80 and 100 m/s.

The takeoff roll is thus divided into segments with variable lengths over each of which the aircraft speed changes by specific increment ΔV of no more than 10 m/s (about 20 kt). Although it actually varies during the takeoff roll, an assumption of constant acceleration is adequate for this purpose. In this case, for the takeoff phase, V1 is initial speed, V2 is the takeoff speed, nTO is the number of takeoff segment and sTO is the equivalent takeoff distance. For equivalent takeoff distance sTO (see Appendix B), start speed V1 and takeoff speed V2 the number nTO of segments for the ground roll is


nTO = int(1 + (V2 – V1)/10) (2.7.10)

and hence the change of velocity along a segment is


ΔV = (V2 – V1)/nTO (2.7.11)

and the time Δt on each segment is (constant acceleration assumed)


Δt=2×sTOV2+V1×nTO (2.7.12)

The length sTO,k of segment k (1 ≤ k ≤ nTO) of the takeoff roll is then:


sTO,k=k−0,5×ΔV×Δt=2k−1×sTOn2TO (2.7.13)
For a takeoff distance sTO = 1 600 m, V1 = 0 m/s and V2 = 75 m/s, this yields nTO = 8 segments with lengths ranging from 25 to 375 meters (see Figure 2.7.g):
Figure 2.7.g
Similarly to the speed changes, the aircraft thrust changes over each segment by a constant increment ΔP, calculated as


ΔP = (PTO – Pinit)/nTO (2.7.14)

where PTO and Pinit respectively designate the aircraft thrust at the point of lift-off and the aircraft thrust at the start of takeoff roll.

The use of this constant thrust increment (instead of using the quadratic form (equation (2.7.8)) aims at being consistent with the linear relationship between thrust and speed in the case of jet-engine aircraft (eq. B-1).

During the initial climb segment the geometry is changing rapidly particularly with respect to observer locations to the side of the flight track, where beta angle will change rapidly as the aircraft climbs through this initial segment. Comparisons with very small segment calculations show that a single climb segment results in a poor approximation of noise to the side of the flight track for integrated metrics. Calculation accuracy is improved by sub-segmenting the first lift-off segment. The length of each segment and number is strongly influenced by lateral attenuation. Noting the expression of total lateral attenuation for aircraft with fuselage-mounted engines, it can be shown that for a limiting change in lateral attenuation of 1,5 dB per sub-segment, that the initial climb segment shall be sub-segmented based on the following set of height values:

z = {18,9, 41,5, 68,3, 102,1, 147,5, 214,9, 334,9, 609,6, 1 0289,6} metres, or

z = {62, 136, 224, 335, 484, 705, 1 099, 2 000, 4 231} feet

The above heights are implemented by identifying which height in the set above is closest to the original segment endpoint. The actual sub-segment heights would then be calculated using:


z′i = z [zi/zN] (i = 1…N) (2.7.15)

where z is the original segment end height, zi is the ith member of the set of height values and zN is the closest upper bound to height z. This process results in the lateral attenuation change across each sub-segment remaining constant, producing more accurate contours, but without the expense of using very short segments.
If the original segment endpoint height is at z = 304,8 m, then from the set of height values, 214,9 < 304,8 < 334,9 and the closest upper bound is to z = 304,8 m is z7 = 334,9 m. The sub-segment endpoint heights are then computed by:zi′ = 304,8 [zi/334,9] (i = 1..N)Thus z1′ would be 17,2 m and z2′ would be 37,8 m, etc.
The speed and engine power values on the inserted points are interpolated using respectively equations (2.7.11) and (2.7.13)

After the segmented flight path has been derived according to the procedure described in Section 2.7.13 and the sub-segmenting described is applied, further segmentation adjustments may be necessary. These include


— the removal of flight path points which are too close together and
— the insertion of additional points when speed changes along segments are too long.

When adjacent points are within 10 metres of each other, and when the associated speeds and thrusts are the same, one of the points shall be eliminated.

For airborne segments where there is a significant speed change along a segment, this shall be subdivided as for the ground roll, i.e.


nseg=int1+V2−V1∕10 (2.7.16)

where V1 and V2 are the segment start and end speeds respectively. The corresponding sub-segment parameters are calculated in a similar manner as for the takeoff ground roll, using equations (2.7.11) to (2.7.13).

Although the landing ground roll is essentially a reversal of the takeoff ground roll, special account has to be taken of


— reverse thrust which is sometimes applied to decelerate the aircraft and
— aeroplanes leaving the runway after deceleration (aircraft that leave the runway no longer contribute to air noise as noise from taxiing is disregarded).

In contrast to the takeoff roll distance, which is derived from aircraft performance parameters, the stop distance sstop (i.e. the distance from touchdown to the point where the aircraft leaves the runway) is not purely aircraft specific. Although a minimum stop distance can be estimated from aircraft mass and performance (and available reverse thrust), the actual stop distance depends also on the location of the taxiways, on the traffic situation, and on airport-specific regulations on the use of reverse thrust.

The use of reverse thrust is not a standard procedure — it is only applied if the needed deceleration cannot be achieved by the use of the wheel brakes. (Reverse thrust can be exceptionally disturbing as a rapid change of engine power from idle to reverse settings produces a sudden burst of noise.)

However, most runways are used for departures as well as for landings so that reverse thrust has a very small effect on the noise contours since the total sound energy in the vicinity of the runway is dominated by the noise produced from takeoff operations. Reverse thrust contributions to contours may only be significant when runway use is limited to landing operations.

Physically, reverse thrust noise is a very complex process but because of its relatively minor significance to air noise contours it can be modelled simplistically — the rapid change in engine power being taken into account by suitable segmentation.

It is clear that modelling the landing ground roll is less straightforward than for takeoff roll noise. The following simplified modelling assumptions are recommended for general use, when no detailed information is available (see Figure 2.7.h).

Figure 2.7.h
The aeroplane touches down 300 meters beyond the landing threshold (which has the coordinate s = 0 along the approach ground track). The aircraft is then decelerated over a stop-distance sstop — aircraft specific values of which are given in the ANP database — from final approach speed Vfinal to 15 m/s. Because of the rapid changes in speed during this segment it shall be sub-segmented in the same manner as for the takeoff ground roll (or airborne segments with rapid speed changes), using equations (2.7.10) to (2.7.13).

The engine power changes from final approach power at touchdown to a reverse thrust power setting Prev over a distance 0,1 · sstop, then decreases to 10 % of the maximum available power over the remaining 90 percent of the stop distance. Up to the end of the runway (at s = – sRWY) aircraft speed remains constant.

NPD curves for reverse thrust are not at present included in the ANP database, and it is therefore necessary to rely on the conventional curves for modelling this effect. Typically the reverse thrust power Prev is around 20 % of the full power setting and this is recommended when no operational information is available. However, at a given power setting, reverse thrust tends to generate significantly more noise than forward thrust and an increment ΔL shall be applied to the NPD-derived event level, increasing from zero to a value ΔLrev (5 dB is recommended provisionally) along 0,1 · sstop and then falling linearly to zero along the remainder of the stop distance.
 2.7.14. 
The core of the modelling process, described here in full, is the calculation of the event noise level from the flight path information described in Sections 2.7.7 to 2.7.13.
 2.7.15. 
The sound generated by an aircraft movement at the observer location is expressed as a ‘single event sound (or noise) level’, a quantity which is an indicator of its impact on people. The received sound is measured in noise terms using a basic decibel scale L(t) which applies a frequency weighting (or filter) to mimic a characteristic of human hearing. The scale of most importance in aircraft noise contour modelling is A-weighted sound level, LA.

The metric most commonly used to encapsulate entire events is ‘single event sound (or noise) exposure levels’, LE, which account for all (or most of) the sound energy in the events. Making provisions for the time integration that this involves gives rise to the main complexities of segmentation (or simulation) modelling. Simpler to model is an alternative metric Lmax which is the maximum instantaneous level occurring during the event; however it is LE which is the basic building block of most modern aircraft noise indices and practical models can in future be expected to embody both Lmax and LE. Either metric can be measured on different scales of noise; in this document only A-weighted sound level is considered. Symbolically, the scale is usually indicated by extending the metric suffix, i.e. LAE, LAmax.

The single event sound (or noise) exposure level is expressed exactly as


LE=10×lg1t0∫t1t210Lt∕10dt (2.7.17)

where t0 denotes a reference time. The integration interval [t1,t2] is chosen to ensure that (nearly) all significant sound in the event is encompassed. Very often, the limits t1 and t2 are chosen to span the period for which the level L(t) is within 10 dB of Lmax. This period is known as the ‘10-dB down’ time. Sound (noise) exposure levels tabulated in the ANP database are 10-dB down values.

For aircraft noise contour modelling, the main application of equation (2.7.17) is the standard metric Sound Exposure Level LAE (acronym SEL):


LAE=10×lg1t0∫t1t210LAt∕10dtwith t0 = 1 second (2.7.18)

The exposure level equations above can be used to determine event levels when the entire time history of L(t) is known. Within the recommended noise modelling methodology such time histories are not defined; event exposure levels are calculated by summing segment values, partial event levels each of which defines the contribution from a single, finite segment of the flight path.
 2.7.16. 
The principal source of aircraft noise data is the international Aircraft Noise and Performance (ANP) database. This tabulates Lmax and LE as functions of propagation distance d — for specific aircraft types, variants, flight configurations (approach, departure, flap settings), and power settings P. They relate to steady flight at specific reference speeds Vref along a notionally infinite, straight flight path.

How values of the independent variables P and d are specified is described later. In a single look-up, with input values P and d, the output values required are the baseline levels Lmax(P,d) and/or LE∞(P,d) (applicable to an infinite flight path). Unless values happen to be tabulated for P and/or d exactly, it will generally be necessary to estimate the required event noise level(s) by interpolation. A linear interpolation is used between tabulated power-settings, whereas a logarithmic interpolation is used between tabulated distances (see Figure 2.7.i).

Figure 2.7.i
If Pi and Pi + 1 are engine power values for which noise level versus distance data are tabulated, the noise level L(P) at a given distance for intermediate power P, between Pi and Pi + 1, is given by:


LP=LPi+LPi+1−LPiPi+1−Pi×P−Pi (2.7.19)

If, at any power setting, di and di + 1 are distances for which noise data are tabulated, the noise level L(d) for an intermediate distance d, between di and di + 1 is given by


Ld=Ldi+Ldi+1−Ldilgdi+1−lgdi×lgd−lgdi (2.7.20)

By using equations (2.7.19) and (2.7.20), a noise level L(P,d) can be obtained for any power setting P and any distance d that is within the envelope of the NPD data base.

For distances d that lie outside the NPD envelope, equation (2.7.20) is used to extrapolate from the last two values, i.e. inwards from L(d1) and L(d2) or outwards from L(dI – 1) and L(dI) where I is the total number of NPD points on the curve. Thus


Inwards: Ld=Ld2+Ld1−Ld2lgd2−lgd1×lgd2−lgd (2.7.21)
Outwards: Ld=LdI−1−LdI−1−LdIlgdI−lgdI−1×lgd−lgdI−1 (2.7.22)

As, at short distances d, noise levels increase very rapidly with decreasing propagation distance, it is recommended that a lower limit of 30 m be imposed on d, i.e. d = max(d, 30 m).

The NPD data provided in the ANP database are normalised to specific atmospheric conditions (temperature of 25 °C and pressure of 101,325 kPa). Before applying the interpolation/extrapolation method previously described, an acoustic impedance adjustment shall be applied to these standard NPD data.

Acoustic impedance is related to the propagation of sound waves in an acoustic medium, and is defined as the product of the density of air and the speed of sound. For a given sound intensity (power per unit area) perceived at a specific distance from the source, the associated sound pressure (used to define SEL and LAmax metrics) depends on the acoustic impedance of the air at the measurement location. It is a function of temperature, atmospheric pressure (and indirectly altitude). There is therefore a need to adjust the standard NPD data of the ANP database to account for the actual temperature and pressure conditions at the receiver point, which are generally different from the normalised conditions of the ANP data.

The impedance adjustment to be applied to the standard NPD levels is expressed as follows:


ΔImpedance=10×lgρ×c409,81 (2.7.23)

where:

ΔImpedanceImpedance adjustment for the actual atmospheric conditions at the receiver point (dB)ρ · cAcoustic impedance (newton · seconds/m3) of the air at the receiver point (409,81 being the air impedance associated to the reference atmospheric conditions of the NPD data in the ANP database).

Impedance ρ · c is calculated as follows:


 (2.7.24)

δp/po, the ratio of the ambient air pressure at the observer altitude to the standard air pressure at mean sea level: po = 101,325 kPa (or 1013,25 mb)θ(T + 273,15)/(T0 + 273,15) the ratio of the air temperature at the observer altitude to the standard air temperature at mean sea level: T0 = 15,0 °C

The acoustic impedance adjustment is usually less than a few tenths of one dB. In particular, it should be noted that under the standard atmospheric conditions (po = 101,325 kPa and T0 = 15,0 °C), the impedance adjustment is less than 0,1 dB (0,074 dB). However, when there is a significant variation in temperature and atmospheric pressure relative to the reference atmospheric conditions of the NPD data, the adjustment can be more substantial.
 2.7.17. 
The segment values are determined by applying adjustments to the baseline (infinite path) values read from the NPD data. The maximum noise level from one flight path segment Lmax,seg can be expressed in general as


 (2.7.25)

and the contribution from one flight path segment to LE as


 (2.7.26)

The ‘correction terms’ in equations (2.7.25) and (2.7.26) — which are described in detail in Section 2.7.19 — account for the following effects:

ΔVDuration correction: the NPD data relate to a reference flight speed. This adjusts exposure levels to non-reference speeds. (It is not applied to Lmax,seg.)ΔI (φ)Installation effect: describes a variation in lateral directivity due to shielding, refraction and reflection caused by the airframe, engines and surrounding flow fields.Λ(β,ℓ)Lateral attenuation: significant for sound propagating at low angles to the ground, this accounts for the interaction between direct and reflected sound waves (ground effect) and for the effects of atmospheric non-uniformities (primarily caused by the ground) that refract sound waves as they travel towards the observer to the side of the flight path.ΔFFinite segment correction (noise fraction): accounts for the finite length of the segment which obviously contributes less noise exposure than an infinite one. It is only applied to exposure metrics.

If the segment is part of the take-off or landing ground roll and the observer is located behind the segment under consideration, special steps are taken to represent the pronounced directionality of jet engine noise that is observed behind an aircraft about to takeoff. These special steps result in particular in the use of a particular form of the noise for the exposure level:


 (2.7.27)
 (2.7.28)

Δ′FParticular form of the Segment correctionΔSORDirectivity correction: accounts for the pronounced directionality of jet engine noise behind the ground roll segment

The specific treatment of ground roll segments is described in Section 2.7.19.

Sections below describe the calculation of segment noise levels.

Maximum levelLmax is simply the greatest of the segment values Lmax,seg (see equations (2.7.25) and (2.7.27))


Lmax = max(Lmax,seg) (2.7.29)

where each segment value is determined from the aircraft NPD data for power P and distance d. These parameters and the modifier terms ΔI (φ) and Λ(β,ℓ) are explained below.

Exposure levelLE is calculated as the decibel sum of the contributions LE,seg from each noise-significant segment of its flight path; i.e.


LE=10×lg∑10LE,seg∕10 (2.7.30)

The summation proceeds step by step through the flight path segments.

The remainder of this chapter is concerned with the determination of the segment noise levels Lmax,seg and LE,seg.
 2.7.18. 
The power P, and distance d, for which the baseline levels Lmax,seg(P,d) and LE∞(P,d) are interpolated from the NPD tables, are determined from geometric and operational parameters that define the segment. How this is done is explained below with the aid of illustrations of the plane containing the segment and the observer.

Figures 2.7.j to 2.7.l show the source-receiver geometries when the observer O is (a) behind, (b) alongside and (c) ahead of the segment S1S2 where the flight direction is from S1 to S2. In these diagrams

Ois the observer locationS1, S2are the start and end of the segmentSpis the point of perpendicular closest approach to the observer on the segment or its extensiond1,d2are the distances between start, end of segment and observerdsis the shortest distance between observer and segmentdpis the perpendicular distance between observer and extended segment (minimum slant range)λis the length of flight path segmentqis the distance from S1 to Sp (negative if the observer position is behind the segment)

Figure 2.7.j
Figure 2.7.k
Figure 2.7.l
The flight path segment is represented by a bold, solid line. The dotted line represents the flight path extension which stretches to infinity in both directions. For airborne segments, when the event metric is an exposure level LE, the NPD distance parameter d is the distance dp between Sp and the observer, called the minimum slant range (i.e. the perpendicular distance from the observer to the segment or its extension, in other words to the (hypothetical) infinite flight path of which the segment is considered to be part).

However, for exposure level metrics where observer locations are behind the ground segments during the takeoff roll and locations ahead of ground segments during the landing roll, the NPD distance parameter d becomes the distance ds, the shortest distance from the observer to the segment (i.e. the same as for maximum level metrics).

For maximum level metrics, the NPD distance parameter d is ds, the shortest distance from the observer to the segment.

The tabulated NPD data describe the noise of an aircraft in steady straight flight on an infinite flight path, i.e. at constant engine power P. The recommended methodology breaks actual flight paths, along which speed and direction vary, into a number of finite segments, each of which is then taken to be part of a uniform, infinite flight path for which the NPD data are valid. But the methodology provides for changes of power along the length of a segment; it is taken to change linearly with distance from P1 at its start to P2 at its end. It is therefore necessary to define an equivalent steady segment value P. This is taken to be the value at the point on the segment that is closest to the observer. If the observer is alongside the segment (Figure 2.7.k) it is obtained by interpolation as given by equation (2.7.8) between the end values, i.e.


P=P21+qλ×P22−P21 (2.7.31)

If the observer is behind or ahead of the segment, it is that at the nearest end point, P1 or P2.
 2.7.19. 
The NPD data define noise event levels as a function of distance perpendicularly beneath an idealised straight level path of infinite length along which the aircraft flies with steady power at a fixed reference speed. The event level interpolated from the NPD table for a specific power setting and slant distance is thus described as a baseline level. It applies to an infinite flight path and has to be corrected to account for the effects of (1) non-reference speed, (2) engine installation effects (lateral directivity), (3) lateral attenuation, (4) finite segment length and (5) longitudinal directivity behind start of roll on takeoff — see equations (2.7.25) and (2.7.26).

This correction accounts for a change in exposure levels if the actual segment groundspeed is different to the aircraft reference speed Vref to which the basic NPD-data relate. Like engine power, speed varies along the segment (groundspeed varies from V1 to V2) and it is necessary to define an equivalent segment speed Vseg remembering that the segment is inclined to the ground; i.e.


Vseg = V/cosγ (2.7.32)

where here V is an equivalent segment groundspeed (for information, see equation B-22 which expresses V in terms of calibrated airspeed, Vc and


γ=tan−1z2−z1s2−s1 (2.7.33)

For airborne segments, V is taken to be the groundspeed at the closest point of approach S — interpolated between the segment end-point values assuming it varies linearly with time; i.e. if the observer is alongside the segment:


V=V21+qλ×V22−V21 (2.7.34)

If the observer is behind or ahead of the segment, it is that at the nearest end point, V1 or V2.

For runway segments (parts of the take-off or landing ground rolls for which γ = 0) Vseg is taken to be simply the average of the segment start and end speeds; i.e.


Vseg = (V1 + V2)/2 (2.7.35)

In either case the additive duration correction is then


ΔV = 10 · lg(Vref/Vseg) (2.7.36)

Figure 2.7.l shows the basic geometry in the plane normal to the aircraft flight path. The ground line is the intersection of the normal plane and the level ground plane. (If the flight path is level the ground line is an end view of the ground plane.) The aircraft is banked at angle ε measured counter-clockwise about its roll axis (i.e. starboard wing up). It is therefore positive for left turns and negative for right turns.

Figure 2.7.m

— The elevation angle β (between 0 and 90°) between the direct sound propagation path and the level ground line determines, together with the flight path inclination and the lateral displacement ℓ of the observer from the ground track, the lateral attenuation.
— The depression angle φ between the wing plane and the propagation path, determines the engine installation effects. With respect to the convention for the bank angle φ = β ± ε with the sign positive for observers to starboard (right) and negative for observers to port (left).

An aircraft in flight is a complex sound source. Not only are the engine (and airframe) sources complex in origin, but the airframe configuration, particularly the location of the engines, influences the noise radiation patterns through the processes of reflection, refraction and scattering by the solid surfaces and aerodynamic flow fields. This results in a non-uniform directionality of sound radiated laterally about the roll axis of the aircraft, referred to here as lateral directivity.

There are significant differences in lateral directivity between aircraft with fuselage-mounted and underwing-mounted engines and these are allowed for in the following expression:


ΔIφ=10×lga×cos2φ+sin2φb∕c×sin22φ+cos22φ dB (2.7.37)

where ΔI (φ) is the correction, in dB, at depression angle φ (see Figure 2.7.m) and


a = 0,00384, b = 0,0621, c = 0,8786 for wing-mounted engines and
a = 0,1225, b = 0,3290, c = 1 for fuselage-mounted engines.

For propeller aircraft directivity variations are negligible and for these it may be assumed that


ΔI(φ) = 0 (2.7.38)

Figure 2.7.n shows the variation of ΔI(φ) about the aircraft roll axis for the three engine installations. These empirical relationships have been derived by the SAE from experimental measurements made mainly beneath the wing. Until above-wing data have been analysed it is recommended that, for negative φ, ΔI(φ) = ΔI(0) for all installations.

Figure 2.7.n
It is assumed that ΔI (φ) is two-dimensional; i.e. it does not depend on any other parameter — and in particular that it does not vary with the longitudinal distance of the observer from the aircraft. This means that the elevation angle β for ΔI (φ) is defined as β = tan–1(z/ℓ). This is for modelling convenience until there is a better understanding of the mechanisms; in reality, installation effects are bound to be substantially three-dimensional. Despite that, a two-dimensional model is justified by the fact that event levels tend to be dominated by noise radiated sideways from the nearest segment.

Tabulated NPD event levels relate to steady level flight and are generally based on measurements made 1,2 m over soft level ground beneath the aircraft; the distance parameter is effectively height above the surface. Any effect of the surface on event noise levels beneath the aircraft, that might cause the tabulated levels to differ from free-field values, is assumed to be inherent in the data (i.e. in the shape of the level vs. distance relationships).

To the side of the flight path, the distance parameter is the minimum slant distance — the length of the normal from the receiver to the flight path. At any lateral position the noise level will generally be less than at the same distance immediately below the aircraft. Apart from lateral directivity or ‘installation effects’ described above is due to an excess lateral attenuation which causes the sound level to fall more rapidly with distance than indicated by the NPD curves. A previous, widely used method for modelling lateral propagation of aircraft noise was developed by the Society of Automotive Engineers (SAE) in AIR-1751 and the algorithms described below are based on improvements SAE now recommends AIR-5662. Lateral attenuation is a reflection effect, due to interference between directly radiated sound and that which reflects from the surface. It depends on the nature of the surface and can cause significant reductions in observed sound levels at low elevation angles. It is also very strongly affected by sound refraction, steady and unsteady, caused by wind and temperature gradients and turbulence which are themselves attributable to the presence of the surface. The mechanism of surface reflection is well understood and, for uniform atmospheric and surface conditions, it can be described theoretically with some precision. However, atmospheric and surface non-uniformities — which are not amenable to simple theoretical analysis — have a profound effect on the reflection effect, tending to ‘spread’ it to higher elevation angles; thus the theory is of limited applicability. SAE work to develop a better understanding of surface effects is continuing and this is expected to lead to better models. Until these are developed, the following methodology, described in AIR-5662, is recommended for calculating lateral attenuation. It is confined to the case of sound propagation over soft level ground which is appropriate for the great majority of civil airports. Adjustments to account for the effects of a hard ground surface (or, acoustically equivalent, water) are still under development.

The methodology is built on the substantial body of experimental data on sound propagation from aircraft with fuselage-mounted engines in straight (non-turning), steady, level flight reported originally in AIR-1751. Making the assumption that, for level flight, air-to-ground attenuation depends on (i) elevation angle β measured in the vertical plane and (ii) lateral displacement from the aircraft ground track ℓ, the data were analysed to obtain an empirical function for the total lateral adjustment ΛT(β,ℓ) (= lateral event level minus the level at the same distance beneath the aircraft).

As the term ΛT(β,ℓ) accounted for lateral directivity as well as lateral attenuation, the latter can be extracted by subtraction. Describing lateral directivity by equation (2.7.37), with the fuselage-mount coefficients and with φ replaced by β (appropriate to non-turning flight), the lateral attenuation becomes:


 (2.7.39)

where β and ℓ are measured as depicted in Figure 2.7.m in a plane normal to the infinite flight path which, for level flight, is also vertical.

Although Λ(β,ℓ) could be calculated directly using equation (2.7.39) with ΛT(β,ℓ) taken from AIR-1751, a more efficient relationship is recommended. This is the following empirical approximation adapted from AIR-5662:


 (2.7.40)

where Γ(ℓ) is a distance factor given by


 for 0 ≤ ℓ ≤ 914 m (2.7.41)
 for ℓ > 914 m (2.7.42)

and Λ(β) is long-range air-to-ground lateral attenuation given by


Λ(β) = 1,137 – 0,0229β + 9,72 · exp(– 0,142β) for 0° ≤ β ≤ 50° (2.7.43)
Λ(β) = 0 for 50° ≤ β ≤ 90° (2.7.44)

The expression for lateral attenuation Λ(β,ℓ), equation (2.7.40), which is assumed to hold good for all aircraft, propeller aircraft as well as fuselage-mount and wing-mount jets, is shown graphically in Figure 2.7.o.

Under certain circumstances (with terrain), it is possible for β to be less than zero. In such cases it is recommended that Λ(β) = 10,57.

Figure 2.7.o
Equations (2.7.41) to (2.7.44) describe the lateral attenuation Λ(β,ℓ) of sound arriving at the observer from an aeroplane in steady flight along an infinite, level flight path. When applying them to finite path segments that are not level, the attenuation has to be calculated for an equivalent level path — as the closest point on a simple extension of the inclined segment (that passes through the ground surface at some point) generally does not yield an appropriate elevation angle β.

The determination of lateral attenuation for finite segments differs markedly for Lmax and LE metrics. Segment maximum levels Lmax are determined from NPD data as a function of propagation distance d from the nearest point on the segment; no corrections are required to account for the dimensions of the segment. Likewise, lateral attenuation of Lmax is assumed to depend only on the elevation angle of, and ground distance to, the same point. Thus only the coordinates of that point are required. But for LE, the process is more complicated.

The baseline event level LE(P,d) that is determined from the NPD data, even though for finite segment parameters, applies nevertheless to an infinite flight path. The event exposure level from a segment, LE,seg, is of course less than the baseline level — by the amount of the finite segment correction defined later in Section 2.7.19. That correction, a function of the geometry of triangles OS1S2 in Figures 2.7.j to 2.7.l, defines what proportion of the total infinite path noise energy received at O comes from the segment; the same correction applies, whether or not there is any lateral attenuation. But any lateral attenuation shall be calculated for the infinite flight path, i.e. as a function of its displacement and elevation, not those of the finite segment.

Adding the corrections ΔV and ΔI, and subtracting lateral attenuation Λ(β,ℓ) from the NPD baseline level gives the adjusted event noise level for equivalent steady level flight on an adjacent, infinite straight path. But the actual flight path segments being modelled, those that affect the noise contours, are rarely level; aircraft are usually climbing or descending.

Figure 2.7.p illustrates a departure segment S1S2 — the aircraft is climbing at an angle γ — but the considerations remain very similar for an arrival. The remainder of the ‘real’ flight path is not shown; suffice it to state that S1S2 represents just a part of the whole path (which in general will be curved). In this case, the observer O is alongside, and to the left of, the segment. The aircraft is banked (anti-clockwise about the flight path) at an angle ε to the lateral horizontal axis. The depression angle φ from the wing plane, of which the installation effect ΔI is a function (equation (2.7.39)), lies in the plane normal to the flight path in which ε is defined. Thus φ = β – ε where β = tan–1(h/ℓ) and ℓ is the perpendicular distance OR from the observer to the ground track; i.e. the lateral displacement of the observer. The aeroplane's closest point of approach to the observer, S, is defined by the perpendicular OS, of length (slant distance) dp. The triangle OS1S2 accords with Figure 2.7.k, the geometry for calculating the segment correction ΔF.

Figure 2.7.p
To calculate the lateral attenuation using equation (2.7.40) (where β is measured in a vertical plane), an equivalent level flight path is defined in the vertical plane through S1S2 and with the same perpendicular slant distance dp from the observer. This is visualised by rotating the triangle ORS, and its attached flight path about OR (see Figure 2.7.p) through angle γ thus forming the triangle ORS′. The elevation angle of this equivalent level path (now in a vertical plane) is β = tan–1(h/ℓ) (ℓ remains unchanged). In this case, observer alongside, the lateral attenuation Λ(β,ℓ) is the same for LE and Lmax metrics.

Figure 2.7.q illustrates the situation when the observer point O lies behind the finite segment, not alongside. Here the segment is observed as a more distant part of an infinite path; a perpendicular can only be drawn to point Sp on its extension. The triangle OS1S2 accords with Figure 2.7.j which defines the segment correction ΔF. But in this case the parameters for lateral directivity and attenuation are less obvious.

Figure 2.7.q
Remembering that, as conceived for modelling purposes, lateral directivity (installation effect) is two-dimensional, the defining depression angle φ is still measured laterally from the aircraft wing plane. (The baseline event level is still that generated by the aircraft traversing the infinite flight path represented by the extended segment.) Thus the depression angle is determined at the closest point of approach, i.e. φ = βp - ε where βp is angle SpOC.

For maximum level metrics, the NPD distance parameter is taken as the shortest distance to the segment, i.e. d = d1. For exposure level metrics, it is the shortest distance dp from O to Sp on the extended flight path; i.e. the level interpolated from the NPD table is LE∞ (P1, dp).

The geometrical parameters for lateral attenuation also differ for maximum and exposure level calculations. For maximum level metrics the adjustment L(β,ℓ) is given by equation (2.7.40) with β = β1 = sin–1(z1/d1) and where β1 and d1 are defined by the triangle OC1S1 in the vertical plane through O and S1.

When calculating the lateral attenuation for airborne segments only and exposure level metrics, ℓ remains the shortest lateral displacement from the segment extension (OC). But to define an appropriate value of β it is again necessary to visualise an (infinite) equivalent level flight path of which the segment can be considered part. This is drawn through S1′, height h above the surface, where h is equal to the length of RS1 the perpendicular from the ground track to the segment. This is equivalent to rotating the actual extended flight path through angle γ about point R (see Figure 2.7.q). Insofar as R is on the perpendicular to S1, the point on the segment that is closest to O, the construction of the equivalent level path is the same as when O is alongside the segment.

The closest point of approach of the equivalent level path to the observer O is at S′, slant distance d, so that the triangle OCS′ so formed in the vertical plane then defines the elevation angle β = cos–1(ℓ/d). Although this transformation might seem rather convoluted, it should be noted that the basic source geometry (defined by d1, d2 and φ) remains untouched, the sound travelling from the segment towards the observer is simply what it would be if the entire flight along the infinitely extended inclined segment (of which for modelling purposes the segment forms part) were at constant speed V and power P1. The lateral attenuation of sound from the segment received by the observer, on the other hand, is related not to βp, the elevation angle of the extended path, but to β, that of the equivalent level path.

The case of an observer ahead of the segment is not described separately; it is evident that this is essentially the same as the case of the observer behind.

However, for exposure level metrics where observer locations are behind ground segments during the takeoff roll and locations ahead of ground segments during the landing roll, the value of β becomes the same as that for maximum level metrics, i.e. β = β1 = sin–1(z1/d1) and 

The adjusted baseline noise exposure level relates to an aircraft in continuous, straight, steady level flight (albeit with a bank angle ε that is inconsistent with straight flight). Applying the (negative) finite segment correction ΔF = 10 · lg(F), where F is the energy fraction, further adjusts the level to what it would be if the aircraft traversed the finite segment only (or were completely silent for the remainder of the infinite flight path).

The energy fraction term accounts for the pronounced longitudinal directivity of aircraft noise and the angle subtended by the segment at the observer position. Although the processes that cause the directionality are very complex, studies have shown that the resulting contours are quite insensitive to the precise directional characteristics assumed. The expression for ΔF below is based on a fourth-power 90-degree dipole model of sound radiation. It is assumed to be unaffected by lateral directivity and attenuation. How this correction is derived is described in detail in Appendix E.

The energy fraction F is a function of the ‘view’ triangle OS1S2 defined in Figures 2.7.j to 2.7.l such that:


ΔF=10×lg1πα21+α22+arctanα2−α11+α21−arctanα1 (2.7.45)

with


α1=−qdλ; α2=−q−λdλ; dλ=d0×10LE∞P,dp−LmaxP,dp∕10; d0=2π×Vref×t0.

where dλ is known as the ‘scaled distance’ (see Appendix E). Note that Lmax(P, dp) is the maximum level, from NPD data, for perpendicular distance dp, NOT the segment Lmax.

It is advised to apply a lower limit of – 150 dB to ΔF.

In the particular case of observer locations behind every takeoff ground-roll segment and every landing ground-roll segment, a reduced form of the noise fraction expressed in equation (2.7.45) is used, which corresponds to the specific case of q = 0. This is computed using


ΔF′=10 log101∕πα2∕1+α22+tan−1α2 10ΔSOR∕10 (2.7.46)

where α2 = λ/dλ and ΔSOR is the start-of-roll directivity function defined by equations (2.7.51) and (2.7.52).

The rationale for using this particular form of noise fraction is further explained in the section below, as part of the start-of-roll directivity application method.

In the case of ground roll segments, both for takeoff and landing, specific treatments are applied, which are described below.

The noise of jet aircraft — especially those equipped with lower by-pass ratio engines — exhibits a lobed radiation pattern in the rearward arc, which is characteristic of jet exhaust noise. This pattern is the more pronounced the higher the jet velocity and the lower the aircraft speed. This is of special significance for observer locations behind the start of roll, where both conditions are fulfilled. This effect is taken into account by a directivity function ΔSOR.

The function ΔSOR has been derived from several noise measurement campaigns using microphones adequately positioned behind and on the side of the SOR of departing jet aircraft.

Figure 2.7.r shows the relevant geometry. The azimuth angle ψ between the aircraft longitudinal axis and the vector to the observer is defined by


ψ=arccosqdSOR. (2.7.47)

The relative distance q is negative (see Figure 2.7.j) so that ψ ranges from 0° in the direction of the aircraft forward heading to 180° in the reverse direction.

Figure 2.7.r
The function ΔSOR represents the variation of the overall noise emanating from the takeoff ground roll measured behind the start of roll, relatively to the overall noise from takeoff ground roll measured on the side of the SOR, at the same distance:


LTGR(dSOR,ψ) = LTGR(dSOR,90°) + ΔSOR(dSOR,ψ) (2.7.48)

where LTGR(dSOR,90°) is the overall takeoff ground roll noise level generated by all takeoff ground roll segments at the point distance dSOR to the side of the SOR. At distances dSOR less than a normalising distance dSOR,0, the SOR directivity function is given by


Δ0SOR=51,47−1,553×ψ+0,015147×ψ2−0,000047173×ψ3 if 90° ≤ ψ < 148,4° (2.7.49)
Δ0SOR=339,18−2,5802×ψ−0,0045545×ψ2+0,000044193×ψ3 if 148,4° ≤ ψ ≤ 180° (2.7.50)

If the distance dSOR exceeds the normalising distance dSOR,0, the directivity correction is multiplied by a correction factor to account for the fact that the directivity becomes less pronounced for greater distances from the aircraft; i.e.


ΔSOR=Δ0SOR if dSOR ≤ dSOR,0 (2.7.51)
ΔSOR=Δ0SOR×dSOR,0dSOR if dSOR > dSOR,0 (2.7.52)

The normalising distance dSOR,0 equals 762 m (2 500 ft).

The ΔSOR function described above mostly captures the pronounced directivity effect of the initial portion of the takeoff roll at locations behind the SOR (because it is the closest to the receivers, with the highest jet velocity to aircraft speed ratio). However, the use of the hence established ΔSOR is ‘generalised’ to positions behind each individual ground roll segment — both takeoff and landing —, so not only behind the Start-of-Roll point (in the case of takeoff).

The parameters dS and ψ are calculated relative to the start of each individual ground roll segment.

The event level Lseg for a location behind a given takeoff or landing ground-roll segment is calculated to comply with the formalism of the ΔSOR function: it is essentially calculated for the reference point located on the side of the start point of the segment, at the same distance dS as the actual point, and is further adjusted with ΔSOR to obtain the event level at the actual point.

This means that the different correction terms in the equations below shall use the geometric parameters corresponding to this reference point located on the side of the start point:


Lmax,seg = Lmax(P,d = ds) + ΔI(φ) – Λ(β,l = ds) + ΔSOR (2.7.53)
LE,seg = LE,∞(P,d = ds) + ΔV + ΔI(φ) – Λ(β,l = ds) + Δ′F + ΔSOR (2.7.54)

where Δ′F is the reduced form of the noise fraction expressed in equation (2.7.46) for the case of q = 0 (as the reference point is located on the side of the start point) and remembering that dλ shall be calculated using dS (and not dp):


dλ=d0×10LE∞P,ds−LmaxP,ds∕10 (2.7.55)
 2.7.20. 
The method described in Section 2.7.19 is applicable to propeller-engined general-aviation aircraft when they are treated as propeller aircraft with regard to engine installation effects.

The ANP database includes entries for several general aviation aircraft. Whilst these are often the most common general-aviation aircraft operating, there may be occasions when it is appropriate to use additional data.

Where the specific general aviation aircraft are either not known or not in the ANP database, it is recommended to use the more generic aircraft data, GASEPF and GASEPV respectively. These data sets represent a small single-engined general aviation aircraft with fixed-pitch and variable-pitch propellers respectively. Tables of entries are presented in Annex I (Tables I-11 I-17)
 2.7.21. 
For the calculation of helicopter noise, the same calculation method used for fixed-wing aircraft (outlined in Section 2.7.14) may be used, provided helicopters are treated as propeller aircraft and engine-installation effects, associated with jet aircraft are not applied. Tables of entries for two different data sets are presented in Annex I (Tables I-18 I-27).
 2.7.22. 
In such cases where it is considered that noise associated with engine testing and auxiliary power-units are to be modelled, these are modelled according to the chapter on industrial noise. Although it is normally not the case, noise from aircraft engine tests (sometimes referred to as ‘engine run-ups’) at airports can make a contribution to noise impacts. Usually carried out for engineering purposes to check engine performance, aircraft are safely positioned away from buildings, aircraft, vehicular and/or personnel movements to avoid any jet-blast related damage.

For additional safety and noise control reasons, airports, particularly those with maintenance facilities that can lead to frequent engine tests, can install so-called ‘noise pens’, 3-sided baffled enclosures specially designed to deflect and dissipate jet blast and noise. Investigating the noise impact of such facilities, which can be further attenuated and reduced by the use of additional earth bunds or substantial noise barrier fencing, is best accomplished by treating the noise pen as a source of industrial noise and using an appropriate noise and sound propagation model.
 2.7.23. 
Sections 2.7.14 to 2.7.19 describe the calculation of the event sound noise level of a single aircraft movement at a single observer location. The total noise exposure at that location is calculated by accumulating the event levels of all noise-significant aircraft movements, i.e. all movements, inbound or outbound, that influence the cumulative level.
 2.7.24. 
Time-weighted equivalent sound levels, which account for all significant aircraft sound energy received, shall be expressed in a generic manner by the formula


Leq,W=10×lgt0T0×∑i=1Ngi×10LE,i∕10+C (2.7.56)

The summation is performed over all N noise events during the time interval T0 to which the noise index applies. LE,i is the single event noise exposure level of the i-th noise event. gi is a time-of-day dependent weighting factor (usually defined for day, evening and night periods). Effectively gi is a multiplier for the number of flights occurring during the specific periods. The constant C can have different meanings (normalising constant, seasonal adjustment etc.).

Using the relationship

gi=10Δi∕10

where Δi is the decibel weighting for the i-th period, equation (2.7.56) can be rewritten as


Leq,W=10×lgt0T0∑i=1N10LE,i+Δi∕10+C (2.7.57)

i.e. the time-of-day weighting is expressed by an additive level offset.
 2.7.25. 
The cumulative noise level is estimated by summing the contributions from all different types or categories of aircraft using the different flight routes which comprise the airport scenario.

To describe this summation process the following subscripts are introduced:

iindex for aircraft type or categoryjindex for flight track or subtrack (if subtracks are defined)kindex for flight track segment

Many noise indices — especially equivalent sound levels — include time-of-day weighting factors gi in their definition (equations (2.7.56) and (2.7.57)).

The summation process can be simplified by introducing a ‘weighted number of operations’


Mij = (gday · Nij,day + gevening · Nij,evening + gnight · Nij,night) (2.7.58)

The values Nij represent the numbers of operations of aircraft type/category i on track (or subtrack) j during the day, evening and night period respectively.

From equation (2.7.57) the (generic) cumulative equivalent sound level Leq at the observation point (x,y) is


Leq,Wx,y=10×lgt0T0×∑i∑j∑kMij×10LE,ijkx,y∕10+C (2.7.59)

T0 is the reference time period. It depends on — as well as the weighting factors gi — the specific definition of the weighted index used (e.g. LDEN). LE,ijk is the single event noise level contribution from segment k of track or subtrack j for an operation of aircraft of category i. The estimation of LE,ijk is described in detail in Sections 2.7.14 to 2.7.19.
 2.7.26. 
When noise contours are obtained by interpolation between index values at rectangularly spaced grid points, their accuracy depends on the choice of the grid spacing (or mesh size) ΔG, especially within cells where large gradients in the spatial distribution of the index cause tight curvature of the contours (see Figure 2.7.s). Interpolation errors are reduced by narrowing the grid spacing, but as this increases the number of grid points, the computation time is increased. Optimising a regular grid mesh involves balancing modelling accuracy and run time.

Figure 2.7.s
A marked improvement in computing efficiency that delivers more accurate results is to use an irregular grid to refine the interpolation in critical cells. The technique, depicted in Figure 2.7.s, is to tighten the mesh locally, leaving the bulk of the grid unchanged. This is very straightforward and achieved by the following steps:


((1)) Define a refinement threshold difference ΔLR for the noise index.
((2)) Calculate the basic grid for a spacing ΔG.
((3)) Check the differences ΔL of the index values between adjacent grid nodes.
((4)) If there are any differences ΔL > DLR, define a new grid with a spacing ΔG/2 and estimate the levels for the new nodes in the following way:

If ΔL ≤ ΔLR calculate the new value by linear interpolation from the adjacent ones.
ΔL > ΔLR completely anew from the basic input data.
((5)) Repeat steps 1-4 until all differences are less than the threshold difference.
((6)) Estimate the contours by linear interpolation.

If the array of index values is to be aggregated with others (e.g. when calculating weighted indices by summing separate day, evening and night contours) care is required to ensure that the separate grids are identical.
 2.7.27. 
In many practical cases, the true shape of a noise contour tends to be symmetrical about a ground track. However if the direction of this track is not aligned with the calculation grid, this can cause result in an asymmetric contour shape.

Figure 2.7.t
The straightforward way to avoid this effect is to tighten the grid. However this increases computation time. A more elegant solution is to rotate the computation grid so that its direction is parallel to the main ground tracks (i.e. usually parallel to the main runway). Figure 2.7.t shows the effect of such a grid rotation on the contour shape.
 2.7.28. 
A very time-efficient algorithm that eliminates the need to calculate a complete grid array of index values at the expense of a little more computational complexity is to trace the path of the contour, point by point. This option requires two basic steps to be performed and repeated (see Figure 2.7.u):

Figure 2.7.u
Step 1 is to find a first point P1 on the contour. This is done by calculating the noise index levels L in equidistant steps along a ‘search ray’ that is expected to cross the required contour of level LC. When the contour is crossed, the difference δ = LC – L changes sign. If this happens, the step-width along the ray is halved and the search direction is reversed. This is done until δ is smaller than a pre-defined accuracy threshold.

Step 2, which is repeated until the contour is sufficiently well defined, is to find the next point on the contour LC — which is at a specified straight line distance r from the current point. During consecutive angular steps, index levels and differences δ are calculated at the ends of vectors describing an arc with radius r. By similarly halving and reversing the increments, this time in the directions of the vector, the next contour point is determined within a predefined accuracy.

Figure 2.7.v
Some constraints shall be imposed to guarantee that the contour is estimated with a sufficient degree of accuracy (see Figure 2.7.v):


((1)) The length of the chord Δc (the distance between two contour points) shall be within an interval [Δcmin, Δcmax], e.g. [10 m, 200 m].
((2)) The length ratio between two adjacent chords of lengths Δcn and Δcn+1 shall be limited, e.g. 0,5 < Δcn/Δcn + 1 < 2.
((3)) With respect to a good fit of the chord length to the contour curvature the following condition shall be fulfilled:
Φn· max(Δcn – 1, Δcn) ≤ ε(ε≈ 15 m)
where Φn is the difference in the chord headings.

Experience with this algorithm has shown that, on an average, between 2 and 3 index values have to be calculated to determine a contour point with an accuracy of better than 0,01 dB.

Especially when large contours have to be calculated this algorithm speeds up computation time dramatically. However it should be noted that its implementation requires experience, especially when a contour breaks down into separate islands.
 2.8. 
For the assessment of the noise exposure of the population only residential buildings shall be considered. No people shall be assigned to other buildings without residential use such as schools, hospitals, office buildings or factories. The assignment of the population to the residential buildings shall be based on the latest official data (depending on the Member State's relevant regulations).

Because aircraft calculation are performed on a 100 m × 100 m resolution grid, the specific case of aircraft noise, levels shall be interpolated based on the nearest grid noise levels.

The number of inhabitants of a residential building is an important intermediate parameter for the estimation of the exposure to noise. Unfortunately, data on this parameter is not always available. Below it is specified how this parameter can be derived from data more readily available.

Symbols used in the following are:

BAbase area of the buildingDFSdwelling floor spaceDUFSdwelling unit floor spaceHheight of the buildingFSIdwelling floor space per inhabitantInhnumber of inhabitantsNFnumber of floorsVvolume of residential buildings

For the calculation of the number of inhabitants, either the following case 1 procedure or the case 2 procedure shall be used, depending on the availability of data.

1AThe number of inhabitants is known or has been estimated on the basis of dwelling units. In this case the number of inhabitants of a building is the sum of the number of inhabitants of all dwelling units in the building:
Inhbuilding=∑i=1nInhdwellinguniti (2.8.1)1BThe number of inhabitants is known only for entities larger than a building, e.g. sides of city blocks, city blocks, districts or even an entire municipality. In this case the number of inhabitants of a building is estimated based on the volume of the building:

Inhbuilding=VbuildingVtotal×Inhtotal (2.8.2)The index ‘total’ here refers to the respective entity considered. The volume of the building is the product of its base area and its height:

Vbuilding = BAbuilding × Hbuilding (2.8.3)If the height of the building is not known, it shall be estimated based on the number of floors NFbuilding, assuming an average height per floor of 3 m:

Hbuilding = NFbuilding × 3 m (2.8.4)If the number of floors is also not known, a default value for the number of floors representative of the district or the borough shall be used.
The total volume of residential buildings in the entity considered Vtotal is calculated as the sum of the volumes of all residential buildings in the entity:
Vtotal=∑i=1nVbuildingi (2.8.5)

In this case the number of inhabitants is estimated based on the average dwelling floor space per inhabitant FSI. If this parameter is not known, a national default value shall be used.

2AThe dwelling floor space is known on the basis of dwelling units. In this case the number of inhabitants of each dwelling unit is estimated as follows:

Inhdwellinguniti=DUFSiFSI (2.8.6)The number of inhabitants of the building can now be estimated as in CASE 1A above.2BThe dwelling floor space is known for the entire building, i.e. the sum of the dwelling floor spaces of all dwelling units in the building is known. In this case the number of inhabitants is estimated as follows:
Inhbuilding=DFSbuildingFSI (2.8.7)2CThe dwelling floor space is known only for entities larger than a building, e.g. sides of city blocks, city blocks, districts or even an entire municipality.
In this case the number of inhabitants of a building is estimated based on the volume of the building as described in CASE 1B above with the total number of inhabitants estimated as follows:
Inhtotal=DFStotalFSI (2.8.8)2DThe dwelling floor space is unknown. In this case the number of inhabitants of a building is estimated as described in CASE 2B above with the dwelling floor space estimated as follows:

DFSbuilding = BAbuilding × 0,8 × NFbuilding (2.8.9)The factor 0,8 is the conversion factor gross floor area → dwelling floor space. If a different factor is known to be representative of the area it shall be used instead and clearly documented.
If the number of floors of the building is not known, it shall be estimated based on the height of the building, Hbuilding, typically resulting in a non-integer number of floors:

NFbuilding=Hbuilding3 m (2.8.10)If neither the height of the building nor the number of floors is known, a default value for the number of floors representative of the district or the borough shall be used.

The assessment of population exposure to noise is based on receiver point levels at 4 m above the terrain level in front of building façades of residential buildings.

For the calculation of the number of inhabitants, either the following case 1 procedure or the case 2 procedure shall be used for land based noise sources. For aircraft noise calculated according to 2.6, all population of a building is associated to the nearest noise calculation point on the grid.

Figure a

((a)) Segments of a length of more than 5 m are split up into regular intervals of the longest possible length, but less than or equal to 5 m. Receiver points are placed in the middle of each regular interval.
((b)) Remaining segments above a length of 2,5 m are represented by one receiver point in the middle of each segment.
((c)) Remaining adjacent segments with a total length of more than 5 m are treated as polyline objects in a manner similar to that described in (a) and (b).
((d)) The number of inhabitants allocated to a receiver point, shall be weighted by the length of the represented façade so that the sum over all receiver points represents the total number of inhabitants.
((e)) Only for buildings with floor sizes that indicate a single dwelling per floor level, the most exposed façade noise level is directly used for the statistics and related to the number of inhabitants.

Figure b

((a)) Façades are considered separately or are split up every 5 m from the start position onwards, with a receiver position placed at the half-way distance of the façade or the 5 m segment
((b)) The remaining section has its receiver point in its mid-point.
((c)) The number of inhabitants allocated to a receiver point, shall be weighted by the length of the represented façade so that the sum over all receiver points represents the total number of inhabitants.
((d)) Only for buildings with floor sizes that indicate a single dwelling per floor level, the most exposed façade noise level is directly used for the statistics and related to the number of inhabitants.
 3. 
Input data to be used as appropriate in association with the methods described above are given in Appendix F to Appendix I.

In cases where input data provided in Appendix F to Appendix I are not applicable or cause deviations from the true value that do not meet the conditions presented under 2.1.2 and 2.6.2, other values can be used, provided that the values used and the methodology used to derive them are sufficiently documented, including demonstrating their suitability. This information shall be made publicly available.
 4. 
In cases when, for any reason, measurements are performed, these shall be in accordance with the principles governing long term average measurements stated in ISO 1996-1:2003 and ISO 1996-2:2007 or, for aircraft noise, ISO 20906:2009.

Appendix A
Section 2.7.6 of the main text describes in general terms the requirements for case-specific data describing an airport and its operations that are needed for noise contour calculations. The following datasheets are filled with example data for a hypothetical airport. Specific data formats will generally depend on the requirements and needs for the particular noise modelling system as well as the study scenario.
It is recommended that geographic information (reference points etc.) be specified in Cartesian coordinates. The choice of the particular coordinate system usually depends on the maps available.
A1 
A2 
For displaced thresholds, runway description may be repeated or displaced thresholds can be described in the ground track description section.

A3 
In the absence of radar data the following information is needed to describe particular ground tracks.

A4 
A5 
Example aircraft for a Chapter 3 Boeing 727-200 as derived from radar using the guidance set out in Section 2.7.9 of the main text.

Example for a procedural profile based on A/C-data stored in ANP database:

Appendix B
The terms and symbols used in this appendix are consistent with those conventionally used by aircraft performance engineers. Some basic terms are explained briefly below for the benefit of users not familiar with them. To minimise conflict with the main body of the method, symbols are mostly defined separately within this appendix. Quantities that are referenced in the main body of the method are assigned common symbols; a few that are used differently in this appendix are marked with an asterisk (*). There is some juxtaposition of US and SI units; again this is to preserve conventions that are familiar to users from different disciplines.

Break pointSee Flat RatingCalibrated airspeed(Otherwise termed equivalent or indicated airspeed.) The speed of the aircraft relative to the air as indicated by a calibrated instrument on the aircraft. The true airspeed, which is normally greater, can be calculated from the calibrated airspeed knowing the air density.Corrected net thrustNet thrust is the propulsive force exerted by an engine on the airframe. At a given power setting (EPR or N1) this falls with air density as altitude increases; corrected net thrust is the thrust at sea level.Flat ratingFor specific maximum component temperatures, the engine thrust falls as the ambient air temperature rises — and vice-versa. This means that there is a critical air temperature above which the rated thrust cannot be achieved. For most modern engines this is called the 'flat rated temperature' because, at lower air temperatures the thrust is automatically limited to the rated thrust to maximise service life. The thrust falls anyway at temperatures above the flat rated temperature — which is often called the break point or break temperature.SpeedMagnitude of aircraft velocity vector (relative to aerodrome coordinate system)Rated thrustThe service life of an aircraft engine is very dependent upon the operating temperatures of its components. The greater the power or trust generated, the higher the temperatures and the shorter the life. To balance performance and life requirements flat rated engines are assigned thrust ratings for take-off, climb and cruise which define normal maximum power settings.Thrust setting parameterThe pilot cannot select a particular engine thrust; rather s/he chooses an appropriate setting of this parameter which is displayed in the cockpit. It is usually either the engine pressure ratio (EPR) or low- pressure rotor (or fan) rotational speed (N1).

Quantities are dimensionless unless otherwise stated. Symbols and abbreviations not listed below are used only locally and defined in the text. Subscripts 1 and 2 denote conditions at the start and end of a segment respectively. Overbars denote segment mean values, i.e. average of start and end values.

aAverage acceleration, ft/s2amaxMaximum acceleration available, ft/s2A, B, C, DFlap coefficientsE, F, GA,B, HEngine thrust coefficientsFnNet thrust per engine, lbfFn/δCorrected net thrust per engine, lbfGClimb gradientG′Engine-out climb gradientGRMean runway gradient, positive uphillgGravitational acceleration, ft/s2ISAInternational Standard AtmosphereN *No of engines supplying thrustRDrag-to-lift ratio CD/CLROCSegment rate of climb (ft/min)sGround distance covered along ground track, ftsTO8Take-off distance into an 8 kt headwind, ftsTOGTake-off distance corrected for w and GR, ftsTOwTake-off distance into headwind w, ftTAir temperature, °CTBBreakpoint temperature, °CVGroundspeed, ktVCCalibrated airpeed, ktVTTrue airspeed, ktWAeroplane weight, lbwHeadwind speed, ktΔsStill air segment length projected onto ground track, ftΔswSegment length ground projection corrected for headwind, ftδp/po, the ratio of the ambient air pressure at the aeroplane to the standard air pressure at mean sea level: po = 101,325 kPa (or 1 013,25 mb)εBank angle, radiansγClimb/descent angle, radiansθ(T + 273,15)/(T0 + 273,15) the ratio of the air temperature at altitude to the standard air temperature at mean sea level: T0 = 15,0 °Cσ *ρ/ρ0 = Ratio of air density at altitude to mean sea level value (also, σ = δ/θ)

B1 
In the main, this appendix recommends procedures for calculating an aeroplane flight profile, based on specified aerodynamic and powerplant parameters, aircraft weight, atmospheric conditions, ground track and operating procedure (flight configuration, power setting, forward speed, vertical speed, etc.). The operating procedure is described by a set of procedural steps that prescribe how to fly the profile.

The flight profile, for takeoff or approach, is represented by a series of straight-line segments, the ends of which are termed profile points. It is calculated using aerodynamic and thrust equations containing numerous coefficients and constants which must be available for the specific combination of airframe and engine. This calculation process is described in the text as the process of flight path synthesis.

Apart from the aircraft performance parameters, which can be obtained from the ANP database, these equations require specification of (1) aeroplane gross weight, (2) the number of engines, (3) air temperature, (4) runway elevation, and (5) the procedural steps (expressed in terms of power settings, flap deflections, airspeed and, during acceleration, average rate-of-climb/descent) for each segment during takeoff and approach. Each segment is then classified as a ground roll, take-off or landing, constant speed climb, power cutback, accelerating climb with or without flap retraction, descent with or without deceleration and/or flap deployment, or final landing approach. The flight profile is built up step by step, the starting parameters for each segment being equal to those at the end of the preceding segment.

The aerodynamic-performance parameters in the ANP database are intended to yield a reasonably accurate representation of an aeroplane's actual flight path for the specified reference conditions (see Section 2.7.6 of the main text). But the aerodynamic parameters and engine coefficients have been shown to be adequate for air temperatures up to 43 °C, aerodrome altitudes up to 4 000 ft and across the range of weights specified in the ANP database. The equations thus permit the calculation of flight paths for other conditions; i.e. non-reference aeroplane weight, wind speed, air temperature, and runway elevation (air pressure), normally with sufficient accuracy for computing contours of average sound levels around an airport.

Section B-4 explains how the effects of turning flight are taken into account for departures. This allows bank angle to be accounted for when calculating the effects of lateral directivity (installation effects). Also, during turning flight, climb gradients will generally be reduced depending in the radius of the turn and the speed of the aeroplane. (The effects of turns during the landing approach are more complex and are not covered at present. However these will rarely influence noise contours significantly.)

Sections B-5 to B-9 describe the recommended methodology for generating departure flight profiles, based on ANP database coefficients and procedural steps.

Sections B-10 and B-11 describe the methodology used to generate approach flight profiles, based on ANP database coefficients and flight procedures.

Section B-12 provides worked examples of the calculations.

Separate sets of equations are provided to determine the net thrust produced by jet engines and propellers respectively. Unless noted otherwise, the equations for aerodynamic performance of an aeroplane apply equally to jet and propeller-powered aeroplanes.

Mathematical symbols used are defined at the beginning of this appendix and/or where they are first introduced. In all equations the units of coefficients and constants must of course be consistent with the units of the corresponding parameters and variables. For consistency with the ANP database, the conventions of aircraft performance engineering are followed in this appendix; distances and heights in feet (ft), speed in knots (kt), mass in pounds (lb), force in pounds-force (high-temperature corrected net thrust), and so on — even though some dimensions (e.g. atmospheric ones) are expressed in SI units. Modellers using other unit systems should be very careful to apply appropriate conversion factors when adopting the equations to their needs.

In some modelling applications the flight path information is provided not as procedural steps but as coordinates in position and time, usually determined by analysis of radar data. This is discussed in Section 2.7.7 of the main text. In this case the equations presented in this Appendix are used ‘in reverse’; the engine thrust parameters are derived from the aircraft motion rather than vice-versa. In general, once the flight path data has been averaged and reduced to segment form, each segment being classified by climb or descent, acceleration or deceleration, and thrust and flap changes, this is relatively straightforward by comparison with synthesis which often involves iterative processes.

B2 
The propulsive force produced by each engine is one of five quantities that need to be defined at the ends of each flight path segment (the others being height, speed, power setting and bank angle). Net thrust represents the component of engine gross thrust that is available for propulsion. For aerodynamic and acoustical calculations, the net thrust is referred to standard air pressure at mean sea level. This is known as corrected net thrust, Fn/δ.

This will be either the net thrust available when operating at a specified thrust rating, or the net thrust that results when the thrust-setting parameter is set to a particular value. For a turbojet or turbofan engine operating at a specific thrust rating, corrected net thrust is given by the equation


Fn/δ = E + F · Vc + GA· h + GB· h2 + H · T (B-1)

where

Fnis the net thrust per engine, lbfδis the ratio of the ambient air pressure at the aeroplane to the standard air pressure at mean sea level, i.e., to 101,325 kPa (or 1 013,25 mb) [ref. 1]Fn/δis the corrected net thrust per engine, lbfVCis the calibrated airspeed, ktTis the ambient air temperature in which the aeroplane is operating, °C, andE, F, GA, GB, Hare engine thrust constants or coefficients for temperatures below the engine flat rating temperature at the thrust rating in use (on the current segment of the takeoff/climbout or approach flight path), lb.s/ft, lb/ft, lb/ft2, lb/°C. Obtainable from the ANP database.

Data are also provided in the ANP database to allow calculation of non-rated thrust as a function of a thrust setting parameter. This is defined by some manufacturers as engine pressure ratio EPR, and by others as low-pressure rotor speed, or fan speed, N1. When that parameter is EPR, equation B-1 is replaced by


Fn/δ = E + F · VC + GA · h + GB · h2 + H · T + K1 · EPR + K2 · EPR2 (B-2)

where K1 and K2 are coefficients, from the ANP database that relate corrected net thrust and engine pressure ratio in the vicinity of the engine pressure ratio of interest for the specified aeroplane Mach number.

When engine rotational speed N1 is the parameter used by the cockpit crew to set thrust, the generalised thrust equation becomes


Fn∕δ=E+F×VC+GA×h+GB×h2+H×T+K3×N1θ+K4×N1θ2 (B-3)

where

N1is the rotational speed of the engine's low-pressure compressor (or fan) and turbine stages, %θ= (T + 273)/288,15, the ratio of the absolute total temperature at the engine inlet to the absolute standard air temperature at mean sea level [ref. 1].N1θis the corrected low pressure rotor speed, %; andK3, K4are constants derived from installed engine data encompassing the N1 speeds of interest.

Note that for a particular aeroplane E, F, GA, GB and H in equations B-2 and B-3 might have different values from those in equation B-1.

Not every term in the equation will always be significant. For example, for flat-rated engines operating in air temperatures below the break point (typically 30 °C), the temperature term may not be required. For engines not flat rated, ambient temperature must be considered when designating rated thrust. Above the engine flat rating temperature, a different set of engine thrust coefficients (E, F, GA, GB and H)high must be used to determine the thrust level available. Normal practice would then be to compute Fn/δ using both the low temperature and high temperature coefficients and to use the higher thrust level for temperatures below the flat rating temperature and use the lower calculated thrust level for temperature above the flat rating temperature.

Where only low temperature thrust coefficients are available, the following relationship may be used:


(Fn/δ)high = F · VC + (E + H · TB)·(1 – 0,006 · T)/(1 – 0,006 · TB) (B-4)

where

(Fn/δ)highhigh-temperature corrected net thrust (lbf),TBbreakpoint temperature (in the absence of a definitive value assume a default value of 30 °C).

The ANP database provides values for the constants and coefficients in equations B-1 to B-4.

For propeller driven aeroplanes, corrected net thrust per engine should be read from graphs or calculated using the equation


Fn/δ = (326 · η · Pp/VT)/δ (B-5)

where

ηis the propeller efficiency for a particular propeller installation and is a function of propeller rotational speed and aeroplane flight speedVTis the true airspeed, ktPpis net propulsive power for the given flight condition, e.g. max takeoff or max climb power, hp

Parameters in equation B-5 are provided in the ANP database for maximum takeoff thrust and maximum climb thrust settings.

True airspeed VT is estimated from the calibrated airspeed VC using the relationship


VT=VC∕σ (B-6)

where σ is the ratio of the air density at the aeroplane to the mean sea-level value.

Often, aircraft takeoff weights are below maximum allowable and/or the available runway field length exceeds the minimum required with the use of maximum takeoff thrust. In these cases, it is common practice to reduce engine thrust below maximum levels in order to prolong engine life and, sometimes, for noise abatement purposes. Engine thrust can only be reduced to levels that maintain a required margin of safety. The calculation procedure used by airline operators to determine the amount of thrust reduction is regulated accordingly: it is complex and takes into account numerous factors including takeoff weight, ambient air temperature, declared runway distances, runway elevation and runway obstacle clearance criteria. Therefore the amount of thrust reduction varies from flight to flight.

As they can have a profound effect upon departure noise contours, modellers should take reasonable account of reduced thrust operations and, to make best possible provision, to seek practical advice from operators.

If such advice is not available it is still advisable to make some allowance by alternative means. It is impractical to mirror the operators' calculations for noise modelling purposes; nor would they be appropriate alongside the conventional simplifications and approximations which are made for the purposes of calculating long term average noise levels. As a practicable alternative the following guidance is provided. It should be emphasised that considerable research is ongoing in this area and thus, this guidance is subject to change.

Analysis of FDR data has shown that the level of thrust reduction is strongly correlated with ratio of the actual takeoff weight to the Regulated Takeoff Weight (RTOW), down to a fixed lower limit; i.e.


Fn/δ = (Fn/δ)max · W/WRTOW (B-7)

where (Fn/δ)max is the maximum rated thrust, W is the actual gross take-off weight and WRTOW is the Regulated Takeoff Weight.

The RTOW is the maximum takeoff weight that can be safely used, whilst satisfying takeoff field length, engine-out and obstacle requirements. It is a function of the available runway length, airfield elevation, temperature, headwind, and flap angle. This information can be obtained from operators and should be more readily available than data on actual levels of reduced thrust. Alternatively, it may be computed using data contained in aircraft flight manuals.

When employing reduced take-off thrust, operators often, but not always, reduce climb thrust from below maximum levels. This prevents situations occurring where, at the end of the initial climb at take-off thrust, power has to be increased rather than cut back. However, it is more difficult to establish a rationale for a common basis here. Some operators use fixed detents below maximum climb thrust, sometimes referred to as Climb 1 and Climb 2, typically reducing climb thrust by 10 and 20 percent respectively relative to maximum. It is recommended that whenever reduced takeoff thrust is used, climb thrust levels also be reduced by 10 percent.

B3 
For the purposes of this document, the variations of temperature, pressure and density with height above mean sea level are taken to be those of the International Standard Atmosphere. The methodologies described below have been validated for aerodrome altitudes up to 4 000 ft above sea level and for air temperatures up to 43 °C (109 °F).

Although, in reality, mean wind velocity varies with both height and time, it is not usually practicable to take account of this for noise contour modelling purposes. Instead, the flight performance equations given below are based on the common assumption that the aeroplane is heading directly into a (default) headwind of 8 kt at all times — regardless of compass bearing (although no explicit account of mean wind velocity is taken in sound propagation calculations). Methods for adjusting the results for other headwind speeds are provided.

B4 
The remainder of this appendix explains how to calculate the required properties of the segments joining the profile points s,z that define the two-dimensional flight path in the vertical plane above the ground track. Segments are defined in sequence in the direction of motion. At the end of any one segment (or at the start of roll in the case of the first for a departure) where the operational parameters and the next procedural step are defined, the need is to calculate the climb angle and track distance to the point where the required height and/or speed are reached.

If the track is straight, this will be covered by a single profile segment, the geometry of which can then be determined directly (albeit sometimes with a degree of iteration). But if a turn starts or ends, or changes in radius or direction, before the required end-conditions are reached, a single segment would be insufficient because the aircraft lift and drag change with bank angle. To account for the effects of the turn on the climb, additional profile segments are required to implement the procedural step — as follows.

The construction of the ground track is described in Section 2.7.13 of the text. This is done independently of any aircraft flight profile (although with care not to define turns that could not be flown under normal operating constraints). But as the flight profile — height and speed as a function of track distance — is affected by turns so that the flight profile cannot be determined independently of the ground track.

To maintain speed in a turn the aerodynamic wing lift has to be increased, to balance centrifugal force as well as the aircraft weight. This in turn increases drag and, consequently the propulsive thrust required. The effects of the turn are expressed in the performance equations as functions of bank angle ε which, for an aircraft in level flight turning at constant speed on a circular path, is given by


 ε=tan−12,85×V2r×g (B-8)
where V is the groundspeed, kt 
r is the turn radius, ft
and g is the acceleration due to gravity, ft/s2

All turns are assumed to have a constant radius and second-order effects associated with non-level flight paths are disregarded; bank angles are based on the turn radius r of the ground track only.

To implement a procedural step a provisional profile segment is first calculated using the bank angle ε at the start point — as defined by equation B-8 for the track segment radius r. If the calculated length of the provisional segment is such that it does not cross the start or end of a turn, the provisional segment is confirmed and attention turns to the next step.

But if the provisional segment crosses one or more starts or ends of turns (where ε changes), the flight parameters at the first such point are estimated by interpolation (see Section 2.7.13), saved along with its coordinates as end-point values, and the segment truncated. The second part of the procedural step is then applied from that point — once more assuming provisionally that it can be completed in a single segment with the same end conditions but with the new start point and new bank angle. If this second segment then passes another change of turn radius/direction, a third segment will be required — and so on until the end-conditions are achieved.

It will be apparent that accounting fully for the effects of turns, as described above, involves considerable computational complexity because the climb profile of any aircraft has to be calculated separately for each ground track that it follows. But changes to the vertical profile caused by turns usually have a markedly smaller influence on the contours than the changes of bank angle, and some users may prefer to avoid the complexity — at the cost of some loss of precision — by disregarding the effects of turns on profiles while still accounting for the bank angle in the calculation of lateral sound emission (see Section 2.7.19). Under this approximation profile points for a particular aircraft operation are calculated once only, assuming a straight ground track (for which ε = 0).

B5 
Take-off thrust accelerates the aeroplane along the runway until lift-off. Calibrated airspeed is then assumed to be constant throughout the initial part of the climbout. Landing gear, if retractable, is assumed to be retracted shortly after lift-off.

For the purpose of this document, the actual takeoff ground-roll is approximated by an equivalent take-off distance (into a default headwind of 8 kt), sTO8, defined as shown in Figure B-1, as the distance along the runway from brake release to the point where a straight line extension of the initial landing-gear-retracted climb flight path intersects the runway.

Figure B-1
On a level runway, the equivalent takeoff ground-roll distance sTO8 in feet is determined from


STO8=B8×θ×W∕δ2N×Fn∕δ (B-9)

where

B8is a coefficient appropriate to a specific aeroplane/flap-deflection combination for the ISA reference conditions, including the 8-knot headwind, ft/lbfWis the aeroplane gross weight at brake release, lbfNis the number of engines supplying thrust.
Since equation B-9 accounts for variation of thrust with airspeed and runway elevation, for a given aeroplane the coefficient B8 depends only on flap deflection.
For headwind other than the default 8 kt, the takeoff ground-roll distance is corrected by using:


STOw=STO8×VC−w2VC−82 (B-10)

where

STOwis the ground-roll distance corrected for headwind w, ftVC(in this equation) is the calibrated speed at takeoff rotation, ktwis the headwind, kt

The takeoff ground-roll distance is also corrected for runway gradient as follows:


STOG=STOw×αα−g×GR (B-11)

where

STOGis the ground-roll distance (ft) corrected for headwind and runway gradient,ais the average acceleration along the runway, equal to VC×σ2∕2×sTOw, ft/s2GRis the runway gradient; positive when taking-off uphill

B6 
This type of segment is defined by the aeroplane's calibrated airspeed, flap setting, and the height and bank angle at its end, together with the headwind speed (default 8 kt). As for any segment, the segment start parameters including corrected net thrust are put equal to those at the end of the preceding segment — there are no discontinuities (except of flap angle and bank angle which, in these calculations, are allowed to change in steps). The net thrusts at the segment end are first calculated using the appropriate equation from B-1 to B-5. The average geometric climb angle g (see Figure B-1) is then given by


 (B-12)

where the over-bars denote mid-segment values (= average of start-point and end-point values — generally the mid-segment values) and

Kis a speed-dependent constant equal to 1,01 when VC ≤ 200 kt or 0,95 otherwise. This constant accounts for the effects on climb gradient of climbing into an 8-knot headwind and the acceleration inherent in climbing at constant calibrated airspeed (true speed increases as air density diminishes with height).Ris the ratio of the aeroplane's drag coefficient to its lift coefficient appropriate to the given flap setting. The landing gear is assumed to be retracted.εBank angle, radians

The climb angle is corrected for headwind w using:


γw=γ×VC−8VC−w (B-13)

where γw is the average climb angle corrected for headwind.

The distance that the aeroplane traverses along the ground track, Δs, while climbing at angle γw, from an initial altitude h1 to a final altitude h2 is given by


ΔS=h2−h1tanγw (B-14)

As a rule, two distinct phases of a departure profile involve climb at constant airspeed. The first, sometime referred to as the initial climb segment is immediately after lift-off, where safety requirements dictate that the aeroplane is flown at a minimum airspeed of least the takeoff safety speed. This is a regulated speed and should be achieved by 35 ft above the runway during normal operation. However, it is common practice to maintain an initial climb speed slightly beyond the takeoff safety speed, usually by 10-20 kt, as this tends to improve the initial climb gradient achieved. The second is after flap retraction and initial acceleration, referred to as continuing climb.

During the initial climb, the airspeed is dependent on the takeoff flap setting and the aeroplane gross weight. The calibrated initial climb speed VCTO is calculated using the first order approximation:


VCTO=C×W (B-15)

where C is a coefficient appropriate to the flap setting (kt/√lbf), read from the ANP database.

For continuing climb after acceleration, the calibrated airspeed is a user input parameter.

B7 
Power is reduced, or cut back, from take-off setting at some point after takeoff in order to extend engine life and often to reduce noise in certain areas. Thrust is normally cut back during either a constant speed climb segment (Section B6) or an acceleration segment (Section B8). As it is a relatively brief process, typically of only 3-5 seconds′ duration, is it modelled by adding a ‘transition segment’ to the primary segment. This is usually taken to cover a horizontal ground distance of 1 000 ft (305 m).

In normal operation the engine thrust is reduced to the maximum climb thrust setting. Unlike the take-off thrust, climb thrust can be sustained indefinitely, usually in practice until the aeroplane has reached its initial cruise altitude. The maximum climb thrust level is determined with equation B-1 using the manufacturer supplied maximum thrust coefficients. However, noise abatement requirements may call for additional thrust reduction, sometimes referred to as a deep cutback. For safety purposes the maximum thrust reduction is limited to an amount determined by the performance of the aeroplane and the number of engines.

The minimum ‘reduced-thrust’ level is sometimes referred to as the engine-out ‘reduced thrust’:


Fn∕δengine.out=W∕δ2N−1×sinarctan0,01×G′K+Rcosε (B-16)

where

δ2is the pressure ratio at altitude h2G′is the engine-out percentage climb gradient:
 = 0 % for aeroplanes with automatic thrust restoration systems; otherwise,
 = 1,2 % for 2-engine aeroplane
 = 1,5 % for 3-engine aeroplane
 = 1,7 % for 4-engine aeroplane

The climb segment gradient is calculated using equation B-12, with thrust calculated using either B-1 with maximum climb coefficients, or B-16 for reduced thrust. The climb segment is then broken into two sub-segments, both having the same climb angle. This is illustrated in Figure B-2.

Figure B-2
The first sub-segment is assigned a 1 000 ft (304 m) ground distance, and the corrected net thrust per engine at the end of 1 000 ft is set equal to the cutback value. (If the original horizontal distance is less than 2 000 ft, one half of the segment is used to cutback thrust.) The final thrust on the second sub-segment is also set equal to the cutback thrust. Thus, the second sub-segment is flown at constant thrust.

B8 
This usually follows the initial climb. As for all flight segments, the start-point altitude h1, true airspeed VT1, and thrust (Fn/δ)1 are those from the end of the preceding segment. The end-point calibrated airspeed VC2 and the average climb rate ROC are user inputs (bank angle ε is a function of speed and radius of turn). As they are interdependent, the end altitude h2, end true airspeed VT2, end thrust (Fn/δ)2 and segment track length Δs have to be calculated by iteration; the end altitude h2 is guessed initially and then recalculated repeatedly using equations B-16 and B-17 until the difference between successive estimates is less than a specified tolerance, e.g. one foot. A practical initial estimate is h2 = h1 + 250 feet.

The segment track length (horizontal distance covered) is estimated as:


Sseg=0,95×k2×V2T2−V2T1∕2 αmax−G×g (B-17)

where

0,95is a factor to account for effect of 8 kt headwind when climbing at 160 ktkis a constant to convert knots to ft/sec = 1,688 ft/s per ktVT2= true airspeed at segment end, kt: VT2=VC2∕σ2
where σ2 = air density ratio at end altitude h2αmax= maximum acceleration in level flight (ft/s2)
= G= climb gradient 
where ROC = climb rate, ft/min

Using this estimate of Δs, the end altitude h2′ is then re-estimated using:


h2′ = h1 + s · G/0,95 (B-18)

As long as the error h′2−h2 is outside the specified tolerance, the steps B-17 and B-18 are repeated using the current iteration segment-end values of altitude h2, true airspeed VT2, corrected net thrust per engine (Fn/δ)2. When the error is within the tolerance, the iterative cycle is terminated and the acceleration segment is defined by the final segment-end values.
If during the iteration process (amax – G·g) < 0,02 g, the acceleration may be too small to achieve the desired VC2 in a reasonable distance. In this case, the climb gradient can be limited to G = amax/g – 0,02, in effect reducing the desired climb rate in order to maintain acceptable acceleration. If G < 0,01 it should be concluded there is not enough thrust to achieve the acceleration and climb rate specified; the calculation should be terminated and the procedure steps revised.
The acceleration segment length is corrected for headwind w by using:


ΔSw=ΔS×VT−wVT−8 (B-19)

Thrust cutback is inserted into an acceleration segments in the same way as for a constant speed segment; by turning its first part into a transition segment. The cutback thrust level is calculated as for the constant-speed cutback thrust procedure, using equation B-1 only. Note it is not generally possible to accelerate and climb whilst maintaining the minimum engine-out thrust setting. The thrust transition is assigned a 1 000 ft (305 m) ground distance, and the corrected net thrust per engine at the end of 1 000 ft is set equal to the cutback value. The speed at the end of the segment is determined by iteration for a segment length of 1 000 ft. (If the original horizontal distance is less than 2 000 ft, one half of the segment is used for thrust change.) The final thrust on the second sub-segment is also set equal to the cutback thrust. Thus, the second sub-segment is flown at constant thrust.

B9 
If additional acceleration segments are included in the climbout flight path, equations B-12 to B-19 should be used again to calculate the ground-track distance, average climb angle, and height gain for each. As before, the final segment height must be estimated by iteration.

B10 
Approach flight normally requires the aeroplane to descend and decelerate in preparation for the final approach segment where the aeroplane is configured with approach flap and gear down. The flight mechanics are unchanged from the departure case; the main difference is that the height and speed profile is generally known, and it is the engine thrust levels that must be estimated for each segment. The basic force balance equation is:


Fn∕δ=W×R×cosγ+sinγ+α∕gN×δ (B-20)

Equation B-20 may be used in two distinct ways. First the aeroplane speeds at the start and end of a segment may be defined, along with a descent angle (or level segment distance) and initial and final segment altitudes. In this case the deceleration may be calculated using:


α=V2∕cosγ2−V1∕cosγ22×ΔS∕cosγ (B-21)

where Δs is the ground distance covered and V1 and V2 and are the initial and final groundspeeds calculated using


V=VC×cosγσ−w (B-22)

Equations B-20, B-21 and B-22 confirm that whilst decelerating over a specified distance at a constant rate of descent, a stronger headwind will result in more thrust being required to maintain the same deceleration, whilst a tailwind will require less thrust to maintain the same deceleration.

In practice most, if not all decelerations during approach flight are performed at idle thrust. Thus for the second application of equation B-20, thrust is defined at an idle setting and the equation is solved iteratively to determine (1) the deceleration and (2) the height at the end of the deceleration segment — in a similar manner to the departure acceleration segments. In this case, deceleration distance can be very different with head and tail winds and it is sometimes necessary to reduce the descent angle in order to obtain reasonable results.

For most aeroplanes, idle thrust is not zero and, for many, it is also a function of flight speed. Thus, equation B-20 is solved for the deceleration by inputting an idle thrust; the idle thrust is calculated using an equation of the form:


(Fn/δ)idle = Eidle + Fidle · VC + GA,idle · h + GB,idle · h2 + Hidle · T (B-23)

where (Eidle, Fidle, GA,idle, GB,idle and Hidle) are idle thrust engine coefficients available in the ANP database.

B11 
The landing approach calibrated airspeed, VCA, is related to the landing gross weight by an equation of the same form as equation B-11, namely


VCA≈D×W (B-24)

where the coefficient D (kt/√lbf) corresponds to the landing flap setting.

The corrected net thrust per engine during descent along the approach glideslope is calculated by solving equation B-12 for the landing weight W and a drag-to-lift ratio R appropriate for the flap setting with landing gear extended. The flap setting should be that typically used in actual operations. During landing approach, the glideslope descent angle γ may be assumed constant. For jet-powered and multi-engine propeller aeroplanes, γ is typically – 3°. For single-engine, propeller-powered aeroplanes, γ is typically – 5°.

The average corrected net thrust is calculated by inverting equation B-12 using K = 1,03 to account for the deceleration inherent in flying a descending flight path into an 8-knot reference headwind at the constant calibrated airspeed given by equation B-24, i.e.


 (B-25)

For headwinds other than 8 kt, average corrected net thrust becomes


 (B-26)

The horizontal distance covered is calculated by:


ΔS=h2−h1tanγ (B-27)

(positive since h1 > h2 and γ is negative).

Appendix C
It is recommended that, in the absence of radar data, lateral ground track dispersion be modelled on the assumption that the spread of tracks perpendicular to the backbone track follows a Gaussian normal distribution. Experience has shown that this assumption is a reasonable one in most cases.
Assuming a Gaussian distribution with a standard deviation S, illustrated in Figure C-1, about 98,8 percent of all movements fall within boundaries of ± 2,5·S (i.e. within a swathe of width of 5·S).

Figure C-1(The width of the swathe is 5 times the standard deviation of the ground track spreading)
A Gaussian distribution can normally be modelled adequately using 7 discrete sub-tracks evenly spaced between the ± 2,5·S boundaries of the swathe as shown in Figure C-1.
However, the adequacy of the approximation depends on the relationship of the sub-track track separation to the heights of the aircraft above. There may be situations (very tight or very dispersed tracks) where a different number of subtracks is more appropriate. Too few subtracks cause ‘fingers’ to appear in the contour. Tables C-1 and C-2 show the parameters for a subdivision into between 5 and 13 subtracks. Table C-1 shows the location of the particular subtracks, Table C-2 the corresponding percentage of movements on each subtrack.

Subtrack number Location of subtracks for subdivision into
5 subtracks 7 subtracks 9 subtracks 11 subtracks 13 subtracks
12/13     ± 2,31·S
10/11    ± 2,27·S ± 1,92·S
8/9   ± 2,22·S ± 1,82·S ± 1,54·S
6/7  ± 2,14·S ± 1,67·S ± 1,36·S ± 1,15·S
4/5 ± 2,00·S ± 1,43·S ± 1,11·S ± 0,91·S ± 0,77·S
2/3 ± 1,00·S ± 0,71·S ± 0,56·S ± 0,45·S ± 0,38·S
1 0 0 0 0 0
Subtrack number Percentage of movements on subtrack for subdivision into
5 subtracks 7 subtracks 9 subtracks 11 subtracks 13 subtracks
12/13     1,1 %
10/11    1,4 % 2,5 %
8/9   2,0 % 3,5 % 4,7 %
6/7  3,1 % 5,7 % 7,1 % 8,0 %
4/5 6,3 % 10,6 % 12,1 % 12,1 % 11,5 %
2/3 24,4 % 22,2 % 19,1 % 16,6 % 14,4 %
1 38,6 % 28,2 % 22,2 % 18,6 % 15,6 %
Appendix D
The noise level contributions from each segment of the flight path are derived from the NPD-data stored in the international ANP database. However it must be noted that these data have been normalised using average atmospheric attenuation rates defined in SAE AIR-1845. Those rates are averages of values determined during aircraft noise certification testing in Europe and the USA. The wide variation of atmospheric conditions (temperature and relative humidity) in those tests is shown in Figure D-1.

Figure D-1
The curves overlaid on Figure D-1, calculated using an industry standard atmospheric attenuation model ARP 866A, illustrate that across the test conditions a substantial variation of high frequency (8 kHz) sound absorption would be expected (although the variation of overall absorption would be rather less).
Because the attenuation rates, given in Table D-1, are arithmetic averages, the complete set cannot be associated with a single reference atmosphere (i.e. with specific values of temperature and relative humidity). They can only thought of as properties of a purely notional atmosphere — referred to as the ‘AIR-1845 atmosphere’.

Centre frequency of 1/3-octave band [Hz] Attenuation rate [dB/100 m] Centre frequency of 1/3-octave band [Hz] Attenuation rate [dB/100 m]
50 0,033 800 0,459
63 0,033 1 000 0,590
80 0,033 1 250 0,754
100 0,066 1 600 0,983
125 0,066 2 000 1,311
160 0,098 2 500 1,705
200 0,131 3 150 2,295
250 0,131 4 000 3,115
315 0,197 5 000 3,607
400 0,230 6 300 5,246
500 0,295 8 000 7,213
630 0,361 10 000 9,836The attenuation coefficients in Table D-1 may be assumed valid over reasonable ranges of temperature and humidity. However, to check whether adjustments may be necessary, ARP-866A should be used to calculate average atmospheric absorption coefficients for the average airport temperature T and relative humidity RH. Where, from a comparison of these with those in Table D-1, it is judged that adjustment is required the following methodology should be used.
The ANP database provides the following NPD data for each power setting:

— maximum sound level versus slant distance, Lmax(d)
— time integrated level versus distance for the reference airspeed, LE(d), and
— unweighted reference sound spectrum at a slant distance of 305 m (1 000 ft), Ln,ref(dref) where n = frequency band (ranging from 1 to 24 for 1/3-octave bands with centre frequencies from 50 Hz to 10 kHz),
all data being normalised to the AIR-1845 atmosphere.
Adjustment of the NPD curves to user-specified conditions T and RH is performed in three steps:

1.. First the reference spectrum is corrected to remove the SAE AIR-1845 atmospheric attenuation αn,ref:

Ln(dref) = Ln,ref(dref) + αn,ref · dref (D-1)
where Ln(dref) is the unattenuated spectrum at dref = 305 m and αn,ref is the coefficient of atmospheric absorption for the frequency band n taken from Table D-1 (but expressed in dB/m).
2.. Next the corrected spectrum is adjusted to each of the 10 standard NPD distances di using attenuation rates for both (i) the SAE AIR-1845 atmosphere and (ii) the user-specified atmosphere (based on SAE ARP-866A).

((i)) For the SAE AIR-1845 atmosphere:

Ln,ref(di) = Ln(dref) – 20,lg(di/dref) – αn,ref · di (D-2)
((ii)) For the user atmosphere:

Ln,866A(T,RH,di) = Ln(dref) – 20,lg(di/dref) – αn,866A(T,RH) · di (D-3)
where αn,866A is the coefficient of atmospheric absorption for the frequency band n (expressed in dB/m) calculated using SAE ARP-866A with temperature T, and relative humidity RH.
3.. At each NPD distance di the two spectra are A-weighted and decibel-summed to determine the resulting A-weighted levels LA,866A and LA,ref — which are then subtracted arithmetically:

ΔLT,RH,di=LA,866A−LA,ref=10×lg ∑n=12410 Ln,866AT,RH,di−An∕10−10×lg ∑n=12410 Ln,refdi−An∕10 (D-4)
The increment ΔL is the difference between the NPDs in the user-specified atmosphere and the reference atmosphere. This is added to the ANP database NPD data value to derive the adjusted NPD data.
Applying ΔL to adjust both Lmax and LE NPDs effectively assumes that different atmospheric conditions affect the reference spectrum only and have no effect on the shape of the level-time-history This may be considered valid for typical propagation ranges and typical atmospheric conditions.

Appendix E
This appendix outlines the derivation of the finite segment correction and the associated energy fraction algorithm described in Section 2.7.19.

E1 
The energy fraction algorithm is based on the sound radiation of a ‘fourth-power’ 90-degree dipole sound source. This has directional characteristics which approximate those of jet aircraft sound, at least in the angular region that most influences sound event levels beneath and to the side of the aircraft flight path.

Figure E-1Figure E-1 illustrates the geometry of sound propagation between the flight path and the observer location O. The aircraft at P is flying in still uniform air with a constant speed on a straight, level flight path. Its closest point of approach to the observer is Pp. The parameters are:ddistance from the observer to the aircraftdpperpendicular distance from the observer to the flight path (slant distance)qdistance from P to Pp = – V · τVspeed of the aircraftttime at which the aircraft is at point Ptptime at which the aircraft is located at the point of closest approach Ppτflight time = time relative to time at Pp = t – tpψangle between flight path and aircraft-observer vectorIt should be noted that, since the flight time τ relative to the point of closest approach is negative when the aircraft is before the observer position (as shown in Figure E-1), the relative distance q to the point of closest approach becomes positive in that case. If the aircraft is ahead of the observer, q becomes negative.
E2 
The basic concept of the energy fraction is to express the noise exposure E produced at the observer position from a flight path segment P1P2 (with a start-point P1 and an end-point P2) by multiplying the exposure E∞ from the whole infinite path flyby by a simple factor — the energy fraction factor F:


E = F · E∞ (E-1)

Since the exposure can be expressed in terms of the time-integral of the mean-square (weighted) sound pressure level, i.e.


E=const×∫p2τdτ (E-2)

to calculate E, the mean-square pressure has to be expressed as a function of the known geometric and operational parameters. For a 90° dipole source,


p2=p2p×d2pd2×sin2ψ=p2p×d4pd4 (E-3)

where p2 and pp2 are the observed mean-square sound pressures produced by the aircraft as it passes points P and Pp.

This relatively simple relationship has been found to provide a good simulation of jet aircraft noise, even though the real mechanisms involved are extremely complex. The term dp2/d2 in equation E-3 describes just the mechanism of spherical spreading appropriate to a point source, an infinite sound speed and a uniform, non-dissipative atmosphere. All other physical effects — source directivity, finite sound speed, atmospheric absorption, Doppler-shift etc. — are implicitly covered by the sin2ψ term. This factor causes the mean square pressure to decrease inversely as d4; whence the expression ‘fourth power’ source.

Introducing the substitutions

d2=d2p+q2=d2p+V×τ2 and ddp2=1+V×τdp2

the mean-square pressure can be expressed as a function of time (again disregarding sound propagation time):


p2=p2p×1+V×τdp2−2 (E-4)

Putting this into equation (E-2) and performing the substitution


α=V×τdp (E-5)

the sound exposure at the observer from the flypast between the time interval [τ1,τ2] can be expressed as


E=const×p2p×dpV×∫α1α211+α22dα (E-6)

The solution of this integral is:


E=const×p2p×dpV×12α21+α22+arctanα2−α11+α21−arctanα1 (E-7)

Integration over the interval [–∞,+∞] (i.e. over the whole infinite flight path) yields the following expression for the total exposure E∞:


E∞=const×π2×p2p×dpV (E-8)

and hence the energy fraction according to equation E-1 is


F=1πα21+α22+arctanα2−α11+α21−arctanα1 (E-9)

E3 
A consequence of using the simple dipole model to define the energy fraction is that it implies a specific theoretical difference ΔL between the event noise levels Lmax and LE. If the contour model is to be internally consistent, this needs to equal the difference of the values determined from the NPD curves. A problem is that the NPD data are derived from actual aircraft noise measurements — which do not necessarily accord with the simple theory. The theory therefore needs an added element of flexibility. But in principal the variables α1 and α2 are determined by geometry and aircraft speed — thus leaving no further degrees of freedom. A solution is provided by the concept of a scaled distance dλ as follows.

The exposure level LE,∞ as tabulated as a function of dp in the ANP database for a reference speed Vref, can be expressed as


LE,∞Vref=10×lg ∫−∞∞p2×dtp20×tref (E-10)

where p0 is a standard reference pressure and tref is a reference time (= 1 s for SEL). For the actual speed V it becomes


LE,∞V=LE,∞Vref+10×lg VrefV (E-11)

Similarly the maximum event level Lmax can be written


Lmax=10×lg p2pp20 (E-12)

For the dipole source, using equations E-8, E-11 and E-12, noting that (from equations E-2 and E-8) ∫−∞∞p2×dt=π2×p2p×dpV, the difference ΔL can be written:


ΔL=LE,∞−Lmax=10×lg VVref×π2p2pdpV×1p20×tref−10×lg p2pp20 (E-13)

This can only be equated to the value of ΔL determined from the NPD data if the slant distance dp used to calculate the energy fraction is substituted by a scaled distance dλ given by


dλ=2π×Vref×tref×10 LE,∞−Lmax∕10 (E-14a)

or


dλ=d0×10 LE,∞−Lmax∕10withd0=2π×Vref×tref (E-14b)

Replacing dp by dλ in equation E-5 and using the definition q = Vτ from Figure E-1 the parameters α1 and α2 in equation E-9 can be written (putting q = q1 at the start-point and q – λ = q2 at the endpoint of a flight path segment of length λ) as


α1=−q1dλandα2=−q1+λdλ (E-15)

Having to replace the slant actual distance by scaled distance diminishes the simplicity of the fourth-power 90 degree dipole model. But as it is effectively calibrated in situ using data derived from measurements, the energy fraction algorithm can be regarded as semi-empirical rather than a pure theoretical.

Appendix F
This appendix presents the database for most of the existing road noise sources to be used to calculate road traffic noise following the method described in 2.2 Road traffic noise.

Category Coefficient 63 125 250 500 1 000 2 000 4 000 8 000
1 AR 79,7 85,7 84,5 90,2 97,3 93,9 84,1 74,3
BR 30 41,5 38,9 25,7 32,5 37,2 39 40
AP 94,5 89,2 88 85,9 84,2 86,9 83,3 76,1
BP – 1,3 7,2 7,7 8 8 8 8 8
2 AR 84 88,7 91,5 96,7 97,4 90,9 83,8 80,5
BR 30 35,8 32,6 23,8 30,1 36,2 38,3 40,1
AP 101 96,5 98,8 96,8 98,6 95,2 88,8 82,7
BP – 1,9 4,7 6,4 6,5 6,5 6,5 6,5 6,5
3 AR 87 91,7 94,1 100,7 100,8 94,3 87,1 82,5
BR 30 33,5 31,3 25,4 31,8 37,1 38,6 40,6
AP 104,4 100,6 101,7 101 100,1 95,9 91,3 85,3
BP 0 3 4,6 5 5 5 5 5
4a AR 0 0 0 0 0 0 0 0
BR 0 0 0 0 0 0 0 0
AP 88 87,5 89,5 93,7 96,6 98,8 93,9 88,7
BP 4,2 7,4 9,8 11,6 15,7 18,9 20,3 20,6
4b AR 0 0 0 0 0 0 0 0
BR 0 0 0 0 0 0 0 0
AP 95 97,2 92,7 92,9 94,7 93,2 90,1 86,5
BP 3,2 5,9 11,9 11,6 11,5 12,6 11,1 12
5 AR        
BR        
AP        
BP        
Category Coefficient 63 125 250 500 1 000 2 000 4 000 8 000
1 ai 0,0 0,0 0,0 2,6 2,9 1,5 2,3 9,2
bi 0,0 0,0 0,0 – 3,1 – 6,4 – 14,0 – 22,4 – 11,4
Category k Cr Cp
1 1 = crossing – 4,5 5,5
2 = roundabout – 4,4 3,1
2 1 = crossing – 4 9
2 = roundabout – 2,3 6,7
3 1 = crossing – 4 9
2 = roundabout – 2,3 6,7
4a 1 = crossing 0 0
2 = roundabout 0 0
4b 1 = crossing 0 0
2 = roundabout 0 0
5 1 = crossing  
2 = roundabout  
Description Min speed at which it is valid[km/h] Maximum speed at which it is valid[km/h] Category αm(63 Hz) αm(125 Hz) αm(250 Hz) αm(500 Hz) αm(1 kHz) αm(2 kHz) αm(4 kHz) αm(8 kHz) ßm
Reference road surface — — 1 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
2 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
3 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
1-layer ZOAB 50 130 1 0,5 3,3 2,4 3,2 – 1,3 – 3,5 – 2,6 0,5 – 6,5
2 0,9 1,4 1,8 – 0,4 – 5,2 – 4,6 – 3,0 – 1,4 0,2
3 0,9 1,4 1,8 – 0,4 – 5,2 – 4,6 – 3,0 – 1,4 0,2
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
2-layer ZOAB 50 130 1 0,4 2,4 0,2 – 3,1 – 4,2 – 6,3 – 4,8 – 2,0 – 3,0
2 0,4 0,2 – 0,7 – 5,4 – 6,3 – 6,3 – 4,7 – 3,7 4,7
3 0,4 0,2 – 0,7 – 5,4 – 6,3 – 6,3 – 4,7 – 3,7 4,7
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
2-layer ZOAB (fine) 80 130 1 – 1,0 1,7 – 1,5 – 5,3 – 6,3 – 8,5 – 5,3 – 2,4 – 0,1
2 1,0 0,1 – 1,8 – 5,9 – 6,1 – 6,7 – 4,8 – 3,8 – 0,8
3 1,0 0,1 – 1,8 – 5,9 – 6,1 – 6,7 – 4,8 – 3,8 – 0,8
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
SMA-NL5 40 80 1 1,1 – 1,0 0,2 1,3 – 1,9 – 2,8 – 2,1 – 1,4 – 1,0
2 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
3 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
SMA-NL8 40 80 1 0,3 0,0 0,0 – 0,1 – 0,7 – 1,3 – 0,8 – 0,8 – 1,0
2 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
3 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
Brushed down concrete 70 120 1 1,1 – 0,4 1,3 2,2 2,5 0,8 – 0,2 – 0,1 1,4
2 0,0 1,1 0,4 – 0,3 – 0,2 – 0,7 – 1,1 – 1,0 4,4
3 0,0 1,1 0,4 – 0,3 – 0,2 – 0,7 – 1,1 – 1,0 4,4
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
Optimised brushed down concrete 70 80 1 – 0,2 – 0,7 0,6 1,0 1,1 – 1,5 – 2,0 – 1,8 1,0
2 – 0,3 1,0 – 1,7 – 1,2 – 1,6 – 2,4 – 1,7 – 1,7 – 6,6
3 – 0,3 1,0 – 1,7 – 1,2 – 1,6 – 2,4 – 1,7 – 1,7 – 6,6
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
Fine broomed concrete 70 120 1 1,1 – 0,5 2,7 2,1 1,6 2,7 1,3 – 0,4 7,7
2 0,0 3,3 2,4 1,9 2,0 1,2 0,1 0,0 3,7
3 0,0 3,3 2,4 1,9 2,0 1,2 0,1 0,0 3,7
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
Worked surface 50 130 1 1,1 1,0 2,6 4,0 4,0 0,1 – 1,0 – 0,8 – 0,2
2 0,0 2,0 1,8 1,0 – 0,7 – 2,1 – 1,9 – 1,7 1,7
3 0,0 2,0 1,8 1,0 – 0,7 – 2,1 – 1,9 – 1,7 1,7
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
Hard elements in herring-bone 30 60 1 8,3 8,7 7,8 5,0 3,0 – 0,7 0,8 1,8 2,5
2 8,3 8,7 7,8 5,0 3,0 – 0,7 0,8 1,8 2,5
3 8,3 8,7 7,8 5,0 3,0 – 0,7 0,8 1,8 2,5
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
Hard elements not in herring-bone 30 60 1 12,3 11,9 9,7 7,1 7,1 2,8 4,7 4,5 2,9
2 12,3 11,9 9,7 7,1 7,1 2,8 4,7 4,5 2,9
3 12,3 11,9 9,7 7,1 7,1 2,8 4,7 4,5 2,9
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
Quiet hard elements 30 60 1 7,8 6,3 5,2 2,8 – 1,9 – 6,0 – 3,0 – 0,1 – 1,7
2 0,2 0,7 0,7 1,1 1,8 1,2 1,1 0,2 0,0
3 0,2 0,7 0,7 1,1 1,8 1,2 1,1 0,2 0,0
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
Thin layer A 40 130 1 1,1 0,1 – 0,7 – 1,3 – 3,1 – 4,9 – 3,5 – 1,5 – 2,5
2 1,6 1,3 0,9 – 0,4 – 1,8 – 2,1 – 0,7 – 0,2 0,5
3 1,6 1,3 0,9 – 0,4 – 1,8 – 2,1 – 0,7 – 0,2 0,5
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
Thin layer B 40 130 1 0,4 – 1,3 – 1,3 – 0,4 – 5,0 – 7,1 – 4,9 – 3,3 – 1,5
2 1,6 1,3 0,9 – 0,4 – 1,8 – 2,1 – 0,7 – 0,2 0,5
3 1,6 1,3 0,9 – 0,4 – 1,8 – 2,1 – 0,7 – 0,2 0,5
4a 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
4b 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0
5         
Appendix G
This appendix presents the database for most of the existing railway noise sources to be used to calculate railway noise following the method described in 2.3 Railway noise.

Wavelength Lr,VEH,i
Min Max Cast iron tread brake Composite brake Disk brake
1 000 mm – 15,0 25,0 2,2 – 4,0 – 5,9
800 mm – 15,0 25,0 2,2 – 4,0 – 5,9
630 mm – 15,0 25,0 2,2 – 4,0 – 5,9
500 mm – 15,0 25,0 2,2 – 4,0 – 5,9
400 mm – 15,0 25,0 2,2 – 4,0 – 5,9
315 mm – 15,0 25,0 2,2 – 4,0 – 5,9
250 mm – 15,0 25,0 2,2 – 4,0 2,3
200 mm – 15,0 25,0 2,2 – 4,0 2,8
160 mm – 15,0 25,0 2,4 – 4,0 2,6
120 mm – 15,0 25,0 0,6 – 4,0 1,2
100 mm – 15,0 25,0 2,6 – 4,0 2,1
80 mm – 15,0 25,0 5,8 – 4,3 0,9
63 mm – 15,0 25,0 8,8 – 4,6 – 0,3
50 mm – 15,0 25,0 11,1 – 4,9 – 1,6
40 mm – 15,0 25,0 11,0 – 5,2 – 2,9
31,5 mm – 15,0 25,0 9,8 – 6,3 – 4,9
25 mm – 15,0 25,0 7,5 – 6,8 – 7,0
20 mm – 15,0 25,0 5,1 – 7,2 – 8,6
16 mm – 15,0 25,0 3,0 – 7,3 – 9,3
12 mm – 15,0 25,0 1,3 – 7,3 – 9,5
10 mm – 15,0 25,0 0,2 – 7,1 – 10,1
8 mm – 15,0 25,0 – 0,7 – 6,9 – 10,3
6,3 mm – 15,0 25,0 – 1,2 – 6,7 – 10,3
5 mm – 15,0 25,0 – 1,0 – 6,0 – 10,8
4 mm – 15,0 25,0 0,3 – 3,7 – 10,9
3,2 mm – 15,0 25,0 0,2 – 2,4 – 9,5
2,5 mm – 15,0 25,0 1,3 – 2,6 – 9,5
2 mm – 15,0 25,0 3,1 – 2,5 – 9,5
1,6 mm – 15,0 25,0 3,1 – 2,5 – 9,5
1,2 mm – 15,0 25,0 3,1 – 2,5 – 9,5
1 mm – 15,0 25,0 3,1 – 2,5 – 9,5
0,8 mm – 15,0 25,0 3,1 – 2,5 – 9,5Wavelength Lr,VEH,i
Min Max EN ISO 3095:2013(Well maintained and very smooth) Average network(Normally maintained smooth)
1 000 mm – 15,0 22,0 17,1 11,0
800 mm – 15,0 22,0 17,1 11,0
630 mm – 15,0 22,0 17,1 11,0
500 mm – 15,0 22,0 17,1 11,0
400 mm – 15,0 22,0 17,1 11,0
315 mm – 15,0 22,0 15,0 10,0
250 mm – 15,0 22,0 13,0 9,0
200 mm – 15,0 22,0 11,0 8,0
160 mm – 15,0 22,0 9,0 7,0
120 mm – 15,0 22,0 7,0 6,0
100 mm – 15,0 22,0 4,9 5,0
80 mm – 15,0 22,0 2,9 4,0
63 mm – 15,0 22,0 0,9 3,0
50 mm – 15,0 22,0 – 1,1 2,0
40 mm – 15,0 22,0 – 3,2 1,0
31,5 mm – 15,0 22,0 – 5,0 0,0
25 mm – 15,0 22,0 – 5,6 – 1,0
20 mm – 15,0 22,0 – 6,2 – 2,0
16 mm – 15,0 22,0 – 6,8 – 3,0
12 mm – 15,0 22,0 – 7,4 – 4,0
10 mm – 15,0 22,0 – 8,0 – 5,0
8 mm – 15,0 22,0 – 8,6 – 6,0
6,3 mm – 15,0 22,0 – 9,2 – 7,0
5 mm – 15,0 22,0 – 9,8 – 8,0
4 mm – 15,0 22,0 – 10,4 – 9,0
3,2 mm – 15,0 22,0 – 11,0 – 10,0
2,5 mm – 15,0 22,0 – 11,6 – 11,0
2 mm – 15,0 22,0 – 12,2 – 12,0
1,6 mm – 15,0 22,0 – 12,8 – 13,0
1,2 mm – 15,0 22,0 – 13,4 – 14,0
1 mm – 15,0 22,0 – 14,0 – 15,0
0,8 mm – 15,0 22,0 – 14,0 – 15,0
Wavelength A3,i
Min Max Axle load 50 kN — wheel diameter 360 mm Axle load 50 kN — wheel diameter 680 mm Axle load 25 kN — wheel diameter 920 mm Axle load 50 kN — wheel diameter 920 mm Axle load 100 kN — wheel diameter 920 mm
1 000 mm – 30,0 0,0 0,0 0,0 0,0 0,0 0,0
800 mm – 30,0 0,0 0,0 0,0 0,0 0,0 0,0
630 mm – 30,0 0,0 0,0 0,0 0,0 0,0 0,0
500 mm – 30,0 0,0 0,0 0,0 0,0 0,0 0,0
400 mm – 30,0 0,0 0,0 0,0 0,0 0,0 0,0
315 mm – 30,0 0,0 0,0 0,0 0,0 0,0 0,0
250 mm – 30,0 0,0 0,0 0,0 0,0 0,0 0,0
200 mm – 30,0 0,0 0,0 0,0 0,0 0,0 0,0
160 mm – 30,0 0,0 0,0 0,0 0,0 0,0 0,0
120 mm – 30,0 0,0 0,0 0,0 0,0 0,0 0,0
100 mm – 30,0 0,0 0,0 0,0 0,0 0,0 0,0
80 mm – 30,0 0,0 0,0 0,0 0,0 – 0,2 – 0,2
63 mm – 30,0 0,0 0,0 – 0,2 – 0,2 – 0,5 – 0,6
50 mm – 30,0 0,0 – 0,2 – 0,4 – 0,5 – 0,9 – 1,3
40 mm – 30,0 0,0 – 0,5 – 0,7 – 0,9 – 1,6 – 2,2
31,5 mm – 30,0 0,0 – 1,2 – 1,5 – 1,6 – 2,5 – 3,7
25 mm – 30,0 0,0 – 2,0 – 2,8 – 2,5 – 3,8 – 5,8
20 mm – 30,0 0,0 – 3,0 – 4,5 – 3,8 – 5,8 – 9,0
16 mm – 30,0 0,0 – 4,3 – 7,0 – 5,8 – 8,5 – 11,5
12 mm – 30,0 0,0 – 6,0 – 10,3 – 8,5 – 11,4 – 12,5
10 mm – 30,0 0,0 – 8,4 – 12,0 – 12,0 – 12,0 – 12,0
8 mm – 30,0 0,0 – 12,0 – 12,5 – 12,6 – 13,5 – 14,0
6,3 mm – 30,0 0,0 – 11,5 – 13,5 – 13,5 – 14,5 – 15,0
5 mm – 30,0 0,0 – 12,5 – 16,0 – 14,5 – 16,0 – 17,0
4 mm – 30,0 0,0 – 13,9 – 16,0 – 16,0 – 16,5 – 18,4
3,2 mm – 30,0 0,0 – 14,7 – 16,5 – 16,5 – 17,7 – 19,5
2,5 mm – 30,0 0,0 – 15,6 – 17,0 – 17,7 – 18,6 – 20,5
2 mm – 30,0 0,0 – 16,6 – 18,0 – 18,6 – 19,6 – 21,5
1,6 mm – 30,0 0,0 – 17,6 – 19,0 – 19,6 – 20,6 – 22,4
1,2 mm – 30,0 0,0 – 18,6 – 20,2 – 20,6 – 21,6 – 23,5
1 mm – 30,0 0,0 – 19,6 – 21,2 – 21,6 – 22,6 – 24,5
0,8 mm – 30,0 0,0 – 20,6 – 22,2 – 22,6 – 23,6 – 25,4
Frequency LH,TR,i
Min Max Mono-block sleeper on soft rail pad Mono-block sleeper on medium stiffness rail pad Mono-block on hard rail pad Bi-block sleeper on soft rail pad Bi-block sleeper on medium stiffness rail pad Bi-block sleeper on hard rail pad Wooden sleepers
50 Hz 0,0 140,0 53,3 50,9 50,1 50,9 50,0 49,8 44,0
63 Hz 0,0 140,0 59,3 57,8 57,2 56,6 56,1 55,9 51,0
80 Hz 0,0 140,0 67,2 66,5 66,3 64,3 64,1 64,0 59,9
100 Hz 0,0 140,0 75,9 76,8 77,2 72,3 72,5 72,5 70,8
125 Hz 0,0 140,0 79,2 80,9 81,6 75,4 75,8 75,9 75,1
160 Hz 0,0 140,0 81,8 83,3 84,0 78,5 79,1 79,4 76,9
200 Hz 0,0 140,0 84,2 85,8 86,5 81,8 83,6 84,4 77,2
250 Hz 0,0 140,0 88,6 90,0 90,7 86,6 88,7 89,7 80,9
316 Hz 0,0 140,0 91,0 91,6 92,1 89,1 89,6 90,2 85,3
400 Hz 0,0 140,0 94,5 93,9 94,3 91,9 89,7 90,2 92,5
500 Hz 0,0 140,0 97,0 95,6 95,8 94,5 90,6 90,8 97,0
630 Hz 0,0 140,0 99,2 97,4 97,0 97,5 93,8 93,1 98,7
800 Hz 0,0 140,0 104,0 101,7 100,3 104,0 100,6 97,9 102,8
1 000 Hz 0,0 140,0 107,1 104,4 102,5 107,9 104,7 101,1 105,4
1 250 Hz 0,0 140,0 108,3 106,0 104,2 108,9 106,3 103,4 106,5
1 600 Hz 0,0 140,0 108,5 106,8 105,4 108,8 107,1 105,4 106,4
2 000 Hz 0,0 140,0 109,7 108,3 107,1 109,8 108,8 107,7 107,5
2 500 Hz 0,0 140,0 110,0 108,9 107,9 110,2 109,3 108,5 108,1
3 160 Hz 0,0 140,0 110,0 109,1 108,2 110,1 109,4 108,7 108,4
4 000 Hz 0,0 140,0 110,0 109,4 108,7 110,1 109,7 109,1 108,7
5 000 Hz 0,0 140,0 110,3 109,9 109,4 110,3 110,0 109,6 109,1
6 350 Hz 0,0 140,0 110,0 109,9 109,7 109,9 109,8 109,6 109,1
8 000 Hz 0,0 140,0 110,1 110,3 110,4 110,0 110,0 109,9 109,5
10 000 Hz 0,0 140,0 110,6 111,0 111,4 110,4 110,5 110,6 110,2Frequency LH,VEH,i
Min Max Wheel with diameter 920 mm, no measure Wheel with diameter 840 mm, no measure Wheel with diameter 680 mm, no measure Wheel with diameter 1 200 mm, no measure
50 Hz 60,0 140,0 75,4 75,4 75,4 75,4
63 Hz 60,0 140,0 77,3 77,3 77,3 77,3
80 Hz 60,0 140,0 81,1 81,1 81,1 81,1
100 Hz 60,0 140,0 84,1 84,1 84,1 84,1
125 Hz 60,0 140,0 83,3 82,8 82,8 82,8
160 Hz 60,0 140,0 84,3 83,3 83,3 83,3
200 Hz 60,0 140,0 86,0 84,1 83,9 84,5
250 Hz 60,0 140,0 90,1 86,9 86,3 90,4
316 Hz 60,0 140,0 89,8 87,9 88,0 90,4
400 Hz 60,0 140,0 89,0 89,9 92,2 89,9
500 Hz 60,0 140,0 88,8 90,9 93,9 90,1
630 Hz 60,0 140,0 90,4 91,5 92,5 91,3
800 Hz 60,0 140,0 92,4 91,5 90,9 91,5
1 000 Hz 60,0 140,0 94,9 93,0 90,4 93,6
1 250 Hz 60,0 140,0 100,4 98,7 93,2 100,5
1 600 Hz 60,0 140,0 104,6 101,6 93,5 104,6
2 000 Hz 60,0 140,0 109,6 107,6 99,6 115,6
2 500 Hz 60,0 140,0 114,9 111,9 104,9 115,9
3 160 Hz 60,0 140,0 115,0 114,5 108,0 116,0
4 000 Hz 60,0 140,0 115,0 114,5 111,0 116,0
5 000 Hz 60,0 140,0 115,5 115,0 111,5 116,5
6 350 Hz 60,0 140,0 115,6 115,1 111,6 116,6
8 000 Hz 60,0 140,0 116,0 115,5 112,0 117,0
10 000 Hz 60,0 140,0 116,7 116,2 112,7 117,7Frequency LH,VEH,SUP,i
Min Max EU standard
50 Hz 0,0 140,0 0,0
63 Hz 0,0 140,0 0,0
80 Hz 0,0 140,0 0,0
100 Hz 0,0 140,0 0,0
125 Hz 0,0 140,0 0,0
160 Hz 0,0 140,0 0,0
200 Hz 0,0 140,0 0,0
250 Hz 0,0 140,0 0,0
316 Hz 0,0 140,0 0,0
400 Hz 0,0 140,0 0,0
500 Hz 0,0 140,0 0,0
630 Hz 0,0 140,0 0,0
800 Hz 0,0 140,0 0,0
1 000 Hz 0,0 140,0 0,0
1 250 Hz 0,0 140,0 0,0
1 600 Hz 0,0 140,0 0,0
2 000 Hz 0,0 140,0 0,0
2 500 Hz 0,0 140,0 0,0
3 160 Hz 0,0 140,0 0,0
4 000 Hz 0,0 140,0 0,0
5 000 Hz 0,0 140,0 0,0
6 350 Hz 0,0 140,0 0,0
8 000 Hz 0,0 140,0 0,0
10 000 Hz 0,0 140,0 0,0
Wavelength LR,IMPACT,i
Min Max Single switch/joint/crossing/100 m
1 000 mm – 40 30 22,4
800 mm – 40 30 22,4
630 mm – 40 30 22,4
500 mm – 40 30 23,8
400 mm – 40 30 24,7
315 mm – 40 30 24,7
250 mm – 40 30 23,4
200 mm – 40 30 21,7
160 mm – 40 30 20,2
120 mm – 40 30 20,4
100 mm – 40 30 20,8
80 mm – 40 30 20,9
63 mm – 40 30 19,8
50 mm – 40 30 18
40 mm – 40 30 16
31,5 mm – 40 30 13
25 mm – 40 30 10
20 mm – 40 30 6
16 mm – 40 30 1
12 mm – 40 30 – 4
10 mm – 40 30 – 11
8 mm – 40 30 – 16,5
6,3 mm – 40 30 – 18,5
5 mm – 40 30 – 21
4 mm – 40 30 – 22,5
3,2 mm – 40 30 – 24,7
2,5 mm – 40 30 – 26,6
2 mm – 40 30 – 28,6
1,6 mm – 40 30 – 30,6
1,2 mm – 40 30 – 32,6
1 mm – 40 30 – 34
0,8 mm – 40 30 – 34
Frequency LW,0,idling
Min Max Diesel locomotive (c. 800 kW) Diesel locomotive (c. 2 200 kW) Diesel multiple unit Electric locomotive Electric multiple unit
SourceA SourceB SourceA SourceB SourceA SourceB SourceA SourceB SourceA SourceB SourceA SourceB SourceA SourceB
50 Hz 0,0 0,0 140,0 140,0 98,9 103,2 99,4 103,7 82,6 86,9 87,9 92,2 80,5 84,8
63 Hz 0,0 0,0 140,0 140,0 94,8 100,0 107,3 112,5 82,5 87,7 90,8 96,0 81,4 86,6
80 Hz 0,0 0,0 140,0 140,0 92,6 95,5 103,1 106,0 89,3 92,2 91,6 94,5 80,5 83,4
100 Hz 0,0 0,0 140,0 140,0 94,6 94,0 102,1 101,5 90,3 89,7 94,6 94,0 82,2 81,6
125 Hz 0,0 0,0 140,0 140,0 92,8 93,3 99,3 99,8 93,5 94,0 94,8 95,3 80,0 80,5
160 Hz 0,0 0,0 140,0 140,0 92,8 93,6 99,3 100,1 99,5 100,3 96,8 97,6 79,7 80,5
200 Hz 0,0 0,0 140,0 140,0 93,0 92,9 99,5 99,4 98,7 98,6 104,0 103,9 79,6 79,5
250 Hz 0,0 0,0 140,0 140,0 94,8 92,7 101,3 99,2 95,5 93,4 100,8 98,7 96,4 94,3
316 Hz 0,0 0,0 140,0 140,0 94,6 92,4 101,1 98,9 90,3 88,1 99,6 97,4 80,5 78,3
400 Hz 0,0 0,0 140,0 140,0 95,7 92,8 102,2 99,3 91,4 88,5 101,7 98,8 81,3 78,4
500 Hz 0,0 0,0 140,0 140,0 95,6 92,8 102,1 99,3 91,3 88,5 98,6 95,8 97,2 94,4
630 Hz 0,0 0,0 140,0 140,0 98,6 96,8 101,1 99,3 90,3 88,5 95,6 93,8 79,5 77,7
800 Hz 0,0 0,0 140,0 140,0 95,2 92,7 101,7 99,2 90,9 88,4 95,2 92,7 79,8 77,3
1 000 Hz 0,0 0,0 140,0 140,0 95,1 93,0 101,6 99,5 91,8 89,7 96,1 94,0 86,7 84,6
1 250 Hz 0,0 0,0 140,0 140,0 95,1 92,9 99,3 97,1 92,8 90,6 92,1 89,9 81,7 79,5
1 600 Hz 0,0 0,0 140,0 140,0 94,1 93,1 96,0 95,0 92,8 91,8 89,1 88,1 82,7 81,7
2 000 Hz 0,0 0,0 140,0 140,0 94,1 93,2 93,7 92,8 90,8 89,9 87,1 86,2 80,7 79,8
2 500 Hz 0,0 0,0 140,0 140,0 99,4 98,3 101,9 100,8 88,1 87,0 85,4 84,3 78,0 76,9
3 160 Hz 0,0 0,0 140,0 140,0 92,5 91,5 89,5 88,5 85,2 84,2 83,5 82,5 75,1 74,1
4 000 Hz 0,0 0,0 140,0 140,0 89,5 88,7 87,1 86,3 83,2 82,4 81,5 80,7 72,1 71,3
5 000 Hz 0,0 0,0 140,0 140,0 87,0 86,0 90,5 89,5 81,7 80,7 80,0 79,0 69,6 68,6
6 350 Hz 0,0 0,0 140,0 140,0 84,1 83,4 31,4 30,7 78,8 78,1 78,1 77,4 66,7 66,0
8 000 Hz 0,0 0,0 140,0 140,0 81,5 80,9 81,2 80,6 76,2 75,6 76,5 75,9 64,1 63,5
10 000 Hz 0,0 0,0 140,0 140,0 79,2 78,7 79,6 79,1 73,9 73,4 75,2 74,7 61,8 61,3
Frequency Min Max Aerodynamic noise given at 300 km/h
α1 α2 α1 α2 α1 α2
0 0 100 100 50 50
LW,0,1 LW,0,2 LW,0,1 LW,0,2 LW,0,1 LW,0,2
50 Hz 0 0 140 140 112,6 36,7
63 Hz 0 0 140 140 113,2 38,5
80 Hz 0 0 140 140 115,7 39,0
100 Hz 0 0 140 140 117,4 37,5
125 Hz 0 0 140 140 115,3 36,8
160 Hz 0 0 140 140 115,0 37,1
200 Hz 0 0 140 140 114,9 36,4
250 Hz 0 0 140 140 116,4 36,2
316 Hz 0 0 140 140 115,9 35,9
400 Hz 0 0 140 140 116,3 36,3
500 Hz 0 0 140 140 116,2 36,3
630 Hz 0 0 140 140 115,2 36,3
800 Hz 0 0 140 140 115,8 36,2
1 000 Hz 0 0 140 140 115,7 36,5
1 250 Hz 0 0 140 140 115,7 36,4
1 600 Hz 0 0 140 140 114,7 105,2
2 000 Hz 0 0 140 140 114,7 110,3
2 500 Hz 0 0 140 140 115,0 110,4
3 160 Hz 0 0 140 140 114,5 105,6
4 000 Hz 0 0 140 140 113,1 37,2
5 000 Hz 0 0 140 140 112,1 37,5
6 350 Hz 0 0 140 140 110,6 37,9
8 000 Hz 0 0 140 140 109,6 38,4
10 000 Hz 0 0 140 140 108,8 39,2
Cbridge
min max Predominantly concrete or masonry bridges with any trackform Predominantly steel bridges with ballasted track
0 9 1 4
Appendix H
This appendix presents a few examples for input values for some industrial noise sources that may be used to calculate industrial noise following the method described in 2.4 Industrial noise. As industrial noise sources are extremely specific for each industrial site, appropriate values are obtained from local, national or international databases or measurements as appropriate.



ΔLW,dir,xyz (x, y, z)=0
LW' is expressed as sound power per metre for line source, or per squared metre for area source.

Description Type of source Source directivity 63 125 250 500 1 000 2 000 4 000 8 000
Grit blasting — outside — with nozzle PointSource FreeField 108,77 110,37 112,77 107,77 104,37 98,07 97,07 86,97
Rotary kiln LineSource FreeField 79,27 84,17 86,67 89,27 93,07 93,47 92,07 87,77
Ship yard AreaSource HemiSpherical 67,17 69,07 74,57 62,17 63,97 66,77 70,97 68,07
Gas terminal AreaSource HemiSpherical 74,17 70,07 65,57 64,17 59,97 57,77 51,97 56,07
Appendix I
This appendix presents the database for most of the existing aircraft noise sources to be used to calculate aircraft noise following the method described in 2.6 Aircraft noise.

ACFT_ID OP_TYPE FLAP_ID B (ft/lb) C (kt/√lb) D (kt/√lb) R
1900D A 35-A   0,915858 0,130495
1900D A A_40D   0,416345 0,140491
1900D A ZERO-A    0,106643
1900D D 17-D 0,060076 0,858496  0,072968
1900D D ZERO-D    0,094383
707320 A D-25   0,307537 0,107756
707320 A D-40   0,279116 0,134567
707320 A D-50   0,275511 0,15472
707320 A U-25    0,098219
707320 D 14 0,004514 0,312431  0,089316
707320 D INT    0,072743
707320 D ZERO    0,05617
707QN A D-25   0,307537 0,107756
707QN A D-40   0,279116 0,134567
707QN A D-50   0,275511 0,15472
707QN A U-25    0,098219
707QN D 14 0,004514 0,312431  0,089316
707QN D INT    0,072743
707QN D ZERO    0,05617
717200 A A_0U    0,06456
717200 A A_13D    0,109249
717200 A A_13U    0,095353
717200 A A_18D    0,11009
717200 A A_18U    0,095015
717200 A A_40D   0,416345 0,140491
717200 D T_00B    0,06
717200 D T_00C    0,06
717200 D T_05H 0,011607 0,483254  0,075
717200 D T_05M 0,011795 0,489068  0,075
717200 D T_13A 0,010862 0,469923  0,078
720B A D-30   0,350247 0,109478
720B A D-50   0,339412 0,148843
720B A U-30    0,09805
720B D 20 0,00573 0,356426  0,091933
720B D 30 0,005238 0,340735  0,104243
720B D INT    0,074052
720B D ZERO    0,05617
727100 A D-25   0,350485 0,128359
727100 A D-30   0,343897 0,145903
727100 A D-40   0,335992 0,186604
727100 A U-15    0,090698
727100 A U-25    0,113154
727100 D 2    0,0857
727100 D 5 0,008692 0,415048  0,088916
727100 D 15 0,008301 0,392649  0,095459
727100 D 25 0,007389 0,371567  0,115623
727100 D ZERO    0,0636
727D15 A D-25   0,383689 0,109535
727D15 A D-30   0,368 0,1437
727D15 A D-40   0,36 0,1844
727D15 A U-15    0,089969
727D15 A U-25    0,109535
727D15 D 2    0,0857
727D15 D 5 0,00924 0,409  0,0869
727D15 D 15 0,00826 0,388  0,0929
727D15 D 20 0,007712 0,376653  0,108897
727D15 D 25 0,00763 0,367  0,1112
727D15 D ZERO    0,0594
727D17 A D-25   0,383689 0,124821
727D17 A D-30   0,368 0,1437
727D17 A D-40   0,36 0,1844
727D17 A U-15    0,089969
727D17 A U-25    0,109535
727D17 D 2    0,0857
727D17 D 5 0,00924 0,409  0,0869
727D17 D 15 0,00826 0,388  0,0929
727D17 D 20 0,007712 0,376653  0,108897
727D17 D 25 0,00763 0,367  0,1112
727D17 D ZERO    0,0594
727EM1 A D-25   0,350485 0,128359
727EM1 A D-30   0,343897 0,145903
727EM1 A D-40   0,335992 0,186604
727EM1 A U-15    0,090698
727EM1 A U-25    0,113154
727EM1 D 2    0,0857
727EM1 D 5 0,008692 0,415048  0,088916
727EM1 D 15 0,008301 0,392649  0,095459
727EM1 D 25 0,007389 0,371567  0,115623
727EM1 D ZERO    0,0636
727EM2 A D-25   0,383689 0,109535
727EM2 A D-30   0,368 0,1437
727EM2 A D-40   0,36 0,1844
727EM2 A U-15    0,089969
727EM2 A U-25    0,109535
727EM2 D 2    0,0857
727EM2 D 5 0,00924 0,409  0,0869
727EM2 D 15 0,00826 0,388  0,0929
727EM2 D 20 0,007712 0,376653  0,108897
727EM2 D 25 0,00763 0,367  0,1112
727EM2 D ZERO    0,0594
727Q15 A D-25   0,383689 0,109535
727Q15 A D-30   0,368 0,1437
727Q15 A D-40   0,36 0,1844
727Q15 A U-15    0,089969
727Q15 A U-25    0,109535
727Q15 D 2    0,0857
727Q15 D 5 0,00924 0,409  0,0869
727Q15 D 15 0,00826 0,388  0,0929
727Q15 D 20 0,007712 0,376653  0,108897
727Q15 D 25 0,00763 0,367  0,1112
727Q15 D ZERO    0,0594
727Q7 A D-25   0,350485 0,128359
727Q7 A D-30   0,343897 0,145903
727Q7 A D-40   0,335992 0,186604
727Q7 A U-15    0,090698
727Q7 A U-25    0,113154
727Q7 D 2    0,0857
727Q7 D 5 0,008692 0,415048  0,088916
727Q7 D 15 0,008301 0,392649  0,095459
727Q7 D 25 0,007389 0,371567  0,115623
727Q7 D ZERO    0,0636
727Q9 A D-25   0,372885 0,124565
727Q9 A D-30   0,367614 0,142606
727Q9 A D-40   0,359182 0,184273
727Q9 A U-15    0,090523
727Q9 A U-25    0,109315
727Q9 D 2    0,0857
727Q9 D 5 0,00924 0,409  0,0869
727Q9 D 15 0,00826 0,388  0,0929
727Q9 D 20 0,007712 0,376653  0,108897
727Q9 D 25 0,00763 0,367  0,1112
727Q9 D ZERO    0,0594
727QF A D-15    0,1182
727QF A D-25    0,1359
727QF A D-30   0,3658 0,1602
727QF A D-40   0,3568 0,2003
727QF A U-05    0,08709
727QF A U-15    0,09676
727QF A U-25    0,1201
727QF A U-ZERO    0,06027
727QF D 2    0,081
727QF D 5 0,00849 0,4242  0,0921
727QF D 15 0,007525 0,412  0,1005
727QF D 25 0,0069 0,3885  0,1222
727QF D ZERO    0,06599
737 A D-25   0,452885 0,113106
737 A D-30   0,442783 0,124898
737 A D-40   0,432682 0,155057
737 A U-15    0,088617
737 A U-25    0,097687
737 D 5 0,011593 0,475473  0,085235
737 D 10 0,010935 0,457438  0,093192
737 D 25 0,010293 0,436124  0,109993
737 D INT    0,07477
737 D ZERO    0,0643
737300 A D-15   0,4639 0,1103
737300 A D-30   0,434 0,1247
737300 A D-40   0,4215 0,1471
737300 D 1 0,0126 0,4958  0,069
737300 D 5 0,0116 0,477215  0,0742
737300 D 15 0,0111 0,4572  0,0872
737300 D ZERO    0,062
7373B2 A D-15   0,4639 0,1103
7373B2 A D-30   0,434 0,1247
7373B2 A D-40   0,4215 0,1471
7373B2 D 1 0,0124 0,4958  0,0761
7373B2 D 5 0,011511 0,477758  0,0794
7373B2 D 15 0,011 0,4575  0,0872
7373B2 D T_01    0,067
7373B2 D T_05    0,074679
7373B2 D ZERO    0,062
737400 A D-15   0,4779 0,1079
737400 A D-30   0,4338 0,1251
737400 A D-40   0,423 0,151
737400 D 1    0,0713
737400 D 5 0,0117 0,4834  0,0798
737400 D 15 0,0109 0,4596  0,0924
737400 D ZERO    0,0628
737500 A D-15   0,4538 0,1084
737500 A D-30   0,4281 0,1253
737500 A D-40   0,4166 0,151
737500 D 1    0,0712
737500 D 5 0,01138 0,474697  0,0803
737500 D 15 0,0109 0,4541  0,0925
737500 D ZERO    0,061
737700 A A_15   0,4122 0,1048
737700 A A_30   0,3986 0,1194
737700 A A_40   0,3907 0,1434
737700 D T_00H    0,063
737700 D T_01 0,0097 0,4329  0,062
737700 D T_05A    0,07
737700 D T_10 0,0089 0,4112  0,0858
737700 D T_15 0,0087 0,406  0,0889
737700 D T_25 0,0086 0,4021  0,0932
737700 D T_5 0,0093 0,4251  0,0749
737700 D T_ZERO    0,0552
737800 D T_00    0,05625
737800 D T_01    0,06253
737800 D T_05 0,009633 0,435043  0,0737
737D17 A D-25   0,451848 0,113169
737D17 A D-30   0,443779 0,125252
737D17 A D-40   0,434096 0,156502
737D17 A U-15    0,106085
737D17 A U-25    0,097127
737D17 D 5 0,011677 0,473007  0,087424
737D17 D 10 0,010956 0,456114  0,096364
737D17 D 25 0,010406 0,436124  0,10878
737D17 D INT    0,07586
737D17 D ZERO    0,0643
737N17 A D-25   0,451848 0,113169
737N17 A D-30   0,443779 0,125252
737N17 A D-40   0,434096 0,156502
737N17 A U-15    0,106085
737N17 A U-25    0,097127
737N17 D 5 0,011677 0,473007  0,087424
737N17 D 10 0,010956 0,456114  0,096364
737N17 D 25 0,010406 0,436124  0,10878
737N17 D INT    0,07586
737N17 D ZERO    0,0643
737N9 A D-25   0,452885 0,113106
737N9 A D-30   0,442783 0,124898
737N9 A D-40   0,432682 0,155057
737N9 A U-15    0,088617
737N9 A U-25    0,097687
737N9 D 5 0,011593 0,475473  0,085235
737N9 D 10 0,010935 0,457438  0,093192
737N9 D 25 0,010293 0,436124  0,109993
737N9 D INT    0,07477
737N9 D ZERO    0,0643
737QN A D-25   0,452885 0,113106
737QN A D-30   0,442783 0,124898
737QN A D-40   0,432682 0,155057
737QN A U-15    0,088617
737QN A U-25    0,097687
737QN D 5 0,011593 0,475473  0,085235
737QN D 10 0,010935 0,457438  0,093192
737QN D 25 0,010293 0,436124  0,109993
737QN D INT    0,07477
737QN D ZERO    0,0643
74710Q A D-20   0,217555 0,109467
74710Q A D-25   0,210537 0,116953
74710Q A D-30   0,202116 0,142564
74710Q A U-20    0,091737
74710Q D 5    0,07456
74710Q D 10 0,002333 0,212212  0,092196
74710Q D 20 0,002187 0,202456  0,099504
74710Q D ZERO    0,05693
747200 A D-20   0,217555 0,109467
747200 A D-25   0,210537 0,116953
747200 A D-30   0,202116 0,142564
747200 A U-20    0,091737
747200 D 5    0,074042
747200 D 10 0,00235 0,211659  0,091154
747200 D 20 0,002207 0,203133  0,098616
747200 D ZERO    0,05693
74720A A D-25   0,2105 0,118
74720A A D-30   0,2017 0,1438
74720A D 5    0,0722
74720A D 10 0,00234 0,2115  0,08917
74720A D 20 0,002186 0,2029  0,09728
74720A D ZERO    0,05524
74720B A D-25   0,2113 0,1207
74720B A D-30   0,2016 0,1444
74720B D 5    0,07276
74720B D 10 0,002351 0,213  0,0886
74720B D 20 0,002196 0,2045  0,09867
74720B D ZERO    0,05693
747400 A D-25   0,2143 0,1171
747400 A D-30   0,2064 0,141
747400 D 5    0,069
747400 D 10 0,002104 0,21338  0,0823
747400 D 20 0,0021 0,2062  0,0916
747400 D T_00H    0,053
747400 D T_01    0,057691
747400 D T_05    0,071
747400 D T_05C    0,057569
747400 D T_10 0,002101 0,207131  0,110782
747400 D T_10H    0,1
747400 D ZERO  0,3111  0,0508
7478 A F_20   0,192660 0,128462
7478 A F_30   0,189605 0,143406
7478 D F_0    0,052717
7478 D F_1    0,064841
7478 D F_10 0,002000 0,204760  0,083321
7478 D F_5    0,073443
747SP A D-20   0,216415 0,110347
747SP A D-25   0,209991 0,116897
747SP A D-30   0,202497 0,143096
747SP A U-20    0,092569
747SP D 5    0,076123
747SP D 10 0,002357 0,210572  0,095316
747SP D 20 0,002179 0,201901  0,103296
747SP D ZERO    0,05693
757300 D T_00    0,05554
757300 D T_01    0,05943
757300 D T_05 0,006931 0,38754  0,07993
757PW A D-25   0,3234 0,1186
757PW A D-30   0,3179 0,1342
757PW D 5 0,006243 0,360271  0,0722
757PW D 15 0,00611 0,3454  0,0782
757PW D 20 0,00573 0,33  0,0864
757PW D T_00    0,055346
757PW D T_01    0,0609
757PW D T_05  0,360271  0,0682
757PW D ZERO  0,4699  0,0548
757RR A D-25   0,3238 0,1178
757RR A D-30   0,3191 0,1337
757RR D 5 0,006319 0,36165  0,07
757RR D 15 0,00614 0,3454  0,0758
757RR D 20 0,0057 0,33  0,0847
757RR D INT    0,0621
757RR D T_00    0,0525
757RR D T_01    0,058316
757RR D T_05    0,0635
757RR D ZERO  0,4699  0,0541
767300 A D-25   0,2627 0,121
767300 A D-30   0,2555 0,1329
767300 D 5 0,00409 0,297  0,075
767300 D 15 0,00381 0,2853  0,0824
767300 D 20 0,00367 0,2788  0,0866
767300 D INT    0,0641
767300 D ZERO    0,0531
767400 A L_25_D   0,2601 0,1156
767400 A L_30_D   0,2536 0,1265
767400 D T_00_U    0,0492
767400 D T_05_U 0,0043 0,2972  0,0674
767400 D T_05A    0,055
767400 D T_05B    0,06
767400 D T_15_U 0,0041 0,2876  0,0736
767400 D T_20_U 0,003624 0,2775  0,0794
767CF6 A D-25   0,29009 0,1075
767CF6 A D-30   0,28096 0,1232
767CF6 D 1 0,00557 0,31625  0,0646
767CF6 D 5 0,0053 0,30576  0,0685
767CF6 D 15 0,00504 0,29249  0,074
767CF6 D 20 0,0049 0,28496  0,0779
767CF6 D ZERO    0,0489
767JT9 A D-25   0,29009 0,1085
767JT9 A D-30   0,28096 0,1258
767JT9 D 1 0,00504 0,31625  0,0658
767JT9 D 5 0,00472 0,30576  0,0705
767JT9 D 15 0,00436 0,29249  0,0756
767JT9 D 20 0,00417 0,28496  0,0802
767JT9 D ZERO    0,052
777200 A D20   0,2204 0,09765
777200 A D25   0,2133 0,1158
777200 A D30   0,203 0,133
777200 D 15 0,002867 0,2299  0,07432
777200 D 20 0,002751 0,2239  0,08186
777200 D T_00  0,3218  0,05065
777200 D T_00H    0,052
777200 D T_00L    0,048
777200 D T_01  0,2921  0,05555
777200 D T_01H    0,06
777200 D T_05 0,002475 0,239429  0,06898
777200 D T_05A    0,063456
777200 D T_05C    0,092
777200 D T_05CH    0,085
777300 A L_25_D   0,2156 0,116
777300 A L_30_D   0,2071 0,1322
777300 D T_00_U    0,0504
777300 D T_05_U 0,0031 0,2586  0,0645
777300 D T_15_U 0,0028 0,2454  0,0704
777300 D T_20_U 0,0027 0,2363  0,0783
7773ER A F_20   0,225340 0,104970
7773ER A F_30   0,209490 0,134910
7773ER D FLAP_0    0,050171
7773ER D FLAP_1    0,054934
7773ER D FLAP_5 0,002710 0,240000  0,066100
7878R A F_00   0,393870 0,045060
7878R A F_01   0,329760 0,047700
7878R A F_05   0,288410 0,067150
7878R A FLAP20   0,260280 0,088050
7878R A FLAP30   0,246840 0,105000
7878R D FLAP_0    0,050055
7878R D FLAP_1    0,052026
7878R D FLAP_5 0,002949 0,256410  0,071636
A300-622R A 1    0,071539
A300-622R A 2_D    0,094763
A300-622R A 2_U    0,072592
A300-622R A 3_D   0,274926 0,102372
A300-622R A FULL_D   0,253296 0,125036
A300-622R A ZERO    0,052053
A300-622R D 0    0,053127
A300-622R D 1500 0,004121 0,292  0,072348
A300B4-203 A D-15   0,28237 0,10607
A300B4-203 A D-25   0,27151 0,125568
A300B4-203 D 1 0,005307 0,324359  0,090223
A300B4-203 D 8 0,004239 0,291059  0,093067
A300B4-203 D 15 0,00402 0,278999  0,102935
A300B4-203 D ZERO    0,063491
A310-304 A 1    0,068197
A310-304 A 2_D    0,096731
A310-304 A 2_U    0,072778
A310-304 A 3_D   0,274926 0,106084
A310-304 A FULL_D   0,253296 0,129438
A310-304 A ZERO    0,054935
A310-304 D 0    0,055191
A310-304 D 1500 0,004875 0,313705  0,072016
A319-131 A 1_A    0,06317
A319-131 A 2_D    0,098119
A319-131 A 2_U    0,071826
A319-131 A 3_D   0,379931 0,098121
A319-131 A FULL_D   0,355927 0,124534
A319-131 A ZERO_A    0,056446
A319-131 D 1    0,071598
A319-131 D 1+F 0,007077 0,376764  0,072635
A319-131 D ZERO    0,05429
A320-211 A 1_A    0,061662
A320-211 A 2_D    0,096267
A320-211 A 2_U    0,067463
A320-211 A 3_D   0,385223 0,101204
A320-211 A FULL_D   0,37052 0,11586
A320-211 A ZERO_A    0,057558
A320-211 D 1    0,066827
A320-211 D 1+F 0,007701 0,394884  0,071403
A320-211 D ZERO    0,056281
A320-232 A 1_A    0,059086
A320-232 A 2_D    0,095899
A320-232 A 2_U    0,06679
A320-232 A 3_D   0,379853 0,100263
A320-232 A FULL_D   0,369833 0,121141
A320-232 A ZERO_A    0,054309
A320-232 D 1    0,065822
A320-232 D 1+F 0,007626 0,395674  0,069873
A320-232 D ZERO    0,05332
A321-232 A 1_A    0,064258
A321-232 A 2_D    0,101798
A321-232 A 2_U    0,074849
A321-232 A 3_D   0,368096 0,112676
A321-232 A FULL_D   0,357761 0,119073
A321-232 A ZERO_A    0,057183
A321-232 D 1    0,071631
A321-232 D 1+F 0,007524 0,390238  0,075946
A321-232 D ZERO    0,056647
A330-301 A 1_A    0,057783
A330-301 A 2_D    0,081654
A330-301 A 2_U    0,064098
A330-301 A 3_D   0,229065 0,092737
A330-301 A FULL_D   0,222802 0,100779
A330-301 A ZERO_A    0,047685
A330-301 D 1    0,059866
A330-301 D 1+F 0,002905 0,247076  0,061736
A330-301 D ZERO    0,046057
A330-343 A 1_A    0,055464
A330-343 A 2_D    0,083569
A330-343 A 2_U    0,063042
A330-343 A 3_D   0,229705 0,092555
A330-343 A FULL_D   0,222498 0,10202
A330-343 A ZERO_A    0,046224
A330-343 D 1    0,05926
A330-343 D 1+F 0,0029 0,245211  0,062365
A330-343 D ZERO    0,044593
A340-211 A 1_A    0,063657
A340-211 A 2_D    0,092945
A340-211 A 2_U    0,071673
A340-211 A 3_D   0,224603 0,101734
A340-211 A FULL_D   0,220432 0,108554
A340-211 A ZERO_A    0,051221
A340-211 D 1    0,068547
A340-211 D 1+F 0,002605 0,223635  0,073134
A340-211 D ZERO    0,048646
A340-642 A 1_A    0,054416
A340-642 A 2_D    0,087508
A340-642 A 2_U    0,067996
A340-642 A 3_D   0,213821 0,100473
A340-642 A FULL_D   0,20733 0,105616
A340-642 A ZERO_A    0,051608
A340-642 D 1    0,06118
A340-642 D 1+F 0,002423 0,225716  0,06743
A340-642 D ZERO    0,051433
A380-841 A A_1+F    0,055657
A380-841 A A_2_D    0,081906
A380-841 A A_2_U    0,064109
A380-841 A A_3_D   0,154745 0,101662
A380-841 A A_FULL   0,154745 0,107331
A380-841 A ZERO_A    0,050279
A380-841 D D_1    0,053173
A380-841 D D_1+F 0,00125 0,159626  0,068055
A380-841 D ZERO    0,050472
A380-861 A A_1+F    0,058557
A380-861 A A_2_D    0,081967
A380-861 A A_2_U    0,06558
A380-861 A A_3_D   0,154745 0,101738
A380-861 A A_FULL   0,154745 0,108118
A380-861 A ZERO_A    0,048776
A380-861 D D_1    0,053241
A380-861 D D_1+F 0,00125 0,159567  0,070602
A380-861 D ZERO    0,049623
BAC111 A D-45   0,49076 0,139207
BAC111 A U-INT    0,106398
BAC111 D 8 0,01569 0,54382  0,082179
BAC111 D INT1    0,07359
BAC111 D ZERO    0,065
BAE146 A D-18   0,61667 0,119715
BAE146 A D-24   0,61667 0,138371
BAE146 A D-33   0,45555 0,153186
BAE146 A U-18    0,0818
BAE146 A U-24    0,095298
BAE146 D 18 0,009678 0,49296  0,13241
BAE146 D 24 0,008979 0,45846  0,1412
BAE146 D 30 0,008173 0,43179  0,15287
BAE146 D ZERO    0,083096
BAE300 A D-18   0,60557 0,116925
BAE300 A D-24   0,60557 0,134808
BAE300 A D-33   0,4511 0,149009
BAE300 A U-18    0,08058
BAE300 A U-24    0,093519
BAE300 D 18 0,009449 0,49847  0,1279
BAE300 D 24 0,008341 0,462  0,1352
BAE300 D 30 0,00775 0,43351  0,14711
BAE300 D ZERO    0,081866
BEC58P A D-15    0,14885
BEC58P A D-30   1,33492 0,16
BEC58P D TO 0,100258 1,28098  0,1377
BEC58P D ZERO    0,125381
CIT3 A D-40   0,966375 0,147159
CIT3 A D-INTR    0,130842
CIT3 D 10    0,092263
CIT3 D 20 0,04284 0,947523  0,114525
CIT3 D ZERO    0,07
CL600 A D-45   0,766248 0,169002
CL600 A D-INTR    0,128747
CL600 D 10    0,079246
CL600 D 20 0,028225 0,780719  0,088492
CL600 D ZERO    0,07
CL601 A D-45   0,769487 0,163669
CL601 A D-INTR    0,122639
CL601 D 10    0,075805
CL601 D 20 0,032183 0,780565  0,081609
CL601 D ZERO    0,07
CNA172 A 10-D   1,3132 0,0994
CNA172 A 30-D   1,2526 0,1516
CNA172 A ZERO-D    0,096
CNA172 D 10-C 0,0992 1,0304  0,1446
CNA172 D CRUISE    0,096
CNA172 D ZERO-C 0,1025 1,1112  0,0831
CNA182 A F10APP    0,122
CNA182 A F30APP   1,285 0,151
CNA182 D F-20D 0,058 1,204  0,17
CNA182 D ZERO    0,127
CNA182 D ZERO-A    0,127
CNA182 D ZERO-C    0,097
CNA182 D ZERO-T    0,103
CNA206 A 10_D    0,105632
CNA206 A 40_D   1,23852 0,169084
CNA206 D 20_T 0,055005 1,02562  0,136998
CNA206 D ZERO_C    0,09563
CNA206 D ZERO_T 0,055005 1,02562  0,106327
CNA208 A F30APP   0,867722 0,099468
CNA208 A ZERO-A    0,089802
CNA208 D F-20D 0,033202 0,74833  0,105087
CNA208 D ZERO 0,05003 0,887307  0,089802
CNA208 D ZERO-C    0,087252
CNA208 D ZERO-T    0,060282
CNA20T A 10_D    0,109615
CNA20T A 40_D   1,32574 0,211577
CNA20T D 20_T 0,054669 1,045287  0,13795
CNA20T D ZERO_C    0,101535
CNA20T D ZERO_T 0,054669 0,959417  0,099791
CNA441 A D-INTR    0,141579
CNA441 A D-L   1,02329 0,162936
CNA441 D TO 0,072722 1,10834  0,120222
CNA441 D ZERO    0,096518
CNA500 A D-35   0,991547 0,147335
CNA500 A D-INTR    0,113809
CNA500 D 1    0,080282
CNA500 D 12 0,054342 0,956752  0,090564
CNA500 D ZERO    0,07
CNA510 A A_15   1,073624 0,088506
CNA510 A A_35   1,002913 0,126185
CNA510 D D_15 0,07051 1,179843  0,097415
CNA510 D ZERO_C    0,088914
CNA510 D ZERO_D 0,090811 1,347624  0,103158
CNA525C A A_15   1,012614 0,106795
CNA525C A A_35   0,946574 0,126615
CNA525C D D-15 0,053355 0,993147  0,096525
CNA525C D ZERO_C    0,085
CNA525C D ZERO_D 0,061279 1,065348  0,09129
CNA55B A A_15   1,01427 0,118086
CNA55B A A_35   0,9553 0,200794
CNA55B D D_15 0,05628 1,080923  0,128052
CNA55B D ZERO_C    0,10833
CNA55B D ZERO_D 0,063189 1,159835  0,119835
CNA560E D 15 0,054336 1,014289  0,122203
CNA560E A 15 U   0,919106 0,099403
CNA560E A 35 D   0,870372 0,130841
CNA560E D 7 0,059522 1,061591  0,11951
CNA560E D ZERO    0,122635
CNA560U D 15 0,038136 1,069934  0,13523
CNA560U D 7 0,041179 1,10518  0,12699
CNA560U A 7_APP    0,12699
CNA560U A D 15   0,86464 0,088125
CNA560U A D 35   0,811918 0,132402
CNA560U D ZERO    0,07
CNA560XL D 15 0,030657 1,045811  0,13852
CNA560XL D 7 0,035712 1,095308  0,13505
CNA560XL A D 15U   0,91189 0,08555
CNA560XL A D 35D   0,86179 0,126192
CNA560XL D ZERO    0,074551
CNA680 D 15 0,027468 0,725152  0,127804
CNA680 A 15 GU   0,717794 0,093247
CNA680 A 35 GD   0,662727 0,146827
CNA680 D 7 0,030105 0,764412  0,122083
CNA680 D ZERO    0,105329
CNA750 A 15_GD   0,753068 0,174519
CNA750 A 15_GU   0,753068 0,146147
CNA750 A 35_GD   0,714646 0,250382
CNA750 A 5_GU   0,799175 0,118139
CNA750 D 5 0,038446 0,82511  0,122657
CNA750 D 15 0,034761 0,787004  0,12822
CNA750 D ZERO    0,096475
CONCRD A D-L   0,349148 0,205927
CONCRD A U-L    0,183067
CONCRD D CL1    0,13294
CONCRD D TO 0,008051 0,338363  0,13294
CONCRD D ZERO    0,13294
CRJ9-ER A 20    0,0976
CRJ9-ER A D-45   0,5801 0,1551
CRJ9-ER A U-45    0,1504
CRJ9-ER A ZERO    0,0655
CRJ9-ER D 0-204    0,0599
CRJ9-ER D 0-250    0,0641
CRJ9-ER D D-8 0,0177 0,5902  0,0978
CRJ9-ER D U-8    0,0775
CRJ9-LR A 20    0,0976
CRJ9-LR A D-45   0,5801 0,1551
CRJ9-LR A U-45    0,1504
CRJ9-LR A ZERO    0,0655
CRJ9-LR D 0-204    0,0599
CRJ9-LR D 0-250    0,0641
CRJ9-LR D D-8 0,0177 0,5902  0,0978
CRJ9-LR D U-8    0,0775
CVR580 A D-28   0,51972 0,118937
CVR580 A D-40   0,49138 0,124222
CVR580 D 10 0,028303 0,540116  0,130717
CVR580 D INTR    0,102858
CVR580 D ZERO    0,075
DC1010 A D-35   0,251236 0,132645
DC1010 A D-50   0,244243 0,164729
DC1010 A U-35    0,127457
DC1010 A U-50    0,161155
DC1010 D 5    0,079893
DC1010 D 10 0,00356 0,261942  0,101376
DC1010 D INT    0,068522
DC1010 D ZERO    0,057149
DC1030 A D-35   0,2534 0,13
DC1030 A U-20    0,104
DC1030 D 20 0,003091 0,2434  0,104
DC1030 D INT1    0,09454
DC1030 D INT2    0,07307
DC1030 D ZERO    0,06519
DC1040 A D-35   0,254879 0,121114
DC1040 A D-50   0,247241 0,151007
DC1040 A U-35    0,114222
DC1040 A U-50    0,145481
DC1040 D 5    0,082503
DC1040 D 15 0,004009 0,272697  0,111044
DC1040 D INT    0,071264
DC1040 D ZERO    0,060025
DC3 A D-45   0,597793 0,155222
DC3 A U-INT    0,133361
DC3 D TO 0,019837 0,619256  0,123784
DC3 D ZERO    0,1115
DC6 A D-INTR    0,10199
DC6 A D-L   0,294594 0,125979
DC6 D TO 0,007829 0,430006  0,08204
DC6 D ZERO    0,078
DC850 A D-35   0,328558 0,129965
DC850 A D-50   0,313281 0,149354
DC850 A U-35    0,126751
DC850 A U-50    0,145337
DC850 D 15 0,005206 0,323443  0,090417
DC850 D 25 0,004708 0,315832  0,103092
DC850 D INT    0,074401
DC850 D ZERO    0,058535
DC860 A D-35   0,312879 0,117758
DC860 A D-50   0,304526 0,130913
DC860 A U-35    0,115049
DC860 A U-50    0,12766
DC860 D 12 0,004899 0,320082  0,090214
DC860 D 23 0,004572 0,304797  0,095953
DC860 D INT    0,071703
DC860 D ZERO    0,05319
DC870 A D-35   0,312879 0,117758
DC870 A D-50   0,304526 0,130913
DC870 A U-35    0,115049
DC870 A U-50    0,12766
DC870 D 12 0,004899 0,320082  0,090214
DC870 D 23 0,004572 0,304797  0,095953
DC870 D INT    0,071703
DC870 D ZERO    0,05319
DC8QN A D-35   0,312879 0,117758
DC8QN A D-50   0,304526 0,130913
DC8QN A U-35    0,115049
DC8QN A U-50    0,12766
DC8QN D 12 0,004899 0,320082  0,090214
DC8QN D 23 0,004572 0,304797  0,095953
DC8QN D INT    0,071703
DC8QN D ZERO    0,05319
DC910 A D-35   0,480101 0,134177
DC910 A D-50   0,445486 0,157948
DC910 A U-15    0,087963
DC910 A U-35    0,130625
DC910 A U-50    0,153365
DC910 D 5 0,012996 0,49557  0,07757
DC910 D 15 0,010618 0,477234  0,087963
DC910 D INT    0,076753
DC910 D ZERO    0,075935
DC930 A D-35   0,470211 0,135075
DC930 A D-50   0,438965 0,165052
DC930 A U-15    0,092489
DC930 A U-35    0,131559
DC930 A U-50    0,155925
DC930 D 5 0,012098 0,4899  0,084985
DC930 D 15 0,010507 0,471774  0,092489
DC930 D INT    0,076701
DC930 D ZERO    0,068416
DC93LW A D-35   0,470211 0,135075
DC93LW A D-50   0,438965 0,165052
DC93LW A U-15    0,092489
DC93LW A U-35    0,131559
DC93LW A U-50    0,155925
DC93LW D 5 0,012098 0,4899  0,084985
DC93LW D 15 0,010507 0,471774  0,092489
DC93LW D INT    0,076701
DC93LW D ZERO    0,068416
DC950 A D-35   0,468147 0,135234
DC950 A D-50   0,442406 0,160018
DC950 A U-15    0,092489
DC950 A U-35    0,131677
DC950 A U-50    0,155399
DC950 D 5 0,012098 0,4899  0,084985
DC950 D 15 0,010507 0,471774  0,092489
DC950 D INTR    0,076701
DC950 D ZERO    0,068416
DC95HW A D-35   0,468147 0,135234
DC95HW A D-50   0,442406 0,160018
DC95HW A U-15    0,092489
DC95HW A U-35    0,131677
DC95HW A U-50    0,155399
DC95HW D 5 0,012098 0,4899  0,084985
DC95HW D 15 0,010507 0,471774  0,092489
DC95HW D INTR    0,076701
DC95HW D ZERO    0,068416
DC9Q7 A D-35   0,480101 0,134177
DC9Q7 A D-50   0,445486 0,157948
DC9Q7 A U-15    0,087963
DC9Q7 A U-35    0,130625
DC9Q7 A U-50    0,153365
DC9Q7 D 5 0,012996 0,49557  0,07757
DC9Q7 D 15 0,010618 0,477234  0,087963
DC9Q7 D INT    0,076753
DC9Q7 D ZERO    0,075935
DC9Q9 A D-35   0,470211 0,135075
DC9Q9 A D-50   0,438965 0,165052
DC9Q9 A U-15    0,092489
DC9Q9 A U-35    0,131559
DC9Q9 A U-50    0,155925
DC9Q9 D 5 0,012098 0,4899  0,084985
DC9Q9 D 15 0,010507 0,471774  0,092489
DC9Q9 D INT    0,076701
DC9Q9 D ZERO    0,068416
DHC6 A D-INTR    0,125975
DHC6 A D-L   0,577068 0,176949
DHC6 D INTR    0,090222
DHC6 D TO 0,031032 0,787095  0,105443
DHC6 D ZERO    0,075
DHC6QP A D-INTR    0,125975
DHC6QP A D-L   0,577068 0,176949
DHC6QP D INTR    0,090222
DHC6QP D TO 0,031032 0,787095  0,105443
DHC6QP D ZERO    0,075
DHC7 A D-25   0,51353 0,127688
DHC7 A D-INTR    0,117133
DHC7 D 10    0,117133
DHC7 D 25 0,009556 0,466702  0,159266
DHC7 D ZERO    0,075
DHC8 A D-15   0,54969 0,092335
DHC8 A D-35   0,50961 0,10086
DHC8 A D-5   0,60123 0,087745
DHC8 A U-15    0,080204
DHC8 A U-5    0,073647
DHC8 D 5 0,017289 0,61342  0,07808
DHC8 D 15 0,017361 0,56668  0,08519
DHC8 D ZERO    0,072424
DHC830 A D-10   0,62986 0,091024
DHC830 A D-15   0,60123 0,094958
DHC830 A D-35   0,55542 0,103483
DHC830 A U-10    0,079221
DHC830 A U-15    0,084139
DHC830 D 5 0,017836 0,61764  0,070652
DHC830 D 10 0,015165 0,570532  0,076309
DHC830 D 15 0,014403 0,549595  0,080292
DHC830 D INT 0,019987 0,659514  0,067572
DHC830 D ZERO    0,068308
DO228 A F30APP   0,75885 0,11911
DO228 A ZERO-A    0,10717
DO228 D FLAPS1 0,02196 0,80401  0,09042
DO228 D ZERO 0,02745 0,86388  0,10717
DO228 D ZERO-C    0,14459
DO228 D ZERO-T    0,09218
DO328 A F32APP   0,638 0,0961
DO328 A ZERO-A    0,0916
DO328 D F12-D 0,016 0,666  0,0664
DO328 D ZERO    0,0916
DO328 D ZERO-C    0,1206
ECLIPSE500 A A_A_DN   1,273746 0,133462
ECLIPSE500 A A_T_DN    0,178304
ECLIPSE500 D TO_DN 0,100203 1,381422  0,105314
ECLIPSE500 D TO_UP  1,381422  0,086185
ECLIPSE500 D UP_DN  1,690947  0,103009
ECLIPSE500 D UP_UP  1,690947  0,073313
EMB120 A D-25   0,837 0,0801
EMB120 A D-45   0,782 0,1305
EMB120 D 15 0,0297 0,82  0,1014
EMB120 D ZERO  0,929  0,0834
EMB145 A D-22   0,6836 0,1291
EMB145 A D-45   0,6811 0,1809
EMB145 D 9  0,6503  0,0825
EMB145 D 9-GEAR 0,0218 0,6562  0,1048
EMB145 D ZERO    0,0691
EMB14L A D-22   0,6836 0,1291
EMB14L D 9  0,6503  0,083
EMB14L D 9-GEAR 0,0212 0,6562  0,083
EMB14L D D-45  0,6811  0,1809
EMB14L D ZERO    0,0694
EMB170 D 1 0,015720 0,579870  0,076830
EMB170 A FULL   0,498900 0,145550
EMB170 D ZERO    0,066180
EMB175 D 1 0,015900 0,578990  0,077300
EMB175 A FULL   0,498200 0,145800
EMB175 D ZERO    0,066000
EMB190 D 1 0,012300 0,494610  0,082600
EMB190 A FULL   0,434400 0,137100
EMB190 D ZERO    0,066400
EMB195 D 1 0,012200 0,494520  0,083100
EMB195 A FULL   0,433600 0,137400
EMB195 D ZERO    0,067400
F10062 A D-42   0,4731 0,1565
F10062 A U-INT    0,1124
F10062 D INT2    0,0904
F10062 D TO 0,0122 0,5162  0,0683
F10062 D ZERO    0,0683
F10065 A D-42   0,4731 0,1565
F10065 A U-INT    0,1129
F10065 D INT2    0,0911
F10065 D TO 0,0123 0,521  0,0693
F10065 D ZERO    0,0693
F28MK2 A D-42   0,5334 0,1677
F28MK2 A U-INTR    0,1248
F28MK2 D 6 0,0171 0,6027  0,0793
F28MK2 D INT2    0,1033
F28MK2 D ZERO    0,0819
F28MK4 A D-42   0,5149 0,1619
F28MK4 A U-INTR    0,1187
F28MK4 D 6 0,01515 0,5731  0,0749
F28MK4 D INT2    0,0971
F28MK4 D ZERO    0,0755
FAL20 A D-25   0,804634 0,117238
FAL20 A D-40   0,792624 0,136348
FAL20 D 10 0,035696 0,807797  0,098781
FAL20 D INTR    0,084391
FAL20 D ZERO    0,07
GII A L-0-U    0,0751
GII A L-10-U    0,0852
GII D L-20-D    0,1138
GII D L-39-D  0,5822  0,1742
GII D T-0-U    0,0814
GII D T-10-U    0,0884
GII D T-20-D 0,02 0,634  0,1159
GIIB A L-0-U    0,0722
GIIB A L-10-U    0,0735
GIIB D L-20-D    0,1091
GIIB D L-39-D  0,562984  0,1509
GIIB D T-0-U    0,0738
GIIB D T-10-U    0,0729
GIIB D T-20-D 0,0162 0,583  0,1063
GIV A L-0-U    0,06
GIV A L-39-D   0,5805 0,1403
GIV D L-20-D    0,1063
GIV D T-0-U    0,0586
GIV D T-10-U    0,0666
GIV D T-20-D 0,0146 0,5798  0,1035
GIV D T-20-U    0,0797
GV A L-20-D    0,0974
GV A L-20-U    0,0749
GV A L-39-D   0,4908 0,1328
GV D L-0-U    0,0617
GV D T-0-U    0,058
GV D T-10-U    0,0606
GV D T-20-D 0,01178 0,516  0,0953
GV D T-20-U    0,0743
HS748A A D-30   0,45813 0,13849
HS748A A D-INTR    0,106745
HS748A D INTR    0,088176
HS748A D TO 0,012271 0,542574  0,101351
HS748A D ZERO    0,075
IA1125 A D-40   0,967478 0,136393
IA1125 A D-INTR    0,118618
IA1125 D 12 0,040745 0,963488  0,100843
IA1125 D INTR    0,085422
IA1125 D ZERO    0,07
L1011 A D-33   0,286984 0,137671
L1011 A D-42   0,256389 0,155717
L1011 D 10 0,004561 0,265314  0,093396
L1011 D 22 0,004759 0,251916  0,105083
L1011 D INTR    0,07959
L1011 D ZERO    0,06243
L10115 A D-33   0,262728 0,140162
L10115 A D-42   0,256123 0,155644
L10115 D 10 0,004499 0,265314  0,093396
L10115 D 22 0,004695 0,251916  0,105083
L10115 D INTR    0,07959
L10115 D ZERO    0,06243
L188 A D-100   0,436792 0,174786
L188 A D-78-%   0,456156 0,122326
L188 D 39-% 0,009995 0,420533  0,142992
L188 D 78-% 0,010265 0,404302  0,159974
L188 D INTR    0,120987
L188 D ZERO    0,082
LEAR25 A D-40   1,28239 0,176632
LEAR25 A D-INTR    0,149986
LEAR25 D 10    0,09667
LEAR25 D 20 0,082866 1,27373  0,12334
LEAR25 D ZERO    0,07
LEAR35 A D-40   1,08756 0,150688
LEAR35 A D-INTR    0,129456
LEAR35 D 10    0,089112
LEAR35 D 20 0,043803 1,05985  0,108224
LEAR35 D ZERO    0,07
MD11GE D 10 0,003812 0,2648  0,0843
MD11GE D 15 0,003625 0,2578  0,0891
MD11GE D 20 0,003509 0,2524  0,0947
MD11GE D 25 0,003443 0,2481  0,1016
MD11GE D 0/EXT    0,0692
MD11GE D 0/RET    0,0551
MD11GE D ZERO    0,0551
MD11PW D 10 0,003829 0,265  0,08425
MD11PW D 15 0,003675 0,2576  0,08877
MD11PW D 20 0,003545 0,2526  0,09472
MD11PW D 25 0,003494 0,2487  0,1018
MD11PW D 0/EXT    0,0691
MD11PW D 0/RET    0,05512
MD11PW D ZERO    0,05512
MD81 D 11 0,009276 0,4247  0,07719
MD81 D INT1    0,07643
MD81 D INT2    0,06313
MD81 D INT3    0,06156
MD81 D INT4    0,06366
MD81 D T_15 0,009369 0,420798  0,0857
MD81 D T_INT    0,0701
MD81 D T_ZERO    0,061
MD81 D ZERO    0,06761
MD82 D 11 0,009248 0,4236  0,07969
MD82 D INT1    0,07625
MD82 D INT2    0,06337
MD82 D INT3    0,06196
MD82 D INT4    0,0634
MD82 D T_15 0,009267 0,420216  0,086
MD82 D T_INT    0,065
MD82 D T_ZERO    0,061
MD82 D ZERO    0,06643
MD83 D 11 0,009301 0,4227  0,0798
MD83 D INT1    0,07666
MD83 D INT2    0,0664
MD83 D INT3    0,06247
MD83 D INT4    0,06236
MD83 D T_15 0,009384 0,420307  0,086
MD83 D T_INT    0,0664
MD83 D T_ZERO    0,0611
MD83 D ZERO    0,06573
MD9025 A D-28   0,4118 0,1181
MD9025 A D-40   0,4003 0,1412
MD9025 A U-0   0,4744 0,0876
MD9025 D EXT/06 0,010708 0,458611  0,070601
MD9025 D EXT/11 0,009927 0,441118  0,073655
MD9025 D EXT/18 0,009203 0,421346  0,083277
MD9025 D EXT/24 0,008712 0,408301  0,090279
MD9025 D RET/0    0,05186
MD9028 A D-28   0,4118 0,1181
MD9028 A D-40   0,4003 0,1412
MD9028 A U-0   0,4744 0,0876
MD9028 D EXT/06 0,010993 0,463088  0,070248
MD9028 D EXT/11 0,010269 0,446501  0,072708
MD9028 D EXT/18 0,009514 0,426673  0,082666
MD9028 D EXT/24 0,008991 0,413409  0,090018
MD9028 D RET/0    0,05025
MU3001 A D-30   1,07308 0,147487
MU3001 A D-INTR    0,114684
MU3001 D 1 0,065703 1,1529  0,08188
MU3001 D 10 0,055318 1,0729  0,09285
MU3001 D ZERO    0,07
PA30 A 27-A   1,316667 0,104586
PA30 A ZERO-A    0,078131
PA30 D 15-D 0,100146 1,166667  0,154071
PA30 D ZERO-D    0,067504
PA42 A 30-DN   1,09213 0,14679
PA42 A ZERO-A    0,087856
PA42 D ZER-DN 0,06796 1,011055  0,08088
PA42 D ZERO    0,087856
PA42 D ZERO-C    0,139096
PA42 D ZERO-T    0,07651
SD330 A D-15   0,746802 0,109263
SD330 A D-35   0,702872 0,143475
SD330 D 10 0,031762 0,727556  0,138193
SD330 D INTR    0,106596
SD330 D ZERO    0,075
SF340 A D-35   0,75674 0,147912
SF340 A D-INTR    0,111456
SF340 D 5    0,105831
SF340 D 15 0,026303 0,746174  0,136662
SF340 D ZERO    0,075
ACFTID Description Engine Type Numb of Engines Weight Class Owner Category MGTOW (lb) MGLW (lb) Max Landing Dist (ft) Max Sea Level Static Thrust (lb) Noise Chapter NPD_ID Power Parameter Approach Spectral Class ID Departure Spectral Class ID Lateral Directivity Identifier
1900D Beech 1900D/PT6A67 Turboprop 2 Large Commercial 16 950 14 940 1 696 3 367 1 PT6A67 CNT (lb) 213 109 Prop
707 Boeing 707-120/JT3C Jet 4 Heavy Commercial 302 400 188 900 6 682 10 120 1 JT4A CNT (lb) 208 107 Wing
707120 Boeing 707-120B/JT3D-3 Jet 4 Heavy Commercial 302 400 188 900 6 893 14 850 1 JT3D CNT (lb) 208 107 Wing
707320 Boeing 707-320B/JT3D-7 Jet 4 Heavy Commercial 334 000 247 000 5 622 19 000 1 JT3D CNT (lb) 208 107 Wing
707QN Boeing 707-320B/JT3D-7QN Jet 4 Heavy Commercial 334 000 247 000 5 622 19 000 2 JT3DQ CNT (lb) 208 106 Wing
717200 Boeing 717-200/BR 715 Jet 2 Large Commercial 121 000 110 000 4 600 18 000 3 BR715 CNT (lb) 203 105 Fuselage
720 Boeing 720/JT3C Jet 4 Large Commercial 223 500 155 600 4 871 10 120 1 JT4A CNT (lb) 208 107 Wing
720B Boeing 720B/JT3D-3 Jet 4 Large Commercial 234 000 175 000 5 717 18 000 1 JT3D CNT (lb) 208 107 Wing
727100 Boeing 727-100/JT8D-7 Jet 3 Large Commercial 169 500 142 500 4 867 14 000 1 3JT8D CNT (lb) 201 101 Fuselage
727200 Boeing 727-200/JT8D-7 Jet 3 Large Commercial 217 600 163 300 5 571 11 895 1 3JT8D CNT (lb) 201 101 Fuselage
727D15 Boeing 727-200/JT8D-15 Jet 3 Large Commercial 208 000 169 000 4 922 15 500 1 3JT8D CNT (lb) 201 101 Fuselage
727D17 Boeing 727-200/JT8D-17 Jet 3 Large Commercial 208 000 169 000 5 444 16 000 2 3JT8DQ CNT (lb) 201 101 Fuselage
727EM1 FEDX 727-100/JT8D-7 Jet 3 Large Commercial 169 500 142 500 4 867 14 000 3 3JT8E7 CNT (lb) 201 101 Fuselage
727EM2 FEDX 727-200/JT8D-15 Jet 3 Large Commercial 208 000 169 000 4 922 15 500 3 3JT8E5 CNT (lb) 201 101 Fuselage
727Q15 Boeing 727-200/JT8D-15QN Jet 3 Large Commercial 208 000 169 000 4 922 15 500 2 3JT8DQ CNT (lb) 201 101 Fuselage
727Q7 Boeing 727-100/JT8D-7QN Jet 3 Large Commercial 169 500 142 500 4 867 14 000 2 3JT8DQ CNT (lb) 201 101 Fuselage
727Q9 Boeing 727-200/JT8D-9 Jet 3 Large Commercial 191 000 160 000 5 444 14 500 2 3JT8DQ CNT (lb) 201 101 Fuselage
727QF UPS 727-100 22C 25C Jet 3 Large Commercial 169 000 142 500 4 448 15 380 3 TAY651 CNT (lb) 201 101 Fuselage
737 Boeing 737/JT8D-9 Jet 2 Large Commercial 109 000 98 000 3 900 14 500 1 2JT8DW CNT (lb) 201 101 Wing
737300 Boeing 737-300/CFM56-3B-1 Jet 2 Large Commercial 135 000 114 000 4 580 20 000 3 CFM563 CNT (lb) 202 102 Wing
7373B2 Boeing 737-300/CFM56-3B-2 Jet 2 Large Commercial 139 500 114 000 4 580 22 000 3 CFM563 CNT (lb) 202 102 Wing
737400 Boeing 737-400/CFM56-3C-1 Jet 2 Large Commercial 150 000 124 000 5 062 23 500 3 CFM563 CNT (lb) 202 102 Wing
737500 Boeing 737-500/CFM56-3C-1 Jet 2 Large Commercial 133 500 111 000 4 551 20 000 3 CFM563 CNT (lb) 202 102 Wing
737700 Boeing 737-700/CFM56-7B24 Jet 2 Large Commercial 154 500 129 200 4 445 24 000 3 CF567B CNT (lb) 203 104 Wing
737800 Boeing 737-800/CFM56-7B26 Jet 2 Large Commercial 174 200 146 300 5 435 26 300 3 CF567B CNT (lb) 203 104 Wing
737D17 Boeing 737-200/JT8D-17 Jet 2 Large Commercial 124 000 107 000 4 244 16 000 2 2JT8QW CNT (lb) 201 101 Wing
737N17 Boeing 737-200/JT8D-17 Nordam B737 LGW Hushkit Jet 2 Large Commercial 124 000 107 000 4 244 16 000 3 2JT8DN CNT (lb) 202 104 Wing
737N9 Boeing 737/JT8D-9 Nordam B737 LGW Hushkit Jet 2 Large Commercial 109 000 98 000 3 900 14 500 3 2JT8DN CNT (lb) 202 104 Wing
737QN Boeing 737/JT8D-9QN Jet 2 Large Commercial 109 000 98 000 3 900 14 500 2 2JT8QW CNT (lb) 201 101 Wing
747100 Boeing 747-100/JT9DBD Jet 4 Heavy Commercial 733 000 516 600 5 727 33 042 2 JT9DBD CNT (lb) 209 107 Wing
74710Q Boeing 747-100/JT9D-7QN Jet 4 Heavy Commercial 733 000 564 000 6 200 45 500 3 JT9DFL CNT (lb) 207 107 Wing
747200 Boeing 747-200/JT9D-7 Jet 4 Heavy Commercial 775 000 564 000 6 200 45 500 3 JT9DFL CNT (lb) 207 107 Wing
74720A Boeing 747-200/JT9D-7A Jet 4 Heavy Commercial 785 000 564 000 6 200 46 300 3 JT9D7Q CNT (lb) 207 107 Wing
74720B Boeing 747-200/JT9D-7Q Jet 4 Heavy Commercial 800 000 630 000 6 200 53 000 3 JT9D7Q CNT (lb) 207 107 Wing
747400 Boeing 747-400/PW4056 Jet 4 Heavy Commercial 875 000 652 000 6 989 56 800 3 PW4056 CNT (lb) 207 107 Wing
7478 Boeing 747-8F/GEnx-2B67 Jet 4 Heavy Commercial 987 000 757 000 7 900 68 000 4 GENX67 CNT (lb) 205 107 Wing
747SP Boeing 747SP/JT9D-7 Jet 4 Heavy Commercial 702 000 475 000 5 911 45 500 3 JT9DFL CNT (lb) 207 107 Wing
757300 Boeing 757-300/RB211-535E4B Jet 2 Large Commercial 275 000 224 000 5 651 43 100 3 RR535E CNT (lb) 203 103 Wing
757PW Boeing 757-200/PW2037 Jet 2 Large Commercial 255 000 210 000 4 790 38 300 3 PW2037 CNT (lb) 203 103 Wing
757RR Boeing 757-200/RB211-535E4 Jet 2 Large Commercial 255 000 210 000 4 640 40 100 3 RR535E CNT (lb) 203 103 Wing
767300 Boeing 767-300/PW4060 Jet 2 Heavy Commercial 407 000 320 000 4 710 60 000 3 2CF680 CNT (lb) 203 103 Wing
767400 Boeing 767-400ER/CF6-80C2B(F) Jet 2 Heavy Commercial 450 000 340 000 6 000 58 685 3 CF680C CNT (lb) 205 102 Wing
767CF6 Boeing 767-200/CF6-80A Jet 2 Heavy Commercial 315 500 270 000 4 700 48 000 3 2CF680 CNT (lb) 203 103 Wing
767JT9 Boeing 767-200/JT9D-7R4D Jet 2 Heavy Commercial 351 000 270 000 4 744 48 000 3 2CF680 CNT (lb) 203 103 Wing
777200 Boeing 777-200/GE90-76B Jet 2 Heavy Commercial 656 000 470 000 4 450 90 000 3 GE90 CNT (lb) 205 105 Wing
777300 Boeing 777-300/Trent 892 Jet 2 Heavy Commercial 660 000 524 000 6 012 77 000 0 TRENT8 CNT (lb) 203 105 Wing
7773ER Boeing 777-300ER/GE90-115B-EIS Jet 2 Heavy Commercial 775 000 554 000 5 805 115 000 3 GE9015 CNT (lb) 204 107 Wing
7878R Boeing 787-8/T1000-C/01 Family Plan Cert Jet 2 Heavy Commercial 502 500 380 000 5 090 70 000 4 T1KBFP CNT (lb) 205 103 Wing
A300-622R Airbus A300-622R/PW4158 Jet 2 Heavy Commercial 378 533 308 647 4 735 58 000 3 PW4158 CNT (lb) 202 103 Wing
A300B4-203 Airbus A300B4-200/CF6-50C2 Jet 2 Heavy Commercial 364 000 295 000 5 367 52 500 3 2CF650 CNT (lb) 203 103 Wing
A310-304 Airbus A310-304/GE CF6-80C2A2 Jet 2 Heavy Commercial 346 126 273 373 4 682 53 500 3 A310 CNT (lb) 204 103 Wing
A319-131 Airbus A319-131/V2522-A5 Jet 2 Large Commercial 166 449 137 789 4 364 22 000 3 V2522A CNT (lb) 205 103 Wing
A320-211 Airbus A320-211/CFM56-5A1 Jet 2 Large Commercial 169 756 142 198 4 753 25 000 3 CFM565 CNT (lb) 202 103 Wing
A320-232 Airbus A320-232/V2527-A5 Jet 2 Large Commercial 169 756 145 505 4 917 26 500 3 V2527A CNT (lb) 205 103 Wing
A321-232 Airbus A321-232/IAE V2530-A5 Jet 2 Large Commercial 196 211 166 449 5 587 30 000 3 V2530 CNT (lb) 202 103 Wing
A330-301 Airbus A330-301/GE CF6-80 E1A2 Jet 2 Heavy Commercial 478 400 383 604 5 966 67 500 3 CF680E CNT (lb) 202 102 Wing
A330-343 Airbus A330-343/RR Trent 772B Jet 2 Heavy Commercial 513 677 412 264 5 512 71 100 3 TRENT7 CNT (lb) 205 102 Wing
A340-211 Airbus A340-211/CFM56-5C2 Jet 4 Heavy Commercial 573 200 399 036 5 900 31 200 3 CF565C CNT (lb) 206 107 Wing
A340-642 Airbus A340-642/RR Trent 556 Jet 4 Heavy Commercial 804 687 564 383 6 919 56 000 4 TRENT5 CNT (lb) 205 102 Wing
A380-841 Airbus A380-841/RR Trent 970 Jet 4 Heavy Commercial 1 254 430 862 007 6 752 70 000 4 TRENT9 CNT (lb) 205 105 Wing
A380-861 Airbus A380-861/EA GP7270 Jet 4 Heavy Commercial 1 254 430 862 007 6 837 70 000 4 GP7270 CNT (lb) 206 105 Wing
BAC111 BAC 111/SPEY MK511-14 Jet 2 Large Commercial 89 600 82 000 4 449 11 400 2 2JT8D CNT (lb) 201 101 Fuselage
BAE146 BAe 146-200/ALF502R-5 Jet 4 Large Commercial 93 000 81 000 3 770 6 970 3 AL502R CNT (lb) 206 108 Wing
BAE300 BAe 146-300/ALF502R-5 Jet 4 Large Commercial 97 500 84 500 3 960 6 970 3 AL502R CNT (lb) 206 108 Wing
BEC58P Raytheon BARON 58P/TS10-520-L Piston 2 Small General Aviation 6 100 6 100 2 733 779 0 TSIO52 CNT (% of Max Static Thrust) 215 109 Prop
CIT3 Cessna Citation III/TFE731-3-100S Jet 2 Large General Aviation 20 000 17 000 2 770 3 650 3 TF7313 CNT (lb) 216 113 Fuselage
CL600 Canadair CL-600/ALF502L Jet 2 Large General Aviation 36 000 33 000 3 300 7 500 3 AL502L CNT (lb) 216 113 Fuselage
CL601 Canadair CL-601/CF34-3A Jet 2 Large General Aviation 43 100 36 000 3 550 9 220 3 CF34 CNT (lb) 216 113 Fuselage
CNA172 Cessna 172R/Lycoming IO-360-L2A Piston 1 Small General Aviation 2 450 2 450 1 695 436 0 IO360L CNT (% of Max Static Thrust) 215 109 Prop
CNA182 Cessna 182H/Continental O-470-R Piston 1 Small General Aviation 2 800 2 800 1 544 965 2 O470R CNT (lb) 215 113 Prop
CNA206 Cessna 206H/Lycoming IO-540-AC Piston 1 Small General Aviation 3 600 3 600 1 880 798 0 IO540 Other (RPM) 215 109 Prop
CNA208 Cessna 208/PT6A-114 Turboprop 1 Small General Aviation 8 750 8 500 1 740 2 300 3 PT6A114 CNT (lb) 210 109 Prop
CNA20T Cessna T206H/Lycoming TIO-540-AJ1A Piston 1 Small General Aviation 3 600 3 600 1 880 825 0 TIO540 Other (RPM) 215 109 Prop
CNA441 Cessna CONQUEST II /TPE331-8 Turboprop 2 Small Commercial 9 900 9 400 1 939 1 535 0 TPE331 CNT (% of Max Static Thrust) 210 111 Prop
CNA500 Cessna Citation II/JT15D-4 Jet 2 Large General Aviation 14 700 14 000 3 050 2 500 3 JT15D1 CNT (lb) 216 113 Fuselage
CNA510 Cessna Mustang Model 510/PW615F Jet 2 Small Commercial 8 645 7 200 3 010 1 466 0 PW615F CNT (lb) 203 113 Fuselage
CNA525C Cessna Citation CJ4 525C /FJ44-4A Jet 2 Small Commercial 16 950 15 500 3 010 3 600 4 FJ44-4 CNT (lb) 235 136 Fuselage
CNA55B Cessna 550 Citation Bravo/PW530A Jet 2 Large General Aviation 14 800 13 500 3 010 2 863 0 PW530A CNT (lb) 203 113 Fuselage
CNA560E Cessna Citation Encore 560/PW535A Jet 2 Small Commercial 16 300 13 680 3 000 3 313 3 2PW535 CNT (lb) 238 138 Fuselage
CNA560U Cessna Citation Ultra 560/JT15D-5D Jet 2 Small Commercial 16 300 13 680 2 700 3 029 3 2J155D CNT (lb) 237 113 Fuselage
CNA560XL Cessna Citation Excel 560/PW545A Jet 2 Small Commercial 20 000 16 830 3 000 3 824 3 PW545A CNT (lb) 238 137 Fuselage
CNA680 Cessna Citation Sovereign 680/PW306C Jet 2 Small Commercial 30 000 24 390 3 010 5 749 3 PW306C CNT (lb) 236 136 Fuselage
CNA750 Cessna Citation X/Rolls Royce Allison AE3007C Jet 2 Large General Aviation 35 700 31 800 3 500 6 407 3 AE300C CNT (lb) 202 105 Fuselage
CONCRD Concorde/OLY593 Jet 4 Heavy Commercial 400 000 245 000 10 600 38 100 0 OLY593 CNT (lb) 206 106 Wing
CRJ9-ER Bombardier CL-600-2D15/CL-600-2D24/CF34-8C5 Jet 2 Large Commercial 82 500 73 500 5 779 13 525 3 CF348C5 CNT (lb) 216 113 Fuselage
CRJ9-LR Bombardier CL-600-2D15/CL-600-2D24/CF34-8C5 Jet 2 Large Commercial 84 500 75 100 5 680 13 525 3 CF348C5 CNT (lb) 216 113 Fuselage
CVR580 Convair CV-580/ALL 501-D15 Turboprop 2 Large Commercial 58 000 52 000 4 256 8 100 0 501D13 CNT (% of Max Static Thrust) 214 112 Prop
DC1010 McDonnell Douglas DC10-10/CF6-6D Jet 3 Heavy Commercial 455 000 363 000 5 820 40 000 3 CF66D CNT (lb) 203 101 Wing
DC1030 McDonnell Douglas DC10-30/CF6-50C2 Jet 3 Heavy Commercial 572 000 403 000 5 418 53 200 3 CF66D CNT (lb) 203 101 Wing
DC1040 McDonnell Douglas DC10-40/JT9D-20 Jet 3 Heavy Commercial 555 000 403 000 6 020 49 400 3 CF66D CNT (lb) 203 101 Wing
DC3 Douglas DC-3/R1820-86 Piston 2 Large Commercial 28 000 24 500 2 222 3 120 0 2R2800 CNT (% of Max Static Thrust) 213 110 Prop
DC6 Douglas DC-6/R2800-CB17 Piston 4 Large Commercial 106 000 95 000 3 010 4 180 0 4R2800 CNT (% of Max Static Thrust) 213 110 Prop
DC820 Douglas DC-8-20/JT4A Jet 4 Heavy Commercial 317 600 194 400 6 527 11 850 1 JT4A CNT (lb) 208 107 Wing
DC850 Douglas DC-8-50/JT3D-3B Jet 4 Heavy Commercial 325 000 240 000 5 400 18 000 1 JT3D CNT (lb) 208 107 Wing
DC860 Douglas DC-8-60/JT3D-7 Jet 4 Heavy Commercial 355 000 275 000 5 310 19 000 1 JT3D CNT (lb) 208 107 Wing
DC870 Douglas DC-8-70/CFM56-2C-5 Jet 4 Heavy Commercial 355 000 258 000 6 500 22 000 3 CFM562 CNT (lb) 206 106 Wing
DC8QN Douglas DC-8-60/JT8D-7QN Jet 4 Heavy Commercial 355 000 275 000 5 310 19 000 2 JT3DQ CNT (lb) 208 106 Wing
DC910 McDonnell Douglas DC-9-10/JT8D-7 Jet 2 Large Commercial 90 700 81 700 5 030 14 000 1 2JT8D CNT (lb) 201 101 Fuselage
DC930 McDonnell Douglas DC-9-30/JT8D-9 Jet 2 Large Commercial 114 000 102 000 4 680 14 500 1 2JT8D CNT (lb) 201 101 Fuselage
DC93LW McDonnell Douglas DC-9-30/JT8D-9 w/ ABS Lightweight hushkit Jet 2 Large Commercial 114 000 102 000 4 680 14 500 3 2JT8DL CNT (lb) 201 101 Fuselage
DC950 McDonnell Douglas DC-9-50/JT8D-17 Jet 2 Large Commercial 121 000 110 000 4 880 16 000 2 2JT8DQ CNT (lb) 201 101 Fuselage
DC95HW McDonnell Douglas DC-9-50/JT8D17 w/ ABS Heavyweight hushkit Jet 2 Large Commercial 121 000 110 000 4 880 16 000 3 2JT8DH CNT (lb) 201 101 Fuselage
DC9Q7 McDonnell Douglas DC-9-10/JT8D-7QN Jet 2 Large Commercial 90 700 81 700 5 030 14 000 2 2JT8DQ CNT (lb) 201 101 Fuselage
DC9Q9 McDonnell Douglas DC-9-30/JT8D-9QN Jet 2 Large Commercial 114 000 102 000 4 680 14 500 2 2JT8DQ CNT (lb) 201 101 Fuselage
DHC6 De Havilland DASH 6/PT6A-27 Turboprop 2 Small Commercial 12 500 12 300 1 500 2 000 0 PT6A27 CNT (% of Max Static Thrust) 210 109 Prop
DHC6QP De Havilland DASH 6/PT6A-27 Raisbeck Quiet PropMod Turboprop 2 Small Commercial 12 500 12 300 1 500 2 000 0 RAISQP CNT (% of Max Static Thrust) 210 109 Prop
DHC7 De Havilland DASH 7/PT6A-50 Turboprop 4 Large Commercial 41 000 39 000 2 150 2 850 3 PT6A50 CNT (% of Max Static Thrust) 213 112 Prop
DHC8 Bombardier de Havilland DASH 8-100/PW121 Turboprop 2 Large Commercial 34 500 33 900 3 000 4 750 3 PW120 CNT (% of Max Static Thrust) 213 112 Prop
DHC830 Bombardier de Havilland DASH 8-300/PW123 Turboprop 2 Large Commercial 43 000 42 000 3 500 4 918 3 PW120 CNT (% of Max Static Thrust) 213 112 Prop
DO228 Dornier 228-202/TPE 311-5 Turboprop 2 Large Commercial 13 669 13 448 2 375 2 240 3 TPE331-5 CNT (lb) 216 110 Prop
DO328 Dornier 328-100/PW119C Turboprop 2 Large Commercial 30 843 29 167 3 825 6 745 3 PW119C CNT (lb) 214 109 Prop
ECLIPSE500 Eclipse 500/PW610F Jet 2 Small General Aviation 6 000 5 600 2 389 1 031 3 PW610F CNT (lb) 201 103 Fuselage
EMB120 Embraer 120 ER/Pratt & Whitney PW118 Turboprop 2 Large Commercial 26 433 25 794 5 571 4 000 3 EPW118 CNT (lb) 213 109 Prop
EMB145 Embraer 145 ER/Allison AE3007 Jet 2 Large Commercial 45 420 41 230 4 232 7 500 3 AE3007 CNT (lb) 216 113 Fuselage
EMB14L Embraer 145 LR/Allison AE3007A1 Jet 2 Large Commercial 48 500 42 550 4 232 7 500 3 AE3007 CNT (lb) 216 113 Fuselage
EMB170 Embraer ERJ170-100 Jet 2 Large Commercial 82 012 72 312 4 029 13 800 3 CF348E CNT (lb) 216 113 Wing
EMB175 Embraer ERJ170-200 Jet 2 Large Commercial 85 517 74 957 4 130 13 800 3 CF348E CNT (lb) 216 113 Wing
EMB190 Embraer ERJ190-100 Jet 2 Large Commercial 114 199 97 003 4 081 18 500 3 CF3410E CNT (lb) 205 105 Wing
EMB195 Embraer ERJ190-200 Jet 2 Large Commercial 115 280 100 972 4 183 18 500 3 CF3410E CNT (lb) 205 105 Wing
F10062 Fokker 100/TAY 620-15 Jet 2 Large Commercial 95 000 85 500 4 560 13 900 3 TAY620 CNT (lb) 201 101 Fuselage
F10065 Fokker 100/TAY 650-15 Jet 2 Large Commercial 98 000 88 000 4 704 15 100 3 TAY650 CNT (lb) 201 101 Fuselage
F28MK2 Fokker F-28-2000/RB183MK555 Jet 2 Large Commercial 65 000 59 000 3 540 9 850 2 RB183 CNT (lb) 216 104 Fuselage
F28MK4 Fokker F-28-4000/RB183MK555 Jet 2 Large Commercial 73 000 64 000 3 546 9 900 2 RB183P CNT (lb) 216 104 Fuselage
FAL20 Dassault FALCON 20/CF700-2D-2 Jet 2 Large General Aviation 28 700 27 300 2 490 4 500 2 CF700 CNT (lb) 203 113 Fuselage
GII Gulfstream GII/SPEY 511-8 Jet 2 Large General Aviation 64 800 58 500 3 200 11 400 2 SPEYHK CNT (lb) 216 104 Fuselage
GIIB Gulfstream GIIB/GIII — SPEY 511-8 Jet 2 Large General Aviation 69 700 58 500 3 250 11 400 2 SPEYHK CNT (lb) 216 104 Fuselage
GIV Gulfstream GIV-SP/TAY 611-8 Jet 2 Large General Aviation 74 600 66 000 3 190 13 850 3 TAYGIV CNT (lb) 203 113 Fuselage
GV Gulfstream GV/BR 710 Jet 2 Large General Aviation 90 500 75 300 2 760 14 750 3 BR710 CNT (lb) 205 105 Fuselage
HS748A Hawker Siddeley HS-748/DART MK532-2 Turboprop 2 Large Commercial 46 500 43 000 3 360 5 150 2 RDA532 CNT (% of Max Static Thrust) 212 110 Prop
IA1125 IAI-1125 ASTRA/TFE731-3A Jet 2 Large General Aviation 23 500 20 700 3 689 3 700 3 TF7313 CNT (lb) 216 113 Fuselage
L1011 Lockheed Martin L-1011/RB211-22B Jet 3 Heavy Commercial 430 000 358 000 5 693 42 000 3 RB2112 CNT (lb) 203 101 Wing
L10115 Lockheed Martin L-1011-500/RB211-224B Jet 3 Heavy Commercial 510 000 368 000 6 800 50 000 3 RB2112 CNT (lb) 203 101 Wing
L188 Lockheed L-188C/ALL 501-D13 Turboprop 4 Large Commercial 116 000 98 100 4 960 8 000 0 T56A7 CNT (% of Max Static Thrust) 214 112 Prop
LEAR25 Learjet 25/CJ610-8 Jet 2 Large General Aviation 15 000 13 500 2 620 2 950 2 CJ610 CNT (lb) 202 113 Fuselage
LEAR35 Learjet 36/TFE731-2 Jet 2 Large General Aviation 18 300 15 300 3 076 3 500 3 TF7312 CNT (lb) 216 113 Fuselage
MD11GE McDonnell Douglas MD-11/CF6-80C2D1F Jet 3 Heavy Commercial 682 400 433 300 5 131 61 500 3 2CF68D CNT (lb) 203 103 Wing
MD11PW McDonnell Douglas MD-11/PW 4460 Jet 3 Heavy Commercial 682 400 433 300 4 681 60 000 3 PW4460 CNT (lb) 203 103 Wing
MD81 McDonnell Douglas MD-81/JT8D-209 Jet 2 Large Commercial 140 000 128 000 4 860 19 300 3 2JT8D2 CNT (lb) 204 104 Fuselage
MD82 McDonnell Douglas MD-82/JT8D-217A Jet 2 Large Commercial 149 500 130 000 4 920 20 900 3 2JT8D2 CNT (lb) 204 104 Fuselage
MD83 McDonnell Douglas MD-83/JT8D-219 Jet 2 Large Commercial 160 000 139 500 5 200 21 700 3 2JT8D2 CNT (lb) 204 104 Fuselage
MD9025 McDonnell Douglas MD-90/V2525-D5 Jet 2 Large Commercial 156 000 142 000 3 000 25 000 3 V2525 CNT (lb) 205 105 Fuselage
MD9028 McDonnell Douglas MD-90/V2528-D5 Jet 2 Large Commercial 156 000 142 000 3 000 28 000 3 V2525 CNT (lb) 205 105 Fuselage
MU3001 Mitsubishi MU300-10 Diamond II/JT15D-5 Jet 2 Large General Aviation 14 100 13 200 2 800 2 500 3 JT15D5 CNT (lb) 203 113 Fuselage
PA28 Piper Warrior PA-28-161/O-320-D3G Piston 1 Small General Aviation 2 325 2 325 1 695 400 0 O320D3 Other (RPM) 213 113 Prop
PA30 Piper Twin Comanche PA-30/IO-320-B1A Piston 2 Small General Aviation 3 600 3 600 1 654 777 0 IO320B CNT (lb) 213 113 Prop
PA31 Piper Navajo Chieftain PA-31-350/TIO-5 Piston 2 Small General Aviation 7 000 7 000 1 850 1 481 0 TIO542 Other (RPM) 213 109 Prop
PA42 Piper PA-42/PT6A-41 Turboprop 2 Small General Aviation 11 200 10 330 3 300 1 800 3 PT6A41 CNT (lb) 213 109 Prop
SABR80 NA Sabreliner 80 Jet 2 Large General Aviation 33 720 27 290 2 490 3 962 2 CF700 CNT (lb) 203 113 Fuselage
SD330 Short SD3-30/PT6A-45AR Turboprop 2 Large Commercial 22 900 22 600 3 650 2 670 3 PT6A45 CNT (% of Max Static Thrust) 211 109 Prop
SF340 Saab SF340B/CT7-9B Turboprop 2 Large Commercial 27 300 26 500 3 470 4 067 3 CT75 CNT (% of Max Static Thrust) 211 110 Prop
ACFTID Profile_ID Step number Step type Flap_ID Start Altitude (ft) Start CAS (kt) Descent Angle (deg) Touchdown Roll (ft) Distance (ft) Start Thrust (% Max thrust)
1900D DEFAULT 1 Descend ZERO-A 6 000,0 160,0 3,0   
1900D DEFAULT 2 Descend ZERO-A 3 000,0 160,0 3,0   
1900D DEFAULT 3 Descend ZERO-A 1 500,0 146,0 3,0   
1900D DEFAULT 4 Descend 35-A 1 000,0 118,0 3,0   
1900D DEFAULT 5 Land 35-A    57,2  
1900D DEFAULT 6 Decelerate  84,0   515,2 40,0
1900D DEFAULT 7 Decelerate  10,0   0,0 10,0
707320 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
707320 DEFAULT 2 Descend 14 3 000,0 160,0 3,0   
707320 DEFAULT 3 Descend D-25 1 500,0 145,0 3,0   
707320 DEFAULT 4 Descend D-40 1 000,0 131,6 3,0   
707320 DEFAULT 5 Land D-40    410,6  
707320 DEFAULT 6 Decelerate  124,9   3 695,4 40,0
707320 DEFAULT 7 Decelerate  30,0   0,0 10,0
707QN DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
707QN DEFAULT 2 Descend 14 3 000,0 160,0 3,0   
707QN DEFAULT 3 Descend D-25 1 500,0 145,0 3,0   
707QN DEFAULT 4 Descend D-40 1 000,0 131,6 3,0   
707QN DEFAULT 5 Land D-40    410,6  
707QN DEFAULT 6 Decelerate  124,9   3 695,4 40,0
707QN DEFAULT 7 Decelerate  30,0   0,0 10,0
717200 DEFAULT 1 Descend A_0U 6 000,0 250,0 3,0   
717200 DEFAULT 2 Descend A_18U 3 000,0 190,0 3,0   
717200 DEFAULT 3 Descend A_18D 1 500,0 160,0 3,0   
717200 DEFAULT 4 Descend A_40D 1 000,0 140,0 3,0   
717200 DEFAULT 5 Land A_40D    318,6  
717200 DEFAULT 6 Decelerate  130,0   2 867,4 40,0
717200 DEFAULT 7 Decelerate  30,0   0,0 8,6
720B DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
720B DEFAULT 2 Descend 20 3 000,0 160,0 3,0   
720B DEFAULT 3 Descend U-30 1 500,0 149,0 3,0   
720B DEFAULT 4 Descend D-30 1 000,0 139,0 3,0   
720B DEFAULT 5 Land D-30    419,1  
720B DEFAULT 6 Decelerate  131,9   3 771,9 40,0
720B DEFAULT 7 Decelerate  30,0   0,0 10,0
727100 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
727100 DEFAULT 2 Descend 5 3 000,0 160,0 3,0   
727100 DEFAULT 3 Descend D-25 1 500,0 125,5 3,0   
727100 DEFAULT 4 Descend D-30 1 000,0 123,2 3,0   
727100 DEFAULT 5 Land D-30    342,6  
727100 DEFAULT 6 Decelerate  116,8   3 083,4 40,0
727100 DEFAULT 7 Decelerate  30,0   0,0 10,0
727D15 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
727D15 DEFAULT 2 Descend 5 3 000,0 160,0 3,0   
727D15 DEFAULT 3 Descend D-25 1 500,0 149,6 3,0   
727D15 DEFAULT 4 Descend D-30 1 000,0 147,6 3,0   
727D15 DEFAULT 5 Land D-30    347,6  
727D15 DEFAULT 6 Decelerate  140,0   3 128,4 40,0
727D15 DEFAULT 7 Decelerate  30,0   0,0 10,0
727D17 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
727D17 DEFAULT 2 Descend 5 3 000,0 160,0 3,0   
727D17 DEFAULT 3 Descend D-25 1 500,0 149,6 3,0   
727D17 DEFAULT 4 Descend D-30 1 000,0 147,6 3,0   
727D17 DEFAULT 5 Land D-30    394,6  
727D17 DEFAULT 6 Decelerate  140,0   3 551,4 40,0
727D17 DEFAULT 7 Decelerate  30,0   0,0 10,0
727EM1 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
727EM1 DEFAULT 2 Descend 5 3 000,0 160,0 3,0   
727EM1 DEFAULT 3 Descend D-25 1 500,0 125,5 3,0   
727EM1 DEFAULT 4 Descend D-30 1 000,0 123,2 3,0   
727EM1 DEFAULT 5 Land D-30    342,6  
727EM1 DEFAULT 6 Decelerate  116,8   3 083,4 40,0
727EM1 DEFAULT 7 Decelerate  30,0   0,0 10,0
727EM2 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
727EM2 DEFAULT 2 Descend 5 3 000,0 160,0 3,0   
727EM2 DEFAULT 3 Descend D-25 1 500,0 149,6 3,0   
727EM2 DEFAULT 4 Descend D-30 1 000,0 147,6 3,0   
727EM2 DEFAULT 5 Land D-30    347,6  
727EM2 DEFAULT 6 Decelerate  140,0   3 128,4 40,0
727EM2 DEFAULT 7 Decelerate  30,0   0,0 10,0
727Q15 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
727Q15 DEFAULT 2 Descend 5 3 000,0 160,0 3,0   
727Q15 DEFAULT 3 Descend D-25 1 500,0 149,6 3,0   
727Q15 DEFAULT 4 Descend D-30 1 000,0 147,6 3,0   
727Q15 DEFAULT 5 Land D-30    347,6  
727Q15 DEFAULT 6 Decelerate  140,0   3 128,4 40,0
727Q15 DEFAULT 7 Decelerate  30,0   0,0 10,0
727Q7 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
727Q7 DEFAULT 2 Descend 5 3 000,0 160,0 3,0   
727Q7 DEFAULT 3 Descend D-25 1 500,0 125,5 3,0   
727Q7 DEFAULT 4 Descend D-30 1 000,0 123,2 3,0   
727Q7 DEFAULT 5 Land D-30    342,6  
727Q7 DEFAULT 6 Decelerate  116,8   3 083,4 40,0
727Q7 DEFAULT 7 Decelerate  30,0   0,0 10,0
727Q9 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
727Q9 DEFAULT 2 Descend 5 3 000,0 160,0 3,0   
727Q9 DEFAULT 3 Descend D-25 1 500,0 145,4 3,0   
727Q9 DEFAULT 4 Descend D-30 1 000,0 143,4 3,0   
727Q9 DEFAULT 5 Land D-30    394,6  
727Q9 DEFAULT 6 Decelerate  136,0   3 551,4 40,0
727Q9 DEFAULT 7 Decelerate  30,0   0,0 10,0
727QF DEFAULT 1 Descend U-ZERO 6 000,0 250,0 3,0   
727QF DEFAULT 2 Descend U-05 3 000,0 160,0 3,0   
727QF DEFAULT 3 Descend D-15 1 500,0 150,0 3,0   
727QF DEFAULT 4 Descend D-30 1 000,0 131,0 3,0   
727QF DEFAULT 5 Land D-30    363,0  
727QF DEFAULT 6 Decelerate  121,0   2 686,0 40,0
727QF DEFAULT 7 Decelerate  60,0   0,0 10,0
737 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
737 DEFAULT 2 Descend 5 3 000,0 170,0 3,0   
737 DEFAULT 3 Descend D-25 1 500,0 134,5 3,0   
737 DEFAULT 4 Descend D-30 1 000,0 131,5 3,0   
737 DEFAULT 5 Land D-30    255,6  
737 DEFAULT 6 Decelerate  124,8   2 300,4 40,0
737 DEFAULT 7 Decelerate  30,0   0,0 10,0
737300 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
737300 DEFAULT 2 Descend 5 3 000,0 170,0 3,0   
737300 DEFAULT 3 Descend D-15 1 500,0 148,6 3,0   
737300 DEFAULT 4 Descend D-30 1 000,0 139,0 3,0   
737300 DEFAULT 5 Land D-30    316,8  
737300 DEFAULT 6 Decelerate  131,9   2 851,2 40,0
737300 DEFAULT 7 Decelerate  30,0   0,0 10,0
7373B2 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
7373B2 DEFAULT 2 Descend 5 3 000,0 170,0 3,0   
7373B2 DEFAULT 3 Descend D-15 1 500,0 148,6 3,0   
7373B2 DEFAULT 4 Descend D-30 1 000,0 139,0 3,0   
7373B2 DEFAULT 5 Land D-30    316,8  
7373B2 DEFAULT 6 Decelerate  131,9   2 851,2 40,0
7373B2 DEFAULT 7 Decelerate  30,0   0,0 10,0
737400 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
737400 DEFAULT 2 Descend 5 3 000,0 170,0 3,0   
737400 DEFAULT 3 Descend D-15 1 500,0 159,7 3,0   
737400 DEFAULT 4 Descend D-30 1 000,0 144,9 3,0   
737400 DEFAULT 5 Land D-30    360,2  
737400 DEFAULT 6 Decelerate  137,5   3 241,8 40,0
737400 DEFAULT 7 Decelerate  30,0   0,0 10,0
737500 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
737500 DEFAULT 2 Descend 5 3 000,0 170,0 3,0   
737500 DEFAULT 3 Descend D-15 1 500,0 143,4 3,0   
737500 DEFAULT 4 Descend D-30 1 000,0 135,3 3,0   
737500 DEFAULT 5 Land D-30    314,2  
737500 DEFAULT 6 Decelerate  128,4   2 827,8 40,0
737500 DEFAULT 7 Decelerate  30,0   0,0 10,0
737700 DEFAULT 1 Descend T_ZERO 6 000,0 250,0 3,0   
737700 DEFAULT 2 Descend T_5 3 000,0 171,0 3,0   
737700 DEFAULT 3 Descend A_15 1 500,0 140,0 3,0   
737700 DEFAULT 4 Descend A_40 1 000,0 133,0 3,0   
737700 DEFAULT 5 Land A_40    304,7  
737700 DEFAULT 6 Decelerate  116,0   2 741,9 40,0
737700 DEFAULT 7 Decelerate  30,0   0,0 10,0
737D17 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
737D17 DEFAULT 2 Descend 5 3 000,0 170,0 3,0   
737D17 DEFAULT 3 Descend D-25 1 500,0 140,2 3,0   
737D17 DEFAULT 4 Descend D-30 1 000,0 137,7 3,0   
737D17 DEFAULT 5 Land D-30    286,6  
737D17 DEFAULT 6 Decelerate  130,7   2 579,4 40,0
737D17 DEFAULT 7 Decelerate  30,0   0,0 10,0
737N17 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
737N17 DEFAULT 2 Descend 5 3 000,0 170,0 3,0   
737N17 DEFAULT 3 Descend D-25 1 500,0 140,2 3,0   
737N17 DEFAULT 4 Descend D-30 1 000,0 137,7 3,0   
737N17 DEFAULT 5 Land D-30    286,6  
737N17 DEFAULT 6 Decelerate  130,7   2 579,4 40,0
737N17 DEFAULT 7 Decelerate  30,0   0,0 10,0
737N9 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
737N9 DEFAULT 2 Descend 5 3 000,0 170,0 3,0   
737N9 DEFAULT 3 Descend D-25 1 500,0 134,5 3,0   
737N9 DEFAULT 4 Descend D-30 1 000,0 131,5 3,0   
737N9 DEFAULT 5 Land D-30    255,6  
737N9 DEFAULT 6 Decelerate  124,8   2 300,4 40,0
737N9 DEFAULT 7 Decelerate  30,0   0,0 10,0
737QN DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
737QN DEFAULT 2 Descend 5 3 000,0 170,0 3,0   
737QN DEFAULT 3 Descend D-25 1 500,0 134,5 3,0   
737QN DEFAULT 4 Descend D-30 1 000,0 131,5 3,0   
737QN DEFAULT 5 Land D-30    255,6  
737QN DEFAULT 6 Decelerate  124,8   2 300,4 40,0
737QN DEFAULT 7 Decelerate  30,0   0,0 10,0
74710Q DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
74710Q DEFAULT 2 Descend 10 3 000,0 160,0 3,0   
74710Q DEFAULT 3 Descend D-20 1 500,0 155,0 3,0   
74710Q DEFAULT 4 Descend D-30 1 000,0 144,0 3,0   
74710Q DEFAULT 5 Land D-30    462,6  
74710Q DEFAULT 6 Decelerate  136,6   4 163,4 10,0
74710Q DEFAULT 7 Decelerate  30,0   0,0 10,0
747200 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
747200 DEFAULT 2 Descend 10 3 000,0 160,0 3,0   
747200 DEFAULT 3 Descend D-20 1 500,0 155,0 3,0   
747200 DEFAULT 4 Descend D-30 1 000,0 144,0 3,0   
747200 DEFAULT 5 Land D-30    462,6  
747200 DEFAULT 6 Decelerate  136,6   4 163,4 10,0
747200 DEFAULT 7 Decelerate  30,0   0,0 10,0
74720A DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
74720A DEFAULT 2 Descend 10 3 000,0 163,7 3,0   
74720A DEFAULT 3 Descend D-25 1 500,0 150,0 3,0   
74720A DEFAULT 4 Descend D-30 1 000,0 143,7 3,0   
74720A DEFAULT 5 Land D-30    462,6  
74720A DEFAULT 6 Decelerate  136,3   4 163,4 10,0
74720A DEFAULT 7 Decelerate  30,0   0,0 10,0
74720B DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
74720B DEFAULT 2 Descend 10 3 000,0 171,9 3,0   
74720B DEFAULT 3 Descend D-25 1 500,0 158,5 3,0   
74720B DEFAULT 4 Descend D-30 1 000,0 151,9 3,0   
74720B DEFAULT 5 Land D-30    462,6  
74720B DEFAULT 6 Decelerate  144,1   4 163,4 10,0
74720B DEFAULT 7 Decelerate  30,0   0,0 10,0
747400 DEFAULT 1 Descend 5 6 000,0 250,0 3,0   
747400 DEFAULT 2 Descend 10 3 000,0 175,4 3,0   
747400 DEFAULT 3 Descend D-25 1 500,0 161,4 3,0   
747400 DEFAULT 4 Descend D-30 1 000,0 155,4 3,0   
747400 DEFAULT 5 Land D-30    533,6  
747400 DEFAULT 6 Decelerate  147,5   4 802,4 10,0
747400 DEFAULT 7 Decelerate  30,0   0,0 10,0
7478 DEFAULT 1 Descend-Idle 6 000,0 278,8 3,0   
7478 DEFAULT 2 Level-Idle  3 000,0 279,5   30 000,0 
7478 DEFAULT 3 Level-Idle  3 000,0 218,3   10 000,0 
7478 DEFAULT 4 Level-Idle  3 000,0 186,1   3 050,0 
7478 DEFAULT 5 Level-Idle  3 000,0 174,6   4 500,0 
7478 DEFAULT 6 Level F_10 3 000,0 162,3   2 069,0 
7478 DEFAULT 7 Descend F_30 3 000,0 157,4 3,0   
7478 DEFAULT 8 Land F_30    615,6  
7478 DEFAULT 9 Decelerate   150,4   5 540,4 10,0
7478 DEFAULT 10 Decelerate   30,0   0,0 10,0
747SP DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
747SP DEFAULT 2 Descend 10 3 000,0 160,0 3,0   
747SP DEFAULT 3 Descend D-20 1 500,0 141,5 3,0   
747SP DEFAULT 4 Descend D-30 1 000,0 132,4 3,0   
747SP DEFAULT 5 Land D-30    436,6  
747SP DEFAULT 6 Decelerate  125,6   3 929,4 10,0
747SP DEFAULT 7 Decelerate  30,0   0,0 10,0
757PW DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
757PW DEFAULT 2 Descend 5 3 000,0 160,0 3,0   
757PW DEFAULT 3 Descend D-25 1 500,0 136,5 3,0   
757PW DEFAULT 4 Descend D-30 1 000,0 134,2 3,0   
757PW DEFAULT 5 Land D-30    335,7  
757PW DEFAULT 6 Decelerate  127,3   3 021,3 40,0
757PW DEFAULT 7 Decelerate  30,0   0,0 10,0
757RR DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
757RR DEFAULT 2 Descend 5 3 000,0 160,0 3,0   
757RR DEFAULT 3 Descend D-25 1 500,0 136,7 3,0   
757RR DEFAULT 4 Descend D-30 1 000,0 134,7 3,0   
757RR DEFAULT 5 Land D-30    322,2  
757RR DEFAULT 6 Decelerate  127,8   2 899,8 40,0
757RR DEFAULT 7 Decelerate  30,0   0,0 10,0
767300 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
767300 DEFAULT 2 Descend 5 3 000,0 167,0 3,0   
767300 DEFAULT 3 Descend D-25 1 500,0 141,0 3,0   
767300 DEFAULT 4 Descend D-30 1 000,0 137,1 3,0   
767300 DEFAULT 5 Land D-30    328,5  
767300 DEFAULT 6 Decelerate  130,1   2 956,5 10,0
767300 DEFAULT 7 Decelerate  30,0   0,0 10,0
767CF6 DEFAULT 1 Descend 1 6 000,0 250,0 3,0   
767CF6 DEFAULT 2 Descend 5 3 000,0 168,5 3,0   
767CF6 DEFAULT 3 Descend D-25 1 500,0 143,0 3,0   
767CF6 DEFAULT 4 Descend D-30 1 000,0 138,5 3,0   
767CF6 DEFAULT 5 Land D-30    327,6  
767CF6 DEFAULT 6 Decelerate  131,4   2 948,4 10,0
767CF6 DEFAULT 7 Decelerate  30,0   0,0 10,0
767JT9 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
767JT9 DEFAULT 2 Descend 5 3 000,0 168,5 3,0   
767JT9 DEFAULT 3 Descend D-25 1 500,0 143,0 3,0   
767JT9 DEFAULT 4 Descend D-30 1 000,0 138,5 3,0   
767JT9 DEFAULT 5 Land D-30    331,6  
767JT9 DEFAULT 6 Decelerate  131,4   2 984,4 10,0
767JT9 DEFAULT 7 Decelerate  30,0   0,0 10,0
7773ER DEFAULT 1 Descend-Idle 6 000,0 249,9 3,0   
7773ER DEFAULT 2 Level-Idle  3 000,0 249,9   20 776,0 
7773ER DEFAULT 3 Level-Idle  3 000,0 210,6   10 088,0 
7773ER DEFAULT 4 Level-Idle  3 000,0 185,4   5 926,0 
7773ER DEFAULT 5 Descend-Idle  3 000,0 170,4 3,0   
7773ER DEFAULT 6 Descend F_30 2 700,0 147,8 3,0   
7773ER DEFAULT 7 Land F_30    427,1  
7773ER DEFAULT 8 Decelerate   140,8   3 843,5 10,0
7773ER DEFAULT 9 Decelerate   30,0   0,0 10,0
7878R DEFAULT 1 Descend-Idle  6 000,0 249,0 3,0   
7878R DEFAULT 2 Level-Idle  3 000,0 249,5   20 950,0 
7878R DEFAULT 3 Level-Idle  3 000,0 214,3   10 000,0 
7878R DEFAULT 4 Level-Idle  3 000,0 178,9   5 000,0 
7878R DEFAULT 5 Descend-Idle 3 000,0 157,0 3,0   
7878R DEFAULT 6 Descend FLAP30 2 725,0 142,3 3,0   
7878R DEFAULT 7 Land FLAP30    362,7  
7878R DEFAULT 8 Decelerate   135,3   3 264,3 10,0
7878R DEFAULT 9 Decelerate   30,0   0,0 10,0
A300-622R DEFAULT 1 Descend-Idle 6 000,0 250,0 3,3   
A300-622R DEFAULT 2 Level-Idle  3 000,0 250,0   14 583,3 
A300-622R DEFAULT 3 Level-Idle  3 000,0 210,9   7 398,3 
A300-622R DEFAULT 4 Descend-Idle 3 000,0 185,1 3,0   
A300-622R DEFAULT 5 Descend-Idle 2 417,0 175,9 3,0   
A300-622R DEFAULT 6 Descend-Idle 1 818,0 149,0 3,0   
A300-622R DEFAULT 7 Descend FULL_D 1 615,0 133,5 3,0   
A300-622R DEFAULT 8 Descend FULL_D 50,0 133,5 3,0   
A300-622R DEFAULT 9 Land FULL_D    305,3  
A300-622R DEFAULT 10 Decelerate  130,5   2 747,8 10,0
A300-622R DEFAULT 11 Decelerate  30,0   0,0 10,0
A300B4-203 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
A300B4-203 DEFAULT 2 Descend 1 3 000,0 158,5 3,0   
A300B4-203 DEFAULT 3 Descend D-15 1 500,0 148,5 3,0   
A300B4-203 DEFAULT 4 Descend D-25 1 000,0 140,0 3,0   
A300B4-203 DEFAULT 5 Land D-25    387,6  
A300B4-203 DEFAULT 6 Decelerate  132,8   3 488,4 40,0
A300B4-203 DEFAULT 7 Decelerate  30,0   0,0 10,0
A310-304 DEFAULT 1 Descend-Idle 6 000,0 250,0 3,2   
A310-304 DEFAULT 2 Level-Idle  3 000,0 250,0   14 609,6 
A310-304 DEFAULT 3 Level-Idle  3 000,0 211,6   8 736,9 
A310-304 DEFAULT 4 Descend-Idle 3 000,0 180,6 3,0   
A310-304 DEFAULT 5 Descend-Idle 2 551,0 169,3 3,0   
A310-304 DEFAULT 6 Descend-Idle 2 147,0 148,0 3,0   
A310-304 DEFAULT 7 Descend FULL_D 2 000,0 134,6 3,0   
A310-304 DEFAULT 8 Descend FULL_D 50,0 134,6 3,0   
A310-304 DEFAULT 9 Land FULL_D    302,9  
A310-304 DEFAULT 10 Decelerate  131,6   2 726,6 10,0
A310-304 DEFAULT 11 Decelerate  30,0   0,0 10,0
A319-131 DEFAULT 1 Descend-Idle 6 000,0 250,0 3,1   
A319-131 DEFAULT 2 Level-Idle  3 000,0 250,0   19 940,9 
A319-131 DEFAULT 3 Level-Idle  3 000,0 197,5   4 813,0 
A319-131 DEFAULT 4 Descend-Idle 3 000,0 181,4 3,0   
A319-131 DEFAULT 5 Descend-Idle 2 610,0 167,7 3,0   
A319-131 DEFAULT 6 Descend-Idle 2 114,0 138,4 3,0   
A319-131 DEFAULT 7 Descend FULL_D 1 971,0 125,3 3,0   
A319-131 DEFAULT 8 Descend FULL_D 50,0 125,3 3,0   
A319-131 DEFAULT 9 Land FULL_D    152,3  
A319-131 DEFAULT 10 Decelerate  122,3   1 370,6 40,0
A319-131 DEFAULT 11 Decelerate  30,0   0,0 10,0
A320-211 DEFAULT 1 Descend-Idle 6 000,0 250,0 3,5   
A320-211 DEFAULT 2 Level-Idle  3 000,0 250,0   16 811,0 
A320-211 DEFAULT 3 Level-Idle  3 000,0 201,1   5 547,9 
A320-211 DEFAULT 4 Descend-Idle 3 000,0 182,2 3,0   
A320-211 DEFAULT 5 Descend-Idle 2 614,0 173,7 3,0   
A320-211 DEFAULT 6 Descend-Idle 1 942,0 141,0 3,0   
A320-211 DEFAULT 7 Descend FULL_D 1 823,0 132,6 3,0   
A320-211 DEFAULT 8 Descend FULL_D 50,0 132,6 3,0   
A320-211 DEFAULT 9 Land FULL_D    303,5  
A320-211 DEFAULT 10 Decelerate  129,6   2 731,6 40,0
A320-211 DEFAULT 11 Decelerate  30,0   0,0 10,0
A320-232 DEFAULT 1 Descend-Idle 6 000,0 250,0 2,8   
A320-232 DEFAULT 2 Level-Idle  3 000,0 250,0   20 003,3 
A320-232 DEFAULT 3 Level-Idle  3 000,0 198,7   4 629,3 
A320-232 DEFAULT 4 Descend-Idle 3 000,0 183,5 3,0   
A320-232 DEFAULT 5 Descend-Idle 2 613,0 172,8 3,0   
A320-232 DEFAULT 6 Descend-Idle 2 033,0 142,2 3,0   
A320-232 DEFAULT 7 Descend FULL_D 1 819,0 133,8 3,0   
A320-232 DEFAULT 8 Descend FULL_D 50,0 133,8 3,0   
A320-232 DEFAULT 9 Land FULL_D    311,0  
A320-232 DEFAULT 10 Decelerate  130,8   2 799,4 40,0
A320-232 DEFAULT 11 Decelerate  30,0   0,0 10,0
A321-232 DEFAULT 1 Descend-Idle 6 000,0 250,0 3,1   
A321-232 DEFAULT 2 Level-Idle  3 000,0 250,0   14 717,8 
A321-232 DEFAULT 3 Level-Idle  3 000,0 211,2   6 135,2 
A321-232 DEFAULT 4 Descend-Idle 3 000,0 191,6 3,0   
A321-232 DEFAULT 5 Descend-Idle 2 530,0 175,2 3,0   
A321-232 DEFAULT 6 Descend-Idle 2 133,0 149,8 3,0   
A321-232 DEFAULT 7 Descend FULL_D 2 003,0 138,5 3,0   
A321-232 DEFAULT 8 Descend FULL_D 50,0 138,5 3,0   
A321-232 DEFAULT 9 Land FULL_D    345,2  
A321-232 DEFAULT 10 Decelerate  135,5   3 106,8 40,0
A321-232 DEFAULT 11 Decelerate  30,0   0,0 10,0
A330-301 DEFAULT 1 Descend-Idle 6 000,0 250,0 3,1   
A330-301 DEFAULT 2 Level-Idle  3 000,0 250,0   19 547,2 
A330-301 DEFAULT 3 Level-Idle  3 000,0 200,9   10 029,5 
A330-301 DEFAULT 4 Descend-Idle 3 000,0 166,0 3,0   
A330-301 DEFAULT 5 Descend-Idle 2 547,0 154,0 3,0   
A330-301 DEFAULT 6 Descend-Idle 2 292,0 140,5 3,0   
A330-301 DEFAULT 7 Descend FULL_D 2 144,0 130,9 3,0   
A330-301 DEFAULT 8 Descend FULL_D 50,0 130,9 3,0   
A330-301 DEFAULT 9 Land FULL_D    210,4  
A330-301 DEFAULT 10 Decelerate  127,9   1 893,8 10,0
A330-301 DEFAULT 11 Decelerate  30,0   0,0 10,0
A330-343 DEFAULT 1 Descend-Idle 6 000,0 250,0 2,4   
A330-343 DEFAULT 2 Level-Idle  3 000,0 250,0   20 711,9 
A330-343 DEFAULT 3 Level-Idle  3 000,0 207,9   11 430,4 
A330-343 DEFAULT 4 Descend-Idle 3 000,0 174,4 3,0   
A330-343 DEFAULT 5 Descend-Idle 2 517,0 165,0 3,0   
A330-343 DEFAULT 6 Descend-Idle 2 431,0 161,7 3,0   
A330-343 DEFAULT 7 Descend-Idle 2 113,0 146,6 3,0   
A330-343 DEFAULT 8 Descend FULL_D 1 938,0 135,5 3,0   
A330-343 DEFAULT 9 Descend FULL_D 50,0 135,5 3,0   
A330-343 DEFAULT 10 Land FULL_D    378,0  
A330-343 DEFAULT 11 Decelerate  132,5   3 402,6 10,0
A330-343 DEFAULT 12 Decelerate  30,0   0,0 10,0
A340-211 DEFAULT 1 Descend-Idle 6 000,0 250,0 3,3   
A340-211 DEFAULT 2 Level-Idle  3 000,0 250,0   14 038,7 
A340-211 DEFAULT 3 Level-Idle  3 000,0 212,7   10 866,1 
A340-211 DEFAULT 4 Descend-Idle 3 000,0 175,6 3,0   
A340-211 DEFAULT 5 Descend-Idle 2 471,0 160,3 3,0   
A340-211 DEFAULT 6 Descend-Idle 2 336,0 153,8 3,0   
A340-211 DEFAULT 7 Descend-Idle 2 066,0 138,5 3,0   
A340-211 DEFAULT 8 Descend FULL_D 1 976,0 132,1 3,0   
A340-211 DEFAULT 9 Descend FULL_D 50,0 132,1 3,0   
A340-211 DEFAULT 10 Land FULL_D    381,8  
A340-211 DEFAULT 11 Decelerate  129,1   3 436,6 10,0
A340-211 DEFAULT 12 Decelerate  30,0   0,0 10,0
A340-642 DEFAULT 1 Descend-Idle 6 000,0 250,0 2,8   
A340-642 DEFAULT 2 Level-Idle  3 000,0 250,0   15 853,0 
A340-642 DEFAULT 3 Level-Idle  3 000,0 212,1   9 839,2 
A340-642 DEFAULT 4 Descend-Idle 3 000,0 188,5 3,0   
A340-642 DEFAULT 5 Descend-Idle 2 333,0 178,1 3,0   
A340-642 DEFAULT 6 Descend-Idle 2 191,0 173,2 3,0   
A340-642 DEFAULT 7 Descend-Idle 1 805,0 155,5 3,0   
A340-642 DEFAULT 8 Descend FULL_D 1 650,0 147,8 3,0   
A340-642 DEFAULT 9 Descend FULL_D 50,0 147,8 3,0   
A340-642 DEFAULT 10 Land FULL_D    280,7  
A340-642 DEFAULT 11 Decelerate  144,8   2 526,5 10,0
A340-642 DEFAULT 12 Decelerate  30,0   0,0 10,0
A380-841 DEFAULT 1 Descend-Idle 6 000,0 250,0 3,0   
A380-841 DEFAULT 2 Level-Idle  3 000,0 250,0   18 044,6 
A380-841 DEFAULT 3 Level A_1+F 3 000,0    11 893,0 
A380-841 DEFAULT 4 Level-Idle  3 000,0 205,0   9 691,6 
A380-841 DEFAULT 5 Descend-Idle 3 000,0 172,6 3,0   
A380-841 DEFAULT 6 Descend-Idle 2 446,0 161,2 3,0   
A380-841 DEFAULT 7 Descend A_FULL 1 976,0 136,3 3,0   
A380-841 DEFAULT 8 Descend A_FULL 50,0 136,3 3,0   
A380-841 DEFAULT 9 Land A_FULL    636,8  
A380-841 DEFAULT 10 Decelerate  136,3   5 731,3 10,0
A380-841 DEFAULT 11 Decelerate  30,0   0,0 10,0
A380-861 DEFAULT 1 Descend-Idle 6 000,0 250,0 2,7   
A380-861 DEFAULT 2 Level-Idle  3 000,0 250,0   20 036,1 
A380-861 DEFAULT 3 Level A_1+F 3 000,0    11 896,0 
A380-861 DEFAULT 4 Level-Idle  3 000,0 205,0   10 213,0 
A380-861 DEFAULT 5 Descend-Idle 3 000,0 172,6 3,0   
A380-861 DEFAULT 6 Descend-Idle 2 445,0 161,2 3,0   
A380-861 DEFAULT 7 Descend A_FULL 1 976,0 136,3 3,0   
A380-861 DEFAULT 8 Descend A_FULL 50,0 136,3 3,0   
A380-861 DEFAULT 9 Land A_FULL    636,8  
A380-861 DEFAULT 10 Decelerate  136,3   5 731,3 10,0
A380-861 DEFAULT 11 Decelerate  30,0   0,0 10,0
BAC111 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
BAC111 DEFAULT 2 Descend INT1 3 000,0 153,3 3,0   
BAC111 DEFAULT 3 Descend U-INT 1 500,0 143,3 3,0   
BAC111 DEFAULT 4 Descend D-45 1 000,0 133,3 3,0   
BAC111 DEFAULT 5 Land D-45    305,0  
BAC111 DEFAULT 6 Decelerate  126,5   2 745,0 40,0
BAC111 DEFAULT 7 Decelerate  30,0   0,0 10,0
BAE146 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
BAE146 DEFAULT 2 Descend 18 3 000,0 180,0 3,0   
BAE146 DEFAULT 3 Descend D-24 1 500,0 166,5 3,0   
BAE146 DEFAULT 4 Descend D-33 1 000,0 123,0 3,0   
BAE146 DEFAULT 5 Land D-33    243,9  
BAE146 DEFAULT 6 Decelerate  116,7   2 195,1 40,0
BAE146 DEFAULT 7 Decelerate  30,0   0,0 10,0
BAE300 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
BAE300 DEFAULT 2 Descend 18 3 000,0 180,0 3,0   
BAE300 DEFAULT 3 Descend D-24 1 500,0 167,0 3,0   
BAE300 DEFAULT 4 Descend D-33 1 000,0 124,4 3,0   
BAE300 DEFAULT 5 Land D-33    261,0  
BAE300 DEFAULT 6 Decelerate  118,0   2 349,0 40,0
BAE300 DEFAULT 7 Decelerate  30,0   0,0 10,0
BEC58P DEFAULT 1 Descend ZERO 6 000,0 130,0 5,0   
BEC58P DEFAULT 2 Descend TO 3 000,0 119,0 5,0   
BEC58P DEFAULT 3 Descend D-15 1 500,0 109,0 5,0   
BEC58P DEFAULT 4 Descend D-30 1 000,0 99,0 5,0   
BEC58P DEFAULT 5 Land D-30    188,8  
BEC58P DEFAULT 6 Decelerate  93,9   1 699,2 40,0
BEC58P DEFAULT 7 Decelerate  30,0   0,0 10,0
BEC58P STD_3DEG 1 Descend ZERO 6 000,0 130,0 3,0   
BEC58P STD_3DEG 2 Descend TO 3 000,0 119,0 3,0   
BEC58P STD_3DEG 3 Descend D-15 1 500,0 109,0 3,0   
BEC58P STD_3DEG 4 Descend D-30 1 000,0 99,0 3,0   
BEC58P STD_3DEG 5 Land D-30    188,8  
BEC58P STD_3DEG 6 Decelerate  93,9   1 699,2 40,0
BEC58P STD_3DEG 7 Decelerate  30,0   0,0 10,0
BEC58P STD_5DEG 1 Descend ZERO 6 000,0 130,0 5,0   
BEC58P STD_5DEG 2 Descend TO 3 000,0 119,0 5,0   
BEC58P STD_5DEG 3 Descend D-15 1 500,0 109,0 5,0   
BEC58P STD_5DEG 4 Descend D-30 1 000,0 99,0 5,0   
BEC58P STD_5DEG 5 Land D-30    188,8  
BEC58P STD_5DEG 6 Decelerate  93,9   1 699,2 40,0
BEC58P STD_5DEG 7 Decelerate  30,0   0,0 10,0
CIT3 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
CIT3 DEFAULT 2 Descend 10 3 000,0 139,5 3,0   
CIT3 DEFAULT 3 Descend D-INTR 1 500,0 129,5 3,0   
CIT3 DEFAULT 4 Descend D-40 1 000,0 119,5 3,0   
CIT3 DEFAULT 5 Land D-40    153,9  
CIT3 DEFAULT 6 Decelerate  113,4   1 385,1 40,0
CIT3 DEFAULT 7 Decelerate  30,0   0,0 10,0
CL600 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
CL600 DEFAULT 2 Descend 10 3 000,0 152,1 3,0   
CL600 DEFAULT 3 Descend D-INTR 1 500,0 142,1 3,0   
CL600 DEFAULT 4 Descend D-45 1 000,0 132,1 3,0   
CL600 DEFAULT 5 Land D-45    201,6  
CL600 DEFAULT 6 Decelerate  125,3   1 814,4 40,0
CL600 DEFAULT 7 Decelerate  30,0   0,0 10,0
CL601 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
CL601 DEFAULT 2 Descend 10 3 000,0 158,5 3,0   
CL601 DEFAULT 3 Descend D-INTR 1 500,0 148,5 3,0   
CL601 DEFAULT 4 Descend D-45 1 000,0 138,5 3,0   
CL601 DEFAULT 5 Land D-45    224,1  
CL601 DEFAULT 6 Decelerate  131,4   2 016,9 40,0
CL601 DEFAULT 7 Decelerate  30,0   0,0 10,0
CNA172 DEFAULT 1 Descend ZERO-D 6 000,0 100,0 3,0   
CNA172 DEFAULT 2 Descend ZERO-D 4 000,0 100,0 3,0   
CNA172 DEFAULT 3 Descend ZERO-D 3 000,0 80,0 3,0   
CNA172 DEFAULT 4 Descend 10-D 1 000,0 80,0 3,0   
CNA172 DEFAULT 5 Descend 10-D 600,0 80,0 3,0   
CNA172 DEFAULT 6 Descend 10-D 500,0 70,0 3,0   
CNA172 DEFAULT 7 Land 10-D    30,0  
CNA172 DEFAULT 8 Decelerate  62,0   530,0 10,0
CNA172 DEFAULT 9 Decelerate  10,0   0,0 10,0
CNA182 DEFAULT 1 Descend ZERO-A 6 000,0 110,0 3,0   
CNA182 DEFAULT 2 Descend ZERO-A 4 000,0 90,0 3,0   
CNA182 DEFAULT 3 Descend ZERO-A 2 000,0 70,0 3,0   
CNA182 DEFAULT 4 Descend F10APP 1 000,0 70,0 3,0   
CNA182 DEFAULT 5 Descend F30APP 500,0 65,0 3,0   
CNA182 DEFAULT 6 Land F30APP    30,0  
CNA182 DEFAULT 7 Decelerate  65,0   560,0 10,0
CNA182 DEFAULT 8 Decelerate  10,0   0,0 10,0
CNA208 DEFAULT 1 Descend ZERO-A 6 000,0 140,0 3,0   
CNA208 DEFAULT 2 Descend ZERO-A 4 000,0 124,0 3,0   
CNA208 DEFAULT 3 Descend ZERO-A 2 000,0 108,0 3,0   
CNA208 DEFAULT 4 Descend F30APP 1 000,0 100,0 3,0   
CNA208 DEFAULT 5 Descend F30APP 500,0 80,0 3,0   
CNA208 DEFAULT 6 Land F30APP    100,0  
CNA208 DEFAULT 7 Decelerate  78,0   815,0 10,0
CNA208 DEFAULT 8 Decelerate  30,0   0,0 10,0
CNA441 DEFAULT 1 Descend ZERO 6 000,0 160,0 3,0   
CNA441 DEFAULT 2 Descend TO 3 000,0 113,9 3,0   
CNA441 DEFAULT 3 Descend D-INTR 1 500,0 103,9 3,0   
CNA441 DEFAULT 4 Descend D-L 1 000,0 93,9 3,0   
CNA441 DEFAULT 5 Land D-L    79,1  
CNA441 DEFAULT 6 Decelerate  89,1   711,9 40,0
CNA441 DEFAULT 7 Decelerate  30,0   0,0 10,0
CNA500 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
CNA500 DEFAULT 2 Descend 1 3 000,0 131,3 3,0   
CNA500 DEFAULT 3 Descend D-INTR 1 500,0 121,3 3,0   
CNA500 DEFAULT 4 Descend D-35 1 000,0 111,3 3,0   
CNA500 DEFAULT 5 Land D-35    179,1  
CNA500 DEFAULT 6 Decelerate  105,6   1 611,9 40,0
CNA500 DEFAULT 7 Decelerate  30,0   0,0 10,0
CNA510 DEFAULT 1 Descend ZERO_C 6 000,0 250,0 3,0   
CNA510 DEFAULT 2 Descend ZERO_C 3 000,0 160,0 3,0   
CNA510 DEFAULT 3 Descend A_15 1 500,0 91,1 3,0   
CNA510 DEFAULT 4 Descend A_35 1 000,0 85,1 3,0   
CNA510 DEFAULT 5 Land A_35    175,5  
CNA510 DEFAULT 6 Decelerate  78,1   1 579,5 40,0
CNA510 DEFAULT 7 Decelerate  30,0   0,0 10,0
CNA525C DEFAULT 1 Descend ZERO_C 6 000,0 250,0 3,0   
CNA525C DEFAULT 2 Descend ZERO_C 3 000,0 130,0 3,0   
CNA525C DEFAULT 3 Descend A_15 1 500,0 119,7 3,0   
CNA525C DEFAULT 4 Descend A_35 1 000,0 111,8 3,0   
CNA525C DEFAULT 5 Land A_35    200,0  
CNA525C DEFAULT 6 Decelerate  115,0   1 500,0 40,0
CNA525C DEFAULT 7 Decelerate  30,0   0,0 10,0
CNA55B DEFAULT 1 Descend ZERO_C 6 000,0 250,0 3,0   
CNA55B DEFAULT 2 Descend ZERO_C 3 000,0 160,0 3,0   
CNA55B DEFAULT 3 Descend A_15 1 500,0 111,8 3,0   
CNA55B DEFAULT 4 Descend A_35 1 000,0 105,3 3,0   
CNA55B DEFAULT 5 Land A_35    175,5  
CNA55B DEFAULT 6 Decelerate  100,0   1 580,0 40,0
CNA55B DEFAULT 7 Decelerate  30,0   0,0 10,0
CNA560E DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
CNA560E DEFAULT 2 Descend 15 U 3 000,0 107,5 3,0   
CNA560E DEFAULT 3 Descend 35 D 1 500,0 101,8 3,0   
CNA560E DEFAULT 4 Descend 35 D 1 000,0 101,8 3,0   
CNA560E DEFAULT 5 Land 35 D    200,0  
CNA560E DEFAULT 6 Decelerate  100,0   1 000,0 60,0
CNA560E DEFAULT 7 Decelerate  30,0   0,0 10,0
CNA560U DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
CNA560U DEFAULT 2 Descend 7 3 000,0 120,0 3,0   
CNA560U DEFAULT 3 Descend D 15 1 500,0 110,0 3,0   
CNA560U DEFAULT 4 Descend D 35 1 000,0 101,8 3,0   
CNA560U DEFAULT 5 Land D 35    175,0  
CNA560U DEFAULT 6 Decelerate  93,0   1 385,1 60,0
CNA560U DEFAULT 7 Decelerate  30,0   0,0 10,0
CNA560XL DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
CNA560XL DEFAULT 2 Descend ZERO 3 000,0 132,0 3,0   
CNA560XL DEFAULT 3 Descend D 15U 1 500,0 122,0 3,0   
CNA560XL DEFAULT 4 Descend D 35D 1 000,0 112,0 3,0   
CNA560XL DEFAULT 5 Land D 35D    500,0  
CNA560XL DEFAULT 6 Decelerate  108,0   2 700,0 60,0
CNA560XL DEFAULT 7 Decelerate  30,0   0,0 10,0
CNA680 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
CNA680 DEFAULT 2 Descend ZERO 3 000,0 160,0 3,0   
CNA680 DEFAULT 3 Descend 15 GU 1 500,0 112,0 3,0   
CNA680 DEFAULT 4 Descend 35 GD 1 000,0 105,0 3,0   
CNA680 DEFAULT 5 Land 35 GD    200,0  
CNA680 DEFAULT 6 Decelerate  100,0   1 580,0 60,0
CNA680 DEFAULT 7 Decelerate  30,0   0,0 10,0
CNA750 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
CNA750 DEFAULT 2 Descend 15_GU 3 000,0 127,4 3,0   
CNA750 DEFAULT 3 Descend 35_GD 1 500,0 120,9 3,0   
CNA750 DEFAULT 4 Descend 35_GD 1 000,0 120,9 3,0   
CNA750 DEFAULT 5 Land 35_GD    200,0  
CNA750 DEFAULT 6 Decelerate  115,0   1 500,0 40,0
CNA750 DEFAULT 7 Decelerate  30,0   0,0 10,0
CNA750 FLAP_15 1 Descend ZERO 6 000,0 250,0 3,0   
CNA750 FLAP_15 2 Descend 15_GU 3 000,0 127,4 3,0   
CNA750 FLAP_15 3 Descend 35_GD 1 500,0 120,9 3,0   
CNA750 FLAP_15 4 Descend 35_GD 1 000,0 120,9 3,0   
CNA750 FLAP_15 5 Land 35_GD    200,0  
CNA750 FLAP_15 6 Decelerate  115,0   1 500,0 40,0
CNA750 FLAP_15 7 Decelerate  30,0   0,0 10,0
CNA750 FLAP_5 1 Descend ZERO 6 000,0 250,0 3,0   
CNA750 FLAP_5 2 Descend 5_GU 3 000,0 135,2 3,0   
CNA750 FLAP_5 3 Descend 15_GD 1 500,0 127,4 3,0   
CNA750 FLAP_5 4 Descend 15_GD 1 000,0 127,4 3,0   
CNA750 FLAP_5 5 Land 15_GD    200,0  
CNA750 FLAP_5 6 Decelerate  115,0   1 500,0 40,0
CNA750 FLAP_5 7 Decelerate  30,0   0,0 10,0
CONCRD DEFAULT 1 Descend CL1 6 000,0 250,0 3,0   
CONCRD DEFAULT 2 Descend ZERO 3 000,0 194,0 3,0   
CONCRD DEFAULT 3 Descend U-L 1 500,0 184,0 3,0   
CONCRD DEFAULT 4 Descend D-L 1 000,0 164,0 3,0   
CONCRD DEFAULT 5 Land D-L    858,6  
CONCRD DEFAULT 6 Decelerate  155,5   7 727,4 40,0
CONCRD DEFAULT 7 Decelerate  30,0   0,0 10,0
CRJ9-ER DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
CRJ9-ER DEFAULT 2 Descend 20 3 500,0 170,0 3,0   
CRJ9-ER DEFAULT 3 Descend U-45 1 500,0 160,0 3,0   
CRJ9-ER DEFAULT 4 Descend D-45 1 000,0 140,0 3,0   
CRJ9-ER DEFAULT 5 Land D-45    415,8  
CRJ9-ER DEFAULT 6 Decelerate  143,0   2 528,0 10,0
CRJ9-ER DEFAULT 7 Decelerate  30,0   0,0 10,0
CRJ9-LR DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
CRJ9-LR DEFAULT 2 Descend 20 3 500,0 170,0 3,0   
CRJ9-LR DEFAULT 3 Descend U-45 1 500,0 160,0 3,0   
CRJ9-LR DEFAULT 4 Descend D-45 1 000,0 141,0 3,0   
CRJ9-LR DEFAULT 5 Land D-45    424,7  
CRJ9-LR DEFAULT 6 Decelerate  144,0   2 577,0 10,0
CRJ9-LR DEFAULT 7 Decelerate  30,0   0,0 10,0
CVR580 DEFAULT 1 Descend ZERO 6 000,0 200,0 3,0   
CVR580 DEFAULT 2 Descend INTR 3 000,0 146,3 3,0   
CVR580 DEFAULT 3 Descend D-28 1 500,0 112,4 3,0   
CVR580 DEFAULT 4 Descend D-40 1 000,0 106,3 3,0   
CVR580 DEFAULT 5 Land D-40    287,6  
CVR580 DEFAULT 6 Decelerate  100,9   2 588,4 40,0
CVR580 DEFAULT 7 Decelerate  30,0   0,0 10,0
DC1010 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC1010 DEFAULT 2 Descend INT 3 000,0 163,7 3,0   
DC1010 DEFAULT 3 Descend U-35 1 500,0 153,7 3,0   
DC1010 DEFAULT 4 Descend D-35 1 000,0 143,7 3,0   
DC1010 DEFAULT 5 Land D-35    428,4  
DC1010 DEFAULT 6 Decelerate  136,3   3 855,6 10,0
DC1010 DEFAULT 7 Decelerate  30,0   0,0 10,0
DC1030 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC1030 DEFAULT 2 Descend INT2 3 000,0 172,6 3,0   
DC1030 DEFAULT 3 Descend U-20 1 500,0 162,6 3,0   
DC1030 DEFAULT 4 Descend D-35 1 000,0 152,6 3,0   
DC1030 DEFAULT 5 Land D-35    392,2  
DC1030 DEFAULT 6 Decelerate  144,8   3 529,8 10,0
DC1030 DEFAULT 7 Decelerate  30,0   0,0 10,0
DC1040 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC1040 DEFAULT 2 Descend 5 3 000,0 173,5 3,0   
DC1040 DEFAULT 3 Descend U-35 1 500,0 163,5 3,0   
DC1040 DEFAULT 4 Descend D-35 1 000,0 153,5 3,0   
DC1040 DEFAULT 5 Land D-35    446,4  
DC1040 DEFAULT 6 Decelerate  145,6   4 017,6 10,0
DC1040 DEFAULT 7 Decelerate  30,0   0,0 10,0
DC3 DEFAULT 1 Descend ZERO 6 000,0 140,0 3,0   
DC3 DEFAULT 2 Descend TO 3 000,0 109,0 3,0   
DC3 DEFAULT 3 Descend U-INT 1 500,0 99,0 3,0   
DC3 DEFAULT 4 Descend D-45 1 000,0 88,9 3,0   
DC3 DEFAULT 5 Land D-45    104,6  
DC3 DEFAULT 6 Decelerate  84,3   941,4 34,3
DC3 DEFAULT 7 Decelerate  30,0   0,0 10,0
DC6 DEFAULT 1 Descend ZERO 6 000,0 160,0 3,0   
DC6 DEFAULT 2 Descend TO 3 000,0 106,1 3,0   
DC6 DEFAULT 3 Descend D-INTR 1 500,0 96,1 3,0   
DC6 DEFAULT 4 Descend D-L 1 000,0 86,1 3,0   
DC6 DEFAULT 5 Land D-L    175,5  
DC6 DEFAULT 6 Decelerate  81,7   1 579,5 40,0
DC6 DEFAULT 7 Decelerate  30,0   0,0 10,0
DC850 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC850 DEFAULT 2 Descend INT 3 000,0 165,6 3,0   
DC850 DEFAULT 3 Descend D-35 1 500,0 152,7 3,0   
DC850 DEFAULT 4 Descend D-50 1 000,0 145,6 3,0   
DC850 DEFAULT 5 Land D-50    390,6  
DC850 DEFAULT 6 Decelerate  138,1   3 515,4 40,0
DC850 DEFAULT 7 Decelerate  30,0   0,0 10,0
DC860 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC860 DEFAULT 2 Descend INT 3 000,0 161,5 3,0   
DC860 DEFAULT 3 Descend D-35 1 500,0 155,7 3,0   
DC860 DEFAULT 4 Descend D-50 1 000,0 151,5 3,0   
DC860 DEFAULT 5 Land D-50    382,5  
DC860 DEFAULT 6 Decelerate  143,7   3 442,5 40,0
DC860 DEFAULT 7 Decelerate  30,0   0,0 10,0
DC870 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC870 DEFAULT 2 Descend INT 3 000,0 166,7 3,0   
DC870 DEFAULT 3 Descend D-35 1 500,0 150,8 3,0   
DC870 DEFAULT 4 Descend D-50 1 000,0 146,7 3,0   
DC870 DEFAULT 5 Land D-50    489,6  
DC870 DEFAULT 6 Decelerate  139,2   4 406,4 40,0
DC870 DEFAULT 7 Decelerate  30,0   0,0 10,0
DC8QN DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC8QN DEFAULT 2 Descend INT 3 000,0 161,5 3,0   
DC8QN DEFAULT 3 Descend D-35 1 500,0 155,7 3,0   
DC8QN DEFAULT 4 Descend D-50 1 000,0 151,5 3,0   
DC8QN DEFAULT 5 Land D-50    382,5  
DC8QN DEFAULT 6 Decelerate  143,7   3 442,5 40,0
DC8QN DEFAULT 7 Decelerate  30,0   0,0 10,0
DC910 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC910 DEFAULT 2 Descend 5 3 000,0 150,2 3,0   
DC910 DEFAULT 3 Descend U-15 1 500,0 140,2 3,0   
DC910 DEFAULT 4 Descend D-35 1 000,0 130,2 3,0   
DC910 DEFAULT 5 Land D-35    357,3  
DC910 DEFAULT 6 Decelerate  123,5   3 215,7 40,0
DC910 DEFAULT 7 Decelerate  30,0   0,0 10,0
DC930 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC930 DEFAULT 2 Descend 5 3 000,0 162,5 3,0   
DC930 DEFAULT 3 Descend U-15 1 500,0 152,5 3,0   
DC930 DEFAULT 4 Descend D-35 1 000,0 142,5 3,0   
DC930 DEFAULT 5 Land D-35    325,8  
DC930 DEFAULT 6 Decelerate  135,2   2 932,2 40,0
DC930 DEFAULT 7 Decelerate  30,0   0,0 10,0
DC93LW DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC93LW DEFAULT 2 Descend 5 3 000,0 162,5 3,0   
DC93LW DEFAULT 3 Descend U-15 1 500,0 152,5 3,0   
DC93LW DEFAULT 4 Descend D-35 1 000,0 142,5 3,0   
DC93LW DEFAULT 5 Land D-35    325,8  
DC93LW DEFAULT 6 Decelerate  135,2   2 932,2 40,0
DC93LW DEFAULT 7 Decelerate  30,0   0,0 10,0
DC950 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC950 DEFAULT 2 Descend 5 3 000,0 167,3 3,0   
DC950 DEFAULT 3 Descend U-15 1 500,0 157,3 3,0   
DC950 DEFAULT 4 Descend D-35 1 000,0 147,3 3,0   
DC950 DEFAULT 5 Land D-35    343,8  
DC950 DEFAULT 6 Decelerate  139,7   3 094,2 40,0
DC950 DEFAULT 7 Decelerate  30,0   0,0 10,0
DC95HW DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC95HW DEFAULT 2 Descend 5 3 000,0 167,3 3,0   
DC95HW DEFAULT 3 Descend U-15 1 500,0 157,3 3,0   
DC95HW DEFAULT 4 Descend D-35 1 000,0 147,3 3,0   
DC95HW DEFAULT 5 Land D-35    343,8  
DC95HW DEFAULT 6 Decelerate  139,7   3 094,2 40,0
DC95HW DEFAULT 7 Decelerate  30,0   0,0 10,0
DC9Q7 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC9Q7 DEFAULT 2 Descend 5 3 000,0 150,2 3,0   
DC9Q7 DEFAULT 3 Descend U-15 1 500,0 140,2 3,0   
DC9Q7 DEFAULT 4 Descend D-35 1 000,0 130,2 3,0   
DC9Q7 DEFAULT 5 Land D-35    357,3  
DC9Q7 DEFAULT 6 Decelerate  123,5   3 215,7 40,0
DC9Q7 DEFAULT 7 Decelerate  30,0   0,0 10,0
DC9Q9 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
DC9Q9 DEFAULT 2 Descend 5 3 000,0 162,5 3,0   
DC9Q9 DEFAULT 3 Descend U-15 1 500,0 152,5 3,0   
DC9Q9 DEFAULT 4 Descend D-35 1 000,0 142,5 3,0   
DC9Q9 DEFAULT 5 Land D-35    325,8  
DC9Q9 DEFAULT 6 Decelerate  135,2   2 932,2 40,0
DC9Q9 DEFAULT 7 Decelerate  30,0   0,0 10,0
DHC6 DEFAULT 1 Descend ZERO 6 000,0 120,0 3,0   
DHC6 DEFAULT 2 Descend INTR 3 000,0 80,7 3,0   
DHC6 DEFAULT 3 Descend D-INTR 1 500,0 70,7 3,0   
DHC6 DEFAULT 4 Descend D-L 1 000,0 60,7 3,0   
DHC6 DEFAULT 5 Land D-L    39,6  
DHC6 DEFAULT 6 Decelerate  57,6   356,4 40,0
DHC6 DEFAULT 7 Decelerate  30,0   0,0 10,0
DHC6QP DEFAULT 1 Descend ZERO 6 000,0 120,0 3,0   
DHC6QP DEFAULT 2 Descend INTR 3 000,0 80,7 3,0   
DHC6QP DEFAULT 3 Descend D-INTR 1 500,0 70,7 3,0   
DHC6QP DEFAULT 4 Descend D-L 1 000,0 60,7 3,0   
DHC6QP DEFAULT 5 Land D-L    39,6  
DHC6QP DEFAULT 6 Decelerate  57,6   356,4 40,0
DHC6QP DEFAULT 7 Decelerate  30,0   0,0 10,0
DHC7 DEFAULT 1 Descend ZERO 6 000,0 160,0 3,0   
DHC7 DEFAULT 2 Descend 10 3 000,0 116,2 3,0   
DHC7 DEFAULT 3 Descend D-INTR 1 500,0 106,2 3,0   
DHC7 DEFAULT 4 Descend D-25 1 000,0 96,2 3,0   
DHC7 DEFAULT 5 Land D-25    98,1  
DHC7 DEFAULT 6 Decelerate  91,3   882,9 40,0
DHC7 DEFAULT 7 Decelerate  30,0   0,0 10,0
DHC8 DEFAULT 1 Descend ZERO 6 000,0 165,0 3,0   
DHC8 DEFAULT 2 Descend 5 3 000,0 109,0 3,0   
DHC8 DEFAULT 3 Descend D-15 1 500,0 96,0 3,0   
DHC8 DEFAULT 4 Descend D-35 1 000,0 89,0 3,0   
DHC8 DEFAULT 5 Land D-35    174,6  
DHC8 DEFAULT 6 Decelerate  84,4   1 571,4 24,6
DHC8 DEFAULT 7 Decelerate  30,0   0,0 4,1
DHC830 DEFAULT 1 Descend ZERO 6 000,0 179,0 3,0   
DHC830 DEFAULT 2 Descend 10 3 000,0 128,0 3,0   
DHC830 DEFAULT 3 Descend D-15 1 500,0 116,9 3,0   
DHC830 DEFAULT 4 Descend D-35 1 000,0 108,0 3,0   
DHC830 DEFAULT 5 Land D-35    219,6  
DHC830 DEFAULT 6 Decelerate  102,5   1 976,4 26,1
DHC830 DEFAULT 7 Decelerate  30,0   0,0 4,4
DO228 DEFAULT 1 Descend ZERO-A 6 000,0 200,0 3,0   
DO228 DEFAULT 2 Descend ZERO-A 4 000,0 160,0 3,0   
DO228 DEFAULT 3 Descend ZERO-A 2 000,0 120,0 3,0   
DO228 DEFAULT 4 Descend F30APP 1 000,0 100,0 3,0   
DO228 DEFAULT 5 Descend F30APP 50,0 88,0 3,0   
DO228 DEFAULT 6 Land F30APP    100,0  
DO228 DEFAULT 7 Decelerate  80,0   1 320,9 10,0
DO228 DEFAULT 8 Decelerate  30,0   0,0 10,0
DO328 DEFAULT 1 Descend ZERO-A 6 000,0 200,0 3,0   
DO328 DEFAULT 2 Descend ZERO-A 4 000,0 175,0 3,0   
DO328 DEFAULT 3 Descend ZERO-A 2 000,0 150,0 3,0   
DO328 DEFAULT 4 Descend F32APP 1 000,0 109,0 3,0   
DO328 DEFAULT 5 Descend F32APP 500,0 109,0 3,0   
DO328 DEFAULT 6 Land F32APP    50,0  
DO328 DEFAULT 7 Decelerate  109,0   2 216,0 10,0
DO328 DEFAULT 8 Decelerate  30,0   0,0 10,0
ECLIPSE500 DEFAULT 1 Descend A_T_DN 6 000,0 170,0 3,0   
ECLIPSE500 DEFAULT 2 Descend A_T_DN 5 000,0 160,0 3,0   
ECLIPSE500 DEFAULT 3 Descend A_A_DN 3 000,0 100,4 3,0   
ECLIPSE500 DEFAULT 4 Descend A_A_DN 2 000,0 100,4 3,0   
ECLIPSE500 DEFAULT 5 Descend A_A_DN 1 000,0 100,4 3,0   
ECLIPSE500 DEFAULT 6 Descend A_A_DN 100,0 90,4 3,0   
ECLIPSE500 DEFAULT 7 Land A_A_DN    144,0  
ECLIPSE500 DEFAULT 8 Decelerate  70,0   1 291,0 10,0
ECLIPSE500 DEFAULT 9 Decelerate  20,0   0,0 10,0
EMB120 DEFAULT 1 Descend ZERO 6 000,0 141,5 3,0   
EMB120 DEFAULT 2 Descend 15 3 000,0 132,3 3,0   
EMB120 DEFAULT 3 Descend D-25 1 500,0 127,4 3,0   
EMB120 DEFAULT 4 Descend D-45 1 000,0 119,3 3,0   
EMB120 DEFAULT 5 Land D-45    95,0  
EMB120 DEFAULT 6 Decelerate  116,1   855,0 40,0
EMB120 DEFAULT 7 Decelerate  30,0   0,0 10,0
EMB145 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
EMB145 DEFAULT 2 Descend D-22 3 000,0 150,0 3,0   
EMB145 DEFAULT 3 Descend D-45 1 500,0 140,0 3,0   
EMB145 DEFAULT 4 Descend D-45 1 000,0 134,0 3,0   
EMB145 DEFAULT 5 Land D-45    285,5  
EMB145 DEFAULT 6 Decelerate  130,0   2 569,5 40,0
EMB145 DEFAULT 7 Decelerate  30,0   0,0 10,0
EMB14L DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
EMB14L DEFAULT 2 Descend D-22 1 500,0 140,0 3,0   
EMB14L DEFAULT 3 Descend D-45 1 000,0 140,0 3,0   
EMB14L DEFAULT 4 Descend D-45 500,0 138,0 3,0   
EMB14L DEFAULT 5 Land D-45    285,5  
EMB14L DEFAULT 6 Decelerate  132,0   2 569,5 40,0
EMB14L DEFAULT 7 Decelerate  30,0   0,0 10,0
EMB170 DEFAULT 1 Descend-Idle 6 000,0 250,0 3,0   
EMB170 DEFAULT 2 Descend-Idle 3 000,0 180,0 3,0   
EMB170 DEFAULT 3 Descend-Idle 2 000,0 140,0 3,0   
EMB170 DEFAULT 4 Descend FULL 1 500,0 130,0 3,0   
EMB170 DEFAULT 5 Land FULL    267,2  
EMB170 DEFAULT 6 Decelerate   120,0   2 405,0 40,0
EMB170 DEFAULT 7 Decelerate  30,0   0,0 10,0
EMB175 DEFAULT 1 Descend-Idle 6 000,0 250,0 3,0   
EMB175 DEFAULT 2 Descend-Idle 3 000,0 180,0 3,0   
EMB175 DEFAULT 3 Descend-Idle 2 000,0 140,0 3,0   
EMB175 DEFAULT 4 Descend FULL 1 500,0 130,0 3,0   
EMB175 DEFAULT 5 Land FULL    276,3  
EMB175 DEFAULT 6 Decelerate   120,0   2 487,0 40,0
EMB175 DEFAULT 7 Decelerate  30,0   0,0 10,0
EMB190 DEFAULT 1 Descend-Idle 6 000,0 250,0 3,0   
EMB190 DEFAULT 2 Descend-Idle  3 000,0 180,0 3,0   
EMB190 DEFAULT 3 Descend-Idle  2 000,0 140,0 3,0   
EMB190 DEFAULT 4 Descend FULL 1 500,0 130,0 3,0   
EMB190 DEFAULT 5 Land FULL    271,9  
EMB190 DEFAULT 6 Decelerate   120,0   2 447,0 40,0
EMB190 DEFAULT 7 Decelerate  30,0   0,0 10,0
EMB195 DEFAULT 1 Descend-Idle 6 000,0 250,0 3,0   
EMB195 DEFAULT 2 Descend-Idle 3 000,0 180,0 3,0   
EMB195 DEFAULT 3 Descend-Idle  2 000,0 140,0 3,0   
EMB195 DEFAULT 4 Descend FULL 1 500,0 130,0 3,0   
EMB195 DEFAULT 5 Land FULL    281,1  
EMB195 DEFAULT 6 Decelerate   120,0   2 530,0 40,0
EMB195 DEFAULT 7 Decelerate   30,0   0,0 10,0
F10062 DEFAULT 1 Descend TO 6 000,0 250,0 3,0   
F10062 DEFAULT 2 Descend INT2 3 000,0 161,3 3,0   
F10062 DEFAULT 3 Descend U-INT 1 500,0 141,3 3,0   
F10062 DEFAULT 4 Descend D-42 1 000,0 131,3 3,0   
F10062 DEFAULT 5 Land D-42    315,0  
F10062 DEFAULT 6 Decelerate  124,5   2 835,0 40,0
F10062 DEFAULT 7 Decelerate  30,0   0,0 10,0
F10065 DEFAULT 1 Descend TO 6 000,0 250,0 3,0   
F10065 DEFAULT 2 Descend INT2 3 000,0 163,1 3,0   
F10065 DEFAULT 3 Descend U-INT 1 500,0 143,1 3,0   
F10065 DEFAULT 4 Descend D-42 1 000,0 133,1 3,0   
F10065 DEFAULT 5 Land D-42    328,0  
F10065 DEFAULT 6 Decelerate  126,3   2 952,0 40,0
F10065 DEFAULT 7 Decelerate  30,0   0,0 10,0
F28MK2 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
F28MK2 DEFAULT 2 Descend INT2 3 000,0 152,9 3,0   
F28MK2 DEFAULT 3 Descend U-INTR 1 500,0 132,9 3,0   
F28MK2 DEFAULT 4 Descend D-42 1 000,0 122,9 3,0   
F28MK2 DEFAULT 5 Land D-42    223,2  
F28MK2 DEFAULT 6 Decelerate  116,6   2 008,8 40,0
F28MK2 DEFAULT 7 Decelerate  30,0   0,0 10,0
F28MK4 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
F28MK4 DEFAULT 2 Descend INT2 3 000,0 153,6 3,0   
F28MK4 DEFAULT 3 Descend U-INTR 1 500,0 133,6 3,0   
F28MK4 DEFAULT 4 Descend D-42 1 000,0 123,6 3,0   
F28MK4 DEFAULT 5 Land D-42    223,7  
F28MK4 DEFAULT 6 Decelerate  117,2   2 013,3 40,0
F28MK4 DEFAULT 7 Decelerate  30,0   0,0 10,0
FAL20 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
FAL20 DEFAULT 2 Descend INTR 3 000,0 142,2 3,0   
FAL20 DEFAULT 3 Descend D-25 1 500,0 126,1 3,0   
FAL20 DEFAULT 4 Descend D-40 1 000,0 124,2 3,0   
FAL20 DEFAULT 5 Land D-40    128,7  
FAL20 DEFAULT 6 Decelerate  117,9   1 158,3 40,0
FAL20 DEFAULT 7 Decelerate  30,0   0,0 10,0
GII DEFAULT 1 Descend L-0-U 6 000,0 230,0 3,0   
GII DEFAULT 2 Descend L-10-U 3 000,0 170,0 3,0   
GII DEFAULT 3 Descend L-20-D 1 500,0 153,6 3,0   
GII DEFAULT 4 Descend L-20-D 1 000,0 153,6 3,0   
GII DEFAULT 5 Descend L-39-D 200,0 143,6 3,0   
GII DEFAULT 6 Land L-39-D    790,0  
GII DEFAULT 7 Decelerate  117,0   760,0 40,0
GII DEFAULT 8 Decelerate  20,0   0,0 10,0
GIIB DEFAULT 1 Descend L-0-U 6 000,0 230,0 3,0   
GIIB DEFAULT 2 Descend L-10-U 3 000,0 170,0 3,0   
GIIB DEFAULT 3 Descend L-20-D 1 500,0 149,2 3,0   
GIIB DEFAULT 4 Descend L-20-D 1 000,0 149,2 3,0   
GIIB DEFAULT 5 Descend L-39-D 200,0 139,2 3,0   
GIIB DEFAULT 6 Land L-39-D    790,0  
GIIB DEFAULT 7 Decelerate  113,0   760,0 40,0
GIIB DEFAULT 8 Decelerate  20,0   0,0 10,0
GIV DEFAULT 1 Descend L-0-U 6 000,0 250,0 3,0   
GIV DEFAULT 2 Descend L-0-U 3 000,0 160,0 3,0   
GIV DEFAULT 3 Descend L-20-D 1 500,0 160,0 3,0   
GIV DEFAULT 4 Descend L-39-D 1 000,0 151,5 3,0   
GIV DEFAULT 5 Land L-39-D    298,0  
GIV DEFAULT 6 Decelerate  80,0   982,0 40,0
GIV DEFAULT 7 Decelerate  20,0   0,0 4,0
GV DEFAULT 1 Descend L-0-U 6 000,0 250,0 3,0   
GV DEFAULT 2 Descend L-20-U 3 000,0 160,0 3,0   
GV DEFAULT 3 Descend L-20-D 1 500,0 160,0 3,0   
GV DEFAULT 4 Descend L-39-D 1 000,0 137,8 3,0   
GV DEFAULT 5 Land L-39-D    300,0  
GV DEFAULT 6 Decelerate  107,0   1 157,0 40,0
GV DEFAULT 7 Decelerate  20,0   0,0 4,6
HS748A DEFAULT 1 Descend ZERO 6 000,0 160,0 3,0   
HS748A DEFAULT 2 Descend INTR 3 000,0 110,1 3,0   
HS748A DEFAULT 3 Descend D-INTR 1 500,0 100,1 3,0   
HS748A DEFAULT 4 Descend D-30 1 000,0 90,1 3,0   
HS748A DEFAULT 5 Land D-30    207,0  
HS748A DEFAULT 6 Decelerate  85,5   1 863,0 40,0
HS748A DEFAULT 7 Decelerate  30,0   0,0 10,0
IA1125 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
IA1125 DEFAULT 2 Descend INTR 3 000,0 152,1 3,0   
IA1125 DEFAULT 3 Descend D-INTR 1 500,0 142,1 3,0   
IA1125 DEFAULT 4 Descend D-40 1 000,0 132,1 3,0   
IA1125 DEFAULT 5 Land D-40    236,6  
IA1125 DEFAULT 6 Decelerate  125,3   2 129,4 40,0
IA1125 DEFAULT 7 Decelerate  30,0   0,0 10,0
L1011 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
L1011 DEFAULT 2 Descend 10 3 000,0 160,5 3,0   
L1011 DEFAULT 3 Descend D-33 1 500,0 162,9 3,0   
L1011 DEFAULT 4 Descend D-42 1 000,0 145,5 3,0   
L1011 DEFAULT 5 Land D-42    417,0  
L1011 DEFAULT 6 Decelerate  138,1   3 753,0 10,0
L1011 DEFAULT 7 Decelerate  30,0   0,0 10,0
L10115 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
L10115 DEFAULT 2 Descend 10 3 000,0 162,4 3,0   
L10115 DEFAULT 3 Descend D-33 1 500,0 151,2 3,0   
L10115 DEFAULT 4 Descend D-42 1 000,0 147,4 3,0   
L10115 DEFAULT 5 Land D-42    516,6  
L10115 DEFAULT 6 Decelerate  139,8   4 649,4 10,0
L10115 DEFAULT 7 Decelerate  30,0   0,0 10,0
L188 DEFAULT 1 Descend ZERO 6 000,0 200,0 3,0   
L188 DEFAULT 2 Descend INTR 3 000,0 147,5 3,0   
L188 DEFAULT 3 Descend D-78-% 1 500,0 135,6 3,0   
L188 DEFAULT 4 Descend D-100 1 000,0 129,8 3,0   
L188 DEFAULT 5 Land D-100    351,0  
L188 DEFAULT 6 Decelerate  123,1   3 159,0 40,0
L188 DEFAULT 7 Decelerate  30,0   0,0 10,0
LEAR25 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
LEAR25 DEFAULT 2 Descend 10 3 000,0 161,6 3,0   
LEAR25 DEFAULT 3 Descend D-INTR 1 500,0 151,6 3,0   
LEAR25 DEFAULT 4 Descend D-40 1 000,0 141,7 3,0   
LEAR25 DEFAULT 5 Land D-40    140,4  
LEAR25 DEFAULT 6 Decelerate  134,4   1 263,6 40,0
LEAR25 DEFAULT 7 Decelerate  30,0   0,0 10,0
LEAR35 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
LEAR35 DEFAULT 2 Descend 10 3 000,0 144,5 3,0   
LEAR35 DEFAULT 3 Descend D-INTR 1 500,0 134,5 3,0   
LEAR35 DEFAULT 4 Descend D-40 1 000,0 127,8 3,0   
LEAR35 DEFAULT 5 Land D-40    181,4  
LEAR35 DEFAULT 6 Decelerate  121,2   1 632,6 40,0
LEAR35 DEFAULT 7 Decelerate  30,0   0,0 10,0
MD9025 DEFAULT 1 Descend U-0 6 000,0 185,0 3,0   
MD9025 DEFAULT 2 Descend D-28 3 000,0 154,0 3,0   
MD9025 DEFAULT 3 Descend D-28 1 500,0 150,0 3,0   
MD9025 DEFAULT 4 Descend D-40 1 000,0 145,3 3,0   
MD9025 DEFAULT 5 Land D-40    346,0  
MD9025 DEFAULT 6 Decelerate  130,0   2 100,0 40,0
MD9025 DEFAULT 7 Decelerate  30,0   0,0 9,6
MD9028 DEFAULT 1 Descend U-0 6 000,0 185,0 3,0   
MD9028 DEFAULT 2 Descend D-28 3 000,0 154,0 3,0   
MD9028 DEFAULT 3 Descend D-28 1 500,0 150,0 3,0   
MD9028 DEFAULT 4 Descend D-40 1 000,0 145,3 3,0   
MD9028 DEFAULT 5 Land D-40    346,0  
MD9028 DEFAULT 6 Decelerate  130,0   2 100,0 40,0
MD9028 DEFAULT 7 Decelerate  30,0   0,0 8,6
MU3001 DEFAULT 1 Descend ZERO 6 000,0 250,0 3,0   
MU3001 DEFAULT 2 Descend 1 3 000,0 133,8 3,0   
MU3001 DEFAULT 3 Descend D-INTR 1 500,0 123,8 3,0   
MU3001 DEFAULT 4 Descend D-30 1 000,0 117,1 3,0   
MU3001 DEFAULT 5 Land D-30    156,6  
MU3001 DEFAULT 6 Decelerate  111,1   1 409,4 40,0
MU3001 DEFAULT 7 Decelerate  30,0   0,0 10,0
PA30 DEFAULT 1 Descend ZERO-A 6 000,0 120,0 3,0   
PA30 DEFAULT 2 Descend 27-A 3 000,0 109,0 3,0   
PA30 DEFAULT 3 Descend 27-A 1 500,0 96,0 3,0   
PA30 DEFAULT 4 Descend 27-A 1 000,0 87,0 3,0   
PA30 DEFAULT 5 Land 27-A    53,5  
PA30 DEFAULT 6 Decelerate  70,0   481,1 10,0
PA30 DEFAULT 7 Decelerate  10,0   0,0 10,0
PA42 DEFAULT 1 Descend ZERO-A 6 000,0 151,0 3,0   
PA42 DEFAULT 2 Descend ZERO-A 4 000,0 135,0 3,0   
PA42 DEFAULT 3 Descend ZERO-A 2 000,0 119,0 3,0   
PA42 DEFAULT 4 Descend 30-DN 1 000,0 111,0 3,0   
PA42 DEFAULT 5 Descend 30-DN 50,0 111,0 3,0   
PA42 DEFAULT 6 Land 30-DN    100,0  
PA42 DEFAULT 7 Decelerate  111,0   2 245,9 10,0
PA42 DEFAULT 8 Decelerate  10,0   0,0 10,0
SD330 DEFAULT 1 Descend ZERO 6 000,0 160,0 3,0   
SD330 DEFAULT 2 Descend INTR 3 000,0 120,2 3,0   
SD330 DEFAULT 3 Descend D-15 1 500,0 106,5 3,0   
SD330 DEFAULT 4 Descend D-35 1 000,0 100,2 3,0   
SD330 DEFAULT 5 Land D-35    233,1  
SD330 DEFAULT 6 Decelerate  95,1   2 097,9 40,0
SD330 DEFAULT 7 Decelerate  30,0   0,0 10,0
SF340 DEFAULT 1 Descend ZERO 6 000,0 160,0 3,0   
SF340 DEFAULT 2 Descend 5 3 000,0 136,9 3,0   
SF340 DEFAULT 3 Descend D-INTR 1 500,0 126,9 3,0   
SF340 DEFAULT 4 Descend D-35 1 000,0 116,9 3,0   
SF340 DEFAULT 5 Land D-35    216,9  
SF340 DEFAULT 6 Decelerate  110,9   1 952,1 40,0
SF340 DEFAULT 7 Decelerate  30,0   0,0 10,0
ACFTID Profile_ID Stage Length Step Number Step Type Thrust Rating Flap_ID End Point Altitude (ft) Rate Of Climb (ft/min) End Point CAS (kt) Accelerate_Percent (%)
1900D DEFAULT 1 1 Takeoff MaxTakeoff 17-D    
1900D DEFAULT 1 2 Climb MaxTakeoff 17-D 400   
1900D DEFAULT 1 3 Accelerate MaxTakeoff 17-D  2 750 128 
1900D DEFAULT 1 4 Accelerate MaxClimb ZERO-D  2 950 138 
1900D DEFAULT 1 5 Climb MaxClimb ZERO-D 3 000   
1900D DEFAULT 1 6 Accelerate MaxClimb ZERO-D  1 500 160 
1900D DEFAULT 1 7 Climb MaxClimb ZERO-D 5 500   
1900D DEFAULT 1 8 Climb MaxClimb ZERO-D 7 500   
1900D DEFAULT 1 9 Climb MaxClimb ZERO-D 10 000   
1900D DEFAULT 2 1 Takeoff MaxTakeoff 17-D    
1900D DEFAULT 2 2 Climb MaxTakeoff 17-D 400   
1900D DEFAULT 2 3 Accelerate MaxTakeoff 17-D  2 400 128 
1900D DEFAULT 2 4 Accelerate MaxClimb ZERO-D  2 650 138 
1900D DEFAULT 2 5 Climb MaxClimb ZERO-D 3 000   
1900D DEFAULT 2 6 Accelerate MaxClimb ZERO-D  1 500 160 
1900D DEFAULT 2 7 Climb MaxClimb ZERO-D 5 500   
1900D DEFAULT 2 8 Climb MaxClimb ZERO-D 7 500   
1900D DEFAULT 2 9 Climb MaxClimb ZERO-D 10 000   
707320 DEFAULT 1 1 Takeoff MaxTakeoff 14    
707320 DEFAULT 1 2 Climb MaxTakeoff 14 1 000   
707320 DEFAULT 1 3 Accelerate MaxTakeoff 14  2 047 175 
707320 DEFAULT 1 4 Accelerate MaxClimb INT  1 000 195 
707320 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
707320 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 000 250 
707320 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
707320 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
707320 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
707320 DEFAULT 2 1 Takeoff MaxTakeoff 14    
707320 DEFAULT 2 2 Climb MaxTakeoff 14 1 000   
707320 DEFAULT 2 3 Accelerate MaxTakeoff 14  1 905 179 
707320 DEFAULT 2 4 Accelerate MaxClimb INT  1 000 199 
707320 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
707320 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 000 250 
707320 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
707320 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
707320 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
707320 DEFAULT 3 1 Takeoff MaxTakeoff 14    
707320 DEFAULT 3 2 Climb MaxTakeoff 14 1 000   
707320 DEFAULT 3 3 Accelerate MaxTakeoff 14  1 793 183 
707320 DEFAULT 3 4 Accelerate MaxClimb INT  1 000 203 
707320 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
707320 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 000 250 
707320 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
707320 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
707320 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
707320 DEFAULT 4 1 Takeoff MaxTakeoff 14    
707320 DEFAULT 4 2 Climb MaxTakeoff 14 1 000   
707320 DEFAULT 4 3 Accelerate MaxTakeoff 14  1 624 189 
707320 DEFAULT 4 4 Accelerate MaxClimb INT  1 000 209 
707320 DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
707320 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 000 250 
707320 DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
707320 DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
707320 DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
707320 DEFAULT 5 1 Takeoff MaxTakeoff 14    
707320 DEFAULT 5 2 Climb MaxTakeoff 14 1 000   
707320 DEFAULT 5 3 Accelerate MaxTakeoff 14  1 430 197 
707320 DEFAULT 5 4 Accelerate MaxClimb INT  1 000 217 
707320 DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
707320 DEFAULT 5 6 Accelerate MaxClimb ZERO  1 000 250 
707320 DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
707320 DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
707320 DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
707320 DEFAULT 6 1 Takeoff MaxTakeoff 14    
707320 DEFAULT 6 2 Climb MaxTakeoff 14 1 000   
707320 DEFAULT 6 3 Accelerate MaxTakeoff 14  1 259 205 
707320 DEFAULT 6 4 Accelerate MaxClimb INT  800 225 
707320 DEFAULT 6 5 Climb MaxClimb ZERO 3 000   
707320 DEFAULT 6 6 Accelerate MaxClimb ZERO  800 250 
707320 DEFAULT 6 7 Climb MaxClimb ZERO 5 500   
707320 DEFAULT 6 8 Climb MaxClimb ZERO 7 500   
707320 DEFAULT 6 9 Climb MaxClimb ZERO 10 000   
707320 DEFAULT 7 1 Takeoff MaxTakeoff 14    
707320 DEFAULT 7 2 Climb MaxTakeoff 14 1 000   
707320 DEFAULT 7 3 Accelerate MaxTakeoff 14  1 151 209 
707320 DEFAULT 7 4 Accelerate MaxClimb INT  800 229 
707320 DEFAULT 7 5 Climb MaxClimb ZERO 3 000   
707320 DEFAULT 7 6 Accelerate MaxClimb ZERO  800 250 
707320 DEFAULT 7 7 Climb MaxClimb ZERO 5 500   
707320 DEFAULT 7 8 Climb MaxClimb ZERO 7 500   
707320 DEFAULT 7 9 Climb MaxClimb ZERO 10 000   
707QN DEFAULT 1 1 Takeoff MaxTakeoff 14    
707QN DEFAULT 1 2 Climb MaxTakeoff 14 1 000   
707QN DEFAULT 1 3 Accelerate MaxTakeoff 14  2 047 175 
707QN DEFAULT 1 4 Accelerate MaxClimb INT  1 000 195 
707QN DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
707QN DEFAULT 1 6 Accelerate MaxClimb ZERO  1 000 250 
707QN DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
707QN DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
707QN DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
707QN DEFAULT 2 1 Takeoff MaxTakeoff 14    
707QN DEFAULT 2 2 Climb MaxTakeoff 14 1 000   
707QN DEFAULT 2 3 Accelerate MaxTakeoff 14  1 905 179 
707QN DEFAULT 2 4 Accelerate MaxClimb INT  1 000 199 
707QN DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
707QN DEFAULT 2 6 Accelerate MaxClimb ZERO  1 000 250 
707QN DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
707QN DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
707QN DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
707QN DEFAULT 3 1 Takeoff MaxTakeoff 14    
707QN DEFAULT 3 2 Climb MaxTakeoff 14 1 000   
707QN DEFAULT 3 3 Accelerate MaxTakeoff 14  1 793 183 
707QN DEFAULT 3 4 Accelerate MaxClimb INT  1 000 203 
707QN DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
707QN DEFAULT 3 6 Accelerate MaxClimb ZERO  1 000 250 
707QN DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
707QN DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
707QN DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
707QN DEFAULT 4 1 Takeoff MaxTakeoff 14    
707QN DEFAULT 4 2 Climb MaxTakeoff 14 1 000   
707QN DEFAULT 4 3 Accelerate MaxTakeoff 14  1 624 189 
707QN DEFAULT 4 4 Accelerate MaxClimb INT  1 000 209 
707QN DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
707QN DEFAULT 4 6 Accelerate MaxClimb ZERO  1 000 250 
707QN DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
707QN DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
707QN DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
707QN DEFAULT 5 1 Takeoff MaxTakeoff 14    
707QN DEFAULT 5 2 Climb MaxTakeoff 14 1 000   
707QN DEFAULT 5 3 Accelerate MaxTakeoff 14  1 430 197 
707QN DEFAULT 5 4 Accelerate MaxClimb INT  1 000 217 
707QN DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
707QN DEFAULT 5 6 Accelerate MaxClimb ZERO  1 000 250 
707QN DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
707QN DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
707QN DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
707QN DEFAULT 6 1 Takeoff MaxTakeoff 14    
707QN DEFAULT 6 2 Climb MaxTakeoff 14 1 000   
707QN DEFAULT 6 3 Accelerate MaxTakeoff 14  1 259 205 
707QN DEFAULT 6 4 Accelerate MaxClimb INT  800 225 
707QN DEFAULT 6 5 Climb MaxClimb ZERO 3 000   
707QN DEFAULT 6 6 Accelerate MaxClimb ZERO  800 250 
707QN DEFAULT 6 7 Climb MaxClimb ZERO 5 500   
707QN DEFAULT 6 8 Climb MaxClimb ZERO 7 500   
707QN DEFAULT 6 9 Climb MaxClimb ZERO 10 000   
707QN DEFAULT 7 1 Takeoff MaxTakeoff 14    
707QN DEFAULT 7 2 Climb MaxTakeoff 14 1 000   
707QN DEFAULT 7 3 Accelerate MaxTakeoff 14  1 151 209 
707QN DEFAULT 7 4 Accelerate MaxClimb INT  800 229 
707QN DEFAULT 7 5 Climb MaxClimb ZERO 3 000   
707QN DEFAULT 7 6 Accelerate MaxClimb ZERO  800 250 
707QN DEFAULT 7 7 Climb MaxClimb ZERO 5 500   
707QN DEFAULT 7 8 Climb MaxClimb ZERO 7 500   
707QN DEFAULT 7 9 Climb MaxClimb ZERO 10 000   
717200 DEFAULT 1 1 Takeoff MaxTakeoff T_13A    
717200 DEFAULT 1 2 Climb MaxTakeoff T_13A 1 000   
717200 DEFAULT 1 3 Climb MaxClimb T_13A 3 000   
717200 DEFAULT 1 4 Accelerate MaxClimb T_00B  1 296,4 250 
717200 DEFAULT 1 5 Climb MaxClimb T_00B 5 000   
717200 DEFAULT 1 6 Climb MaxClimb T_00B 7 500   
717200 DEFAULT 1 7 Climb MaxClimb T_00B 10 000   
717200 DEFAULT 2 1 Takeoff MaxTakeoff T_13A    
717200 DEFAULT 2 2 Climb MaxTakeoff T_13A 1 000   
717200 DEFAULT 2 3 Climb MaxClimb T_13A 3 000   
717200 DEFAULT 2 4 Accelerate MaxClimb T_00B  1 298 250 
717200 DEFAULT 2 5 Climb MaxClimb T_00B 5 000   
717200 DEFAULT 2 6 Climb MaxClimb T_00B 7 500   
717200 DEFAULT 2 7 Climb MaxClimb T_00B 10 000   
717200 DEFAULT 3 1 Takeoff MaxTakeoff T_13A    
717200 DEFAULT 3 2 Climb MaxTakeoff T_13A 1 000   
717200 DEFAULT 3 3 Climb MaxClimb T_13A 3 000   
717200 DEFAULT 3 4 Accelerate MaxClimb T_00B  1 229,1 250 
717200 DEFAULT 3 5 Climb MaxClimb T_00B 5 000   
717200 DEFAULT 3 6 Climb MaxClimb T_00B 7 500   
717200 DEFAULT 3 7 Climb MaxClimb T_00B 10 000   
717200 DEFAULT 4 1 Takeoff MaxTakeoff T_13A    
717200 DEFAULT 4 2 Climb MaxTakeoff T_13A 1 000   
717200 DEFAULT 4 3 Climb MaxClimb T_13A 3 000   
717200 DEFAULT 4 4 Accelerate MaxClimb T_00B  1 165,9 250 
717200 DEFAULT 4 5 Climb MaxClimb T_00B 5 000   
717200 DEFAULT 4 6 Climb MaxClimb T_00B 7 500   
717200 DEFAULT 4 7 Climb MaxClimb T_00B 10 000   
717200 DEFAULT 5 1 Takeoff MaxTakeoff T_13A    
717200 DEFAULT 5 2 Climb MaxTakeoff T_13A 1 000   
717200 DEFAULT 5 3 Climb MaxClimb T_13A 3 000   
717200 DEFAULT 5 4 Accelerate MaxClimb T_00B  1 142,6 250 
717200 DEFAULT 5 5 Climb MaxClimb T_00B 5 000   
717200 DEFAULT 5 6 Climb MaxClimb T_00B 7 500   
717200 DEFAULT 5 7 Climb MaxClimb T_00B 10 000   
717200 DEFAULT 6 1 Takeoff MaxTakeoff T_13A    
717200 DEFAULT 6 2 Climb MaxTakeoff T_13A 1 000   
717200 DEFAULT 6 3 Climb MaxClimb T_13A 3 000   
717200 DEFAULT 6 4 Accelerate MaxClimb T_00B  1 098,3 250 
717200 DEFAULT 6 5 Climb MaxClimb T_00B 5 000   
717200 DEFAULT 6 6 Climb MaxClimb T_00B 7 500   
717200 DEFAULT 6 7 Climb MaxClimb T_00B 10 000   
717200 ICAO_B 1 1 Takeoff MaxTakeoff T_13A    
717200 ICAO_B 1 2 Climb MaxTakeoff T_13A 1 100   
717200 ICAO_B 1 3 Accelerate MaxTakeoff T_13A  2 137,1 186,2 
717200 ICAO_B 1 4 Climb MaxClimb T_00B 3 000   
717200 ICAO_B 1 5 Accelerate MaxClimb T_00B  1 000 250 
717200 ICAO_B 1 6 Climb MaxClimb T_00B 5 500   
717200 ICAO_B 1 7 Climb MaxClimb T_00B 7 500   
717200 ICAO_B 1 8 Climb MaxClimb T_00B 10 000   
717200 ICAO_B 2 1 Takeoff MaxTakeoff T_13A    
717200 ICAO_B 2 2 Climb MaxTakeoff T_13A 1 000   
717200 ICAO_B 2 3 Accelerate MaxTakeoff T_13A  2 003,2 185 
717200 ICAO_B 2 4 Climb MaxClimb T_00B 3 000   
717200 ICAO_B 2 5 Accelerate MaxClimb T_00B  1 000 250 
717200 ICAO_B 2 6 Climb MaxClimb T_00B 5 500   
717200 ICAO_B 2 7 Climb MaxClimb T_00B 7 500   
717200 ICAO_B 2 8 Climb MaxClimb T_00B 10 000   
717200 ICAO_B 3 1 Takeoff MaxTakeoff T_13A    
717200 ICAO_B 3 2 Climb MaxTakeoff T_13A 1 000   
717200 ICAO_B 3 3 Accelerate MaxTakeoff T_13A  1 874,4 183,8 
717200 ICAO_B 3 4 Climb MaxClimb T_00B 3 000   
717200 ICAO_B 3 5 Accelerate MaxClimb T_00B  1 000 250 
717200 ICAO_B 3 6 Climb MaxClimb T_00B 5 500   
717200 ICAO_B 3 7 Climb MaxClimb T_00B 7 500   
717200 ICAO_B 3 8 Climb MaxClimb T_00B 10 000   
717200 ICAO_B 4 1 Takeoff MaxTakeoff T_13A    
717200 ICAO_B 4 2 Climb MaxTakeoff T_13A 1 000   
717200 ICAO_B 4 3 Accelerate MaxTakeoff T_13A  1 756,2 182,7 
717200 ICAO_B 4 4 Climb MaxClimb T_00B 3 000   
717200 ICAO_B 4 5 Accelerate MaxClimb T_00B  1 000 250 
717200 ICAO_B 4 6 Climb MaxClimb T_00B 5 500   
717200 ICAO_B 4 7 Climb MaxClimb T_00B 7 500   
717200 ICAO_B 4 8 Climb MaxClimb T_00B 10 000   
717200 ICAO_B 5 1 Takeoff MaxTakeoff T_13A    
717200 ICAO_B 5 2 Climb MaxTakeoff T_13A 1 000   
717200 ICAO_B 5 3 Accelerate MaxTakeoff T_13A  1 705,9 192,7 
717200 ICAO_B 5 4 Climb MaxClimb T_00B 3 000   
717200 ICAO_B 5 5 Accelerate MaxClimb T_00B  1 000 250 
717200 ICAO_B 5 6 Climb MaxClimb T_00B 5 500   
717200 ICAO_B 5 7 Climb MaxClimb T_00B 7 500   
717200 ICAO_B 5 8 Climb MaxClimb T_00B 10 000   
717200 ICAO_B 6 1 Takeoff MaxTakeoff T_13A    
717200 ICAO_B 6 2 Climb MaxTakeoff T_13A 1 000   
717200 ICAO_B 6 3 Accelerate MaxTakeoff T_13A  1 540,3 191,2 
717200 ICAO_B 6 4 Climb MaxClimb T_00B 3 000   
717200 ICAO_B 6 5 Accelerate MaxClimb T_00B  1 000 250 
717200 ICAO_B 6 6 Climb MaxClimb T_00B 5 500   
717200 ICAO_B 6 7 Climb MaxClimb T_00B 7 500   
717200 ICAO_B 6 8 Climb MaxClimb T_00B 10 000   
720B DEFAULT 1 1 Takeoff MaxTakeoff 20    
720B DEFAULT 1 2 Climb MaxTakeoff 20 1 000   
720B DEFAULT 1 3 Accelerate MaxTakeoff 20  2 632 175 
720B DEFAULT 1 4 Accelerate MaxClimb INT  1 000 195 
720B DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
720B DEFAULT 1 6 Accelerate MaxClimb ZERO  1 000 250 
720B DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
720B DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
720B DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
720B DEFAULT 2 1 Takeoff MaxTakeoff 20    
720B DEFAULT 2 2 Climb MaxTakeoff 20 1 000   
720B DEFAULT 2 3 Accelerate MaxTakeoff 20  2 470 179 
720B DEFAULT 2 4 Accelerate MaxClimb INT  1 000 199 
720B DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
720B DEFAULT 2 6 Accelerate MaxClimb ZERO  1 000 250 
720B DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
720B DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
720B DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
720B DEFAULT 3 1 Takeoff MaxTakeoff 20    
720B DEFAULT 3 2 Climb MaxTakeoff 20 1 000   
720B DEFAULT 3 3 Accelerate MaxTakeoff 20  2 323 183 
720B DEFAULT 3 4 Accelerate MaxClimb INT  1 000 203 
720B DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
720B DEFAULT 3 6 Accelerate MaxClimb ZERO  1 000 250 
720B DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
720B DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
720B DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
720B DEFAULT 4 1 Takeoff MaxTakeoff 20    
720B DEFAULT 4 2 Climb MaxTakeoff 20 1 000   
720B DEFAULT 4 3 Accelerate MaxTakeoff 20  2 125 189 
720B DEFAULT 4 4 Accelerate MaxClimb INT  1 000 209 
720B DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
720B DEFAULT 4 6 Accelerate MaxClimb ZERO  1 000 250 
720B DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
720B DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
720B DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
720B DEFAULT 5 1 Takeoff MaxTakeoff 20    
720B DEFAULT 5 2 Climb MaxTakeoff 20 1 000   
720B DEFAULT 5 3 Accelerate MaxTakeoff 20  2 005 193 
720B DEFAULT 5 4 Accelerate MaxClimb INT  1 000 213 
720B DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
720B DEFAULT 5 6 Accelerate MaxClimb ZERO  1 000 250 
720B DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
720B DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
720B DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
727100 DEFAULT 1 1 Takeoff MaxTakeoff 5    
727100 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
727100 DEFAULT 1 3 Accelerate MaxTakeoff 5  1 342 160 
727100 DEFAULT 1 4 Accelerate MaxTakeoff 2  1 342 190 
727100 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 200 
727100 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
727100 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
727100 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
727100 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
727100 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
727100 DEFAULT 2 1 Takeoff MaxTakeoff 5    
727100 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
727100 DEFAULT 2 3 Accelerate MaxTakeoff 5  1 265 160 
727100 DEFAULT 2 4 Accelerate MaxTakeoff 2  1 265 190 
727100 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 200 
727100 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
727100 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
727100 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
727100 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
727100 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
727100 DEFAULT 3 1 Takeoff MaxTakeoff 5    
727100 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
727100 DEFAULT 3 3 Accelerate MaxTakeoff 5  1 192 165 
727100 DEFAULT 3 4 Accelerate MaxTakeoff 2  1 192 195 
727100 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 205 
727100 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
727100 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
727100 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
727100 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
727100 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
727100 DEFAULT 4 1 Takeoff MaxTakeoff 5    
727100 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
727100 DEFAULT 4 3 Accelerate MaxTakeoff 5  1 115 170 
727100 DEFAULT 4 4 Accelerate MaxTakeoff 2  1 115 200 
727100 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 210 
727100 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
727100 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
727100 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
727100 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
727100 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
727D15 DEFAULT 1 1 Takeoff MaxTakeoff 5    
727D15 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
727D15 DEFAULT 1 3 Accelerate MaxTakeoff 5  1 363 170 
727D15 DEFAULT 1 4 Accelerate MaxTakeoff 2  1 363 200 
727D15 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 210 
727D15 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
727D15 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
727D15 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
727D15 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
727D15 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
727D15 DEFAULT 2 1 Takeoff MaxTakeoff 5    
727D15 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
727D15 DEFAULT 2 3 Accelerate MaxTakeoff 5  1 281 170 
727D15 DEFAULT 2 4 Accelerate MaxTakeoff 2  1 281 200 
727D15 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 210 
727D15 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
727D15 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
727D15 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
727D15 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
727D15 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
727D15 DEFAULT 3 1 Takeoff MaxTakeoff 5    
727D15 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
727D15 DEFAULT 3 3 Accelerate MaxTakeoff 5  1 177 175 
727D15 DEFAULT 3 4 Accelerate MaxTakeoff 2  1 177 205 
727D15 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 215 
727D15 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
727D15 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
727D15 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
727D15 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
727D15 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
727D15 DEFAULT 4 1 Takeoff MaxTakeoff 5    
727D15 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
727D15 DEFAULT 4 3 Accelerate MaxTakeoff 5  1 057 180 
727D15 DEFAULT 4 4 Accelerate MaxTakeoff 2  1 057 210 
727D15 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 220 
727D15 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
727D15 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
727D15 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
727D15 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
727D15 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
727D15 DEFAULT 5 1 Takeoff MaxTakeoff 5    
727D15 DEFAULT 5 2 Climb MaxTakeoff 5 1 000   
727D15 DEFAULT 5 3 Accelerate MaxTakeoff 2  941 210 
727D15 DEFAULT 5 4 Accelerate MaxClimb ZERO  1 000 220 
727D15 DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
727D15 DEFAULT 5 6 Accelerate MaxClimb ZERO  1 000 250 
727D15 DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
727D15 DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
727D15 DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
727D17 DEFAULT 1 1 Takeoff MaxTakeoff 5    
727D17 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
727D17 DEFAULT 1 3 Accelerate MaxTakeoff 5  1 465 170 
727D17 DEFAULT 1 4 Accelerate MaxTakeoff 2  1 465 200 
727D17 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 210 
727D17 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
727D17 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
727D17 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
727D17 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
727D17 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
727D17 DEFAULT 2 1 Takeoff MaxTakeoff 5    
727D17 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
727D17 DEFAULT 2 3 Accelerate MaxTakeoff 5  1 340 175 
727D17 DEFAULT 2 4 Accelerate MaxTakeoff 2  1 340 205 
727D17 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 215 
727D17 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
727D17 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
727D17 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
727D17 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
727D17 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
727D17 DEFAULT 3 1 Takeoff MaxTakeoff 5    
727D17 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
727D17 DEFAULT 3 3 Accelerate MaxTakeoff 5  1 236 180 
727D17 DEFAULT 3 4 Accelerate MaxTakeoff 2  1 236 210 
727D17 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 220 
727D17 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
727D17 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
727D17 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
727D17 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
727D17 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
727D17 DEFAULT 4 1 Takeoff MaxTakeoff 5    
727D17 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
727D17 DEFAULT 4 3 Accelerate MaxTakeoff 5  1 158 180 
727D17 DEFAULT 4 4 Accelerate MaxTakeoff 2  1 158 210 
727D17 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 220 
727D17 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
727D17 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
727D17 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
727D17 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
727D17 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
727EM1 DEFAULT 1 1 Takeoff MaxTakeoff 5    
727EM1 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
727EM1 DEFAULT 1 3 Accelerate MaxTakeoff 5  1 342 160 
727EM1 DEFAULT 1 4 Accelerate MaxTakeoff 2  1 342 190 
727EM1 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 200 
727EM1 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
727EM1 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
727EM1 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
727EM1 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
727EM1 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
727EM1 DEFAULT 2 1 Takeoff MaxTakeoff 5    
727EM1 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
727EM1 DEFAULT 2 3 Accelerate MaxTakeoff 5  1 265 160 
727EM1 DEFAULT 2 4 Accelerate MaxTakeoff 2  1 265 190 
727EM1 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 200 
727EM1 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
727EM1 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
727EM1 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
727EM1 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
727EM1 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
727EM1 DEFAULT 3 1 Takeoff MaxTakeoff 5    
727EM1 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
727EM1 DEFAULT 3 3 Accelerate MaxTakeoff 5  1 192 165 
727EM1 DEFAULT 3 4 Accelerate MaxTakeoff 2  1 192 195 
727EM1 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 205 
727EM1 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
727EM1 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
727EM1 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
727EM1 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
727EM1 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
727EM1 DEFAULT 4 1 Takeoff MaxTakeoff 5    
727EM1 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
727EM1 DEFAULT 4 3 Accelerate MaxTakeoff 5  1 115 170 
727EM1 DEFAULT 4 4 Accelerate MaxTakeoff 2  1 115 200 
727EM1 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 210 
727EM1 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
727EM1 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
727EM1 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
727EM1 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
727EM1 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
727EM2 DEFAULT 1 1 Takeoff MaxTakeoff 5    
727EM2 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
727EM2 DEFAULT 1 3 Accelerate MaxTakeoff 5  1 363 170 
727EM2 DEFAULT 1 4 Accelerate MaxTakeoff 2  1 363 200 
727EM2 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 210 
727EM2 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
727EM2 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
727EM2 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
727EM2 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
727EM2 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
727EM2 DEFAULT 2 1 Takeoff MaxTakeoff 5    
727EM2 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
727EM2 DEFAULT 2 3 Accelerate MaxTakeoff 5  1 281 170 
727EM2 DEFAULT 2 4 Accelerate MaxTakeoff 2  1 281 200 
727EM2 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 210 
727EM2 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
727EM2 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
727EM2 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
727EM2 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
727EM2 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
727EM2 DEFAULT 3 1 Takeoff MaxTakeoff 5    
727EM2 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
727EM2 DEFAULT 3 3 Accelerate MaxTakeoff 5  1 177 175 
727EM2 DEFAULT 3 4 Accelerate MaxTakeoff 2  1 177 205 
727EM2 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 215 
727EM2 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
727EM2 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
727EM2 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
727EM2 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
727EM2 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
727EM2 DEFAULT 4 1 Takeoff MaxTakeoff 5    
727EM2 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
727EM2 DEFAULT 4 3 Accelerate MaxTakeoff 5  1 057 180 
727EM2 DEFAULT 4 4 Accelerate MaxTakeoff 2  1 057 210 
727EM2 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 220 
727EM2 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
727EM2 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
727EM2 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
727EM2 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
727EM2 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
727EM2 DEFAULT 5 1 Takeoff MaxTakeoff 5    
727EM2 DEFAULT 5 2 Climb MaxTakeoff 5 1 000   
727EM2 DEFAULT 5 3 Accelerate MaxTakeoff 2  941 210 
727EM2 DEFAULT 5 4 Accelerate MaxClimb ZERO  1 000 220 
727EM2 DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
727EM2 DEFAULT 5 6 Accelerate MaxClimb ZERO  1 000 250 
727EM2 DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
727EM2 DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
727EM2 DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
727Q15 DEFAULT 1 1 Takeoff MaxTakeoff 5    
727Q15 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
727Q15 DEFAULT 1 3 Accelerate MaxTakeoff 5  1 363 170 
727Q15 DEFAULT 1 4 Accelerate MaxTakeoff 2  1 363 200 
727Q15 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 210 
727Q15 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
727Q15 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
727Q15 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
727Q15 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
727Q15 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
727Q15 DEFAULT 2 1 Takeoff MaxTakeoff 5    
727Q15 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
727Q15 DEFAULT 2 3 Accelerate MaxTakeoff 5  1 281 170 
727Q15 DEFAULT 2 4 Accelerate MaxTakeoff 2  1 281 200 
727Q15 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 210 
727Q15 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
727Q15 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
727Q15 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
727Q15 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
727Q15 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
727Q15 DEFAULT 3 1 Takeoff MaxTakeoff 5    
727Q15 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
727Q15 DEFAULT 3 3 Accelerate MaxTakeoff 5  1 177 175 
727Q15 DEFAULT 3 4 Accelerate MaxTakeoff 2  1 177 205 
727Q15 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 215 
727Q15 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
727Q15 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
727Q15 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
727Q15 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
727Q15 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
727Q15 DEFAULT 4 1 Takeoff MaxTakeoff 5    
727Q15 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
727Q15 DEFAULT 4 3 Accelerate MaxTakeoff 5  1 057 180 
727Q15 DEFAULT 4 4 Accelerate MaxTakeoff 2  1 057 210 
727Q15 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 220 
727Q15 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
727Q15 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
727Q15 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
727Q15 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
727Q15 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
727Q15 DEFAULT 5 1 Takeoff MaxTakeoff 5    
727Q15 DEFAULT 5 2 Climb MaxTakeoff 5 1 000   
727Q15 DEFAULT 5 3 Accelerate MaxTakeoff 2  941 210 
727Q15 DEFAULT 5 4 Accelerate MaxClimb ZERO  1 000 220 
727Q15 DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
727Q15 DEFAULT 5 6 Accelerate MaxClimb ZERO  1 000 250 
727Q15 DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
727Q15 DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
727Q15 DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
727Q7 DEFAULT 1 1 Takeoff MaxTakeoff 5    
727Q7 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
727Q7 DEFAULT 1 3 Accelerate MaxTakeoff 5  1 342 160 
727Q7 DEFAULT 1 4 Accelerate MaxTakeoff 2  1 342 190 
727Q7 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 200 
727Q7 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
727Q7 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
727Q7 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
727Q7 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
727Q7 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
727Q7 DEFAULT 2 1 Takeoff MaxTakeoff 5    
727Q7 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
727Q7 DEFAULT 2 3 Accelerate MaxTakeoff 5  1 265 160 
727Q7 DEFAULT 2 4 Accelerate MaxTakeoff 2  1 265 190 
727Q7 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 200 
727Q7 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
727Q7 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
727Q7 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
727Q7 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
727Q7 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
727Q7 DEFAULT 3 1 Takeoff MaxTakeoff 5    
727Q7 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
727Q7 DEFAULT 3 3 Accelerate MaxTakeoff 5  1 192 165 
727Q7 DEFAULT 3 4 Accelerate MaxTakeoff 2  1 192 195 
727Q7 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 205 
727Q7 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
727Q7 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
727Q7 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
727Q7 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
727Q7 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
727Q7 DEFAULT 4 1 Takeoff MaxTakeoff 5    
727Q7 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
727Q7 DEFAULT 4 3 Accelerate MaxTakeoff 5  1 115 170 
727Q7 DEFAULT 4 4 Accelerate MaxTakeoff 2  1 115 200 
727Q7 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 210 
727Q7 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
727Q7 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
727Q7 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
727Q7 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
727Q7 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
727Q9 DEFAULT 1 1 Takeoff MaxTakeoff 5    
727Q9 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
727Q9 DEFAULT 1 3 Accelerate MaxTakeoff 5  1 539 170 
727Q9 DEFAULT 1 4 Accelerate MaxTakeoff 2  1 539 200 
727Q9 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 210 
727Q9 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
727Q9 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
727Q9 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
727Q9 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
727Q9 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
727Q9 DEFAULT 2 1 Takeoff MaxTakeoff 5    
727Q9 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
727Q9 DEFAULT 2 3 Accelerate MaxTakeoff 5  1 390 170 
727Q9 DEFAULT 2 4 Accelerate MaxTakeoff 2  1 390 200 
727Q9 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 210 
727Q9 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
727Q9 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
727Q9 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
727Q9 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
727Q9 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
727Q9 DEFAULT 3 1 Takeoff MaxTakeoff 5    
727Q9 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
727Q9 DEFAULT 3 3 Accelerate MaxTakeoff 5  1 255 180 
727Q9 DEFAULT 3 4 Accelerate MaxTakeoff 2  1 255 210 
727Q9 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 220 
727Q9 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
727Q9 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
727Q9 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
727Q9 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
727Q9 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
727Q9 DEFAULT 4 1 Takeoff MaxTakeoff 5    
727Q9 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
727Q9 DEFAULT 4 3 Accelerate MaxTakeoff 2  855 210 
727Q9 DEFAULT 4 4 Accelerate MaxClimb ZERO  1 000 220 
727Q9 DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
727Q9 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 000 250 
727Q9 DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
727Q9 DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
727Q9 DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
727QF DEFAULT 1 1 Takeoff MaxTakeoff 5    
727QF DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
727QF DEFAULT 1 3 Accelerate MaxTakeoff 5  1 000 175 
727QF DEFAULT 1 4 Accelerate MaxTakeoff 2  1 000 190 
727QF DEFAULT 1 5 Accelerate MaxTakeoff ZERO  1 000 200 
727QF DEFAULT 1 6 Climb MaxContinuous ZERO 3 000   
727QF DEFAULT 1 7 Accelerate MaxContinuous ZERO  1 000 250 
727QF DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
727QF DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
727QF DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
727QF DEFAULT 2 1 Takeoff MaxTakeoff 5    
727QF DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
727QF DEFAULT 2 3 Accelerate MaxTakeoff 5  1 000 180 
727QF DEFAULT 2 4 Accelerate MaxTakeoff 2  1 000 190 
727QF DEFAULT 2 5 Accelerate MaxTakeoff ZERO  1 000 200 
727QF DEFAULT 2 6 Climb MaxContinuous ZERO 3 000   
727QF DEFAULT 2 7 Accelerate MaxContinuous ZERO  1 000 250 
727QF DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
727QF DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
727QF DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
727QF DEFAULT 3 1 Takeoff MaxTakeoff 5    
727QF DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
727QF DEFAULT 3 3 Accelerate MaxTakeoff 5  1 000 184 
727QF DEFAULT 3 4 Accelerate MaxTakeoff 2  1 000 190 
727QF DEFAULT 3 5 Accelerate MaxTakeoff ZERO  1 000 200 
727QF DEFAULT 3 6 Climb MaxContinuous ZERO 3 000   
727QF DEFAULT 3 7 Accelerate MaxContinuous ZERO  1 000 250 
727QF DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
727QF DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
727QF DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
727QF DEFAULT 4 1 Takeoff MaxTakeoff 5    
727QF DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
727QF DEFAULT 4 3 Accelerate MaxTakeoff 5  1 000 189 
727QF DEFAULT 4 4 Accelerate MaxTakeoff 2  1 000 190 
727QF DEFAULT 4 5 Accelerate MaxTakeoff ZERO  1 000 200 
727QF DEFAULT 4 6 Climb MaxContinuous ZERO 3 000   
727QF DEFAULT 4 7 Accelerate MaxContinuous ZERO  1 000 250 
727QF DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
727QF DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
727QF DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
737 DEFAULT 1 1 Takeoff MaxTakeoff 5    
737 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
737 DEFAULT 1 3 Accelerate MaxTakeoff 5  2 090 146 
737 DEFAULT 1 4 Accelerate MaxTakeoff INT  1 568 171 
737 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 210 
737 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
737 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
737 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
737 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
737 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
737 DEFAULT 2 1 Takeoff MaxTakeoff 5    
737 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
737 DEFAULT 2 3 Accelerate MaxTakeoff 5  2 014 149 
737 DEFAULT 2 4 Accelerate MaxTakeoff INT  1 511 174 
737 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 210 
737 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
737 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
737 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
737 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
737 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
737 DEFAULT 3 1 Takeoff MaxTakeoff 5    
737 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
737 DEFAULT 3 3 Accelerate MaxTakeoff 5  1 851 154 
737 DEFAULT 3 4 Accelerate MaxTakeoff INT  1 388 179 
737 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 210 
737 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
737 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
737 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
737 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
737 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
737 DEFAULT 4 1 Takeoff MaxTakeoff 5    
737 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
737 DEFAULT 4 3 Accelerate MaxTakeoff 5  1 685 160 
737 DEFAULT 4 4 Accelerate MaxTakeoff INT  1 264 185 
737 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 210 
737 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
737 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
737 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
737 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
737 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
737300 DEFAULT 1 1 Takeoff MaxTakeoff 5    
737300 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
737300 DEFAULT 1 3 Accelerate MaxClimb 5  1 483,4 187,9 
737300 DEFAULT 1 4 Accelerate MaxClimb 1  1 684,6 205,5 
737300 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 815,6 220,5 
737300 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
737300 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 892,6 250 
737300 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
737300 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
737300 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
737300 DEFAULT 2 1 Takeoff MaxTakeoff 5    
737300 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
737300 DEFAULT 2 3 Accelerate MaxClimb 5  1 398,8 189,2 
737300 DEFAULT 2 4 Accelerate MaxClimb 1  1 579,3 204,5 
737300 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 700,5 220,5 
737300 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
737300 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 774,1 250 
737300 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
737300 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
737300 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
737300 DEFAULT 3 1 Takeoff MaxTakeoff 5    
737300 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
737300 DEFAULT 3 3 Accelerate MaxClimb 5  1 311,5 190,8 
737300 DEFAULT 3 4 Accelerate MaxClimb 1  1 487,2 213,2 
737300 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 609,4 220,5 
737300 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
737300 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 657,6 250 
737300 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
737300 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
737300 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
737300 DEFAULT 4 1 Takeoff MaxTakeoff 5    
737300 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
737300 DEFAULT 4 3 Accelerate MaxClimb 5  1 154,7 194,6 
737300 DEFAULT 4 4 Accelerate MaxClimb 1  1 295,8 211,5 
737300 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 391,6 220,5 
737300 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
737300 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 444,8 250 
737300 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
737300 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
737300 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
737300 ICAO_A 1 1 Takeoff MaxTakeoff 5    
737300 ICAO_A 1 2 Climb MaxTakeoff 5 1 500   
737300 ICAO_A 1 3 Climb MaxClimb 5 3 000   
737300 ICAO_A 1 4 Accelerate MaxClimb 5  1 413,5 184,9 
737300 ICAO_A 1 5 Accelerate MaxClimb 1  1 601,4 203,9 
737300 ICAO_A 1 6 Accelerate MaxClimb ZERO  1 821,6 250 
737300 ICAO_A 1 7 Climb MaxClimb ZERO 5 500   
737300 ICAO_A 1 8 Climb MaxClimb ZERO 7 500   
737300 ICAO_A 1 9 Climb MaxClimb ZERO 10 000   
737300 ICAO_A 2 1 Takeoff MaxTakeoff 5    
737300 ICAO_A 2 2 Climb MaxTakeoff 5 1 500   
737300 ICAO_A 2 3 Climb MaxClimb 5 3 000   
737300 ICAO_A 2 4 Accelerate MaxClimb 5  1 332,5 186,4 
737300 ICAO_A 2 5 Accelerate MaxClimb 1  1 497,1 203 
737300 ICAO_A 2 6 Accelerate MaxClimb ZERO  1 705,6 250 
737300 ICAO_A 2 7 Climb MaxClimb ZERO 5 500   
737300 ICAO_A 2 8 Climb MaxClimb ZERO 7 500   
737300 ICAO_A 2 9 Climb MaxClimb ZERO 10 000   
737300 ICAO_A 3 1 Takeoff MaxTakeoff 5    
737300 ICAO_A 3 2 Climb MaxTakeoff 5 1 500   
737300 ICAO_A 3 3 Climb MaxClimb 5 3 000   
737300 ICAO_A 3 4 Accelerate MaxClimb 5  1 247,9 188,2 
737300 ICAO_A 3 5 Accelerate MaxClimb 1  1 415,3 211,7 
737300 ICAO_A 3 6 Accelerate MaxClimb ZERO  1 609,9 250 
737300 ICAO_A 3 7 Climb MaxClimb ZERO 5 500   
737300 ICAO_A 3 8 Climb MaxClimb ZERO 7 500   
737300 ICAO_A 3 9 Climb MaxClimb ZERO 10 000   
737300 ICAO_A 4 1 Takeoff MaxTakeoff 5    
737300 ICAO_A 4 2 Climb MaxTakeoff 5 1 500   
737300 ICAO_A 4 3 Climb MaxClimb 5 3 000   
737300 ICAO_A 4 4 Accelerate MaxClimb 5  1 093,3 192,2 
737300 ICAO_A 4 5 Accelerate MaxClimb 1  1 223,7 210,2 
737300 ICAO_A 4 6 Accelerate MaxClimb ZERO  1 399,1 250 
737300 ICAO_A 4 7 Climb MaxClimb ZERO 5 500   
737300 ICAO_A 4 8 Climb MaxClimb ZERO 7 500   
737300 ICAO_A 4 9 Climb MaxClimb ZERO 10 000   
737300 ICAO_B 1 1 Takeoff MaxTakeoff 5    
737300 ICAO_B 1 2 Climb MaxTakeoff 5 1 000   
737300 ICAO_B 1 3 Accelerate MaxTakeoff 5  1 560,7 189,3 
737300 ICAO_B 1 4 Accelerate MaxTakeoff 1  1 765,5 206,2 
737300 ICAO_B 1 5 Accelerate MaxTakeoff ZERO  1 897 220,5 
737300 ICAO_B 1 6 Climb MaxClimb ZERO 3 000   
737300 ICAO_B 1 7 Accelerate MaxClimb ZERO  1 892,6 250 
737300 ICAO_B 1 8 Climb MaxClimb ZERO 5 500   
737300 ICAO_B 1 9 Climb MaxClimb ZERO 7 500   
737300 ICAO_B 1 10 Climb MaxClimb ZERO 10 000   
737300 ICAO_B 2 1 Takeoff MaxTakeoff 5    
737300 ICAO_B 2 2 Climb MaxTakeoff 5 1 000   
737300 ICAO_B 2 3 Accelerate MaxTakeoff 5  1 468,7 190,5 
737300 ICAO_B 2 4 Accelerate MaxTakeoff 1  1 652,2 205,8 
737300 ICAO_B 2 5 Accelerate MaxTakeoff ZERO  1 773,2 220,5 
737300 ICAO_B 2 6 Climb MaxClimb ZERO 3 000   
737300 ICAO_B 2 7 Accelerate MaxClimb ZERO  1 773,3 250 
737300 ICAO_B 2 8 Climb MaxClimb ZERO 5 500   
737300 ICAO_B 2 9 Climb MaxClimb ZERO 7 500   
737300 ICAO_B 2 10 Climb MaxClimb ZERO 10 000   
737300 ICAO_B 3 1 Takeoff MaxTakeoff 5    
737300 ICAO_B 3 2 Climb MaxTakeoff 5 1 000   
737300 ICAO_B 3 3 Accelerate MaxTakeoff 5  1 380,4 192,1 
737300 ICAO_B 3 4 Accelerate MaxTakeoff 1  1 557,4 213,8 
737300 ICAO_B 3 5 Accelerate MaxTakeoff ZERO  1 688,1 220,5 
737300 ICAO_B 3 6 Climb MaxClimb ZERO 3 000   
737300 ICAO_B 3 7 Accelerate MaxClimb ZERO  1 657,6 250 
737300 ICAO_B 3 8 Climb MaxClimb ZERO 5 500   
737300 ICAO_B 3 9 Climb MaxClimb ZERO 7 500   
737300 ICAO_B 3 10 Climb MaxClimb ZERO 10 000   
737300 ICAO_B 4 1 Takeoff MaxTakeoff 5    
737300 ICAO_B 4 2 Climb MaxTakeoff 5 1 000   
737300 ICAO_B 4 3 Accelerate MaxTakeoff 5  1 217,8 195,7 
737300 ICAO_B 4 4 Accelerate MaxTakeoff 1  1 361,4 212 
737300 ICAO_B 4 5 Accelerate MaxTakeoff ZERO  1 457,6 220,5 
737300 ICAO_B 4 6 Climb MaxClimb ZERO 3 000   
737300 ICAO_B 4 7 Accelerate MaxClimb ZERO  1 444,8 250 
737300 ICAO_B 4 8 Climb MaxClimb ZERO 5 500   
737300 ICAO_B 4 9 Climb MaxClimb ZERO 7 500   
737300 ICAO_B 4 10 Climb MaxClimb ZERO 10 000   
7373B2 DEFAULT 1 1 Takeoff MaxTakeoff 5    
7373B2 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
7373B2 DEFAULT 1 3 Accelerate MaxClimb T_05  1 671,2 191,9 
7373B2 DEFAULT 1 4 Accelerate MaxClimb T_01  1 900 209,1 
7373B2 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
7373B2 DEFAULT 1 6 Accelerate MaxClimb ZERO  2 058,2 250 
7373B2 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
7373B2 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
7373B2 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
7373B2 DEFAULT 2 1 Takeoff MaxTakeoff 5    
7373B2 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
7373B2 DEFAULT 2 3 Accelerate MaxClimb T_05  1 575,5 192,6 
7373B2 DEFAULT 2 4 Accelerate MaxClimb T_01  1 786 208,8 
7373B2 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
7373B2 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 934,6 250 
7373B2 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
7373B2 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
7373B2 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
7373B2 DEFAULT 3 1 Takeoff MaxTakeoff 5    
7373B2 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
7373B2 DEFAULT 3 3 Accelerate MaxClimb T_05  1 483,2 194 
7373B2 DEFAULT 3 4 Accelerate MaxClimb T_01  1 675,9 215,3 
7373B2 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
7373B2 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 828,7 250 
7373B2 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
7373B2 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
7373B2 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
7373B2 DEFAULT 4 1 Takeoff MaxTakeoff 5    
7373B2 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
7373B2 DEFAULT 4 3 Accelerate MaxClimb T_05  1 314,1 197,8 
7373B2 DEFAULT 4 4 Accelerate MaxClimb T_01  1 478,4 213,5 
7373B2 DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
7373B2 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 597,8 250 
7373B2 DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
7373B2 DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
7373B2 DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
7373B2 DEFAULT M 1 Takeoff MaxTakeoff 5    
7373B2 DEFAULT M 2 Climb MaxTakeoff 5 1 000   
7373B2 DEFAULT M 3 Accelerate MaxClimb T_05  1 214,7 200,6 
7373B2 DEFAULT M 4 Accelerate MaxClimb T_01  1 372,5 222,3 
7373B2 DEFAULT M 5 Climb MaxClimb ZERO 3 000   
7373B2 DEFAULT M 6 Accelerate MaxClimb ZERO  1 493,4 250 
7373B2 DEFAULT M 7 Climb MaxClimb ZERO 5 500   
7373B2 DEFAULT M 8 Climb MaxClimb ZERO 7 500   
7373B2 DEFAULT M 9 Climb MaxClimb ZERO 10 000   
7373B2 ICAO_A 1 1 Takeoff MaxTakeoff 5    
7373B2 ICAO_A 1 2 Climb MaxTakeoff 5 1 500   
7373B2 ICAO_A 1 3 Climb MaxClimb 5 3 000   
7373B2 ICAO_A 1 4 Accelerate MaxClimb T_05  1 607,4 188,9 
7373B2 ICAO_A 1 5 Accelerate MaxClimb T_01  1 827,6 206 
7373B2 ICAO_A 1 6 Accelerate MaxClimb ZERO  2 030,2 250 
7373B2 ICAO_A 1 7 Climb MaxClimb ZERO 5 500   
7373B2 ICAO_A 1 8 Climb MaxClimb ZERO 7 500   
7373B2 ICAO_A 1 9 Climb MaxClimb ZERO 10 000   
7373B2 ICAO_A 2 1 Takeoff MaxTakeoff 5    
7373B2 ICAO_A 2 2 Climb MaxTakeoff 5 1 500   
7373B2 ICAO_A 2 3 Climb MaxClimb 5 3 000   
7373B2 ICAO_A 2 4 Accelerate MaxClimb T_05  1 507,4 188,9 
7373B2 ICAO_A 2 5 Accelerate MaxClimb T_01  1 703,4 206 
7373B2 ICAO_A 2 6 Accelerate MaxClimb ZERO  1 909,1 250 
7373B2 ICAO_A 2 7 Climb MaxClimb ZERO 5 500   
7373B2 ICAO_A 2 8 Climb MaxClimb ZERO 7 500   
7373B2 ICAO_A 2 9 Climb MaxClimb ZERO 10 000   
7373B2 ICAO_A 3 1 Takeoff MaxTakeoff 5    
7373B2 ICAO_A 3 2 Climb MaxTakeoff 5 1 500   
7373B2 ICAO_A 3 3 Climb MaxClimb 5 3 000   
7373B2 ICAO_A 3 4 Accelerate MaxClimb T_05  1 417,2 191,3 
7373B2 ICAO_A 3 5 Accelerate MaxClimb T_01  1 604,3 213,7 
7373B2 ICAO_A 3 6 Accelerate MaxClimb ZERO  1 807,6 250 
7373B2 ICAO_A 3 7 Climb MaxClimb ZERO 5 500   
7373B2 ICAO_A 3 8 Climb MaxClimb ZERO 7 500   
7373B2 ICAO_A 3 9 Climb MaxClimb ZERO 10 000   
7373B2 ICAO_A 4 1 Takeoff MaxTakeoff 5    
7373B2 ICAO_A 4 2 Climb MaxTakeoff 5 1 500   
7373B2 ICAO_A 4 3 Climb MaxClimb 5 3 000   
7373B2 ICAO_A 4 4 Accelerate MaxClimb T_05  1 255,2 195,4 
7373B2 ICAO_A 4 5 Accelerate MaxClimb T_01  1 411,8 212,1 
7373B2 ICAO_A 4 6 Accelerate MaxClimb ZERO  1 576,8 250 
7373B2 ICAO_A 4 7 Climb MaxClimb ZERO 5 500   
7373B2 ICAO_A 4 8 Climb MaxClimb ZERO 7 500   
7373B2 ICAO_A 4 9 Climb MaxClimb ZERO 10 000   
7373B2 ICAO_A M 1 Takeoff MaxTakeoff 5    
7373B2 ICAO_A M 2 Climb MaxTakeoff 5 1 500   
7373B2 ICAO_A M 3 Climb MaxClimb 5 3 000   
7373B2 ICAO_A M 4 Accelerate MaxClimb T_05  1 163,2 198,2 
7373B2 ICAO_A M 5 Accelerate MaxClimb T_01  1 309,7 220,9 
7373B2 ICAO_A M 6 Accelerate MaxClimb ZERO  1 469,1 250 
7373B2 ICAO_A M 7 Climb MaxClimb ZERO 5 500   
7373B2 ICAO_A M 8 Climb MaxClimb ZERO 7 500   
7373B2 ICAO_A M 9 Climb MaxClimb ZERO 10 000   
7373B2 ICAO_B 1 1 Takeoff MaxTakeoff 5    
7373B2 ICAO_B 1 2 Climb MaxTakeoff 5 1 000   
7373B2 ICAO_B 1 3 Accelerate MaxTakeoff T_05  1 881 195,6 
7373B2 ICAO_B 1 4 Accelerate MaxTakeoff T_01  2 138,5 214,5 
7373B2 ICAO_B 1 5 Climb MaxClimb ZERO 3 000   
7373B2 ICAO_B 1 6 Accelerate MaxClimb ZERO  2 075,4 250 
7373B2 ICAO_B 1 7 Climb MaxClimb ZERO 5 500   
7373B2 ICAO_B 1 8 Climb MaxClimb ZERO 7 500   
7373B2 ICAO_B 1 9 Climb MaxClimb ZERO 10 000   
7373B2 ICAO_B 2 1 Takeoff MaxTakeoff 5    
7373B2 ICAO_B 2 2 Climb MaxTakeoff 5 1 000   
7373B2 ICAO_B 2 3 Accelerate MaxTakeoff T_05  1 774,2 196,2 
7373B2 ICAO_B 2 4 Accelerate MaxTakeoff T_01  2 009,3 214 
7373B2 ICAO_B 2 5 Climb MaxClimb ZERO 3 000   
7373B2 ICAO_B 2 6 Accelerate MaxClimb ZERO  1 950,7 250 
7373B2 ICAO_B 2 7 Climb MaxClimb ZERO 5 500   
7373B2 ICAO_B 2 8 Climb MaxClimb ZERO 7 500   
7373B2 ICAO_B 2 9 Climb MaxClimb ZERO 10 000   
7373B2 ICAO_B 3 1 Takeoff MaxTakeoff 5    
7373B2 ICAO_B 3 2 Climb MaxTakeoff 5 1 000   
7373B2 ICAO_B 3 3 Accelerate MaxTakeoff T_05  1 674,8 197,4 
7373B2 ICAO_B 3 4 Accelerate MaxTakeoff T_01  1 895,7 217 
7373B2 ICAO_B 3 5 Climb MaxClimb ZERO 3 000   
7373B2 ICAO_B 3 6 Accelerate MaxClimb ZERO  1 835,6 250 
7373B2 ICAO_B 3 7 Climb MaxClimb ZERO 5 500   
7373B2 ICAO_B 3 8 Climb MaxClimb ZERO 7 500   
7373B2 ICAO_B 3 9 Climb MaxClimb ZERO 10 000   
7373B2 ICAO_B 4 1 Takeoff MaxTakeoff 5    
7373B2 ICAO_B 4 2 Climb MaxTakeoff 5 1 000   
7373B2 ICAO_B 4 3 Accelerate MaxTakeoff T_05  1 494,5 200,9 
7373B2 ICAO_B 4 4 Accelerate MaxTakeoff T_01  1 672,5 215,5 
7373B2 ICAO_B 4 5 Climb MaxClimb ZERO 3 000   
7373B2 ICAO_B 4 6 Accelerate MaxClimb ZERO  1 606,9 250 
7373B2 ICAO_B 4 7 Climb MaxClimb ZERO 5 500   
7373B2 ICAO_B 4 8 Climb MaxClimb ZERO 7 500   
7373B2 ICAO_B 4 9 Climb MaxClimb ZERO 10 000   
7373B2 ICAO_B M 1 Takeoff MaxTakeoff 5    
7373B2 ICAO_B M 2 Climb MaxTakeoff 5 1 000   
7373B2 ICAO_B M 3 Accelerate MaxTakeoff T_05  1 387,7 203,4 
7373B2 ICAO_B M 4 Accelerate MaxTakeoff T_01  1 557,1 223,7 
7373B2 ICAO_B M 5 Climb MaxClimb ZERO 3 000   
7373B2 ICAO_B M 6 Accelerate MaxClimb ZERO  1 493,2 250 
7373B2 ICAO_B M 7 Climb MaxClimb ZERO 5 500   
7373B2 ICAO_B M 8 Climb MaxClimb ZERO 7 500   
7373B2 ICAO_B M 9 Climb MaxClimb ZERO 10 000   
737400 DEFAULT 1 1 Takeoff MaxTakeoff 5    
737400 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
737400 DEFAULT 1 3 Accelerate MaxClimb 5  1 715,3 198,8 
737400 DEFAULT 1 4 Accelerate MaxClimb 1  1 894,7 210,5 
737400 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
737400 DEFAULT 1 6 Accelerate MaxClimb ZERO  2 067,4 250 
737400 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
737400 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
737400 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
737400 DEFAULT 2 1 Takeoff MaxTakeoff 5    
737400 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
737400 DEFAULT 2 3 Accelerate MaxClimb 5  1 616 199,8 
737400 DEFAULT 2 4 Accelerate MaxClimb 1  1 786,6 210,5 
737400 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
737400 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 939,1 250 
737400 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
737400 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
737400 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
737400 DEFAULT 3 1 Takeoff MaxTakeoff 5    
737400 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
737400 DEFAULT 3 3 Accelerate MaxClimb 5  1 516,6 201 
737400 DEFAULT 3 4 Accelerate MaxClimb 1  1 660,9 210,5 
737400 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
737400 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 807,5 250 
737400 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
737400 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
737400 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
737400 DEFAULT 4 1 Takeoff MaxTakeoff 5    
737400 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
737400 DEFAULT 4 3 Accelerate MaxClimb 5  1 370,2 203,9 
737400 DEFAULT 4 4 Accelerate MaxClimb 1  1 504,1 210,5 
737400 DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
737400 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 609,1 250 
737400 DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
737400 DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
737400 DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
737400 DEFAULT M 1 Takeoff MaxTakeoff 5    
737400 DEFAULT M 2 Climb MaxTakeoff 5 1 000   
737400 DEFAULT M 3 Accelerate MaxClimb 5  1 225,8 207,5 
737400 DEFAULT M 4 Accelerate MaxClimb 1  1 312,5 210,5 
737400 DEFAULT M 5 Climb MaxClimb ZERO 3 000   
737400 DEFAULT M 6 Accelerate MaxClimb ZERO  1 414,3 250 
737400 DEFAULT M 7 Climb MaxClimb ZERO 5 500   
737400 DEFAULT M 8 Climb MaxClimb ZERO 7 500   
737400 DEFAULT M 9 Climb MaxClimb ZERO 10 000   
737400 ICAO_A 1 1 Takeoff MaxTakeoff 5    
737400 ICAO_A 1 2 Climb MaxTakeoff 5 1 500   
737400 ICAO_A 1 3 Climb MaxClimb 5 3 000   
737400 ICAO_A 1 4 Accelerate MaxClimb 5  1 641,7 195,7 
737400 ICAO_A 1 5 Accelerate MaxClimb 1  1 830 210,1 
737400 ICAO_A 1 6 Accelerate MaxClimb ZERO  2 058,4 250 
737400 ICAO_A 1 7 Climb MaxClimb ZERO 5 500   
737400 ICAO_A 1 8 Climb MaxClimb ZERO 7 500   
737400 ICAO_A 1 9 Climb MaxClimb ZERO 10 000   
737400 ICAO_A 2 1 Takeoff MaxTakeoff 5    
737400 ICAO_A 2 2 Climb MaxTakeoff 5 1 500   
737400 ICAO_A 2 3 Climb MaxClimb 5 3 000   
737400 ICAO_A 2 4 Accelerate MaxClimb 5  1 546 196,8 
737400 ICAO_A 2 5 Accelerate MaxClimb 1  1 702,5 210,1 
737400 ICAO_A 2 6 Accelerate MaxClimb ZERO  1 919,2 250 
737400 ICAO_A 2 7 Climb MaxClimb ZERO 5 500   
737400 ICAO_A 2 8 Climb MaxClimb ZERO 7 500   
737400 ICAO_A 2 9 Climb MaxClimb ZERO 10 000   
737400 ICAO_A 3 1 Takeoff MaxTakeoff 5    
737400 ICAO_A 3 2 Climb MaxTakeoff 5 1 500   
737400 ICAO_A 3 3 Climb MaxClimb 5 3 000   
737400 ICAO_A 3 4 Accelerate MaxClimb 5  1 446,6 198,2 
737400 ICAO_A 3 5 Accelerate MaxClimb 1  1 592,3 210,3 
737400 ICAO_A 3 6 Accelerate MaxClimb ZERO  1 789,6 250 
737400 ICAO_A 3 7 Climb MaxClimb ZERO 5 500   
737400 ICAO_A 3 8 Climb MaxClimb ZERO 7 500   
737400 ICAO_A 3 9 Climb MaxClimb ZERO 10 000   
737400 ICAO_A 4 1 Takeoff MaxTakeoff 5    
737400 ICAO_A 4 2 Climb MaxTakeoff 5 1 500   
737400 ICAO_A 4 3 Climb MaxClimb 5 3 000   
737400 ICAO_A 4 4 Accelerate MaxClimb 5  1 303,9 201,3 
737400 ICAO_A 4 5 Accelerate MaxClimb 1  1 426,1 210,3 
737400 ICAO_A 4 6 Accelerate MaxClimb ZERO  1 598,5 250 
737400 ICAO_A 4 7 Climb MaxClimb ZERO 5 500   
737400 ICAO_A 4 8 Climb MaxClimb ZERO 7 500   
737400 ICAO_A 4 9 Climb MaxClimb ZERO 10 000   
737400 ICAO_A M 1 Takeoff MaxTakeoff 5    
737400 ICAO_A M 2 Climb MaxTakeoff 5 1 500   
737400 ICAO_A M 3 Climb MaxClimb 5 3 000   
737400 ICAO_A M 4 Accelerate MaxClimb 5  1 159,5 205,1 
737400 ICAO_A M 5 Accelerate MaxClimb 1  1 249,3 210,3 
737400 ICAO_A M 6 Accelerate MaxClimb ZERO  1 392,2 250 
737400 ICAO_A M 7 Climb MaxClimb ZERO 5 500   
737400 ICAO_A M 8 Climb MaxClimb ZERO 7 500   
737400 ICAO_A M 9 Climb MaxClimb ZERO 10 000   
737400 ICAO_B 1 1 Takeoff MaxTakeoff 5    
737400 ICAO_B 1 2 Climb MaxTakeoff 5 1 000   
737400 ICAO_B 1 3 Accelerate MaxTakeoff 5  1 869,9 201,5 
737400 ICAO_B 1 4 Accelerate MaxTakeoff 1  2 073,3 210,5 
737400 ICAO_B 1 5 Climb MaxClimb ZERO 3 000   
737400 ICAO_B 1 6 Accelerate MaxClimb ZERO  2 067,4 250 
737400 ICAO_B 1 7 Climb MaxClimb ZERO 5 500   
737400 ICAO_B 1 8 Climb MaxClimb ZERO 7 500   
737400 ICAO_B 1 9 Climb MaxClimb ZERO 10 000   
737400 ICAO_B 2 1 Takeoff MaxTakeoff 5    
737400 ICAO_B 2 2 Climb MaxTakeoff 5 1 000   
737400 ICAO_B 2 3 Accelerate MaxTakeoff 5  1 766,9 202,3 
737400 ICAO_B 2 4 Accelerate MaxTakeoff 1  1 945,9 210,5 
737400 ICAO_B 2 5 Climb MaxClimb ZERO 3 000   
737400 ICAO_B 2 6 Accelerate MaxClimb ZERO  1 939,1 250 
737400 ICAO_B 2 7 Climb MaxClimb ZERO 5 500   
737400 ICAO_B 2 8 Climb MaxClimb ZERO 7 500   
737400 ICAO_B 2 9 Climb MaxClimb ZERO 10 000   
737400 ICAO_B 3 1 Takeoff MaxTakeoff 5    
737400 ICAO_B 3 2 Climb MaxTakeoff 5 1 000   
737400 ICAO_B 3 3 Accelerate MaxTakeoff 5  1 660,1 203,4 
737400 ICAO_B 3 4 Accelerate MaxTakeoff 1  1 822,5 210,5 
737400 ICAO_B 3 5 Climb MaxClimb ZERO 3 000   
737400 ICAO_B 3 6 Accelerate MaxClimb ZERO  1 807,5 250 
737400 ICAO_B 3 7 Climb MaxClimb ZERO 5 500   
737400 ICAO_B 3 8 Climb MaxClimb ZERO 7 500   
737400 ICAO_B 3 9 Climb MaxClimb ZERO 10 000   
737400 ICAO_B 4 1 Takeoff MaxTakeoff 5    
737400 ICAO_B 4 2 Climb MaxTakeoff 5 1 000   
737400 ICAO_B 4 3 Accelerate MaxTakeoff 5  1 502,8 206,1 
737400 ICAO_B 4 4 Accelerate MaxTakeoff 1  1 644,7 210,5 
737400 ICAO_B 4 5 Climb MaxClimb ZERO 3 000   
737400 ICAO_B 4 6 Accelerate MaxClimb ZERO  1 610,5 250 
737400 ICAO_B 4 7 Climb MaxClimb ZERO 5 500   
737400 ICAO_B 4 8 Climb MaxClimb ZERO 7 500   
737400 ICAO_B 4 9 Climb MaxClimb ZERO 10 000   
737400 ICAO_B M 1 Takeoff MaxTakeoff 5    
737400 ICAO_B M 2 Climb MaxTakeoff 5 1 000   
737400 ICAO_B M 3 Accelerate MaxTakeoff 5  1 350,9 209,5 
737400 ICAO_B M 4 Accelerate MaxTakeoff 1  1 428,6 210,5 
737400 ICAO_B M 5 Climb MaxClimb ZERO 3 000   
737400 ICAO_B M 6 Accelerate MaxClimb ZERO  1 414,7 250 
737400 ICAO_B M 7 Climb MaxClimb ZERO 5 500   
737400 ICAO_B M 8 Climb MaxClimb ZERO 7 500   
737400 ICAO_B M 9 Climb MaxClimb ZERO 10 000   
737500 DEFAULT 1 1 Takeoff MaxTakeoff 5    
737500 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
737500 DEFAULT 1 3 Accelerate MaxClimb 5  1 579,1 187 
737500 DEFAULT 1 4 Accelerate MaxClimb 1  1 800 206,6 
737500 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
737500 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 961,7 250 
737500 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
737500 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
737500 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
737500 DEFAULT 2 1 Takeoff MaxTakeoff 5    
737500 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
737500 DEFAULT 2 3 Accelerate MaxClimb 5  1 490,8 188 
737500 DEFAULT 2 4 Accelerate MaxClimb 1  1 681,3 205,6 
737500 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
737500 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 834,4 250 
737500 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
737500 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
737500 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
737500 DEFAULT 3 1 Takeoff MaxTakeoff 5    
737500 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
737500 DEFAULT 3 3 Accelerate MaxClimb 5  1 398,8 189,4 
737500 DEFAULT 3 4 Accelerate MaxClimb 1  1 572,4 204,5 
737500 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
737500 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 713,4 250 
737500 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
737500 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
737500 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
737500 DEFAULT 4 1 Takeoff MaxTakeoff 5    
737500 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
737500 DEFAULT 4 3 Accelerate MaxClimb 5  1 229,4 192,1 
737500 DEFAULT 4 4 Accelerate MaxClimb 1  1 388,1 212,4 
737500 DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
737500 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 521,8 250 
737500 DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
737500 DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
737500 DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
737500 DEFAULT 5 1 Takeoff MaxTakeoff 5    
737500 DEFAULT 5 2 Climb MaxTakeoff 5 1 000   
737500 DEFAULT 5 3 Accelerate MaxClimb 5  1 211,1 192,4 
737500 DEFAULT 5 4 Accelerate MaxClimb 1  1 370,8 212 
737500 DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
737500 DEFAULT 5 6 Accelerate MaxClimb ZERO  1 503,1 250 
737500 DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
737500 DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
737500 DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
737500 DEFAULT M 1 Takeoff MaxTakeoff 5    
737500 DEFAULT M 2 Climb MaxTakeoff 5 1 000   
737500 DEFAULT M 3 Accelerate MaxClimb 5  1 192,6 192,8 
737500 DEFAULT M 4 Accelerate MaxClimb 1  1 343,1 211,9 
737500 DEFAULT M 5 Climb MaxClimb ZERO 3 000   
737500 DEFAULT M 6 Accelerate MaxClimb ZERO  1 470,2 250 
737500 DEFAULT M 7 Climb MaxClimb ZERO 5 500   
737500 DEFAULT M 8 Climb MaxClimb ZERO 7 500   
737500 DEFAULT M 9 Climb MaxClimb ZERO 10 000   
737500 ICAO_A 1 1 Takeoff MaxTakeoff 5    
737500 ICAO_A 1 2 Climb MaxTakeoff 5 1 500   
737500 ICAO_A 1 3 Climb MaxClimb 5 3 000   
737500 ICAO_A 1 4 Accelerate MaxClimb 5  1 509,2 184 
737500 ICAO_A 1 5 Accelerate MaxClimb 1  1 725,7 204,8 
737500 ICAO_A 1 6 Accelerate MaxClimb ZERO  1 934,3 250 
737500 ICAO_A 1 7 Climb MaxClimb ZERO 5 500   
737500 ICAO_A 1 8 Climb MaxClimb ZERO 7 500   
737500 ICAO_A 1 9 Climb MaxClimb ZERO 10 000   
737500 ICAO_A 2 1 Takeoff MaxTakeoff 5    
737500 ICAO_A 2 2 Climb MaxTakeoff 5 1 500   
737500 ICAO_A 2 3 Climb MaxClimb 5 3 000   
737500 ICAO_A 2 4 Accelerate MaxClimb 5  1 420,9 185,1 
737500 ICAO_A 2 5 Accelerate MaxClimb 1  1 612,5 203,9 
737500 ICAO_A 2 6 Accelerate MaxClimb ZERO  1 810,3 250 
737500 ICAO_A 2 7 Climb MaxClimb ZERO 5 500   
737500 ICAO_A 2 8 Climb MaxClimb ZERO 7 500   
737500 ICAO_A 2 9 Climb MaxClimb ZERO 10 000   
737500 ICAO_A 3 1 Takeoff MaxTakeoff 5    
737500 ICAO_A 3 2 Climb MaxTakeoff 5 1 500   
737500 ICAO_A 3 3 Climb MaxClimb 5 3 000   
737500 ICAO_A 3 4 Accelerate MaxClimb 5  1 332,5 186,6 
737500 ICAO_A 3 5 Accelerate MaxClimb 1  1 494,3 203 
737500 ICAO_A 3 6 Accelerate MaxClimb ZERO  1 691,3 250 
737500 ICAO_A 3 7 Climb MaxClimb ZERO 5 500   
737500 ICAO_A 3 8 Climb MaxClimb ZERO 7 500   
737500 ICAO_A 3 9 Climb MaxClimb ZERO 10 000   
737500 ICAO_A 4 1 Takeoff MaxTakeoff 5    
737500 ICAO_A 4 2 Climb MaxTakeoff 5 1 500   
737500 ICAO_A 4 3 Climb MaxClimb 5 3 000   
737500 ICAO_A 4 4 Accelerate MaxClimb 5  1 166,9 189,6 
737500 ICAO_A 4 5 Accelerate MaxClimb 1  1 317 211 
737500 ICAO_A 4 6 Accelerate MaxClimb ZERO  1 496,1 250 
737500 ICAO_A 4 7 Climb MaxClimb ZERO 5 500   
737500 ICAO_A 4 8 Climb MaxClimb ZERO 7 500   
737500 ICAO_A 4 9 Climb MaxClimb ZERO 10 000   
737500 ICAO_A 5 1 Takeoff MaxTakeoff 5    
737500 ICAO_A 5 2 Climb MaxTakeoff 5 1 500   
737500 ICAO_A 5 3 Climb MaxClimb 5 3 000   
737500 ICAO_A 5 4 Accelerate MaxClimb 5  1 152,1 189,9 
737500 ICAO_A 5 5 Accelerate MaxClimb 1  1 300 210,8 
737500 ICAO_A 5 6 Accelerate MaxClimb ZERO  1 477,5 250 
737500 ICAO_A 5 7 Climb MaxClimb ZERO 5 500   
737500 ICAO_A 5 8 Climb MaxClimb ZERO 7 500   
737500 ICAO_A 5 9 Climb MaxClimb ZERO 10 000   
737500 ICAO_A M 1 Takeoff MaxTakeoff 5    
737500 ICAO_A M 2 Climb MaxTakeoff 5 1 500   
737500 ICAO_A M 3 Climb MaxClimb 5 3 000   
737500 ICAO_A M 4 Accelerate MaxClimb 5  1 130,1 190,4 
737500 ICAO_A M 5 Accelerate MaxClimb 1  1 267,1 210,6 
737500 ICAO_A M 6 Accelerate MaxClimb ZERO  1 451,9 250 
737500 ICAO_A M 7 Climb MaxClimb ZERO 5 500   
737500 ICAO_A M 8 Climb MaxClimb ZERO 7 500   
737500 ICAO_A M 9 Climb MaxClimb ZERO 10 000   
737500 ICAO_B 1 1 Takeoff MaxTakeoff 5    
737500 ICAO_B 1 2 Climb MaxTakeoff 5 1 000   
737500 ICAO_B 1 3 Accelerate MaxTakeoff 5  1 715,3 189,5 
737500 ICAO_B 1 4 Accelerate MaxTakeoff 1  1 944,8 207,8 
737500 ICAO_B 1 5 Climb MaxClimb ZERO 3 000   
737500 ICAO_B 1 6 Accelerate MaxClimb ZERO  1 966,3 250 
737500 ICAO_B 1 7 Climb MaxClimb ZERO 5 500   
737500 ICAO_B 1 8 Climb MaxClimb ZERO 7 500   
737500 ICAO_B 1 9 Climb MaxClimb ZERO 10 000   
737500 ICAO_B 2 1 Takeoff MaxTakeoff 5    
737500 ICAO_B 2 2 Climb MaxTakeoff 5 1 000   
737500 ICAO_B 2 3 Accelerate MaxTakeoff 5  1 619,6 190,3 
737500 ICAO_B 2 4 Accelerate MaxTakeoff 1  1 835,3 207,1 
737500 ICAO_B 2 5 Climb MaxClimb ZERO 3 000   
737500 ICAO_B 2 6 Accelerate MaxClimb ZERO  1 844,6 250 
737500 ICAO_B 2 7 Climb MaxClimb ZERO 5 500   
737500 ICAO_B 2 8 Climb MaxClimb ZERO 7 500   
737500 ICAO_B 2 9 Climb MaxClimb ZERO 10 000   
737500 ICAO_B 3 1 Takeoff MaxTakeoff 5    
737500 ICAO_B 3 2 Climb MaxTakeoff 5 1 000   
737500 ICAO_B 3 3 Accelerate MaxTakeoff 5  1 520,2 191,6 
737500 ICAO_B 3 4 Accelerate MaxTakeoff 1  1 717,5 207,1 
737500 ICAO_B 3 5 Climb MaxClimb ZERO 3 000   
737500 ICAO_B 3 6 Accelerate MaxClimb ZERO  1 722,6 250 
737500 ICAO_B 3 7 Climb MaxClimb ZERO 5 500   
737500 ICAO_B 3 8 Climb MaxClimb ZERO 7 500   
737500 ICAO_B 3 9 Climb MaxClimb ZERO 10 000   
737500 ICAO_B 4 1 Takeoff MaxTakeoff 5    
737500 ICAO_B 4 2 Climb MaxTakeoff 5 1 000   
737500 ICAO_B 4 3 Accelerate MaxTakeoff 5  1 339,9 194,1 
737500 ICAO_B 4 4 Accelerate MaxTakeoff 1  1 512,8 213,4 
737500 ICAO_B 4 5 Climb MaxClimb ZERO 3 000   
737500 ICAO_B 4 6 Accelerate MaxClimb ZERO  1 526,7 250 
737500 ICAO_B 4 7 Climb MaxClimb ZERO 5 500   
737500 ICAO_B 4 8 Climb MaxClimb ZERO 7 500   
737500 ICAO_B 4 9 Climb MaxClimb ZERO 10 000   
737500 ICAO_B 5 1 Takeoff MaxTakeoff 5    
737500 ICAO_B 5 2 Climb MaxTakeoff 5 1 000   
737500 ICAO_B 5 3 Accelerate MaxTakeoff 5  1 322,2 194,4 
737500 ICAO_B 5 4 Accelerate MaxTakeoff 1  1 500 213,2 
737500 ICAO_B 5 5 Climb MaxClimb ZERO 3 000   
737500 ICAO_B 5 6 Accelerate MaxClimb ZERO  1 503,1 250 
737500 ICAO_B 5 7 Climb MaxClimb ZERO 5 500   
737500 ICAO_B 5 8 Climb MaxClimb ZERO 7 500   
737500 ICAO_B 5 9 Climb MaxClimb ZERO 10 000   
737500 ICAO_B M 1 Takeoff MaxTakeoff 5    
737500 ICAO_B M 2 Climb MaxTakeoff 5 1 000   
737500 ICAO_B M 3 Accelerate MaxTakeoff 5  1 303,1 194,8 
737500 ICAO_B M 4 Accelerate MaxTakeoff 1  1 463,2 213 
737500 ICAO_B M 5 Climb MaxClimb ZERO 3 000   
737500 ICAO_B M 6 Accelerate MaxClimb ZERO  1 475,5 250 
737500 ICAO_B M 7 Climb MaxClimb ZERO 5 500   
737500 ICAO_B M 8 Climb MaxClimb ZERO 7 500   
737500 ICAO_B M 9 Climb MaxClimb ZERO 10 000   
737700 DEFAULT 1 1 Takeoff MaxTakeoff T_5    
737700 DEFAULT 1 2 Climb MaxTakeoff T_5 1 000   
737700 DEFAULT 1 3 Accelerate MaxClimb T_ZERO  1 782,4 195,1 
737700 DEFAULT 1 4 Climb MaxClimb T_ZERO 3 000   
737700 DEFAULT 1 5 Accelerate MaxClimb T_ZERO  2 159,3 250 
737700 DEFAULT 1 6 Climb MaxClimb T_ZERO 5 500   
737700 DEFAULT 1 7 Climb MaxClimb T_00H 7 500   
737700 DEFAULT 1 8 Climb MaxClimb T_00H 10 000   
737700 DEFAULT 2 1 Takeoff MaxTakeoff T_5    
737700 DEFAULT 2 2 Climb MaxTakeoff T_5 1 000   
737700 DEFAULT 2 3 Accelerate MaxClimb T_ZERO  1 710,1 197,7 
737700 DEFAULT 2 4 Climb MaxClimb T_ZERO 3 000   
737700 DEFAULT 2 5 Accelerate MaxClimb T_ZERO  2 056,7 250 
737700 DEFAULT 2 6 Climb MaxClimb T_ZERO 5 500   
737700 DEFAULT 2 7 Climb MaxClimb T_00H 7 500   
737700 DEFAULT 2 8 Climb MaxClimb T_00H 10 000   
737700 DEFAULT 3 1 Takeoff MaxTakeoff T_5    
737700 DEFAULT 3 2 Climb MaxTakeoff T_5 1 000   
737700 DEFAULT 3 3 Accelerate MaxClimb T_ZERO  1 635,7 200,3 
737700 DEFAULT 3 4 Climb MaxClimb T_ZERO 3 000   
737700 DEFAULT 3 5 Accelerate MaxClimb T_ZERO  1 957 250 
737700 DEFAULT 3 6 Climb MaxClimb T_ZERO 5 500   
737700 DEFAULT 3 7 Climb MaxClimb T_ZERO 7 500   
737700 DEFAULT 3 8 Climb MaxClimb T_00H 10 000   
737700 DEFAULT 4 1 Takeoff MaxTakeoff T_5    
737700 DEFAULT 4 2 Climb MaxTakeoff T_5 1 000   
737700 DEFAULT 4 3 Accelerate MaxClimb T_ZERO  1 498,3 205,8 
737700 DEFAULT 4 4 Climb MaxClimb T_ZERO 3 000   
737700 DEFAULT 4 5 Accelerate MaxClimb T_ZERO  1 774,4 250 
737700 DEFAULT 4 6 Climb MaxClimb T_ZERO 5 500   
737700 DEFAULT 4 7 Climb MaxClimb T_ZERO 7 500   
737700 DEFAULT 4 8 Climb MaxClimb T_ZERO 10 000   
737700 DEFAULT 5 1 Takeoff MaxTakeoff T_5    
737700 DEFAULT 5 2 Climb MaxTakeoff T_5 1 000   
737700 DEFAULT 5 3 Accelerate MaxClimb T_ZERO  1 348,5 211,6 
737700 DEFAULT 5 4 Climb MaxClimb T_ZERO 3 000   
737700 DEFAULT 5 5 Accelerate MaxClimb T_ZERO  1 581,2 250 
737700 DEFAULT 5 6 Climb MaxClimb T_ZERO 5 500   
737700 DEFAULT 5 7 Climb MaxClimb T_ZERO 7 500   
737700 DEFAULT 5 8 Climb MaxClimb T_ZERO 10 000   
737700 DEFAULT 6 1 Takeoff MaxTakeoff T_5    
737700 DEFAULT 6 2 Climb MaxTakeoff T_5 1 000   
737700 DEFAULT 6 3 Accelerate MaxClimb T_ZERO  1 347,1 211,6 
737700 DEFAULT 6 4 Climb MaxClimb T_ZERO 3 000   
737700 DEFAULT 6 5 Accelerate MaxClimb T_ZERO  1 579,1 250 
737700 DEFAULT 6 6 Climb MaxClimb T_ZERO 5 500   
737700 DEFAULT 6 7 Climb MaxClimb T_ZERO 7 500   
737700 DEFAULT 6 8 Climb MaxClimb T_ZERO 10 000   
737700 ICAO_A 1 1 Takeoff MaxTakeoff T_5    
737700 ICAO_A 1 2 Climb MaxTakeoff T_5 1 500   
737700 ICAO_A 1 3 Climb MaxClimb T_5 3 000   
737700 ICAO_A 1 4 Accelerate MaxClimb T_ZERO  1 747,6 194,9 
737700 ICAO_A 1 5 Accelerate MaxClimb T_ZERO  2 128,3 250 
737700 ICAO_A 1 6 Climb MaxClimb T_ZERO 5 500   
737700 ICAO_A 1 7 Climb MaxClimb T_00H 7 500   
737700 ICAO_A 1 8 Climb MaxClimb T_00H 10 000   
737700 ICAO_A 2 1 Takeoff MaxTakeoff T_5    
737700 ICAO_A 2 2 Climb MaxTakeoff T_5 1 500   
737700 ICAO_A 2 3 Climb MaxClimb T_5 3 000   
737700 ICAO_A 2 4 Accelerate MaxClimb T_ZERO  1 673,6 197,4 
737700 ICAO_A 2 5 Accelerate MaxClimb T_ZERO  2 028,3 250 
737700 ICAO_A 2 6 Climb MaxClimb T_ZERO 5 500   
737700 ICAO_A 2 7 Climb MaxClimb T_ZERO 7 500   
737700 ICAO_A 2 8 Climb MaxClimb T_00H 10 000   
737700 ICAO_A 3 1 Takeoff MaxTakeoff T_5    
737700 ICAO_A 3 2 Climb MaxTakeoff T_5 1 500   
737700 ICAO_A 3 3 Climb MaxClimb T_5 3 000   
737700 ICAO_A 3 4 Accelerate MaxClimb T_ZERO  1 600,5 200,2 
737700 ICAO_A 3 5 Accelerate MaxClimb T_ZERO  1 931,7 250 
737700 ICAO_A 3 6 Climb MaxClimb T_ZERO 5 500   
737700 ICAO_A 3 7 Climb MaxClimb T_ZERO 7 500   
737700 ICAO_A 3 8 Climb MaxClimb T_00H 10 000   
737700 ICAO_A 4 1 Takeoff MaxTakeoff T_5    
737700 ICAO_A 4 2 Climb MaxTakeoff T_5 1 500   
737700 ICAO_A 4 3 Climb MaxClimb T_5 3 000   
737700 ICAO_A 4 4 Accelerate MaxClimb T_ZERO  1 462,2 205,6 
737700 ICAO_A 4 5 Accelerate MaxClimb T_ZERO  1 753,8 250 
737700 ICAO_A 4 6 Climb MaxClimb T_ZERO 5 500   
737700 ICAO_A 4 7 Climb MaxClimb T_ZERO 7 500   
737700 ICAO_A 4 8 Climb MaxClimb T_00H 10 000   
737700 ICAO_A 5 1 Takeoff MaxTakeoff T_5    
737700 ICAO_A 5 2 Climb MaxTakeoff T_5 1 500   
737700 ICAO_A 5 3 Climb MaxClimb T_5 3 000   
737700 ICAO_A 5 4 Accelerate MaxClimb T_ZERO  1 430 250 
737700 ICAO_A 5 5 Climb MaxClimb T_ZERO 5 500   
737700 ICAO_A 5 6 Climb MaxClimb T_ZERO 7 500   
737700 ICAO_A 5 7 Climb MaxClimb T_ZERO 10 000   
737700 ICAO_A 6 1 Takeoff MaxTakeoff T_5    
737700 ICAO_A 6 2 Climb MaxTakeoff T_5 1 500   
737700 ICAO_A 6 3 Climb MaxClimb T_5 3 000   
737700 ICAO_A 6 4 Accelerate MaxClimb T_ZERO  1 430,1 250 
737700 ICAO_A 6 5 Climb MaxClimb T_ZERO 5 500   
737700 ICAO_A 6 6 Climb MaxClimb T_ZERO 7 500   
737700 ICAO_A 6 7 Climb MaxClimb T_ZERO 10 000   
737700 ICAO_B 1 1 Takeoff MaxTakeoff T_5    
737700 ICAO_B 1 2 Climb MaxTakeoff T_5 1 000   
737700 ICAO_B 1 3 Accelerate MaxTakeoff T_01  1 888,7 195,1 
737700 ICAO_B 1 4 Climb MaxClimb T_ZERO 3 000   
737700 ICAO_B 1 5 Accelerate MaxClimb T_ZERO  2 159,3 250 
737700 ICAO_B 1 6 Climb MaxClimb T_00H 5 500   
737700 ICAO_B 1 7 Climb MaxClimb T_00H 7 500   
737700 ICAO_B 1 8 Climb MaxClimb T_ZERO 10 000   
737700 ICAO_B 2 1 Takeoff MaxTakeoff T_5    
737700 ICAO_B 2 2 Climb MaxTakeoff T_5 1 000   
737700 ICAO_B 2 3 Accelerate MaxTakeoff T_01  1 814,3 197,7 
737700 ICAO_B 2 4 Climb MaxClimb T_ZERO 3 000   
737700 ICAO_B 2 5 Accelerate MaxClimb T_ZERO  2 058,1 250 
737700 ICAO_B 2 6 Climb MaxClimb T_ZERO 5 500   
737700 ICAO_B 2 7 Climb MaxClimb T_ZERO 7 500   
737700 ICAO_B 2 8 Climb MaxClimb T_00H 10 000   
737700 ICAO_B 3 1 Takeoff MaxTakeoff T_5    
737700 ICAO_B 3 2 Climb MaxTakeoff T_5 1 000   
737700 ICAO_B 3 3 Accelerate MaxTakeoff T_5  1 619 175,6 
737700 ICAO_B 3 4 Accelerate MaxTakeoff T_01  1 840,6 200,4 
737700 ICAO_B 3 5 Climb MaxClimb T_ZERO 3 000   
737700 ICAO_B 3 6 Accelerate MaxClimb T_ZERO  1 958,4 250 
737700 ICAO_B 3 7 Climb MaxClimb T_ZERO 5 500   
737700 ICAO_B 3 8 Climb MaxClimb T_ZERO 7 500   
737700 ICAO_B 3 9 Climb MaxClimb T_ZERO 10 000   
737700 ICAO_B 4 1 Takeoff MaxTakeoff T_5    
737700 ICAO_B 4 2 Climb MaxTakeoff T_5 1 000   
737700 ICAO_B 4 3 Accelerate MaxTakeoff T_01  1 594,1 205,8 
737700 ICAO_B 4 4 Climb MaxClimb T_ZERO 3 000   
737700 ICAO_B 4 5 Accelerate MaxClimb T_ZERO  1 774,4 250 
737700 ICAO_B 4 6 Climb MaxClimb T_ZERO 5 500   
737700 ICAO_B 4 7 Climb MaxClimb T_ZERO 7 500   
737700 ICAO_B 4 8 Climb MaxClimb T_ZERO 10 000   
737700 ICAO_B 5 1 Takeoff MaxTakeoff T_5    
737700 ICAO_B 5 2 Climb MaxTakeoff T_5 1 000   
737700 ICAO_B 5 3 Accelerate MaxTakeoff T_01  1 438,9 211,5 
737700 ICAO_B 5 4 Climb MaxClimb T_ZERO 3 000   
737700 ICAO_B 5 5 Accelerate MaxClimb T_ZERO  1 579,6 250 
737700 ICAO_B 5 6 Climb MaxClimb T_ZERO 5 500   
737700 ICAO_B 5 7 Climb MaxClimb T_ZERO 7 500   
737700 ICAO_B 5 8 Climb MaxClimb T_ZERO 10 000   
737700 ICAO_B 6 1 Takeoff MaxTakeoff T_5    
737700 ICAO_B 6 2 Climb MaxTakeoff T_5 1 000   
737700 ICAO_B 6 3 Accelerate MaxTakeoff T_01  1 437,2 211,5 
737700 ICAO_B 6 4 Climb MaxClimb T_ZERO 3 000   
737700 ICAO_B 6 5 Accelerate MaxClimb T_ZERO  1 579,1 250 
737700 ICAO_B 6 6 Climb MaxClimb T_ZERO 5 500   
737700 ICAO_B 6 7 Climb MaxClimb T_ZERO 7 500   
737700 ICAO_B 6 8 Climb MaxClimb T_ZERO 10 000   
737800 DEFAULT 1 1 Takeoff MaxTakeoff T_05    
737800 DEFAULT 1 2 Climb MaxTakeoff T_05 1 000   
737800 DEFAULT 1 3 Accelerate MaxTakeoff T_05  1 885,7 181,7 
737800 DEFAULT 1 4 Accelerate MaxTakeoff T_01  2 112 204,8 
737800 DEFAULT 1 5 Climb MaxTakeoff T_00 2 040   
737800 DEFAULT 1 6 Climb MaxClimb T_00 3 000   
737800 DEFAULT 1 7 Accelerate MaxClimb T_00  1 891,3 250 
737800 DEFAULT 1 8 Climb MaxClimb T_00 5 500   
737800 DEFAULT 1 9 Climb MaxClimb T_00 7 500   
737800 DEFAULT 1 10 Climb MaxClimb T_00 10 000   
737800 DEFAULT 2 1 Takeoff MaxTakeoff T_05    
737800 DEFAULT 2 2 Climb MaxTakeoff T_05 1 000   
737800 DEFAULT 2 3 Accelerate MaxTakeoff T_05  1 786,4 183,9 
737800 DEFAULT 2 4 Accelerate MaxTakeoff T_01  2 016,2 208 
737800 DEFAULT 2 5 Climb MaxTakeoff T_00 2 000   
737800 DEFAULT 2 6 Climb MaxClimb T_00 3 000   
737800 DEFAULT 2 7 Accelerate MaxClimb T_00  1 793,4 250 
737800 DEFAULT 2 8 Climb MaxClimb T_00 5 500   
737800 DEFAULT 2 9 Climb MaxClimb T_00 7 500   
737800 DEFAULT 2 10 Climb MaxClimb T_00 10 000   
737800 DEFAULT 3 1 Takeoff MaxTakeoff T_05    
737800 DEFAULT 3 2 Climb MaxTakeoff T_05 1 000   
737800 DEFAULT 3 3 Accelerate MaxTakeoff T_05  1 707,7 186,2 
737800 DEFAULT 3 4 Accelerate MaxTakeoff T_05  1 922 211,2 
737800 DEFAULT 3 5 Climb MaxTakeoff T_00 1 960   
737800 DEFAULT 3 6 Climb MaxClimb T_00 3 000   
737800 DEFAULT 3 7 Accelerate MaxClimb T_00  1 705,3 250 
737800 DEFAULT 3 8 Climb MaxClimb T_00 5 500   
737800 DEFAULT 3 9 Climb MaxClimb T_00 7 500   
737800 DEFAULT 3 10 Climb MaxClimb T_00 10 000   
737800 DEFAULT 4 1 Takeoff MaxTakeoff T_05    
737800 DEFAULT 4 2 Climb MaxTakeoff T_05 1 000   
737800 DEFAULT 4 3 Accelerate MaxTakeoff T_05  1 576,6 189,6 
737800 DEFAULT 4 4 Accelerate MaxTakeoff T_01  1 766,9 216,2 
737800 DEFAULT 4 5 Climb MaxTakeoff T_00 1 880   
737800 DEFAULT 4 6 Climb MaxClimb T_00 3 000   
737800 DEFAULT 4 7 Accelerate MaxClimb T_00  1 546,5 250 
737800 DEFAULT 4 8 Climb MaxClimb T_00 5 500   
737800 DEFAULT 4 9 Climb MaxClimb T_00 7 500   
737800 DEFAULT 4 10 Climb MaxClimb T_00 10 000   
737800 DEFAULT 5 1 Takeoff MaxTakeoff T_05    
737800 DEFAULT 5 2 Climb MaxTakeoff T_05 1 000   
737800 DEFAULT 5 3 Accelerate MaxTakeoff T_05  1 444,9 192,9 
737800 DEFAULT 5 4 Accelerate MaxTakeoff T_01  1 628,6 220,7 
737800 DEFAULT 5 5 Climb MaxTakeoff T_00 1 811   
737800 DEFAULT 5 6 Climb MaxClimb T_00 3 000   
737800 DEFAULT 5 7 Accelerate MaxClimb T_00  1 412,2 250 
737800 DEFAULT 5 8 Climb MaxClimb T_00 5 500   
737800 DEFAULT 5 9 Climb MaxClimb T_00 7 500   
737800 DEFAULT 5 10 Climb MaxClimb T_00 10 000   
737800 DEFAULT 6 1 Takeoff MaxTakeoff T_05    
737800 DEFAULT 6 2 Climb MaxTakeoff T_05 1 000   
737800 DEFAULT 6 3 Accelerate MaxTakeoff T_05  1 400 194,4 
737800 DEFAULT 6 4 Accelerate MaxTakeoff T_01  1 575,4 222,7 
737800 DEFAULT 6 5 Climb MaxTakeoff T_00 1 785   
737800 DEFAULT 6 6 Climb MaxClimb T_00 3 000   
737800 DEFAULT 6 7 Accelerate MaxClimb T_00  1 357,5 250 
737800 DEFAULT 6 8 Climb MaxClimb T_00 5 500   
737800 DEFAULT 6 9 Climb MaxClimb T_00 7 500   
737800 DEFAULT 6 10 Climb MaxClimb T_00 10 000   
737800 ICAO_A 1 1 Takeoff MaxTakeoff T_05    
737800 ICAO_A 1 2 Climb MaxTakeoff T_05 1 500   
737800 ICAO_A 1 3 Climb MaxClimb T_05 3 000   
737800 ICAO_A 1 4 Accelerate MaxClimb T_05  1 449,4 177,2 
737800 ICAO_A 1 5 Accelerate MaxClimb T_01  1 663,3 204,6 
737800 ICAO_A 1 6 Climb MaxClimb T_00 3 807   
737800 ICAO_A 1 7 Accelerate MaxClimb T_00  1 896,8 250 
737800 ICAO_A 1 8 Climb MaxClimb T_00 5 500   
737800 ICAO_A 1 9 Climb MaxClimb T_00 7 500   
737800 ICAO_A 1 10 Climb MaxClimb T_00 10 000   
737800 ICAO_A 2 1 Takeoff MaxTakeoff T_05    
737800 ICAO_A 2 2 Climb MaxTakeoff T_05 1 500   
737800 ICAO_A 2 3 Climb MaxClimb T_05 3 000   
737800 ICAO_A 2 4 Accelerate MaxClimb T_05  1 372,3 179,6 
737800 ICAO_A 2 5 Accelerate MaxClimb T_01  1 579,3 207,8 
737800 ICAO_A 2 6 Climb MaxClimb T_00 3 772   
737800 ICAO_A 2 7 Accelerate MaxClimb T_00  1 804,3 250 
737800 ICAO_A 2 8 Climb MaxClimb T_00 5 500   
737800 ICAO_A 2 9 Climb MaxClimb T_00 7 500   
737800 ICAO_A 2 10 Climb MaxClimb T_00 10 000   
737800 ICAO_A 3 1 Takeoff MaxTakeoff T_05    
737800 ICAO_A 3 2 Climb MaxTakeoff T_05 1 500   
737800 ICAO_A 3 3 Climb MaxClimb T_05 3 000   
737800 ICAO_A 3 4 Accelerate MaxClimb T_05  1 297 182,1 
737800 ICAO_A 3 5 Accelerate MaxClimb T_01  1 496,9 211 
737800 ICAO_A 3 6 Climb MaxClimb T_00 3 737   
737800 ICAO_A 3 7 Accelerate MaxClimb T_00  1 701,8 250 
737800 ICAO_A 3 8 Climb MaxClimb T_00 5 500   
737800 ICAO_A 3 9 Climb MaxClimb T_00 7 500   
737800 ICAO_A 3 10 Climb MaxClimb T_00 10 000   
737800 ICAO_A 4 1 Takeoff MaxTakeoff T_05    
737800 ICAO_A 4 2 Climb MaxTakeoff T_05 1 500   
737800 ICAO_A 4 3 Climb MaxClimb T_05 3 000   
737800 ICAO_A 4 4 Accelerate MaxClimb T_05  1 194,2 185,8 
737800 ICAO_A 4 5 Accelerate MaxClimb T_01  1 352,1 214,8 
737800 ICAO_A 4 6 Accelerate MaxClimb T_00  1 548,2 250 
737800 ICAO_A 4 7 Climb MaxClimb T_00 5 500   
737800 ICAO_A 4 8 Climb MaxClimb T_00 7 500   
737800 ICAO_A 4 9 Climb MaxClimb T_00 10 000   
737800 ICAO_A 5 1 Takeoff MaxTakeoff T_05    
737800 ICAO_A 5 2 Climb MaxTakeoff T_05 1 500   
737800 ICAO_A 5 3 Climb MaxClimb T_05 3 000   
737800 ICAO_A 5 4 Accelerate MaxClimb T_05  1 078,9 189,4 
737800 ICAO_A 5 5 Accelerate MaxClimb T_01  1 233,3 217,4 
737800 ICAO_A 5 6 Accelerate MaxClimb T_00  1 403,6 250 
737800 ICAO_A 5 7 Climb MaxClimb T_00 5 500   
737800 ICAO_A 5 8 Climb MaxClimb T_00 7 500   
737800 ICAO_A 5 9 Climb MaxClimb T_00 10 000   
737800 ICAO_A 6 1 Takeoff MaxTakeoff T_05    
737800 ICAO_A 6 2 Climb MaxTakeoff T_05 1 500   
737800 ICAO_A 6 3 Climb MaxClimb T_05 3 000   
737800 ICAO_A 6 4 Accelerate MaxClimb T_05  1 037,8 190,9 
737800 ICAO_A 6 5 Accelerate MaxClimb T_01  1 182,7 218,6 
737800 ICAO_A 6 6 Accelerate MaxClimb T_00  1 349,5 250 
737800 ICAO_A 6 7 Climb MaxClimb T_00 5 500   
737800 ICAO_A 6 8 Climb MaxClimb T_00 7 500   
737800 ICAO_A 6 9 Climb MaxClimb T_00 10 000   
737800 ICAO_B 1 1 Takeoff MaxTakeoff T_05    
737800 ICAO_B 1 2 Climb MaxTakeoff T_05 1 000   
737800 ICAO_B 1 3 Accelerate MaxTakeoff T_05  1 885,7 181,7 
737800 ICAO_B 1 4 Accelerate MaxTakeoff T_01  2 112 204,8 
737800 ICAO_B 1 5 Climb MaxTakeoff T_00 2 040   
737800 ICAO_B 1 6 Climb MaxClimb T_00 3 000   
737800 ICAO_B 1 7 Accelerate MaxClimb T_00  1 891,3 250 
737800 ICAO_B 1 8 Climb MaxClimb T_00 5 500   
737800 ICAO_B 1 9 Climb MaxClimb T_00 7 500   
737800 ICAO_B 1 10 Climb MaxClimb T_00 10 000   
737800 ICAO_B 2 1 Takeoff MaxTakeoff T_05    
737800 ICAO_B 2 2 Climb MaxTakeoff T_05 1 000   
737800 ICAO_B 2 3 Accelerate MaxTakeoff T_05  1 786,4 183,9 
737800 ICAO_B 2 4 Accelerate MaxTakeoff T_01  2 016,2 208 
737800 ICAO_B 2 5 Climb MaxTakeoff T_00 2 000   
737800 ICAO_B 2 6 Climb MaxClimb T_00 3 000   
737800 ICAO_B 2 7 Accelerate MaxClimb T_00  1 793,4 250 
737800 ICAO_B 2 8 Climb MaxClimb T_00 5 500   
737800 ICAO_B 2 9 Climb MaxClimb T_00 7 500   
737800 ICAO_B 2 10 Climb MaxClimb T_00 10 000   
737800 ICAO_B 3 1 Takeoff MaxTakeoff T_05    
737800 ICAO_B 3 2 Climb MaxTakeoff T_05 1 000   
737800 ICAO_B 3 3 Accelerate MaxTakeoff T_05  1 707,7 186,2 
737800 ICAO_B 3 4 Accelerate MaxTakeoff T_05  1 922 211,2 
737800 ICAO_B 3 5 Climb MaxTakeoff T_00 1 960   
737800 ICAO_B 3 6 Climb MaxClimb T_00 3 000   
737800 ICAO_B 3 7 Accelerate MaxClimb T_00  1 705,3 250 
737800 ICAO_B 3 8 Climb MaxClimb T_00 5 500   
737800 ICAO_B 3 9 Climb MaxClimb T_00 7 500   
737800 ICAO_B 3 10 Climb MaxClimb T_00 10 000   
737800 ICAO_B 4 1 Takeoff MaxTakeoff T_05    
737800 ICAO_B 4 2 Climb MaxTakeoff T_05 1 000   
737800 ICAO_B 4 3 Accelerate MaxTakeoff T_05  1 576,6 189,6 
737800 ICAO_B 4 4 Accelerate MaxTakeoff T_01  1 766,9 216,2 
737800 ICAO_B 4 5 Climb MaxTakeoff T_00 1 880   
737800 ICAO_B 4 6 Climb MaxClimb T_00 3 000   
737800 ICAO_B 4 7 Accelerate MaxClimb T_00  1 546,5 250 
737800 ICAO_B 4 8 Climb MaxClimb T_00 5 500   
737800 ICAO_B 4 9 Climb MaxClimb T_00 7 500   
737800 ICAO_B 4 10 Climb MaxClimb T_00 10 000   
737800 ICAO_B 5 1 Takeoff MaxTakeoff T_05    
737800 ICAO_B 5 2 Climb MaxTakeoff T_05 1 000   
737800 ICAO_B 5 3 Accelerate MaxTakeoff T_05  1 444,9 192,9 
737800 ICAO_B 5 4 Accelerate MaxTakeoff T_01  1 628,6 220,7 
737800 ICAO_B 5 5 Climb MaxTakeoff T_00 1 811   
737800 ICAO_B 5 6 Climb MaxClimb T_00 3 000   
737800 ICAO_B 5 7 Accelerate MaxClimb T_00  1 412,2 250 
737800 ICAO_B 5 8 Climb MaxClimb T_00 5 500   
737800 ICAO_B 5 9 Climb MaxClimb T_00 7 500   
737800 ICAO_B 5 10 Climb MaxClimb T_00 10 000   
737800 ICAO_B 6 1 Takeoff MaxTakeoff T_05    
737800 ICAO_B 6 2 Climb MaxTakeoff T_05 1 000   
737800 ICAO_B 6 3 Accelerate MaxTakeoff T_05  1 400 194,4 
737800 ICAO_B 6 4 Accelerate MaxTakeoff T_01  1 575,4 222,7 
737800 ICAO_B 6 5 Climb MaxTakeoff T_00 1 785   
737800 ICAO_B 6 6 Climb MaxClimb T_00 3 000   
737800 ICAO_B 6 7 Accelerate MaxClimb T_00  1 357,5 250 
737800 ICAO_B 6 8 Climb MaxClimb T_00 5 500   
737800 ICAO_B 6 9 Climb MaxClimb T_00 7 500   
737800 ICAO_B 6 10 Climb MaxClimb T_00 10 000   
737D17 DEFAULT 1 1 Takeoff MaxTakeoff 5    
737D17 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
737D17 DEFAULT 1 3 Accelerate MaxTakeoff 5  2 279 152 
737D17 DEFAULT 1 4 Accelerate MaxTakeoff INT  1 709 177 
737D17 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 210 
737D17 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
737D17 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
737D17 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
737D17 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
737D17 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
737D17 DEFAULT 2 1 Takeoff MaxTakeoff 5    
737D17 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
737D17 DEFAULT 2 3 Accelerate MaxTakeoff 5  2 155 156 
737D17 DEFAULT 2 4 Accelerate MaxTakeoff INT  1 616 181 
737D17 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 210 
737D17 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
737D17 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
737D17 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
737D17 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
737D17 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
737D17 DEFAULT 3 1 Takeoff MaxTakeoff 5    
737D17 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
737D17 DEFAULT 3 3 Accelerate MaxTakeoff 5  2 041 160 
737D17 DEFAULT 3 4 Accelerate MaxTakeoff INT  1 531 185 
737D17 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 210 
737D17 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
737D17 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
737D17 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
737D17 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
737D17 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
737D17 DEFAULT 4 1 Takeoff MaxTakeoff 5    
737D17 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
737D17 DEFAULT 4 3 Accelerate MaxTakeoff 5  1 935 163 
737D17 DEFAULT 4 4 Accelerate MaxTakeoff INT  1 452 188 
737D17 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 210 
737D17 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
737D17 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
737D17 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
737D17 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
737D17 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
737N17 DEFAULT 1 1 Takeoff MaxTakeoff 5    
737N17 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
737N17 DEFAULT 1 3 Accelerate MaxTakeoff 5  2 279 152 
737N17 DEFAULT 1 4 Accelerate MaxTakeoff INT  1 709 177 
737N17 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 210 
737N17 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
737N17 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
737N17 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
737N17 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
737N17 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
737N17 DEFAULT 2 1 Takeoff MaxTakeoff 5    
737N17 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
737N17 DEFAULT 2 3 Accelerate MaxTakeoff 5  2 155 156 
737N17 DEFAULT 2 4 Accelerate MaxTakeoff INT  1 616 181 
737N17 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 210 
737N17 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
737N17 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
737N17 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
737N17 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
737N17 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
737N17 DEFAULT 3 1 Takeoff MaxTakeoff 5    
737N17 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
737N17 DEFAULT 3 3 Accelerate MaxTakeoff 5  2 041 160 
737N17 DEFAULT 3 4 Accelerate MaxTakeoff INT  1 531 185 
737N17 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 210 
737N17 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
737N17 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
737N17 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
737N17 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
737N17 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
737N17 DEFAULT 4 1 Takeoff MaxTakeoff 5    
737N17 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
737N17 DEFAULT 4 3 Accelerate MaxTakeoff 5  1 935 163 
737N17 DEFAULT 4 4 Accelerate MaxTakeoff INT  1 452 188 
737N17 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 210 
737N17 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
737N17 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
737N17 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
737N17 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
737N17 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
737N9 DEFAULT 1 1 Takeoff MaxTakeoff 5    
737N9 DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
737N9 DEFAULT 1 3 Accelerate MaxTakeoff 5  2 090 146 
737N9 DEFAULT 1 4 Accelerate MaxTakeoff INT  1 568 171 
737N9 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 210 
737N9 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
737N9 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
737N9 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
737N9 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
737N9 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
737N9 DEFAULT 2 1 Takeoff MaxTakeoff 5    
737N9 DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
737N9 DEFAULT 2 3 Accelerate MaxTakeoff 5  2 014 149 
737N9 DEFAULT 2 4 Accelerate MaxTakeoff INT  1 511 174 
737N9 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 210 
737N9 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
737N9 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
737N9 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
737N9 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
737N9 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
737N9 DEFAULT 3 1 Takeoff MaxTakeoff 5    
737N9 DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
737N9 DEFAULT 3 3 Accelerate MaxTakeoff 5  1 851 154 
737N9 DEFAULT 3 4 Accelerate MaxTakeoff INT  1 388 179 
737N9 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 210 
737N9 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
737N9 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
737N9 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
737N9 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
737N9 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
737N9 DEFAULT 4 1 Takeoff MaxTakeoff 5    
737N9 DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
737N9 DEFAULT 4 3 Accelerate MaxTakeoff 5  1 685 160 
737N9 DEFAULT 4 4 Accelerate MaxTakeoff INT  1 264 185 
737N9 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 210 
737N9 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
737N9 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
737N9 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
737N9 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
737N9 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
737QN DEFAULT 1 1 Takeoff MaxTakeoff 5    
737QN DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
737QN DEFAULT 1 3 Accelerate MaxTakeoff 5  2 090 146 
737QN DEFAULT 1 4 Accelerate MaxTakeoff INT  1 568 171 
737QN DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 210 
737QN DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
737QN DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
737QN DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
737QN DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
737QN DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
737QN DEFAULT 2 1 Takeoff MaxTakeoff 5    
737QN DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
737QN DEFAULT 2 3 Accelerate MaxTakeoff 5  2 014 149 
737QN DEFAULT 2 4 Accelerate MaxTakeoff INT  1 511 174 
737QN DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 210 
737QN DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
737QN DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
737QN DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
737QN DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
737QN DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
737QN DEFAULT 3 1 Takeoff MaxTakeoff 5    
737QN DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
737QN DEFAULT 3 3 Accelerate MaxTakeoff 5  1 851 154 
737QN DEFAULT 3 4 Accelerate MaxTakeoff INT  1 388 179 
737QN DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 210 
737QN DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
737QN DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
737QN DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
737QN DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
737QN DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
737QN DEFAULT 4 1 Takeoff MaxTakeoff 5    
737QN DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
737QN DEFAULT 4 3 Accelerate MaxTakeoff 5  1 685 160 
737QN DEFAULT 4 4 Accelerate MaxTakeoff INT  1 264 185 
737QN DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 210 
737QN DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
737QN DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
737QN DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
737QN DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
737QN DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
74710Q DEFAULT 1 1 Takeoff MaxTakeoff 10    
74710Q DEFAULT 1 2 Climb MaxTakeoff 10 1 000   
74710Q DEFAULT 1 3 Accelerate MaxTakeoff 10  2 071 176 
74710Q DEFAULT 1 4 Accelerate MaxClimb 5  1 000 216 
74710Q DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
74710Q DEFAULT 1 6 Accelerate MaxClimb ZERO  1 000 250 
74710Q DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
74710Q DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
74710Q DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
74710Q DEFAULT 2 1 Takeoff MaxTakeoff 10    
74710Q DEFAULT 2 2 Climb MaxTakeoff 10 1 000   
74710Q DEFAULT 2 3 Accelerate MaxTakeoff 10  1 972 179 
74710Q DEFAULT 2 4 Accelerate MaxClimb 5  1 000 219 
74710Q DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
74710Q DEFAULT 2 6 Accelerate MaxClimb ZERO  1 000 250 
74710Q DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
74710Q DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
74710Q DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
74710Q DEFAULT 3 1 Takeoff MaxTakeoff 10    
74710Q DEFAULT 3 2 Climb MaxTakeoff 10 1 000   
74710Q DEFAULT 3 3 Accelerate MaxTakeoff 10  1 856 183 
74710Q DEFAULT 3 4 Accelerate MaxClimb 5  1 000 223 
74710Q DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
74710Q DEFAULT 3 6 Accelerate MaxClimb ZERO  1 000 250 
74710Q DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
74710Q DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
74710Q DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
74710Q DEFAULT 4 1 Takeoff MaxTakeoff 10    
74710Q DEFAULT 4 2 Climb MaxTakeoff 10 1 000   
74710Q DEFAULT 4 3 Accelerate MaxTakeoff 10  1 727 187 
74710Q DEFAULT 4 4 Accelerate MaxClimb 5  1 000 227 
74710Q DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
74710Q DEFAULT 4 6 Accelerate MaxClimb ZERO  1 000 250 
74710Q DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
74710Q DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
74710Q DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
74710Q DEFAULT 5 1 Takeoff MaxTakeoff 10    
74710Q DEFAULT 5 2 Climb MaxTakeoff 10 1 000   
74710Q DEFAULT 5 3 Accelerate MaxTakeoff 10  1 445 198 
74710Q DEFAULT 5 4 Accelerate MaxClimb 5  750 238 
74710Q DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
74710Q DEFAULT 5 6 Accelerate MaxClimb ZERO  750 258 
74710Q DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
74710Q DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
74710Q DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
74710Q DEFAULT 6 1 Takeoff MaxTakeoff 10    
74710Q DEFAULT 6 2 Climb MaxTakeoff 10 1 000   
74710Q DEFAULT 6 3 Accelerate MaxTakeoff 10  1 411 199 
74710Q DEFAULT 6 4 Accelerate MaxClimb 5  750 239 
74710Q DEFAULT 6 5 Climb MaxClimb ZERO 3 000   
74710Q DEFAULT 6 6 Accelerate MaxClimb ZERO  750 259 
74710Q DEFAULT 6 7 Climb MaxClimb ZERO 5 500   
74710Q DEFAULT 6 8 Climb MaxClimb ZERO 7 500   
74710Q DEFAULT 6 9 Climb MaxClimb ZERO 10 000   
747200 DEFAULT 1 1 Takeoff MaxTakeoff 10    
747200 DEFAULT 1 2 Climb MaxTakeoff 10 1 000   
747200 DEFAULT 1 3 Accelerate MaxTakeoff 10  1 842 183 
747200 DEFAULT 1 4 Accelerate MaxClimb 5  1 000 223 
747200 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
747200 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 000 250 
747200 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
747200 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
747200 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
747200 DEFAULT 2 1 Takeoff MaxTakeoff 10    
747200 DEFAULT 2 2 Climb MaxTakeoff 10 1 000   
747200 DEFAULT 2 3 Accelerate MaxTakeoff 10  1 757 186 
747200 DEFAULT 2 4 Accelerate MaxClimb 5  1 000 226 
747200 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
747200 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 000 250 
747200 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
747200 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
747200 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
747200 DEFAULT 3 1 Takeoff MaxTakeoff 10    
747200 DEFAULT 3 2 Climb MaxTakeoff 10 1 000   
747200 DEFAULT 3 3 Accelerate MaxTakeoff 10  1 676 189 
747200 DEFAULT 3 4 Accelerate MaxClimb 5  1 000 229 
747200 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
747200 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 000 250 
747200 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
747200 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
747200 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
747200 DEFAULT 4 1 Takeoff MaxTakeoff 10    
747200 DEFAULT 4 2 Climb MaxTakeoff 10 1 000   
747200 DEFAULT 4 3 Accelerate MaxTakeoff 10  1 508 195 
747200 DEFAULT 4 4 Accelerate MaxClimb 5  750 235 
747200 DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
747200 DEFAULT 4 6 Accelerate MaxClimb ZERO  750 255 
747200 DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
747200 DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
747200 DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
747200 DEFAULT 5 1 Takeoff MaxTakeoff 10    
747200 DEFAULT 5 2 Climb MaxTakeoff 10 1 000   
747200 DEFAULT 5 3 Accelerate MaxTakeoff 10  1 325 203 
747200 DEFAULT 5 4 Accelerate MaxClimb 5  750 243 
747200 DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
747200 DEFAULT 5 6 Accelerate MaxClimb ZERO  750 263 
747200 DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
747200 DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
747200 DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
747200 DEFAULT 6 1 Takeoff MaxTakeoff 10    
747200 DEFAULT 6 2 Climb MaxTakeoff 10 1 000   
747200 DEFAULT 6 3 Accelerate MaxTakeoff 10  1 146 210 
747200 DEFAULT 6 4 Accelerate MaxClimb 5  500 250 
747200 DEFAULT 6 5 Climb MaxClimb ZERO 3 000   
747200 DEFAULT 6 6 Accelerate MaxClimb ZERO  500 270 
747200 DEFAULT 6 7 Climb MaxClimb ZERO 5 500   
747200 DEFAULT 6 8 Climb MaxClimb ZERO 7 500   
747200 DEFAULT 6 9 Climb MaxClimb ZERO 10 000   
747200 DEFAULT 7 1 Takeoff MaxTakeoff 10    
747200 DEFAULT 7 2 Climb MaxTakeoff 10 1 000   
747200 DEFAULT 7 3 Accelerate MaxTakeoff 10  1 012 216 
747200 DEFAULT 7 4 Accelerate MaxClimb 5  500 256 
747200 DEFAULT 7 5 Accelerate MaxClimb ZERO  500 276 
747200 DEFAULT 7 6 Climb MaxClimb ZERO 5 500   
747200 DEFAULT 7 7 Climb MaxClimb ZERO 7 500   
747200 DEFAULT 7 8 Climb MaxClimb ZERO 10 000   
74720A DEFAULT 1 1 Takeoff MaxTakeoff 10    
74720A DEFAULT 1 2 Climb MaxTakeoff 10 1 000   
74720A DEFAULT 1 3 Accelerate MaxTakeoff 10  2 068 176 
74720A DEFAULT 1 4 Accelerate MaxClimb 5  1 000 239 
74720A DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
74720A DEFAULT 1 6 Accelerate MaxClimb ZERO  1 000 259 
74720A DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
74720A DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
74720A DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
74720A DEFAULT 2 1 Takeoff MaxTakeoff 10    
74720A DEFAULT 2 2 Climb MaxTakeoff 10 1 000   
74720A DEFAULT 2 3 Accelerate MaxTakeoff 10  1 950 179 
74720A DEFAULT 2 4 Accelerate MaxClimb 5  1 000 242 
74720A DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
74720A DEFAULT 2 6 Accelerate MaxClimb ZERO  1 000 262 
74720A DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
74720A DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
74720A DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
74720A DEFAULT 3 1 Takeoff MaxTakeoff 10    
74720A DEFAULT 3 2 Climb MaxTakeoff 10 1 000   
74720A DEFAULT 3 3 Accelerate MaxTakeoff 10  1 862 182 
74720A DEFAULT 3 4 Accelerate MaxClimb 5  1 000 244 
74720A DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
74720A DEFAULT 3 6 Accelerate MaxClimb ZERO  1 000 264 
74720A DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
74720A DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
74720A DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
74720A DEFAULT 4 1 Takeoff MaxTakeoff 10    
74720A DEFAULT 4 2 Climb MaxTakeoff 10 1 000   
74720A DEFAULT 4 3 Accelerate MaxTakeoff 10  1 700 188 
74720A DEFAULT 4 4 Accelerate MaxClimb 5  750 248 
74720A DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
74720A DEFAULT 4 6 Accelerate MaxClimb ZERO  750 268 
74720A DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
74720A DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
74720A DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
74720A DEFAULT 5 1 Takeoff MaxTakeoff 10    
74720A DEFAULT 5 2 Climb MaxTakeoff 10 1 000   
74720A DEFAULT 5 3 Accelerate MaxTakeoff 10  1 520 195 
74720A DEFAULT 5 4 Accelerate MaxClimb 5  750 254 
74720A DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
74720A DEFAULT 5 6 Accelerate MaxClimb ZERO  750 274 
74720A DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
74720A DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
74720A DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
74720A DEFAULT 6 1 Takeoff MaxTakeoff 10    
74720A DEFAULT 6 2 Climb MaxTakeoff 10 1 000   
74720A DEFAULT 6 3 Accelerate MaxTakeoff 10  1 313 204 
74720A DEFAULT 6 4 Accelerate MaxClimb 5  750 264 
74720A DEFAULT 6 5 Accelerate MaxClimb ZERO  750 284 
74720A DEFAULT 6 6 Climb MaxClimb ZERO 5 500   
74720A DEFAULT 6 7 Climb MaxClimb ZERO 7 500   
74720A DEFAULT 6 8 Climb MaxClimb ZERO 10 000   
74720A DEFAULT 7 1 Takeoff MaxTakeoff 10    
74720A DEFAULT 7 2 Climb MaxTakeoff 10 1 000   
74720A DEFAULT 7 3 Accelerate MaxTakeoff 10  1 172 210 
74720A DEFAULT 7 4 Accelerate MaxClimb 5  750 272 
74720A DEFAULT 7 5 Accelerate MaxClimb ZERO  750 292 
74720A DEFAULT 7 6 Climb MaxClimb ZERO 5 500   
74720A DEFAULT 7 7 Climb MaxClimb ZERO 7 500   
74720A DEFAULT 7 8 Climb MaxClimb ZERO 10 000   
74720B DEFAULT 1 1 Takeoff MaxTakeoff 10    
74720B DEFAULT 1 2 Climb MaxTakeoff 10 1 000   
74720B DEFAULT 1 3 Accelerate MaxTakeoff 10  2 497 184 
74720B DEFAULT 1 4 Accelerate MaxClimb 5  1 000 244 
74720B DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
74720B DEFAULT 1 6 Accelerate MaxClimb ZERO  1 000 264 
74720B DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
74720B DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
74720B DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
74720B DEFAULT 2 1 Takeoff MaxTakeoff 10    
74720B DEFAULT 2 2 Climb MaxTakeoff 10 1 000   
74720B DEFAULT 2 3 Accelerate MaxTakeoff 10  2 397 187 
74720B DEFAULT 2 4 Accelerate MaxClimb 5  1 000 246 
74720B DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
74720B DEFAULT 2 6 Accelerate MaxClimb ZERO  1 000 266 
74720B DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
74720B DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
74720B DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
74720B DEFAULT 3 1 Takeoff MaxTakeoff 10    
74720B DEFAULT 3 2 Climb MaxTakeoff 10 1 000   
74720B DEFAULT 3 3 Accelerate MaxTakeoff 10  2 303 190 
74720B DEFAULT 3 4 Accelerate MaxClimb 5  750 249 
74720B DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
74720B DEFAULT 3 6 Accelerate MaxClimb ZERO  750 269 
74720B DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
74720B DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
74720B DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
74720B DEFAULT 4 1 Takeoff MaxTakeoff 10    
74720B DEFAULT 4 2 Climb MaxTakeoff 10 1 000   
74720B DEFAULT 4 3 Accelerate MaxTakeoff 10  2 109 196 
74720B DEFAULT 4 4 Accelerate MaxClimb 5  750 254 
74720B DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
74720B DEFAULT 4 6 Accelerate MaxClimb ZERO  750 274 
74720B DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
74720B DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
74720B DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
74720B DEFAULT 5 1 Takeoff MaxTakeoff 10    
74720B DEFAULT 5 2 Climb MaxTakeoff 10 1 000   
74720B DEFAULT 5 3 Accelerate MaxTakeoff 10  1 900 204 
74720B DEFAULT 5 4 Accelerate MaxClimb 5  750 263 
74720B DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
74720B DEFAULT 5 6 Accelerate MaxClimb ZERO  750 283 
74720B DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
74720B DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
74720B DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
74720B DEFAULT 6 1 Takeoff MaxTakeoff 10    
74720B DEFAULT 6 2 Climb MaxTakeoff 10 1 000   
74720B DEFAULT 6 3 Accelerate MaxTakeoff 10  1 699 211 
74720B DEFAULT 6 4 Accelerate MaxClimb 5  750 272 
74720B DEFAULT 6 5 Climb MaxClimb ZERO 3 000   
74720B DEFAULT 6 6 Accelerate MaxClimb ZERO  750 292 
74720B DEFAULT 6 7 Climb MaxClimb ZERO 5 500   
74720B DEFAULT 6 8 Climb MaxClimb ZERO 7 500   
74720B DEFAULT 6 9 Climb MaxClimb ZERO 10 000   
74720B DEFAULT 7 1 Takeoff MaxTakeoff 10    
74720B DEFAULT 7 2 Climb MaxTakeoff 10 1 000   
74720B DEFAULT 7 3 Accelerate MaxTakeoff 10  1 547 218 
74720B DEFAULT 7 4 Accelerate MaxClimb 5  750 279 
74720B DEFAULT 7 5 Accelerate MaxClimb ZERO  750 299 
74720B DEFAULT 7 6 Climb MaxClimb ZERO 5 500   
74720B DEFAULT 7 7 Climb MaxClimb ZERO 7 500   
74720B DEFAULT 7 8 Climb MaxClimb ZERO 10 000   
747400 DEFAULT 1 1 Takeoff MaxTakeoff 10    
747400 DEFAULT 1 2 Climb MaxTakeoff T_10 1 000   
747400 DEFAULT 1 3 Accelerate MaxClimb 10  1 533,3 190,8 
747400 DEFAULT 1 4 Accelerate MaxClimb T_05  1 798,9 242 
747400 DEFAULT 1 5 Climb MaxClimb 5 3 869   
747400 DEFAULT 1 6 Accelerate MaxClimb ZERO  2 198,9 269 
747400 DEFAULT 1 7 Climb MaxClimb T_00H 5 500   
747400 DEFAULT 1 8 Climb MaxClimb T_00H 7 500   
747400 DEFAULT 1 9 Climb MaxClimb T_00H 10 000   
747400 DEFAULT 2 1 Takeoff MaxTakeoff 10    
747400 DEFAULT 2 2 Climb MaxTakeoff T_10 1 000   
747400 DEFAULT 2 3 Accelerate MaxClimb 10  1 507,6 192,9 
747400 DEFAULT 2 4 Accelerate MaxClimb T_05  1 718,8 244,6 
747400 DEFAULT 2 5 Climb MaxClimb T_01 3 756   
747400 DEFAULT 2 6 Accelerate MaxClimb T_00H  2 111,9 269 
747400 DEFAULT 2 7 Climb MaxClimb T_00H 5 500   
747400 DEFAULT 2 8 Climb MaxClimb T_00H 7 500   
747400 DEFAULT 2 9 Climb MaxClimb T_00H 10 000   
747400 DEFAULT 3 1 Takeoff MaxTakeoff 10    
747400 DEFAULT 3 2 Climb MaxTakeoff T_10 1 000   
747400 DEFAULT 3 3 Accelerate MaxClimb 10  1 412,1 195,1 
747400 DEFAULT 3 4 Accelerate MaxClimb T_05  1 660,4 247,2 
747400 DEFAULT 3 5 Climb MaxClimb T_01 3 637   
747400 DEFAULT 3 6 Accelerate MaxClimb ZERO  2 033,6 269 
747400 DEFAULT 3 7 Climb MaxClimb T_00H 5 500   
747400 DEFAULT 3 8 Climb MaxClimb T_00H 7 500   
747400 DEFAULT 3 9 Climb MaxClimb T_00H 10 000   
747400 DEFAULT 4 1 Takeoff MaxTakeoff 10    
747400 DEFAULT 4 2 Climb MaxTakeoff T_10 1 000   
747400 DEFAULT 4 3 Accelerate MaxClimb 10  1 310,5 199,4 
747400 DEFAULT 4 4 Accelerate MaxClimb T_05  1 531,8 252,3 
747400 DEFAULT 4 5 Climb MaxClimb T_01 3 435   
747400 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 882,8 269 
747400 DEFAULT 4 7 Climb MaxClimb T_00H 5 500   
747400 DEFAULT 4 8 Climb MaxClimb T_00H 7 500   
747400 DEFAULT 4 9 Climb MaxClimb T_00H 10 000   
747400 DEFAULT 5 1 Takeoff MaxTakeoff 10    
747400 DEFAULT 5 2 Climb MaxTakeoff T_10 1 000   
747400 DEFAULT 5 3 Accelerate MaxClimb 10  1 182,2 204,8 
747400 DEFAULT 5 4 Accelerate MaxClimb T_05  1 402,6 258,4 
747400 DEFAULT 5 5 Climb MaxClimb T_01 3 199   
747400 DEFAULT 5 6 Accelerate MaxClimb ZERO  1 724,1 269 
747400 DEFAULT 5 7 Climb MaxClimb T_00H 5 500   
747400 DEFAULT 5 8 Climb MaxClimb T_00H 7 500   
747400 DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
747400 DEFAULT 6 1 Takeoff MaxTakeoff 10    
747400 DEFAULT 6 2 Climb MaxTakeoff T_10 1 000   
747400 DEFAULT 6 3 Accelerate MaxClimb 5  1 088,1 210,4 
747400 DEFAULT 6 4 Accelerate MaxClimb 5  1 372 259,5 
747400 DEFAULT 6 5 Accelerate MaxClimb T_01  1 432,4 264,7 
747400 DEFAULT 6 6 Climb MaxClimb T_01 3 004   
747400 DEFAULT 6 7 Accelerate MaxClimb ZERO  1 560 269 
747400 DEFAULT 6 8 Climb MaxClimb T_00H 5 500   
747400 DEFAULT 6 9 Climb MaxClimb T_00H 7 500   
747400 DEFAULT 6 10 Climb MaxClimb T_00H 10 000   
747400 DEFAULT 7 1 Takeoff MaxTakeoff 10    
747400 DEFAULT 7 2 Climb MaxTakeoff T_10H 1 000   
747400 DEFAULT 7 3 Accelerate MaxClimb 10  963,6 216,4 
747400 DEFAULT 7 4 Accelerate MaxClimb 5  1 114,2 259,6 
747400 DEFAULT 7 5 Climb MaxClimb T_01 2 544   
747400 DEFAULT 7 6 Accelerate MaxClimb T_05  1 329,4 270 
747400 DEFAULT 7 7 Climb MaxClimb T_00H 5 500   
747400 DEFAULT 7 8 Climb MaxClimb T_00H 7 500   
747400 DEFAULT 7 9 Climb MaxClimb T_00H 10 000   
747400 DEFAULT 8 1 Takeoff MaxTakeoff 10    
747400 DEFAULT 8 2 Climb MaxTakeoff T_10H 1 000   
747400 DEFAULT 8 3 Accelerate MaxClimb 10  855,6 222,8 
747400 DEFAULT 8 4 Accelerate MaxClimb 5  968,9 259,6 
747400 DEFAULT 8 5 Climb MaxClimb T_01 2 561   
747400 DEFAULT 8 6 Accelerate MaxClimb T_01  1 173,1 270 
747400 DEFAULT 8 7 Accelerate MaxClimb T_00H  1 260 278 
747400 DEFAULT 8 8 Climb MaxClimb T_00H 5 500   
747400 DEFAULT 8 9 Climb MaxClimb T_00H 7 500   
747400 DEFAULT 8 10 Climb MaxClimb T_00H 10 000   
747400 DEFAULT 9 1 Takeoff MaxTakeoff 10    
747400 DEFAULT 9 2 Climb MaxTakeoff T_10H 1 000   
747400 DEFAULT 9 3 Accelerate MaxClimb 10  783,8 226,8 
747400 DEFAULT 9 4 Accelerate MaxClimb 5  884,5 259,6 
747400 DEFAULT 9 5 Climb MaxClimb T_01 2 600   
747400 DEFAULT 9 6 Accelerate MaxClimb T_01  1 078,7 271,8 
747400 DEFAULT 9 7 Accelerate MaxClimb T_00H  1 182,6 282,7 
747400 DEFAULT 9 8 Climb MaxClimb T_00H 5 500   
747400 DEFAULT 9 9 Climb MaxClimb T_00H 7 500   
747400 DEFAULT 9 10 Climb MaxClimb T_00H 10 000   
747400 ICAO_A 1 1 Takeoff MaxTakeoff 10    
747400 ICAO_A 1 2 Climb MaxTakeoff T_10 1 500   
747400 ICAO_A 1 3 Climb MaxClimb 10 3 000   
747400 ICAO_A 1 4 Accelerate MaxClimb 10  1 472,8 190 
747400 ICAO_A 1 5 Accelerate MaxClimb 5  1 753,3 241,7 
747400 ICAO_A 1 6 Climb MaxClimb T_01 5 796   
747400 ICAO_A 1 7 Accelerate MaxClimb ZERO  2 158,4 268,4 
747400 ICAO_A 1 8 Climb MaxClimb ZERO 7 500   
747400 ICAO_A 1 9 Climb MaxClimb ZERO 10 000   
747400 ICAO_A 2 1 Takeoff MaxTakeoff 10    
747400 ICAO_A 2 2 Climb MaxTakeoff T_10 1 500   
747400 ICAO_A 2 3 Climb MaxClimb 10 3 000   
747400 ICAO_A 2 4 Accelerate MaxClimb 10  1 412,8 192,2 
747400 ICAO_A 2 5 Accelerate MaxClimb 5  1 689,5 244,3 
747400 ICAO_A 2 6 Climb MaxClimb T_01 5 685   
747400 ICAO_A 2 7 Accelerate MaxClimb ZERO  2 078,8 268,4 
747400 ICAO_A 2 8 Climb MaxClimb ZERO 7 500   
747400 ICAO_A 2 9 Climb MaxClimb ZERO 10 000   
747400 ICAO_A 3 1 Takeoff MaxTakeoff 10    
747400 ICAO_A 3 2 Climb MaxTakeoff T_10 1 500   
747400 ICAO_A 3 3 Climb MaxClimb 10 3 000   
747400 ICAO_A 3 4 Accelerate MaxClimb 10  1 353,5 194,4 
747400 ICAO_A 3 5 Accelerate MaxClimb 5  1 618,4 246,8 
747400 ICAO_A 3 6 Climb MaxClimb T_01 5 579   
747400 ICAO_A 3 7 Accelerate MaxClimb ZERO  1 995 268,4 
747400 ICAO_A 3 8 Climb MaxClimb ZERO 7 500   
747400 ICAO_A 3 9 Climb MaxClimb ZERO 10 000   
747400 ICAO_A 4 1 Takeoff MaxTakeoff 10    
747400 ICAO_A 4 2 Climb MaxTakeoff T_10 1 500   
747400 ICAO_A 4 3 Climb MaxClimb 10 3 000   
747400 ICAO_A 4 4 Accelerate MaxClimb 10  1 249,3 198,7 
747400 ICAO_A 4 5 Accelerate MaxClimb 5  1 500,4 251,9 
747400 ICAO_A 4 6 Climb MaxClimb T_01 5 372   
747400 ICAO_A 4 7 Accelerate MaxClimb ZERO  1 847,9 268,4 
747400 ICAO_A 4 8 Climb MaxClimb ZERO 7 500   
747400 ICAO_A 4 9 Climb MaxClimb ZERO 10 000   
747400 ICAO_A 5 1 Takeoff MaxTakeoff 10    
747400 ICAO_A 5 2 Climb MaxTakeoff T_10 1 500   
747400 ICAO_A 5 3 Climb MaxClimb 10 3 000   
747400 ICAO_A 5 4 Accelerate MaxClimb 10  1 131,2 204,1 
747400 ICAO_A 5 5 Accelerate MaxClimb 5  1 367,5 257,8 
747400 ICAO_A 5 6 Climb MaxClimb T_01 5 145   
747400 ICAO_A 5 7 Accelerate MaxClimb ZERO  1 686,7 268,4 
747400 ICAO_A 5 8 Climb MaxClimb ZERO 7 500   
747400 ICAO_A 5 9 Climb MaxClimb ZERO 10 000   
747400 ICAO_A 6 1 Takeoff MaxTakeoff 10    
747400 ICAO_A 6 2 Climb MaxTakeoff T_10H 1 500   
747400 ICAO_A 6 3 Climb MaxClimb 10 3 000   
747400 ICAO_A 6 4 Accelerate MaxClimb 10  1 017,7 209,8 
747400 ICAO_A 6 5 Accelerate MaxClimb 5  1 223,8 259,1 
747400 ICAO_A 6 6 Climb MaxClimb T_01 4 508   
747400 ICAO_A 6 7 Accelerate MaxClimb T_01  1 416 264,3 
747400 ICAO_A 6 8 Climb MaxClimb ZERO 4 921   
747400 ICAO_A 6 9 Accelerate MaxClimb ZERO  1 531 269 
747400 ICAO_A 6 10 Climb MaxClimb ZERO 5 500   
747400 ICAO_A 6 11 Climb MaxClimb ZERO 7 500   
747400 ICAO_A 6 12 Climb MaxClimb ZERO 10 000   
747400 ICAO_A 7 1 Takeoff MaxTakeoff 10    
747400 ICAO_A 7 2 Climb MaxTakeoff T_10H 1 500   
747400 ICAO_A 7 3 Climb MaxClimb 10 3 000   
747400 ICAO_A 7 4 Accelerate MaxClimb 10  908,3 215,8 
747400 ICAO_A 7 5 Accelerate MaxClimb 5  1 082,4 259,1 
747400 ICAO_A 7 6 Climb MaxClimb T_01 4 509   
747400 ICAO_A 7 7 Accelerate MaxClimb T_01  1 308,4 269,1 
747400 ICAO_A 7 8 Accelerate MaxClimb ZERO  1 365,5 271 
747400 ICAO_A 7 9 Climb MaxClimb ZERO 5 500   
747400 ICAO_A 7 10 Climb MaxClimb ZERO 7 500   
747400 ICAO_A 7 11 Climb MaxClimb T_00H 10 000   
747400 ICAO_A 8 1 Takeoff MaxTakeoff 10    
747400 ICAO_A 8 2 Climb MaxTakeoff T_10H 1 500   
747400 ICAO_A 8 3 Climb MaxClimb 10 3 000   
747400 ICAO_A 8 4 Accelerate MaxClimb 10  801,1 222,2 
747400 ICAO_A 8 5 Accelerate MaxClimb 5  942,7 259,1 
747400 ICAO_A 8 6 Climb MaxClimb T_01 4 540   
747400 ICAO_A 8 7 Accelerate MaxClimb T_01  1 146,3 267,9 
747400 ICAO_A 8 8 Accelerate MaxClimb ZERO  1 230 277,7 
747400 ICAO_A 8 9 Climb MaxClimb ZERO 5 500   
747400 ICAO_A 8 10 Climb MaxClimb T_00H 7 500   
747400 ICAO_A 8 11 Climb MaxClimb T_00H 10 000   
747400 ICAO_A 9 1 Takeoff MaxTakeoff 10    
747400 ICAO_A 9 2 Climb MaxTakeoff T_10H 1 500   
747400 ICAO_A 9 3 Climb MaxClimb 10 3 000   
747400 ICAO_A 9 4 Accelerate MaxClimb 10  734,4 226,3 
747400 ICAO_A 9 5 Accelerate MaxClimb 5  858,9 259,1 
747400 ICAO_A 9 6 Climb MaxClimb T_01 4 590   
747400 ICAO_A 9 7 Accelerate MaxClimb T_01  1 051,2 270,6 
747400 ICAO_A 9 8 Accelerate MaxClimb T_00H  1 143 282,2 
747400 ICAO_A 9 9 Climb MaxClimb T_00H 5 500   
747400 ICAO_A 9 10 Climb MaxClimb T_00H 7 500   
747400 ICAO_A 9 11 Climb MaxClimb T_00H 10 000   
747400 ICAO_B 1 1 Takeoff MaxTakeoff 10    
747400 ICAO_B 1 2 Climb MaxTakeoff T_10 1 000   
747400 ICAO_B 1 3 Accelerate MaxTakeoff 10  1 890,2 182,3 
747400 ICAO_B 1 4 Climb MaxTakeoff 10 1 646   
747400 ICAO_B 1 5 Accelerate MaxClimb T_05  1 788,2 242 
747400 ICAO_B 1 6 Climb MaxClimb T_05 4 194   
747400 ICAO_B 1 7 Accelerate MaxClimb ZERO  2 170,6 259 
747400 ICAO_B 1 8 Climb MaxClimb ZERO 5 500   
747400 ICAO_B 1 9 Climb MaxClimb ZERO 7 500   
747400 ICAO_B 1 10 Climb MaxClimb ZERO 10 000   
747400 ICAO_B 2 1 Takeoff MaxTakeoff 10    
747400 ICAO_B 2 2 Climb MaxTakeoff T_10 1 000   
747400 ICAO_B 2 3 Accelerate MaxTakeoff 10  1 836,7 184,9 
747400 ICAO_B 2 4 Climb MaxTakeoff 10 1 640   
747400 ICAO_B 2 5 Accelerate MaxClimb T_05  1 727,1 244,6 
747400 ICAO_B 2 6 Climb MaxClimb T_05 4 067   
747400 ICAO_B 2 7 Accelerate MaxClimb ZERO  2 088,1 259,2 
747400 ICAO_B 2 8 Climb MaxClimb ZERO 5 500   
747400 ICAO_B 2 9 Climb MaxClimb ZERO 7 500   
747400 ICAO_B 2 10 Climb MaxClimb ZERO 10 000   
747400 ICAO_B 3 1 Takeoff MaxTakeoff 10    
747400 ICAO_B 3 2 Climb MaxTakeoff T_10 1 000   
747400 ICAO_B 3 3 Accelerate MaxTakeoff 10  1 777,6 187,5 
747400 ICAO_B 3 4 Climb MaxTakeoff 10 1 637   
747400 ICAO_B 3 5 Accelerate MaxClimb T_05  1 653,3 247,2 
747400 ICAO_B 3 6 Climb MaxClimb T_05C 3 942   
747400 ICAO_B 3 7 Accelerate MaxClimb ZERO  2 009,7 259,2 
747400 ICAO_B 3 8 Climb MaxClimb ZERO 5 500   
747400 ICAO_B 3 9 Climb MaxClimb ZERO 7 500   
747400 ICAO_B 3 10 Climb MaxClimb ZERO 10 000   
747400 ICAO_B 4 1 Takeoff MaxTakeoff 10    
747400 ICAO_B 4 2 Climb MaxTakeoff T_10 1 000   
747400 ICAO_B 4 3 Accelerate MaxTakeoff 10  1 653,5 192,6 
747400 ICAO_B 4 4 Climb MaxTakeoff 10 1 633   
747400 ICAO_B 4 5 Accelerate MaxClimb T_05  1 535,2 252,2 
747400 ICAO_B 4 6 Climb MaxClimb T_05C 3 718   
747400 ICAO_B 4 7 Accelerate MaxClimb ZERO  1 858,5 259,2 
747400 ICAO_B 4 8 Climb MaxClimb ZERO 5 500   
747400 ICAO_B 4 9 Climb MaxClimb ZERO 7 500   
747400 ICAO_B 4 10 Climb MaxClimb ZERO 10 000   
747400 ICAO_B 5 1 Takeoff MaxTakeoff 10    
747400 ICAO_B 5 2 Climb MaxTakeoff T_10 1 000   
747400 ICAO_B 5 3 Accelerate MaxTakeoff 10  1 518,3 198,7 
747400 ICAO_B 5 4 Climb MaxTakeoff 10 1 619   
747400 ICAO_B 5 5 Accelerate MaxClimb T_05  1 397,6 258,3 
747400 ICAO_B 5 6 Climb MaxClimb T_05C 3 459   
747400 ICAO_B 5 7 Accelerate MaxClimb ZERO  1 685,4 259,4 
747400 ICAO_B 5 8 Climb MaxClimb ZERO 5 500   
747400 ICAO_B 5 9 Climb MaxClimb ZERO 7 500   
747400 ICAO_B 5 10 Climb MaxClimb ZERO 10 000   
747400 ICAO_B 6 1 Takeoff MaxTakeoff 10    
747400 ICAO_B 6 2 Climb MaxTakeoff T_10 1 000   
747400 ICAO_B 6 3 Accelerate MaxTakeoff 10  1 394,6 205,1 
747400 ICAO_B 6 4 Climb MaxTakeoff T_05C 1 606   
747400 ICAO_B 6 5 Accelerate MaxClimb T_05  1 346,5 264,7 
747400 ICAO_B 6 6 Climb MaxClimb T_05C 3 217   
747400 ICAO_B 6 7 Accelerate MaxClimb ZERO  1 560 269,2 
747400 ICAO_B 6 8 Climb MaxClimb ZERO 5 500   
747400 ICAO_B 6 9 Climb MaxClimb ZERO 7 500   
747400 ICAO_B 6 10 Climb MaxClimb ZERO 10 000   
747400 ICAO_B 7 1 Takeoff MaxTakeoff 10    
747400 ICAO_B 7 2 Climb MaxTakeoff T_10H 1 000   
747400 ICAO_B 7 3 Accelerate MaxTakeoff 10  1 271 211,9 
747400 ICAO_B 7 4 Climb MaxTakeoff T_05 1 597   
747400 ICAO_B 7 5 Accelerate MaxClimb T_05  1 112,4 259,4 
747400 ICAO_B 7 6 Climb MaxClimb T_05C 2 759   
747400 ICAO_B 7 7 Accelerate MaxClimb T_01  1 323,5 271,4 
747400 ICAO_B 7 8 Climb MaxClimb ZERO 5 500   
747400 ICAO_B 7 9 Climb MaxClimb T_00H 7 500   
747400 ICAO_B 7 10 Climb MaxClimb T_00H 10 000   
747400 ICAO_B 8 1 Takeoff MaxTakeoff 10    
747400 ICAO_B 8 2 Climb MaxTakeoff T_10H 1 000   
747400 ICAO_B 8 3 Accelerate MaxTakeoff 10  1 147 218,9 
747400 ICAO_B 8 4 Climb MaxTakeoff T_05 1 592   
747400 ICAO_B 8 5 Accelerate MaxClimb T_05  975,2 259,6 
747400 ICAO_B 8 6 Climb MaxClimb T_05C 2 755   
747400 ICAO_B 8 7 Accelerate MaxClimb T_01  1 209,5 278,4 
747400 ICAO_B 8 8 Climb MaxClimb T_00H 5 500   
747400 ICAO_B 8 9 Climb MaxClimb T_00H 7 500   
747400 ICAO_B 8 10 Climb MaxClimb T_00H 10 000   
747400 ICAO_B 9 1 Takeoff MaxTakeoff 10    
747400 ICAO_B 9 2 Climb MaxTakeoff T_10H 1 000   
747400 ICAO_B 9 3 Accelerate MaxTakeoff 10  1 070,9 223,3 
747400 ICAO_B 9 4 Climb MaxTakeoff 10 1 611   
747400 ICAO_B 9 5 Accelerate MaxClimb T_05  893,7 259,5 
747400 ICAO_B 9 6 Climb MaxClimb T_01 2 782   
747400 ICAO_B 9 7 Accelerate MaxClimb T_01  1 119,3 282,7 
747400 ICAO_B 9 8 Climb MaxClimb T_00H 5 500   
747400 ICAO_B 9 9 Climb MaxClimb T_00H 7 500   
747400 ICAO_B 9 10 Climb MaxClimb T_00H 10 000   
7478 DEFAULT 1 1 Takeoff MaxTakeoff F_10    
7478 DEFAULT 1 2 Climb MaxTakeoff F_10 1 000   
7478 DEFAULT 1 3 Accelerate_Percent MaxClimb F_10   215 55
7478 DEFAULT 1 4 Accelerate_Percent MaxClimb F_5   250 55
7478 DEFAULT 1 5 Accelerate_Percent MaxClimb F_1   260 55
7478 DEFAULT 1 6 Climb MaxClimb F_0 3 000   
7478 DEFAULT 1 7 Accelerate_Percent MaxClimb F_0   295 50
7478 DEFAULT 1 8 Climb MaxClimb F_0 10 000   
7478 DEFAULT 2 1 Takeoff MaxTakeoff F_10    
7478 DEFAULT 2 2 Climb MaxTakeoff F_10 1 000   
7478 DEFAULT 2 3 Accelerate_Percent MaxClimb F_10   215 55
7478 DEFAULT 2 4 Accelerate_Percent MaxClimb F_5   250 55
7478 DEFAULT 2 5 Accelerate_Percent MaxClimb F_1   260 55
7478 DEFAULT 2 6 Climb MaxClimb F_0 3 000   
7478 DEFAULT 2 7 Accelerate_Percent MaxClimb F_0   295 50
7478 DEFAULT 2 8 Climb MaxClimb F_0 10 000   
7478 DEFAULT 3 1 Takeoff MaxTakeoff F_10    
7478 DEFAULT 3 2 Climb MaxTakeoff F_10 1 000   
7478 DEFAULT 3 3 Accelerate_Percent MaxClimb F_10   215 55
7478 DEFAULT 3 4 Accelerate_Percent MaxClimb F_5   250 55
7478 DEFAULT 3 5 Accelerate_Percent MaxClimb F_1   260 55
7478 DEFAULT 3 6 Climb MaxClimb F_0 3 000   
7478 DEFAULT 3 7 Accelerate_Percent MaxClimb F_0   295 50
7478 DEFAULT 3 8 Climb MaxClimb F_0 10 000   
7478 DEFAULT 4 1 Takeoff MaxTakeoff F_10    
7478 DEFAULT 4 2 Climb MaxTakeoff F_10 1 000   
7478 DEFAULT 4 3 Accelerate_Percent MaxClimb F_10   220 55
7478 DEFAULT 4 4 Accelerate_Percent MaxClimb F_5   250 55
7478 DEFAULT 4 5 Accelerate_Percent MaxClimb F_1   268 55
7478 DEFAULT 4 6 Climb MaxClimb F_0 3 000   
7478 DEFAULT 4 7 Accelerate_Percent MaxClimb F_0   295 50
7478 DEFAULT 4 8 Climb MaxClimb F_0 10 000   
7478 DEFAULT 5 1 Takeoff MaxTakeoff F_10    
7478 DEFAULT 5 2 Climb MaxTakeoff F_10 1 000   
7478 DEFAULT 5 3 Accelerate_Percent MaxClimb F_10   220 55
7478 DEFAULT 5 4 Accelerate_Percent MaxClimb F_5   250 55
7478 DEFAULT 5 5 Accelerate_Percent MaxClimb F_1   270 55
7478 DEFAULT 5 6 Climb MaxClimb F_0 3 000   
7478 DEFAULT 5 7 Accelerate_Percent MaxClimb F_0   295 50
7478 DEFAULT 5 8 Climb MaxClimb F_0 10 000   
7478 DEFAULT 6 1 Takeoff MaxTakeoff F_10    
7478 DEFAULT 6 2 Climb MaxTakeoff F_10 1 000   
7478 DEFAULT 6 3 Accelerate_Percent MaxClimb F_10   227 55
7478 DEFAULT 6 4 Accelerate_Percent MaxClimb F_5   258 55
7478 DEFAULT 6 5 Accelerate_Percent MaxClimb F_1   270 55
7478 DEFAULT 6 6 Climb MaxClimb F_0 3 000   
7478 DEFAULT 6 7 Accelerate_Percent MaxClimb F_0   295 50
7478 DEFAULT 6 8 Climb MaxClimb F_0 10 000   
7478 DEFAULT 7 1 Takeoff MaxTakeoff F_10    
7478 DEFAULT 7 2 Climb MaxTakeoff F_10 1 000   
7478 DEFAULT 7 3 Accelerate_Percent MaxClimb F_10   230 55
7478 DEFAULT 7 4 Accelerate_Percent MaxClimb F_5   260 55
7478 DEFAULT 7 5 Accelerate_Percent MaxClimb F_1   275 55
7478 DEFAULT 7 6 Climb MaxClimb F_0 3 000   
7478 DEFAULT 7 7 Accelerate_Percent MaxClimb F_0   295 50
7478 DEFAULT 7 8 Climb MaxClimb F_0 10 000   
7478 DEFAULT 8 1 Takeoff MaxTakeoff F_10    
7478 DEFAULT 8 2 Climb MaxTakeoff F_10 1 000   
7478 DEFAULT 8 3 Accelerate_Percent MaxClimb F_10   235 55
7478 DEFAULT 8 4 Accelerate_Percent MaxClimb F_5   265 55
7478 DEFAULT 8 5 Accelerate_Percent MaxClimb F_1   280 55
7478 DEFAULT 8 6 Climb MaxClimb F_0 3 000   
7478 DEFAULT 8 7 Accelerate_Percent MaxClimb F_0   295 50
7478 DEFAULT 8 8 Climb MaxClimb F_0 10 000   
7478 DEFAULT 9 1 Takeoff MaxTakeoff F_10    
7478 DEFAULT 9 2 Climb MaxTakeoff F_10 1 000   
7478 DEFAULT 9 3 Accelerate_Percent MaxClimb F_10   235 55
7478 DEFAULT 9 4 Accelerate_Percent MaxClimb F_5   265 55
7478 DEFAULT 9 5 Accelerate_Percent MaxClimb F_1   280 55
7478 DEFAULT 9 6 Climb MaxClimb F_0 3 000   
7478 DEFAULT 9 7 Accelerate_Percent MaxClimb F_0   295 50
7478 DEFAULT 9 8 Climb MaxClimb F_0 10 000   
7478 ICAO_A 1 1 Takeoff MaxTakeoff F_10    
7478 ICAO_A 1 2 Climb MaxTakeoff F_10 1 500   
7478 ICAO_A 1 3 Climb MaxClimb F_10 3 000   
7478 ICAO_A 1 4 Accelerate_Percent MaxClimb F_10   220 55
7478 ICAO_A 1 5 Accelerate_Percent MaxClimb F_5   250 55
7478 ICAO_A 1 6 Climb MaxClimb F_1 4 700   
7478 ICAO_A 1 7 Accelerate_Percent MaxClimb F_0   276 50
7478 ICAO_A 1 8 Climb MaxClimb F_0 10 000   
7478 ICAO_A 2 1 Takeoff MaxTakeoff F_10    
7478 ICAO_A 2 2 Climb MaxTakeoff F_10 1 500   
7478 ICAO_A 2 3 Climb MaxClimb F_10 3 000   
7478 ICAO_A 2 4 Accelerate_Percent MaxClimb F_10   220 55
7478 ICAO_A 2 5 Accelerate_Percent MaxClimb F_1   254 55
7478 ICAO_A 2 6 Climb MaxClimb F_1 4 800   
7478 ICAO_A 2 7 Accelerate_Percent MaxClimb F_0   275 50
7478 ICAO_A 2 8 Climb MaxClimb F_0 10 000   
7478 ICAO_A 3 1 Takeoff MaxTakeoff F_10    
7478 ICAO_A 3 2 Climb MaxTakeoff F_10 1 500   
7478 ICAO_A 3 3 Climb MaxClimb F_10 3 000   
7478 ICAO_A 3 4 Accelerate_Percent MaxClimb F_5   220 55
7478 ICAO_A 3 5 Accelerate_Percent MaxClimb F_1   255 55
7478 ICAO_A 3 6 Climb MaxClimb F_1 4 500   
7478 ICAO_A 3 7 Accelerate_Percent MaxClimb F_0   275 50
7478 ICAO_A 3 8 Climb MaxClimb F_0 10 000   
7478 ICAO_A 4 1 Takeoff MaxTakeoff F_10    
7478 ICAO_A 4 2 Climb MaxTakeoff F_10 1 500   
7478 ICAO_A 4 3 Climb MaxClimb F_10 3 000   
7478 ICAO_A 4 4 Accelerate_Percent MaxClimb F_10   220 55
7478 ICAO_A 4 5 Accelerate_Percent MaxClimb F_5   255 55
7478 ICAO_A 4 6 Accelerate_Percent MaxClimb F_1   275 55
7478 ICAO_A 4 7 Climb MaxClimb F_0 10 000   
7478 ICAO_A 5 1 Takeoff MaxTakeoff F_10    
7478 ICAO_A 5 2 Climb MaxTakeoff F_10 1 500   
7478 ICAO_A 5 3 Climb MaxClimb F_10 3 000   
7478 ICAO_A 5 4 Accelerate_Percent MaxClimb F_5   220 55
7478 ICAO_A 5 5 Accelerate_Percent MaxClimb F_1   255 55
7478 ICAO_A 5 6 Accelerate_Percent MaxClimb F_0   275 50
7478 ICAO_A 5 7 Climb MaxClimb F_0 10 000   
7478 ICAO_A 6 1 Takeoff MaxTakeoff F_10    
7478 ICAO_A 6 2 Climb MaxTakeoff F_10 1 500   
7478 ICAO_A 6 3 Climb MaxClimb F_10 3 000   
7478 ICAO_A 6 4 Accelerate_Percent MaxClimb F_5   225 55
7478 ICAO_A 6 5 Accelerate_Percent MaxClimb F_1   255 55
7478 ICAO_A 6 6 Accelerate_Percent MaxClimb F_0   278 50
7478 ICAO_A 6 7 Climb MaxClimb F_0 10 000   
7478 ICAO_A 7 1 Takeoff MaxTakeoff F_10    
7478 ICAO_A 7 2 Climb MaxTakeoff F_10 1 500   
7478 ICAO_A 7 3 Climb MaxClimb F_10 3 000   
7478 ICAO_A 7 4 Accelerate_Percent MaxClimb F_5   225 55
7478 ICAO_A 7 5 Accelerate_Percent MaxClimb F_1   255 55
7478 ICAO_A 7 6 Accelerate_Percent MaxClimb F_0   278 50
7478 ICAO_A 7 7 Climb MaxClimb F_0 10 000   
7478 ICAO_A 8 1 Takeoff MaxTakeoff F_10    
7478 ICAO_A 8 2 Climb MaxTakeoff F_10 1 500   
7478 ICAO_A 8 3 Climb MaxClimb F_10 3 000   
7478 ICAO_A 8 4 Accelerate_Percent MaxClimb F_5   230 55
7478 ICAO_A 8 5 Accelerate_Percent MaxClimb F_1   265 55
7478 ICAO_A 8 6 Accelerate_Percent MaxClimb F_0   280 50
7478 ICAO_A 8 7 Climb MaxClimb F_0 10 000   
7478 ICAO_A 9 1 Takeoff MaxTakeoff F_10    
7478 ICAO_A 9 2 Climb MaxTakeoff F_10 1 500   
7478 ICAO_A 9 3 Climb MaxClimb F_10 3 000   
7478 ICAO_A 9 4 Accelerate_Percent MaxClimb F_5   230 55
7478 ICAO_A 9 5 Accelerate_Percent MaxClimb F_1   265 55
7478 ICAO_A 9 6 Accelerate_Percent MaxClimb F_0   280 50
7478 ICAO_A 9 7 Climb MaxClimb F_0 10 000   
7478 ICAO_B 1 1 Takeoff MaxTakeoff F_10    
7478 ICAO_B 1 2 Climb MaxTakeoff F_10 1 000   
7478 ICAO_B 1 3 Accelerate_Percent MaxTakeoff F_10   210 55
7478 ICAO_B 1 4 Accelerate_Percent MaxTakeoff F_5   250 55
7478 ICAO_B 1 5 Climb MaxTakeoff F_1 3 480   
7478 ICAO_B 1 6 Accelerate_Percent MaxClimb F_0   280 50
7478 ICAO_B 1 7 Climb MaxClimb F_0 10 000   
7478 ICAO_B 2 1 Takeoff MaxTakeoff F_10    
7478 ICAO_B 2 2 Climb MaxTakeoff F_10 1 000   
7478 ICAO_B 2 3 Accelerate_Percent MaxTakeoff F_10   223 55
7478 ICAO_B 2 4 Accelerate_Percent MaxTakeoff F_5   250 55
7478 ICAO_B 2 5 Climb MaxTakeoff F_1 3 350   
7478 ICAO_B 2 6 Accelerate_Percent MaxClimb F_0   280 50
7478 ICAO_B 2 7 Climb MaxClimb F_0 10 000   
7478 ICAO_B 3 1 Takeoff MaxTakeoff F_10    
7478 ICAO_B 3 2 Climb MaxTakeoff F_10 1 000   
7478 ICAO_B 3 3 Accelerate_Percent MaxTakeoff F_10   223 55
7478 ICAO_B 3 4 Accelerate_Percent MaxTakeoff F_5   263 55
7478 ICAO_B 3 5 Climb MaxTakeoff F_1 3 350   
7478 ICAO_B 3 6 Accelerate_Percent MaxClimb F_0   300 50
7478 ICAO_B 3 7 Climb MaxClimb F_0 10 000   
7478 ICAO_B 4 1 Takeoff MaxTakeoff F_10    
7478 ICAO_B 4 2 Climb MaxTakeoff F_10 1 000   
7478 ICAO_B 4 3 Accelerate_Percent MaxTakeoff F_10   210 55
7478 ICAO_B 4 4 Accelerate_Percent MaxTakeoff F_5   260 55
7478 ICAO_B 4 5 Climb MaxTakeoff F_1 3 480   
7478 ICAO_B 4 6 Accelerate_Percent MaxClimb F_0   270 50
7478 ICAO_B 4 7 Climb MaxClimb F_0 10 000   
7478 ICAO_B 5 1 Takeoff MaxTakeoff F_10    
7478 ICAO_B 5 2 Climb MaxTakeoff F_10 1 000   
7478 ICAO_B 5 3 Accelerate_Percent MaxTakeoff F_10   228 55
7478 ICAO_B 5 4 Accelerate_Percent MaxTakeoff F_5   262 55
7478 ICAO_B 5 5 Climb MaxTakeoff F_1 2 760   
7478 ICAO_B 5 6 Accelerate_Percent MaxClimb F_0   270 50
7478 ICAO_B 5 7 Climb MaxClimb F_0 10 000   
7478 ICAO_B 6 1 Takeoff MaxTakeoff F_10    
7478 ICAO_B 6 2 Climb MaxTakeoff F_10 1 000   
7478 ICAO_B 6 3 Accelerate_Percent MaxTakeoff F_10   231 55
7478 ICAO_B 6 4 Accelerate_Percent MaxTakeoff F_5   264 55
7478 ICAO_B 6 5 Climb MaxTakeoff F_1 2 610   
7478 ICAO_B 6 6 Accelerate_Percent MaxClimb F_0   300 50
7478 ICAO_B 6 7 Climb MaxClimb F_0 10 000   
7478 ICAO_B 7 1 Takeoff MaxTakeoff F_10    
7478 ICAO_B 7 2 Climb MaxTakeoff F_10 1 000   
7478 ICAO_B 7 3 Accelerate_Percent MaxTakeoff F_10   231 55
7478 ICAO_B 7 4 Accelerate_Percent MaxTakeoff F_5   270 55
7478 ICAO_B 7 5 Climb MaxTakeoff F_1 2 610   
7478 ICAO_B 7 6 Accelerate_Percent MaxClimb F_0   300 50
7478 ICAO_B 7 7 Climb MaxClimb F_0 10 000   
7478 ICAO_B 8 1 Takeoff MaxTakeoff F_10    
7478 ICAO_B 8 2 Climb MaxTakeoff F_10 1 000   
7478 ICAO_B 8 3 Accelerate_Percent MaxTakeoff F_10   235 55
7478 ICAO_B 8 4 Accelerate_Percent MaxTakeoff F_5   265 55
7478 ICAO_B 8 5 Accelerate_Percent MaxTakeoff F_1   275 55
7478 ICAO_B 8 6 Climb MaxClimb F_0 10 000   
7478 ICAO_B 9 1 Takeoff MaxTakeoff F_10    
7478 ICAO_B 9 2 Climb MaxTakeoff F_10 1 000   
7478 ICAO_B 9 3 Accelerate_Percent MaxTakeoff F_10   240 55
7478 ICAO_B 9 4 Accelerate_Percent MaxTakeoff F_5   270 55
7478 ICAO_B 9 5 Accelerate_Percent MaxTakeoff F_1   280 55
7478 ICAO_B 9 6 Climb MaxClimb F_0 10 000   
747SP DEFAULT 1 1 Takeoff MaxTakeoff 10    
747SP DEFAULT 1 2 Climb MaxTakeoff 10 1 000   
747SP DEFAULT 1 3 Accelerate MaxTakeoff 10  2 469 163 
747SP DEFAULT 1 4 Accelerate MaxClimb 5  1 000 203 
747SP DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
747SP DEFAULT 1 6 Accelerate MaxClimb ZERO  1 000 250 
747SP DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
747SP DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
747SP DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
747SP DEFAULT 2 1 Takeoff MaxTakeoff 10    
747SP DEFAULT 2 2 Climb MaxTakeoff 10 1 000   
747SP DEFAULT 2 3 Accelerate MaxTakeoff 10  2 326 167 
747SP DEFAULT 2 4 Accelerate MaxClimb 5  1 000 207 
747SP DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
747SP DEFAULT 2 6 Accelerate MaxClimb ZERO  1 000 250 
747SP DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
747SP DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
747SP DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
747SP DEFAULT 3 1 Takeoff MaxTakeoff 10    
747SP DEFAULT 3 2 Climb MaxTakeoff 10 1 000   
747SP DEFAULT 3 3 Accelerate MaxTakeoff 10  2 201 170 
747SP DEFAULT 3 4 Accelerate MaxClimb 5  1 000 210 
747SP DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
747SP DEFAULT 3 6 Accelerate MaxClimb ZERO  1 000 250 
747SP DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
747SP DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
747SP DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
747SP DEFAULT 4 1 Takeoff MaxTakeoff 10    
747SP DEFAULT 4 2 Climb MaxTakeoff 10 1 000   
747SP DEFAULT 4 3 Accelerate MaxTakeoff 10  2 027 175 
747SP DEFAULT 4 4 Accelerate MaxClimb 5  1 000 215 
747SP DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
747SP DEFAULT 4 6 Accelerate MaxClimb ZERO  1 000 250 
747SP DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
747SP DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
747SP DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
747SP DEFAULT 5 1 Takeoff MaxTakeoff 10    
747SP DEFAULT 5 2 Climb MaxTakeoff 10 1 000   
747SP DEFAULT 5 3 Accelerate MaxTakeoff 10  1 821 182 
747SP DEFAULT 5 4 Accelerate MaxClimb 5  1 000 222 
747SP DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
747SP DEFAULT 5 6 Accelerate MaxClimb ZERO  1 000 250 
747SP DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
747SP DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
747SP DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
747SP DEFAULT 6 1 Takeoff MaxTakeoff 10    
747SP DEFAULT 6 2 Climb MaxTakeoff 10 1 000   
747SP DEFAULT 6 3 Accelerate MaxTakeoff 10  1 643 188 
747SP DEFAULT 6 4 Accelerate MaxClimb 5  1 000 228 
747SP DEFAULT 6 5 Climb MaxClimb ZERO 3 000   
747SP DEFAULT 6 6 Accelerate MaxClimb ZERO  1 000 250 
747SP DEFAULT 6 7 Climb MaxClimb ZERO 5 500   
747SP DEFAULT 6 8 Climb MaxClimb ZERO 7 500   
747SP DEFAULT 6 9 Climb MaxClimb ZERO 10 000   
ACFTID Profile_ID Stage Length Step Number Step Type Thrust Rating Flap_ID End Point Altitude (ft) Rate Of Climb (ft/min) End Point CAS (kt) Accelerate_Percent (%)
747SP DEFAULT 7 1 Takeoff MaxTakeoff 10    
747SP DEFAULT 7 2 Climb MaxTakeoff 10 1 000   
747SP DEFAULT 7 3 Accelerate MaxTakeoff 10  1 403 196 
747SP DEFAULT 7 4 Accelerate MaxClimb 5  1 000 236 
747SP DEFAULT 7 5 Accelerate MaxClimb ZERO  1 000 250 
747SP DEFAULT 7 6 Climb MaxClimb ZERO 5 500   
747SP DEFAULT 7 7 Climb MaxClimb ZERO 7 500   
747SP DEFAULT 7 8 Climb MaxClimb ZERO 10 000   
757300 DEFAULT 1 1 Takeoff MaxTakeoff T_05    
757300 DEFAULT 1 2 Climb MaxTakeoff T_05 1 097   
757300 DEFAULT 1 3 Accelerate MaxTakeoff T_05  2 252,1 211,8 
757300 DEFAULT 1 4 Accelerate MaxTakeoff T_01  2 480 215,4 
757300 DEFAULT 1 5 Climb MaxTakeoff T_00 2 569   
757300 DEFAULT 1 6 Climb MaxClimb T_00 3 000   
757300 DEFAULT 1 7 Accelerate MaxClimb T_00  1 701,7 250 
757300 DEFAULT 1 8 Climb MaxClimb T_00 5 500   
757300 DEFAULT 1 9 Climb MaxClimb T_00 7 500   
757300 DEFAULT 1 10 Climb MaxClimb T_00 10 000   
757300 DEFAULT 2 1 Takeoff MaxTakeoff T_05    
757300 DEFAULT 2 2 Climb MaxTakeoff T_05 1 041   
757300 DEFAULT 2 3 Accelerate MaxTakeoff T_05  2 154,9 213 
757300 DEFAULT 2 4 Accelerate MaxTakeoff T_01  2 352 218,6 
757300 DEFAULT 2 5 Climb MaxTakeoff T_00 2 412   
757300 DEFAULT 2 6 Climb MaxClimb T_00 3 000   
757300 DEFAULT 2 7 Accelerate MaxClimb T_00  1 607,8 250 
757300 DEFAULT 2 8 Climb MaxClimb T_00 5 500   
757300 DEFAULT 2 9 Climb MaxClimb T_00 7 500   
757300 DEFAULT 2 10 Climb MaxClimb T_00 10 000   
757300 DEFAULT 3 1 Takeoff MaxTakeoff T_05    
757300 DEFAULT 3 2 Climb MaxTakeoff T_05 1 000   
757300 DEFAULT 3 3 Accelerate MaxTakeoff T_05  2 062 214,5 
757300 DEFAULT 3 4 Accelerate MaxTakeoff T_01  2 223,5 221,8 
757300 DEFAULT 3 5 Climb MaxTakeoff T_00 2 275   
757300 DEFAULT 3 6 Climb MaxClimb T_00 3 000   
757300 DEFAULT 3 7 Accelerate MaxClimb T_00  1 521,8 250 
757300 DEFAULT 3 8 Climb MaxClimb T_00 5 500   
757300 DEFAULT 3 9 Climb MaxClimb T_00 7 500   
757300 DEFAULT 3 10 Climb MaxClimb T_00 10 000   
757300 DEFAULT 4 1 Takeoff MaxTakeoff T_05    
757300 DEFAULT 4 2 Climb MaxTakeoff T_05 1 000   
757300 DEFAULT 4 3 Accelerate MaxTakeoff T_05  1 901,4 217,4 
757300 DEFAULT 4 4 Accelerate MaxTakeoff T_01  2 061,8 228 
757300 DEFAULT 4 5 Climb MaxTakeoff T_00 2 099   
757300 DEFAULT 4 6 Climb MaxClimb T_00 3 000   
757300 DEFAULT 4 7 Accelerate MaxClimb T_00  1 374,1 250 
757300 DEFAULT 4 8 Climb MaxClimb T_00 5 500   
757300 DEFAULT 4 9 Climb MaxClimb T_00 7 500   
757300 DEFAULT 4 10 Climb MaxClimb T_00 10 000   
757300 DEFAULT 5 1 Takeoff MaxTakeoff T_05    
757300 DEFAULT 5 2 Climb MaxTakeoff T_05 1 000   
757300 DEFAULT 5 3 Accelerate MaxTakeoff T_05  1 729,2 221,7 
757300 DEFAULT 5 4 Accelerate MaxTakeoff T_01  1 881,8 236,7 
757300 DEFAULT 5 5 Climb MaxTakeoff T_00 1 891   
757300 DEFAULT 5 6 Climb MaxClimb T_00 3 000   
757300 DEFAULT 5 7 Accelerate MaxClimb T_00  1 227,3 250 
757300 DEFAULT 5 8 Climb MaxClimb T_00 5 500   
757300 DEFAULT 5 9 Climb MaxClimb T_00 7 500   
757300 DEFAULT 5 10 Climb MaxClimb T_00 10 000   
757300 DEFAULT 6 1 Takeoff MaxTakeoff T_05    
757300 DEFAULT 6 2 Climb MaxTakeoff T_05 1 000   
757300 DEFAULT 6 3 Accelerate MaxTakeoff T_05  1 655 224 
757300 DEFAULT 6 4 Accelerate MaxTakeoff T_01  1 836,4 240,1 
757300 DEFAULT 6 5 Climb MaxTakeoff T_00 1 829   
757300 DEFAULT 6 6 Climb MaxClimb T_00 3 000   
757300 DEFAULT 6 7 Accelerate MaxClimb T_00  1 159,2 250 
757300 DEFAULT 6 8 Climb MaxClimb T_00 5 500   
757300 DEFAULT 6 9 Climb MaxClimb T_00 7 500   
757300 DEFAULT 6 10 Climb MaxClimb T_00 10 000   
757300 ICAO_A 1 1 Takeoff MaxTakeoff T_05    
757300 ICAO_A 1 2 Climb MaxTakeoff T_05 1 500   
757300 ICAO_A 1 3 Climb MaxClimb T_05 3 000   
757300 ICAO_A 1 4 Accelerate MaxClimb T_05  1 388,6 198 
757300 ICAO_A 1 5 Accelerate MaxClimb T_01  1 528,2 215 
757300 ICAO_A 1 6 Accelerate MaxClimb T_00  1 693,5 250 
757300 ICAO_A 1 7 Climb MaxClimb T_00 5 500   
757300 ICAO_A 1 8 Climb MaxClimb T_00 7 500   
757300 ICAO_A 1 9 Climb MaxClimb T_00 10 000   
757300 ICAO_A 2 1 Takeoff MaxTakeoff T_05    
757300 ICAO_A 2 2 Climb MaxTakeoff T_05 1 500   
757300 ICAO_A 2 3 Climb MaxClimb T_05 3 000   
757300 ICAO_A 2 4 Accelerate MaxClimb T_05  1 304,9 199,6 
757300 ICAO_A 2 5 Accelerate MaxClimb T_01  1 441 215,6 
757300 ICAO_A 2 6 Accelerate MaxClimb T_00  1 597,7 250 
757300 ICAO_A 2 7 Climb MaxClimb T_00 5 500   
757300 ICAO_A 2 8 Climb MaxClimb T_00 7 500   
757300 ICAO_A 2 9 Climb MaxClimb T_00 10 000   
757300 ICAO_A 3 1 Takeoff MaxTakeoff T_05    
757300 ICAO_A 3 2 Climb MaxTakeoff T_05 1 500   
757300 ICAO_A 3 3 Climb MaxClimb T_05 3 000   
757300 ICAO_A 3 4 Accelerate MaxClimb T_05  1 242,3 201,6 
757300 ICAO_A 3 5 Accelerate MaxClimb T_01  1 357,6 216,7 
757300 ICAO_A 3 6 Accelerate MaxClimb T_00  1 500 250 
757300 ICAO_A 3 7 Climb MaxClimb T_00 5 500   
757300 ICAO_A 3 8 Climb MaxClimb T_00 7 500   
757300 ICAO_A 3 9 Climb MaxClimb T_00 10 000   
757300 ICAO_A 4 1 Takeoff MaxTakeoff T_05    
757300 ICAO_A 4 2 Climb MaxTakeoff T_05 1 500   
757300 ICAO_A 4 3 Climb MaxClimb T_05 3 000   
757300 ICAO_A 4 4 Accelerate MaxClimb T_05  1 127,1 205,3 
757300 ICAO_A 4 5 Accelerate MaxClimb T_01  1 221,4 221,1 
757300 ICAO_A 4 6 Accelerate MaxClimb T_00  1 359,4 250 
757300 ICAO_A 4 7 Climb MaxClimb T_00 5 500   
757300 ICAO_A 4 8 Climb MaxClimb T_00 7 500   
757300 ICAO_A 4 9 Climb MaxClimb T_00 10 000   
757300 ICAO_A 5 1 Takeoff MaxTakeoff T_05    
757300 ICAO_A 5 2 Climb MaxTakeoff T_05 1 500   
757300 ICAO_A 5 3 Climb MaxClimb T_05 3 000   
757300 ICAO_A 5 4 Accelerate MaxClimb T_05  997,2 210,6 
757300 ICAO_A 5 5 Accelerate MaxClimb T_01  1 076 227,9 
757300 ICAO_A 5 6 Accelerate MaxClimb T_00  1 192 250 
757300 ICAO_A 5 7 Climb MaxClimb T_00 5 500   
757300 ICAO_A 5 8 Climb MaxClimb T_00 7 500   
757300 ICAO_A 5 9 Climb MaxClimb T_00 10 000   
757300 ICAO_A 6 1 Takeoff MaxTakeoff T_05    
757300 ICAO_A 6 2 Climb MaxTakeoff T_05 1 500   
757300 ICAO_A 6 3 Climb MaxClimb T_05 3 000   
757300 ICAO_A 6 4 Accelerate MaxClimb T_05  945,1 213,2 
757300 ICAO_A 6 5 Accelerate MaxClimb T_01  1 031,2 230,6 
757300 ICAO_A 6 6 Accelerate MaxClimb T_00  1 127,9 250 
757300 ICAO_A 6 7 Climb MaxClimb T_00 5 500   
757300 ICAO_A 6 8 Climb MaxClimb T_00 7 500   
757300 ICAO_A 6 9 Climb MaxClimb T_00 10 000   
757300 ICAO_B 1 1 Takeoff MaxTakeoff T_05    
757300 ICAO_B 1 2 Climb MaxTakeoff T_05 1 097   
757300 ICAO_B 1 3 Accelerate MaxTakeoff T_05  2 252,1 211,8 
757300 ICAO_B 1 4 Accelerate MaxTakeoff T_01  2 480 215,4 
757300 ICAO_B 1 5 Climb MaxTakeoff T_00 2 569   
757300 ICAO_B 1 6 Climb MaxClimb T_00 3 000   
757300 ICAO_B 1 7 Accelerate MaxClimb T_00  1 701,7 250 
757300 ICAO_B 1 8 Climb MaxClimb T_00 5 500   
757300 ICAO_B 1 9 Climb MaxClimb T_00 7 500   
757300 ICAO_B 1 10 Climb MaxClimb T_00 10 000   
757300 ICAO_B 2 1 Takeoff MaxTakeoff T_05    
757300 ICAO_B 2 2 Climb MaxTakeoff T_05 1 041   
757300 ICAO_B 2 3 Accelerate MaxTakeoff T_05  2 154,9 213 
757300 ICAO_B 2 4 Accelerate MaxTakeoff T_01  2 352 218,6 
757300 ICAO_B 2 5 Climb MaxTakeoff T_00 2 412   
757300 ICAO_B 2 6 Climb MaxClimb T_00 3 000   
757300 ICAO_B 2 7 Accelerate MaxClimb T_00  1 607,8 250 
757300 ICAO_B 2 8 Climb MaxClimb T_00 5 500   
757300 ICAO_B 2 9 Climb MaxClimb T_00 7 500   
757300 ICAO_B 2 10 Climb MaxClimb T_00 10 000   
757300 ICAO_B 3 1 Takeoff MaxTakeoff T_05    
757300 ICAO_B 3 2 Climb MaxTakeoff T_05 1 000   
757300 ICAO_B 3 3 Accelerate MaxTakeoff T_05  2 062 214,5 
757300 ICAO_B 3 4 Accelerate MaxTakeoff T_01  2 223,5 221,8 
757300 ICAO_B 3 5 Climb MaxTakeoff T_00 2 275   
757300 ICAO_B 3 6 Climb MaxClimb T_00 3 000   
757300 ICAO_B 3 7 Accelerate MaxClimb T_00  1 521,8 250 
757300 ICAO_B 3 8 Climb MaxClimb T_00 5 500   
757300 ICAO_B 3 9 Climb MaxClimb T_00 7 500   
757300 ICAO_B 3 10 Climb MaxClimb T_00 10 000   
757300 ICAO_B 4 1 Takeoff MaxTakeoff T_05    
757300 ICAO_B 4 2 Climb MaxTakeoff T_05 1 000   
757300 ICAO_B 4 3 Accelerate MaxTakeoff T_05  1 901,4 217,4 
757300 ICAO_B 4 4 Accelerate MaxTakeoff T_01  2 061,8 228 
757300 ICAO_B 4 5 Climb MaxTakeoff T_00 2 099   
757300 ICAO_B 4 6 Climb MaxClimb T_00 3 000   
757300 ICAO_B 4 7 Accelerate MaxClimb T_00  1 374,1 250 
757300 ICAO_B 4 8 Climb MaxClimb T_00 5 500   
757300 ICAO_B 4 9 Climb MaxClimb T_00 7 500   
757300 ICAO_B 4 10 Climb MaxClimb T_00 10 000   
757300 ICAO_B 5 1 Takeoff MaxTakeoff T_05    
757300 ICAO_B 5 2 Climb MaxTakeoff T_05 1 000   
757300 ICAO_B 5 3 Accelerate MaxTakeoff T_05  1 729,2 221,7 
757300 ICAO_B 5 4 Accelerate MaxTakeoff T_01  1 881,8 236,7 
757300 ICAO_B 5 5 Climb MaxTakeoff T_00 1 891   
757300 ICAO_B 5 6 Climb MaxClimb T_00 3 000   
757300 ICAO_B 5 7 Accelerate MaxClimb T_00  1 227,3 250 
757300 ICAO_B 5 8 Climb MaxClimb T_00 5 500   
757300 ICAO_B 5 9 Climb MaxClimb T_00 7 500   
757300 ICAO_B 5 10 Climb MaxClimb T_00 10 000   
757300 ICAO_B 6 1 Takeoff MaxTakeoff T_05    
757300 ICAO_B 6 2 Climb MaxTakeoff T_05 1 000   
757300 ICAO_B 6 3 Accelerate MaxTakeoff T_05  1 655 224 
757300 ICAO_B 6 4 Accelerate MaxTakeoff T_01  1 836,4 240,1 
757300 ICAO_B 6 5 Climb MaxTakeoff T_00 1 829   
757300 ICAO_B 6 6 Climb MaxClimb T_00 3 000   
757300 ICAO_B 6 7 Accelerate MaxClimb T_00  1 159,2 250 
757300 ICAO_B 6 8 Climb MaxClimb T_00 5 500   
757300 ICAO_B 6 9 Climb MaxClimb T_00 7 500   
757300 ICAO_B 6 10 Climb MaxClimb T_00 10 000   
757PW DEFAULT 1 1 Takeoff MaxTakeoff 5    
757PW DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
757PW DEFAULT 1 3 Accelerate MaxClimb T_05  1 471 190,1 
757PW DEFAULT 1 4 Accelerate MaxClimb T_01  1 636,4 206 
757PW DEFAULT 1 5 Climb MaxClimb T_00 3 000   
757PW DEFAULT 1 6 Accelerate MaxClimb T_00  1 822,2 250 
757PW DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
757PW DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
757PW DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
757PW DEFAULT 2 1 Takeoff MaxTakeoff 5    
757PW DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
757PW DEFAULT 2 3 Accelerate MaxClimb T_05  1 403,6 191,4 
757PW DEFAULT 2 4 Accelerate MaxClimb T_01  1 568,2 208,7 
757PW DEFAULT 2 5 Climb MaxClimb T_00 3 000   
757PW DEFAULT 2 6 Accelerate MaxClimb T_00  1 742,7 250 
757PW DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
757PW DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
757PW DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
757PW DEFAULT 3 1 Takeoff MaxTakeoff 5    
757PW DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
757PW DEFAULT 3 3 Accelerate MaxClimb T_05  1 339,2 193 
757PW DEFAULT 3 4 Accelerate MaxClimb T_01  1 495,9 211,1 
757PW DEFAULT 3 5 Accelerate MaxClimb T_00  1 666,7 211,6 
757PW DEFAULT 3 6 Climb MaxClimb T_00 3 000   
757PW DEFAULT 3 7 Accelerate MaxClimb T_00  1 661 250 
757PW DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
757PW DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
757PW DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
757PW DEFAULT 4 1 Takeoff MaxTakeoff 5    
757PW DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
757PW DEFAULT 4 3 Accelerate MaxClimb T_05  1 213,5 196,4 
757PW DEFAULT 4 4 Accelerate MaxClimb T_01  1 353,6 213,7 
757PW DEFAULT 4 5 Accelerate MaxClimb T_00  1 460,3 217,4 
757PW DEFAULT 4 6 Climb MaxClimb T_00 3 000   
757PW DEFAULT 4 7 Accelerate MaxClimb T_00  1 510,6 250 
757PW DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
757PW DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
757PW DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
757PW DEFAULT 5 1 Takeoff MaxTakeoff 5    
757PW DEFAULT 5 2 Climb MaxTakeoff 5 1 000   
757PW DEFAULT 5 3 Accelerate MaxClimb T_05  1 082,9 200,8 
757PW DEFAULT 5 4 Accelerate MaxClimb T_01  1 212 218,5 
757PW DEFAULT 5 5 Accelerate MaxClimb T_00  1 291,1 224,3 
757PW DEFAULT 5 6 Climb MaxClimb T_00 3 000   
757PW DEFAULT 5 7 Accelerate MaxClimb T_00  1 352,4 250 
757PW DEFAULT 5 8 Climb MaxClimb ZERO 5 500   
757PW DEFAULT 5 9 Climb MaxClimb ZERO 7 500   
757PW DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
757PW DEFAULT 6 1 Takeoff MaxTakeoff 5    
757PW DEFAULT 6 2 Climb MaxTakeoff 5 1 000   
757PW DEFAULT 6 3 Accelerate MaxClimb T_05  1 005,7 203,9 
757PW DEFAULT 6 4 Accelerate MaxClimb T_01  1 124,3 221,9 
757PW DEFAULT 6 5 Accelerate MaxClimb T_00  1 220 228,7 
757PW DEFAULT 6 6 Climb MaxClimb T_00 3 000   
757PW DEFAULT 6 7 Accelerate MaxClimb T_00  1 259,5 250 
757PW DEFAULT 6 8 Climb MaxClimb ZERO 5 500   
757PW DEFAULT 6 9 Climb MaxClimb ZERO 7 500   
757PW DEFAULT 6 10 Climb MaxClimb ZERO 10 000   
757PW DEFAULT 7 1 Takeoff MaxTakeoff 5    
757PW DEFAULT 7 2 Climb MaxTakeoff 5 1 000   
757PW DEFAULT 7 3 Accelerate MaxClimb T_05  938,1 207 
757PW DEFAULT 7 4 Accelerate MaxClimb T_01  1 052,4 225,2 
757PW DEFAULT 7 5 Accelerate MaxClimb T_00  1 134,5 233,3 
757PW DEFAULT 7 6 Climb MaxClimb T_00 3 000   
757PW DEFAULT 7 7 Accelerate MaxClimb T_00  1 172,9 250 
757PW DEFAULT 7 8 Climb MaxClimb ZERO 5 500   
757PW DEFAULT 7 9 Climb MaxClimb ZERO 7 500   
757PW DEFAULT 7 10 Climb MaxClimb ZERO 10 000   
757PW ICAO_A 1 1 Takeoff MaxTakeoff 5    
757PW ICAO_A 1 2 Climb MaxTakeoff 5 1 500   
757PW ICAO_A 1 3 Climb MaxClimb T_05 3 000   
757PW ICAO_A 1 4 Accelerate MaxClimb T_05  1 399,5 188 
757PW ICAO_A 1 5 Accelerate MaxClimb T_01  1 605,4 205,8 
757PW ICAO_A 1 6 Accelerate MaxClimb ZERO  1 804,8 250 
757PW ICAO_A 1 7 Climb MaxClimb ZERO 5 500   
757PW ICAO_A 1 8 Climb MaxClimb ZERO 7 500   
757PW ICAO_A 1 9 Climb MaxClimb ZERO 10 000   
757PW ICAO_A 2 1 Takeoff MaxTakeoff 5    
757PW ICAO_A 2 2 Climb MaxTakeoff 5 1 500   
757PW ICAO_A 2 3 Climb MaxClimb T_05 3 000   
757PW ICAO_A 2 4 Accelerate MaxClimb T_05  1 337,7 189,5 
757PW ICAO_A 2 5 Accelerate MaxClimb T_01  1 522,3 207,2 
757PW ICAO_A 2 6 Accelerate MaxClimb ZERO  1 725,5 250 
757PW ICAO_A 2 7 Climb MaxClimb ZERO 5 500   
757PW ICAO_A 2 8 Climb MaxClimb ZERO 7 500   
757PW ICAO_A 2 9 Climb MaxClimb ZERO 10 000   
757PW ICAO_A 3 1 Takeoff MaxTakeoff 5    
757PW ICAO_A 3 2 Climb MaxTakeoff 5 1 500   
757PW ICAO_A 3 3 Climb MaxClimb 5 3 000   
757PW ICAO_A 3 4 Accelerate MaxClimb T_05  1 271,9 191,1 
757PW ICAO_A 3 5 Accelerate MaxClimb T_01  1 451,8 208,2 
757PW ICAO_A 3 6 Accelerate MaxClimb ZERO  1 638 250 
757PW ICAO_A 3 7 Climb MaxClimb ZERO 5 500   
757PW ICAO_A 3 8 Climb MaxClimb ZERO 7 500   
757PW ICAO_A 3 9 Climb MaxClimb ZERO 10 000   
757PW ICAO_A 4 1 Takeoff MaxTakeoff 5    
757PW ICAO_A 4 2 Climb MaxTakeoff 5 1 500   
757PW ICAO_A 4 3 Climb MaxClimb 5 3 000   
757PW ICAO_A 4 4 Accelerate MaxClimb T_05  1 153,8 194,7 
757PW ICAO_A 4 5 Accelerate MaxClimb T_01  1 312,6 212,2 
757PW ICAO_A 4 6 Accelerate MaxClimb ZERO  1 486 250 
757PW ICAO_A 4 7 Climb MaxClimb ZERO 5 500   
757PW ICAO_A 4 8 Climb MaxClimb ZERO 7 500   
757PW ICAO_A 4 9 Climb MaxClimb ZERO 10 000   
757PW ICAO_A 5 1 Takeoff MaxTakeoff 5    
757PW ICAO_A 5 2 Climb MaxTakeoff 5 1 500   
757PW ICAO_A 5 3 Climb MaxClimb 5 3 000   
757PW ICAO_A 5 4 Accelerate MaxClimb T_05  1 028,8 199,2 
757PW ICAO_A 5 5 Accelerate MaxClimb T_01  1 171,1 217,2 
757PW ICAO_A 5 6 Accelerate MaxClimb ZERO  1 325,6 250 
757PW ICAO_A 5 7 Climb MaxClimb ZERO 5 500   
757PW ICAO_A 5 8 Climb MaxClimb ZERO 7 500   
757PW ICAO_A 5 9 Climb MaxClimb ZERO 10 000   
757PW ICAO_A 6 1 Takeoff MaxTakeoff 5    
757PW ICAO_A 6 2 Climb MaxTakeoff 5 1 500   
757PW ICAO_A 6 3 Climb MaxClimb 5 3 000   
757PW ICAO_A 6 4 Accelerate MaxClimb T_05  953,4 202,5 
757PW ICAO_A 6 5 Accelerate MaxClimb T_01  1 087,8 220,6 
757PW ICAO_A 6 6 Accelerate MaxClimb ZERO  1 225,5 250 
757PW ICAO_A 6 7 Climb MaxClimb ZERO 5 500   
757PW ICAO_A 6 8 Climb MaxClimb ZERO 7 500   
757PW ICAO_A 6 9 Climb MaxClimb ZERO 10 000   
757PW ICAO_A 7 1 Takeoff MaxTakeoff 5    
757PW ICAO_A 7 2 Climb MaxTakeoff 5 1 500   
757PW ICAO_A 7 3 Climb MaxClimb 5 3 000   
757PW ICAO_A 7 4 Accelerate MaxClimb T_05  886,5 205,7 
757PW ICAO_A 7 5 Accelerate MaxClimb T_01  1 012,8 224 
757PW ICAO_A 7 6 Accelerate MaxClimb ZERO  1 140,1 250 
757PW ICAO_A 7 7 Climb MaxClimb ZERO 5 500   
757PW ICAO_A 7 8 Climb MaxClimb ZERO 7 500   
757PW ICAO_A 7 9 Climb MaxClimb ZERO 10 000   
757PW ICAO_B 1 1 Takeoff MaxTakeoff 5    
757PW ICAO_B 1 2 Climb MaxTakeoff 5 1 000   
757PW ICAO_B 1 3 Accelerate MaxTakeoff 5  1 970,1 206 
757PW ICAO_B 1 4 Climb MaxClimb ZERO 3 000   
757PW ICAO_B 1 5 Accelerate MaxClimb ZERO  1 821,5 250 
757PW ICAO_B 1 6 Climb MaxClimb ZERO 5 500   
757PW ICAO_B 1 7 Climb MaxClimb ZERO 7 500   
757PW ICAO_B 1 8 Climb MaxClimb ZERO 10 000   
757PW ICAO_B 2 1 Takeoff MaxTakeoff 5    
757PW ICAO_B 2 2 Climb MaxTakeoff 5 1 000   
757PW ICAO_B 2 3 Accelerate MaxTakeoff 5  1 899,2 208,7 
757PW ICAO_B 2 4 Climb MaxClimb ZERO 3 000   
757PW ICAO_B 2 5 Accelerate MaxClimb ZERO  1 743,3 250 
757PW ICAO_B 2 6 Climb MaxClimb ZERO 5 500   
757PW ICAO_B 2 7 Climb MaxClimb ZERO 7 500   
757PW ICAO_B 2 8 Climb MaxClimb ZERO 10 000   
757PW ICAO_B 3 1 Takeoff MaxTakeoff 5    
757PW ICAO_B 3 2 Climb MaxTakeoff 5 1 000   
757PW ICAO_B 3 3 Accelerate MaxTakeoff 5  1 825,8 211,6 
757PW ICAO_B 3 4 Climb MaxClimb ZERO 3 000   
757PW ICAO_B 3 5 Accelerate MaxClimb ZERO  1 659,4 250 
757PW ICAO_B 3 6 Climb MaxClimb ZERO 5 500   
757PW ICAO_B 3 7 Climb MaxClimb ZERO 7 500   
757PW ICAO_B 3 8 Climb MaxClimb ZERO 10 000   
757PW ICAO_B 4 1 Takeoff MaxTakeoff 5    
757PW ICAO_B 4 2 Climb MaxTakeoff 5 1 000   
757PW ICAO_B 4 3 Accelerate MaxTakeoff 5  1 690,7 217,4 
757PW ICAO_B 4 4 Climb MaxClimb ZERO 3 000   
757PW ICAO_B 4 5 Accelerate MaxClimb ZERO  1 512,3 250 
757PW ICAO_B 4 6 Climb MaxClimb ZERO 5 500   
757PW ICAO_B 4 7 Climb MaxClimb ZERO 7 500   
757PW ICAO_B 4 8 Climb MaxClimb ZERO 10 000   
757PW ICAO_B 5 1 Takeoff MaxTakeoff 5    
757PW ICAO_B 5 2 Climb MaxTakeoff 5 1 000   
757PW ICAO_B 5 3 Accelerate MaxTakeoff 5  1 543,6 224,1 
757PW ICAO_B 5 4 Climb MaxClimb ZERO 3 000   
757PW ICAO_B 5 5 Accelerate MaxClimb ZERO  1 351,8 250 
757PW ICAO_B 5 6 Climb MaxClimb ZERO 5 500   
757PW ICAO_B 5 7 Climb MaxClimb ZERO 7 500   
757PW ICAO_B 5 8 Climb MaxClimb ZERO 10 000   
757PW ICAO_B 6 1 Takeoff MaxTakeoff 5    
757PW ICAO_B 6 2 Climb MaxTakeoff 5 1 000   
757PW ICAO_B 6 3 Accelerate MaxTakeoff 5  1 458,3 228,7 
757PW ICAO_B 6 4 Climb MaxClimb ZERO 3 000   
757PW ICAO_B 6 5 Accelerate MaxClimb ZERO  1 257,5 250 
757PW ICAO_B 6 6 Climb MaxClimb ZERO 5 500   
757PW ICAO_B 6 7 Climb MaxClimb ZERO 7 500   
757PW ICAO_B 6 8 Climb MaxClimb ZERO 10 000   
757PW ICAO_B 7 1 Takeoff MaxTakeoff 5    
757PW ICAO_B 7 2 Climb MaxTakeoff 5 1 000   
757PW ICAO_B 7 3 Accelerate MaxTakeoff 5  1 380,6 233,3 
757PW ICAO_B 7 4 Climb MaxClimb ZERO 3 000   
757PW ICAO_B 7 5 Accelerate MaxClimb ZERO  1 173,6 250 
757PW ICAO_B 7 6 Climb MaxClimb ZERO 5 500   
757PW ICAO_B 7 7 Climb MaxClimb ZERO 7 500   
757PW ICAO_B 7 8 Climb MaxClimb ZERO 10 000   
757RR DEFAULT 1 1 Takeoff MaxTakeoff 5    
757RR DEFAULT 1 2 Climb MaxTakeoff 5 1 000   
757RR DEFAULT 1 3 Accelerate MaxClimb T_05  1 613,9 192,4 
757RR DEFAULT 1 4 Accelerate MaxClimb T_01  1 779,7 206,3 
757RR DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
757RR DEFAULT 1 6 Accelerate MaxClimb ZERO  1 966,1 250 
757RR DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
757RR DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
757RR DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
757RR DEFAULT 2 1 Takeoff MaxTakeoff 5    
757RR DEFAULT 2 2 Climb MaxTakeoff 5 1 000   
757RR DEFAULT 2 3 Accelerate MaxClimb T_05  1 544,6 193,9 
757RR DEFAULT 2 4 Accelerate MaxClimb T_01  1 703,3 209,2 
757RR DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
757RR DEFAULT 2 6 Accelerate MaxClimb ZERO  1 879,3 250 
757RR DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
757RR DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
757RR DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
757RR DEFAULT 3 1 Takeoff MaxTakeoff 5    
757RR DEFAULT 3 2 Climb MaxTakeoff 5 1 000   
757RR DEFAULT 3 3 Accelerate MaxClimb T_05  1 474,6 195,5 
757RR DEFAULT 3 4 Accelerate MaxClimb T_01  1 627,6 212,2 
757RR DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
757RR DEFAULT 3 6 Accelerate MaxClimb ZERO  1 787,2 250 
757RR DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
757RR DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
757RR DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
757RR DEFAULT 4 1 Takeoff MaxTakeoff 5    
757RR DEFAULT 4 2 Climb MaxTakeoff 5 1 000   
757RR DEFAULT 4 3 Accelerate MaxClimb T_05  1 338 199 
757RR DEFAULT 4 4 Accelerate MaxClimb T_01  1 484,6 216,4 
757RR DEFAULT 4 5 Accelerate MaxClimb ZERO  1 560 218,3 
757RR DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
757RR DEFAULT 4 7 Accelerate MaxClimb ZERO  1 623,1 250 
757RR DEFAULT 4 8 Climb MaxClimb T_00 5 500   
757RR DEFAULT 4 9 Climb MaxClimb T_00 7 500   
757RR DEFAULT 4 10 Climb MaxClimb T_00 10 000   
757RR DEFAULT 5 1 Takeoff MaxTakeoff 5    
757RR DEFAULT 5 2 Climb MaxTakeoff 5 1 000   
757RR DEFAULT 5 3 Accelerate MaxClimb T_05  1 196,6 203,7 
757RR DEFAULT 5 4 Accelerate MaxClimb T_01  1 325,3 221,1 
757RR DEFAULT 5 5 Accelerate MaxClimb T_00  1 400 225,7 
757RR DEFAULT 5 6 Climb MaxClimb ZERO 3 000   
757RR DEFAULT 5 7 Accelerate MaxClimb ZERO  1 447,1 250 
757RR DEFAULT 5 8 Climb MaxClimb T_00 5 500   
757RR DEFAULT 5 9 Climb MaxClimb T_00 7 500   
757RR DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
757RR DEFAULT 6 1 Takeoff MaxTakeoff 5    
757RR DEFAULT 6 2 Climb MaxTakeoff 5 1 000   
757RR DEFAULT 6 3 Accelerate MaxClimb T_05  1 142,2 205,8 
757RR DEFAULT 6 4 Accelerate MaxClimb T_01  1 258 223,4 
757RR DEFAULT 6 5 Accelerate MaxClimb T_00  1 329,6 228,9 
757RR DEFAULT 6 6 Climb MaxClimb ZERO 3 000   
757RR DEFAULT 6 7 Accelerate MaxClimb ZERO  1 377,4 250 
757RR DEFAULT 6 8 Climb MaxClimb T_00 5 500   
757RR DEFAULT 6 9 Climb MaxClimb T_00 7 500   
757RR DEFAULT 6 10 Climb MaxClimb ZERO 10 000   
757RR DEFAULT 7 1 Takeoff MaxTakeoff 5    
757RR DEFAULT 7 2 Climb MaxTakeoff 5 1 000   
757RR DEFAULT 7 3 Accelerate MaxClimb T_05  1 071,3 208,8 
757RR DEFAULT 7 4 Accelerate MaxClimb T_01  1 181,5 226,7 
757RR DEFAULT 7 5 Accelerate MaxClimb T_00  1 265,9 233,3 
757RR DEFAULT 7 6 Climb MaxClimb ZERO 3 000   
757RR DEFAULT 7 7 Accelerate MaxClimb ZERO  1 287,6 250 
757RR DEFAULT 7 8 Climb MaxClimb T_00 5 500   
757RR DEFAULT 7 9 Climb MaxClimb ZERO 7 500   
757RR DEFAULT 7 10 Climb MaxClimb ZERO 10 000   
757RR ICAO_A 1 1 Takeoff MaxTakeoff 5    
757RR ICAO_A 1 2 Climb MaxTakeoff 5 1 500   
757RR ICAO_A 1 3 Climb MaxClimb 5 3 000   
757RR ICAO_A 1 4 Accelerate MaxClimb T_05  1 543,3 190,3 
757RR ICAO_A 1 5 Accelerate MaxClimb T_01  1 735,6 206,1 
757RR ICAO_A 1 6 Accelerate MaxClimb T_00  1 959,8 250 
757RR ICAO_A 1 7 Climb MaxClimb ZERO 5 500   
757RR ICAO_A 1 8 Climb MaxClimb ZERO 7 500   
757RR ICAO_A 1 9 Climb MaxClimb ZERO 10 000   
757RR ICAO_A 2 1 Takeoff MaxTakeoff 5    
757RR ICAO_A 2 2 Climb MaxTakeoff 5 1 500   
757RR ICAO_A 2 3 Climb MaxClimb 5 3 000   
757RR ICAO_A 2 4 Accelerate MaxClimb T_05  1 472,7 191,9 
757RR ICAO_A 2 5 Accelerate MaxClimb T_01  1 660,2 208,9 
757RR ICAO_A 2 6 Accelerate MaxClimb T_00  1 876 250 
757RR ICAO_A 2 7 Climb MaxClimb ZERO 5 500   
757RR ICAO_A 2 8 Climb MaxClimb ZERO 7 500   
757RR ICAO_A 2 9 Climb MaxClimb ZERO 10 000   
757RR ICAO_A 3 1 Takeoff MaxTakeoff 5    
757RR ICAO_A 3 2 Climb MaxTakeoff 5 1 500   
757RR ICAO_A 3 3 Climb MaxClimb 5 3 000   
757RR ICAO_A 3 4 Accelerate MaxClimb T_05  1 401 193,6 
757RR ICAO_A 3 5 Accelerate MaxClimb T_01  1 590,6 211,5 
757RR ICAO_A 3 6 Accelerate MaxClimb T_00  1 769,2 250 
757RR ICAO_A 3 7 Climb MaxClimb ZERO 5 500   
757RR ICAO_A 3 8 Climb MaxClimb ZERO 7 500   
757RR ICAO_A 3 9 Climb MaxClimb ZERO 10 000   
757RR ICAO_A 4 1 Takeoff MaxTakeoff 5    
757RR ICAO_A 4 2 Climb MaxTakeoff 5 1 500   
757RR ICAO_A 4 3 Climb MaxClimb 5 3 000   
757RR ICAO_A 4 4 Accelerate MaxClimb T_05  1 271,5 197,3 
757RR ICAO_A 4 5 Accelerate MaxClimb T_01  1 436 214,5 
757RR ICAO_A 4 6 Accelerate MaxClimb T_00  1 593,3 250 
757RR ICAO_A 4 7 Climb MaxClimb ZERO 5 500   
757RR ICAO_A 4 8 Climb MaxClimb ZERO 7 500   
757RR ICAO_A 4 9 Climb MaxClimb T_00 10 000   
757RR ICAO_A 5 1 Takeoff MaxTakeoff 5    
757RR ICAO_A 5 2 Climb MaxTakeoff 5 1 500   
757RR ICAO_A 5 3 Climb MaxClimb 5 3 000   
757RR ICAO_A 5 4 Accelerate MaxClimb T_05  1 134,7 202,1 
757RR ICAO_A 5 5 Accelerate MaxClimb T_01  1 278,3 219,8 
757RR ICAO_A 5 6 Accelerate MaxClimb T_00  1 416,8 250 
757RR ICAO_A 5 7 Climb MaxClimb ZERO 5 500   
757RR ICAO_A 5 8 Climb MaxClimb ZERO 7 500   
757RR ICAO_A 5 9 Climb MaxClimb ZERO 10 000   
757RR ICAO_A 6 1 Takeoff MaxTakeoff 5    
757RR ICAO_A 6 2 Climb MaxTakeoff 5 1 500   
757RR ICAO_A 6 3 Climb MaxClimb 5 3 000   
757RR ICAO_A 6 4 Accelerate MaxClimb T_05  1 083,2 204,3 
757RR ICAO_A 6 5 Accelerate MaxClimb T_01  1 218,6 222,1 
757RR ICAO_A 6 6 Accelerate MaxClimb T_00  1 348,5 250 
757RR ICAO_A 6 7 Climb MaxClimb ZERO 5 500   
757RR ICAO_A 6 8 Climb MaxClimb ZERO 7 500   
757RR ICAO_A 6 9 Climb MaxClimb ZERO 10 000   
757RR ICAO_A 7 1 Takeoff MaxTakeoff 5    
757RR ICAO_A 7 2 Climb MaxTakeoff 5 1 500   
757RR ICAO_A 7 3 Climb MaxClimb 5 3 000   
757RR ICAO_A 7 4 Accelerate MaxClimb T_05  1 013,1 207,4 
757RR ICAO_A 7 5 Accelerate MaxClimb T_01  1 137,3 225,4 
757RR ICAO_A 7 6 Accelerate MaxClimb ZERO  1 256,7 250 
757RR ICAO_A 7 7 Climb MaxClimb ZERO 5 500   
757RR ICAO_A 7 8 Climb MaxClimb ZERO 7 500   
757RR ICAO_A 7 9 Climb MaxClimb ZERO 10 000   
757RR ICAO_B 1 1 Takeoff MaxTakeoff 5    
757RR ICAO_B 1 2 Climb MaxTakeoff 5 1 000   
757RR ICAO_B 1 3 Accelerate MaxTakeoff T_05  2 227,2 201,9 
757RR ICAO_B 1 4 Accelerate MaxTakeoff T_01  2 474,2 206,3 
757RR ICAO_B 1 5 Climb MaxClimb ZERO 3 000   
757RR ICAO_B 1 6 Accelerate MaxClimb ZERO  1 965,3 250 
757RR ICAO_B 1 7 Climb MaxClimb ZERO 5 500   
757RR ICAO_B 1 8 Climb MaxClimb ZERO 7 500   
757RR ICAO_B 1 9 Climb MaxClimb ZERO 10 000   
757RR ICAO_B 2 1 Takeoff MaxTakeoff 5    
757RR ICAO_B 2 2 Climb MaxTakeoff 5 1 000   
757RR ICAO_B 2 3 Accelerate MaxTakeoff T_05  2 139,9 203 
757RR ICAO_B 2 4 Accelerate MaxTakeoff T_01  2 400 209,2 
757RR ICAO_B 2 5 Climb MaxClimb ZERO 3 000   
757RR ICAO_B 2 6 Accelerate MaxClimb T_00  1 876,9 250 
757RR ICAO_B 2 7 Climb MaxClimb T_00 5 500   
757RR ICAO_B 2 8 Climb MaxClimb ZERO 7 500   
757RR ICAO_B 2 9 Climb MaxClimb ZERO 10 000   
757RR ICAO_B 3 1 Takeoff MaxTakeoff 5    
757RR ICAO_B 3 2 Climb MaxTakeoff 5 1 000   
757RR ICAO_B 3 3 Accelerate MaxTakeoff T_05  2 051,2 204,3 
757RR ICAO_B 3 4 Accelerate MaxTakeoff T_01  2 300 212,1 
757RR ICAO_B 3 5 Climb MaxClimb ZERO 3 000   
757RR ICAO_B 3 6 Accelerate MaxClimb T_00  1 788 250 
757RR ICAO_B 3 7 Climb MaxClimb T_00 5 500   
757RR ICAO_B 3 8 Climb MaxClimb T_00 7 500   
757RR ICAO_B 3 9 Climb MaxClimb ZERO 10 000   
757RR ICAO_B 4 1 Takeoff MaxTakeoff 5    
757RR ICAO_B 4 2 Climb MaxTakeoff 5 1 000   
757RR ICAO_B 4 3 Accelerate MaxTakeoff T_05  1 884,9 207,3 
757RR ICAO_B 4 4 Accelerate MaxTakeoff T_01  2 135,6 218,4 
757RR ICAO_B 4 5 Climb MaxClimb T_00 3 000   
757RR ICAO_B 4 6 Accelerate MaxClimb T_00  1 621,6 250 
757RR ICAO_B 4 7 Climb MaxClimb T_00 5 500   
757RR ICAO_B 4 8 Climb MaxClimb T_00 7 500   
757RR ICAO_B 4 9 Climb MaxClimb T_00 10 000   
757RR ICAO_B 5 1 Takeoff MaxTakeoff 5    
757RR ICAO_B 5 2 Climb MaxTakeoff 5 1 000   
757RR ICAO_B 5 3 Accelerate MaxTakeoff T_05  1 713,8 211,3 
757RR ICAO_B 5 4 Accelerate MaxTakeoff T_01  1 935,5 225,8 
757RR ICAO_B 5 5 Climb MaxClimb ZERO 3 000   
757RR ICAO_B 5 6 Accelerate MaxClimb T_00  1 447,1 250 
757RR ICAO_B 5 7 Climb MaxClimb T_00 5 500   
757RR ICAO_B 5 8 Climb MaxClimb T_00 7 500   
757RR ICAO_B 5 9 Climb MaxClimb T_00 10 000   
757RR ICAO_B 6 1 Takeoff MaxTakeoff 5    
757RR ICAO_B 6 2 Climb MaxTakeoff 5 1 000   
757RR ICAO_B 6 3 Accelerate MaxTakeoff T_05  1 646,9 213,1 
757RR ICAO_B 6 4 Accelerate MaxTakeoff T_01  1 872,3 228,9 
757RR ICAO_B 6 5 Climb MaxClimb ZERO 3 000   
757RR ICAO_B 6 6 Accelerate MaxClimb T_00  1 379,1 250 
757RR ICAO_B 6 7 Climb MaxClimb T_00 5 500   
757RR ICAO_B 6 8 Climb MaxClimb T_00 7 500   
757RR ICAO_B 6 9 Climb MaxClimb T_00 10 000   
757RR ICAO_B 7 1 Takeoff MaxTakeoff 5    
757RR ICAO_B 7 2 Climb MaxTakeoff 5 1 000   
757RR ICAO_B 7 3 Accelerate MaxTakeoff T_05  1 562,1 215,8 
757RR ICAO_B 7 4 Accelerate MaxTakeoff T_01  1 781,3 233,3 
757RR ICAO_B 7 5 Climb MaxClimb ZERO 3 000   
757RR ICAO_B 7 6 Accelerate MaxClimb T_00  1 287,6 250 
757RR ICAO_B 7 7 Climb MaxClimb T_00 5 500   
757RR ICAO_B 7 8 Climb MaxClimb T_00 7 500   
757RR ICAO_B 7 9 Climb MaxClimb T_00 10 000   
767300 DEFAULT 1 1 Takeoff MaxTakeoff 15    
767300 DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
767300 DEFAULT 1 3 Accelerate MaxTakeoff 15  2 198 152 
767300 DEFAULT 1 4 Accelerate MaxTakeoff 5  2 198 172 
767300 DEFAULT 1 5 Accelerate MaxClimb INT  1 000 215 
767300 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 000 235 
767300 DEFAULT 1 7 Climb MaxClimb ZERO 3 000   
767300 DEFAULT 1 8 Accelerate MaxClimb ZERO  1 000 250 
767300 DEFAULT 1 9 Climb MaxClimb ZERO 5 500   
767300 DEFAULT 1 10 Climb MaxClimb ZERO 7 500   
767300 DEFAULT 1 11 Climb MaxClimb ZERO 10 000   
767300 DEFAULT 2 1 Takeoff MaxTakeoff 15    
767300 DEFAULT 2 2 Climb MaxTakeoff 15 1 000   
767300 DEFAULT 2 3 Accelerate MaxTakeoff 15  2 112 155 
767300 DEFAULT 2 4 Accelerate MaxTakeoff 5  2 112 175 
767300 DEFAULT 2 5 Accelerate MaxClimb INT  1 000 218 
767300 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 000 238 
767300 DEFAULT 2 7 Climb MaxClimb ZERO 3 000   
767300 DEFAULT 2 8 Accelerate MaxClimb ZERO  1 000 250 
767300 DEFAULT 2 9 Climb MaxClimb ZERO 5 500   
767300 DEFAULT 2 10 Climb MaxClimb ZERO 7 500   
767300 DEFAULT 2 11 Climb MaxClimb ZERO 10 000   
767300 DEFAULT 3 1 Takeoff MaxTakeoff 15    
767300 DEFAULT 3 2 Climb MaxTakeoff 15 1 000   
767300 DEFAULT 3 3 Accelerate MaxTakeoff 15  2 029 158 
767300 DEFAULT 3 4 Accelerate MaxTakeoff 5  2 029 178 
767300 DEFAULT 3 5 Accelerate MaxClimb INT  1 000 221 
767300 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 000 241 
767300 DEFAULT 3 7 Climb MaxClimb ZERO 3 000   
767300 DEFAULT 3 8 Accelerate MaxClimb ZERO  1 000 250 
767300 DEFAULT 3 9 Climb MaxClimb ZERO 5 500   
767300 DEFAULT 3 10 Climb MaxClimb ZERO 7 500   
767300 DEFAULT 3 11 Climb MaxClimb ZERO 10 000   
767300 DEFAULT 4 1 Takeoff MaxTakeoff 15    
767300 DEFAULT 4 2 Climb MaxTakeoff 15 1 000   
767300 DEFAULT 4 3 Accelerate MaxTakeoff 15  1 895 163 
767300 DEFAULT 4 4 Accelerate MaxTakeoff 5  1 895 183 
767300 DEFAULT 4 5 Accelerate MaxClimb INT  1 000 225 
767300 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 000 245 
767300 DEFAULT 4 7 Climb MaxClimb ZERO 3 000   
767300 DEFAULT 4 8 Accelerate MaxClimb ZERO  1 000 250 
767300 DEFAULT 4 9 Climb MaxClimb ZERO 5 500   
767300 DEFAULT 4 10 Climb MaxClimb ZERO 7 500   
767300 DEFAULT 4 11 Climb MaxClimb ZERO 10 000   
767300 DEFAULT 5 1 Takeoff MaxTakeoff 15    
767300 DEFAULT 5 2 Climb MaxTakeoff 15 1 000   
767300 DEFAULT 5 3 Accelerate MaxTakeoff 15  1 744 169 
767300 DEFAULT 5 4 Accelerate MaxTakeoff 5  1 744 189 
767300 DEFAULT 5 5 Accelerate MaxClimb INT  1 000 231 
767300 DEFAULT 5 6 Accelerate MaxClimb ZERO  1 000 251 
767300 DEFAULT 5 7 Climb MaxClimb ZERO 3 000   
767300 DEFAULT 5 8 Climb MaxClimb ZERO 5 500   
767300 DEFAULT 5 9 Climb MaxClimb ZERO 7 500   
767300 DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
767300 DEFAULT 6 1 Takeoff MaxTakeoff 15    
767300 DEFAULT 6 2 Climb MaxTakeoff 15 1 000   
767300 DEFAULT 6 3 Accelerate MaxTakeoff 15  1 602 175 
767300 DEFAULT 6 4 Accelerate MaxTakeoff 5  1 602 195 
767300 DEFAULT 6 5 Accelerate MaxClimb INT  1 000 237 
767300 DEFAULT 6 6 Accelerate MaxClimb ZERO  1 000 257 
767300 DEFAULT 6 7 Climb MaxClimb ZERO 3 000   
767300 DEFAULT 6 8 Climb MaxClimb ZERO 5 500   
767300 DEFAULT 6 9 Climb MaxClimb ZERO 7 500   
767300 DEFAULT 6 10 Climb MaxClimb ZERO 10 000   
767300 DEFAULT 7 1 Takeoff MaxTakeoff 15    
767300 DEFAULT 7 2 Climb MaxTakeoff 15 1 000   
767300 DEFAULT 7 3 Accelerate MaxTakeoff 15  1 542 178 
767300 DEFAULT 7 4 Accelerate MaxTakeoff 5  1 542 198 
767300 DEFAULT 7 5 Accelerate MaxClimb INT  1 000 240 
767300 DEFAULT 7 6 Accelerate MaxClimb ZERO  1 000 260 
767300 DEFAULT 7 7 Climb MaxClimb ZERO 3 000   
767300 DEFAULT 7 8 Climb MaxClimb ZERO 5 500   
767300 DEFAULT 7 9 Climb MaxClimb ZERO 7 500   
767300 DEFAULT 7 10 Climb MaxClimb ZERO 10 000   
767400 DEFAULT 1 1 Takeoff MaxTakeoff T_20_U    
767400 DEFAULT 1 2 Climb MaxTakeoff T_20_U 1 000   
767400 DEFAULT 1 3 Accelerate MaxClimb T_05_U  1 695,3 215,4 
767400 DEFAULT 1 4 Climb MaxClimb T_00_U 3 000   
767400 DEFAULT 1 5 Accelerate MaxClimb T_00_U  2 123,3 250 
767400 DEFAULT 1 6 Climb MaxClimb T_00_U 5 500   
767400 DEFAULT 1 7 Climb MaxClimb T_00_U 7 500   
767400 DEFAULT 1 8 Climb MaxClimb T_00_U 10 000   
767400 DEFAULT 2 1 Takeoff MaxTakeoff T_20_U    
767400 DEFAULT 2 2 Climb MaxTakeoff T_20_U 1 000   
767400 DEFAULT 2 3 Accelerate MaxClimb T_05_U  1 648,7 217,9 
767400 DEFAULT 2 4 Climb MaxClimb T_00_U 3 000   
767400 DEFAULT 2 5 Accelerate MaxClimb T_00_U  2 040,6 250 
767400 DEFAULT 2 6 Climb MaxClimb T_00_U 5 500   
767400 DEFAULT 2 7 Climb MaxClimb T_00_U 7 500   
767400 DEFAULT 2 8 Climb MaxClimb T_00_U 10 000   
767400 DEFAULT 3 1 Takeoff MaxTakeoff T_20_U    
767400 DEFAULT 3 2 Climb MaxTakeoff T_20_U 1 000   
767400 DEFAULT 3 3 Accelerate MaxClimb T_05_U  1 584,9 220,5 
767400 DEFAULT 3 4 Climb MaxClimb T_00_U 3 000   
767400 DEFAULT 3 5 Accelerate MaxClimb T_00_U  1 953,3 250 
767400 DEFAULT 3 6 Climb MaxClimb T_00_U 5 500   
767400 DEFAULT 3 7 Climb MaxClimb T_00_U 7 500   
767400 DEFAULT 3 8 Climb MaxClimb T_00_U 10 000   
767400 DEFAULT 4 1 Takeoff MaxTakeoff T_20_U    
767400 DEFAULT 4 2 Climb MaxTakeoff T_20_U 1 000   
767400 DEFAULT 4 3 Accelerate MaxClimb T_05_U  1 482,5 225,1 
767400 DEFAULT 4 4 Climb MaxClimb T_00_U 3 000   
767400 DEFAULT 4 5 Accelerate MaxClimb T_00_U  1 821,8 250 
767400 DEFAULT 4 6 Climb MaxClimb T_00_U 5 500   
767400 DEFAULT 4 7 Climb MaxClimb T_00_U 7 500   
767400 DEFAULT 4 8 Climb MaxClimb T_00_U 10 000   
767400 DEFAULT 5 1 Takeoff MaxTakeoff T_20_U    
767400 DEFAULT 5 2 Climb MaxTakeoff T_20_U 1 000   
767400 DEFAULT 5 3 Accelerate MaxClimb T_05_U  1 360,1 230,5 
767400 DEFAULT 5 4 Climb MaxClimb T_00_U 3 000   
767400 DEFAULT 5 5 Accelerate MaxClimb T_00_U  1 661,5 250 
767400 DEFAULT 5 6 Climb MaxClimb T_00_U 5 500   
767400 DEFAULT 5 7 Climb MaxClimb T_00_U 7 500   
767400 DEFAULT 5 8 Climb MaxClimb T_00_U 10 000   
767400 DEFAULT 6 1 Takeoff MaxTakeoff T_20_U    
767400 DEFAULT 6 2 Climb MaxTakeoff T_20_U 1 000   
767400 DEFAULT 6 3 Accelerate MaxClimb T_05_U  1 246,4 236 
767400 DEFAULT 6 4 Climb MaxClimb T_00_U 3 000   
767400 DEFAULT 6 5 Accelerate MaxClimb T_00_U  1 508 250 
767400 DEFAULT 6 6 Climb MaxClimb T_00_U 5 500   
767400 DEFAULT 6 7 Climb MaxClimb T_00_U 7 500   
767400 DEFAULT 6 8 Climb MaxClimb T_00_U 10 000   
767400 DEFAULT 7 1 Takeoff MaxTakeoff T_20_U    
767400 DEFAULT 7 2 Climb MaxTakeoff T_20_U 1 000   
767400 DEFAULT 7 3 Accelerate MaxClimb T_05_U  1 091,3 244,3 
767400 DEFAULT 7 4 Climb MaxClimb T_00_U 3 000   
767400 DEFAULT 7 5 Accelerate MaxClimb T_00_U  1 303,8 250 
767400 DEFAULT 7 6 Climb MaxClimb T_00_U 5 500   
767400 DEFAULT 7 7 Climb MaxClimb T_00_U 7 500   
767400 DEFAULT 7 8 Climb MaxClimb T_00_U 10 000   
767400 ICAO_A 1 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_A 1 2 Climb MaxTakeoff T_20_U 1 500   
767400 ICAO_A 1 3 Climb MaxClimb T_20_U 3 000   
767400 ICAO_A 1 4 Accelerate MaxClimb T_05A  1 659,9 215,1 
767400 ICAO_A 1 5 Climb MaxClimb T_00_U 4 616   
767400 ICAO_A 1 6 Accelerate MaxClimb T_00_U  2 098,5 250 
767400 ICAO_A 1 7 Climb MaxClimb T_00_U 5 500   
767400 ICAO_A 1 8 Climb MaxClimb T_00_U 7 500   
767400 ICAO_A 1 9 Climb MaxClimb T_00_U 10 000   
767400 ICAO_A 2 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_A 2 2 Climb MaxTakeoff T_20_U 1 500   
767400 ICAO_A 2 3 Climb MaxClimb T_20_U 3 000   
767400 ICAO_A 2 4 Accelerate MaxClimb T_05A  1 600 217,6 
767400 ICAO_A 2 5 Climb MaxClimb T_00_U 4 536   
767400 ICAO_A 2 6 Accelerate MaxClimb T_00_U  2 008 250 
767400 ICAO_A 2 7 Climb MaxClimb T_00_U 5 500   
767400 ICAO_A 2 8 Climb MaxClimb T_00_U 7 500   
767400 ICAO_A 2 9 Climb MaxClimb T_00_U 10 000   
767400 ICAO_A 3 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_A 3 2 Climb MaxTakeoff T_20_U 1 500   
767400 ICAO_A 3 3 Climb MaxClimb T_20_U 3 000   
767400 ICAO_A 3 4 Accelerate MaxClimb T_05B  1 536,2 220,4 
767400 ICAO_A 3 5 Climb MaxClimb T_00_U 4 454   
767400 ICAO_A 3 6 Accelerate MaxClimb T_00_U  1 935,8 250 
767400 ICAO_A 3 7 Climb MaxClimb T_00_U 5 500   
767400 ICAO_A 3 8 Climb MaxClimb T_00_U 7 500   
767400 ICAO_A 3 9 Climb MaxClimb T_00_U 10 000   
767400 ICAO_A 4 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_A 4 2 Climb MaxTakeoff T_20_U 1 500   
767400 ICAO_A 4 3 Climb MaxClimb T_20_U 3 000   
767400 ICAO_A 4 4 Accelerate MaxClimb T_05B  1 434,4 224,8 
767400 ICAO_A 4 5 Climb MaxClimb T_00_U 4 323   
767400 ICAO_A 4 6 Accelerate MaxClimb T_00_U  1 796,6 250 
767400 ICAO_A 4 7 Climb MaxClimb T_00_U 5 500   
767400 ICAO_A 4 8 Climb MaxClimb T_00_U 7 500   
767400 ICAO_A 4 9 Climb MaxClimb T_00_U 10 000   
767400 ICAO_A 5 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_A 5 2 Climb MaxTakeoff T_20_U 1 500   
767400 ICAO_A 5 3 Climb MaxClimb T_20_U 3 000   
767400 ICAO_A 5 4 Accelerate MaxClimb T_05B  1 318,8 230,2 
767400 ICAO_A 5 5 Climb MaxClimb T_00_U 4 173   
767400 ICAO_A 5 6 Accelerate MaxClimb T_00_U  1 640 250 
767400 ICAO_A 5 7 Climb MaxClimb T_00_U 5 500   
767400 ICAO_A 5 8 Climb MaxClimb T_00_U 7 500   
767400 ICAO_A 5 9 Climb MaxClimb T_00_U 10 000   
767400 ICAO_A 6 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_A 6 2 Climb MaxTakeoff T_20_U 1 500   
767400 ICAO_A 6 3 Climb MaxClimb T_20_U 3 000   
767400 ICAO_A 6 4 Accelerate MaxClimb T_05B  1 258,5 250 
767400 ICAO_A 6 5 Climb MaxClimb T_00_U 5 500   
767400 ICAO_A 6 6 Climb MaxClimb T_00_U 7 500   
767400 ICAO_A 6 7 Climb MaxClimb T_00_U 10 000   
767400 ICAO_A 7 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_A 7 2 Climb MaxTakeoff T_20_U 1 500   
767400 ICAO_A 7 3 Climb MaxClimb T_20_U 3 000   
767400 ICAO_A 7 4 Accelerate MaxClimb T_05B  1 073 250 
767400 ICAO_A 7 5 Climb MaxClimb T_00_U 5 500   
767400 ICAO_A 7 6 Climb MaxClimb T_00_U 7 500   
767400 ICAO_A 7 7 Climb MaxClimb T_00_U 10 000   
767400 ICAO_B 1 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_B 1 2 Climb MaxTakeoff T_20_U 1 000   
767400 ICAO_B 1 3 Accelerate MaxTakeoff T_05_U  2 330,5 215,3 
767400 ICAO_B 1 4 Climb MaxTakeoff T_00_U 3 491   
767400 ICAO_B 1 5 Accelerate MaxClimb T_00_U  2 147 250 
767400 ICAO_B 1 6 Climb MaxClimb T_00_U 5 000   
767400 ICAO_B 1 7 Climb MaxClimb T_00_U 7 500   
767400 ICAO_B 1 8 Climb MaxClimb T_00_U 10 000   
767400 ICAO_B 2 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_B 2 2 Climb MaxTakeoff T_20_U 1 000   
767400 ICAO_B 2 3 Accelerate MaxTakeoff T_05_U  2 267,2 217,9 
767400 ICAO_B 2 4 Climb MaxTakeoff T_00_U 3 393   
767400 ICAO_B 2 5 Accelerate MaxClimb T_00_U  2 080,9 250 
767400 ICAO_B 2 6 Climb MaxClimb T_00_U 5 000   
767400 ICAO_B 2 7 Climb MaxClimb T_00_U 7 500   
767400 ICAO_B 2 8 Climb MaxClimb T_00_U 10 000   
767400 ICAO_B 3 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_B 3 2 Climb MaxTakeoff T_20_U 1 000   
767400 ICAO_B 3 3 Accelerate MaxTakeoff T_05_U  2 183,7 220,6 
767400 ICAO_B 3 4 Climb MaxTakeoff T_00_U 3 292   
767400 ICAO_B 3 5 Accelerate MaxClimb T_00_U  1 975,7 250 
767400 ICAO_B 3 6 Climb MaxClimb T_00_U 5 000   
767400 ICAO_B 3 7 Climb MaxClimb T_00_U 7 500   
767400 ICAO_B 3 8 Climb MaxClimb T_00_U 10 000   
767400 ICAO_B 4 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_B 4 2 Climb MaxTakeoff T_20_U 1 000   
767400 ICAO_B 4 3 Accelerate MaxTakeoff T_05_U  2 054,4 225 
767400 ICAO_B 4 4 Climb MaxTakeoff T_00_U 3 128   
767400 ICAO_B 4 5 Accelerate MaxClimb T_00_U  1 850,9 250 
767400 ICAO_B 4 6 Climb MaxClimb T_00_U 5 000   
767400 ICAO_B 4 7 Climb MaxClimb T_00_U 7 500   
767400 ICAO_B 4 8 Climb MaxClimb T_00_U 10 000   
767400 ICAO_B 5 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_B 5 2 Climb MaxTakeoff T_20_U 1 000   
767400 ICAO_B 5 3 Accelerate MaxTakeoff T_05_U  1 908,2 230,4 
767400 ICAO_B 5 4 Climb MaxTakeoff T_00_U 2 944   
767400 ICAO_B 5 5 Climb MaxClimb T_00_U 3 000   
767400 ICAO_B 5 6 Accelerate MaxClimb T_00_U  1 653,1 250 
767400 ICAO_B 5 7 Climb MaxClimb T_00_U 5 000   
767400 ICAO_B 5 8 Climb MaxClimb T_00_U 7 500   
767400 ICAO_B 5 9 Climb MaxClimb T_00_U 10 000   
767400 ICAO_B 6 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_B 6 2 Climb MaxTakeoff T_20_U 1 000   
767400 ICAO_B 6 3 Accelerate MaxTakeoff T_05_U  1 771,1 236 
767400 ICAO_B 6 4 Climb MaxTakeoff T_00_U 2 766   
767400 ICAO_B 6 5 Climb MaxClimb T_00_U 3 000   
767400 ICAO_B 6 6 Accelerate MaxClimb T_00_U  1 521,4 250 
767400 ICAO_B 6 7 Climb MaxClimb T_00_U 5 000   
767400 ICAO_B 6 8 Climb MaxClimb T_00_U 7 500   
767400 ICAO_B 6 9 Climb MaxClimb T_00_U 10 000   
767400 ICAO_B 7 1 Takeoff MaxTakeoff T_20_U    
767400 ICAO_B 7 2 Climb MaxTakeoff T_20_U 1 000   
767400 ICAO_B 7 3 Accelerate MaxTakeoff T_05_U  1 560,3 239,8 
767400 ICAO_B 7 4 Climb MaxTakeoff T_00_U 2 111   
767400 ICAO_B 7 5 Accelerate MaxTakeoff T_00_U  1 840 244,3 
767400 ICAO_B 7 6 Climb MaxTakeoff T_00_U 2 523   
767400 ICAO_B 7 7 Climb MaxClimb T_00_U 3 000   
767400 ICAO_B 7 8 Accelerate MaxClimb T_00_U  1 303,8 250 
767400 ICAO_B 7 9 Climb MaxClimb T_00_U 5 000   
767400 ICAO_B 7 10 Climb MaxClimb T_00_U 7 500   
767400 ICAO_B 7 11 Climb MaxClimb T_00_U 10 000   
767CF6 DEFAULT 1 1 Takeoff MaxTakeoff 15    
767CF6 DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
767CF6 DEFAULT 1 3 Accelerate MaxTakeoff 15  1 913 144 
767CF6 DEFAULT 1 4 Accelerate MaxTakeoff 5  1 913 164 
767CF6 DEFAULT 1 5 Accelerate MaxClimb 1  1 000 204 
767CF6 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 000 224 
767CF6 DEFAULT 1 7 Climb MaxClimb ZERO 3 000   
767CF6 DEFAULT 1 8 Accelerate MaxClimb ZERO  1 000 250 
767CF6 DEFAULT 1 9 Climb MaxClimb ZERO 5 500   
767CF6 DEFAULT 1 10 Climb MaxClimb ZERO 7 500   
767CF6 DEFAULT 1 11 Climb MaxClimb ZERO 10 000   
767CF6 DEFAULT 2 1 Takeoff MaxTakeoff 15    
767CF6 DEFAULT 2 2 Climb MaxTakeoff 15 1 000   
767CF6 DEFAULT 2 3 Accelerate MaxTakeoff 15  1 840 147 
767CF6 DEFAULT 2 4 Accelerate MaxTakeoff 5  1 840 167 
767CF6 DEFAULT 2 5 Accelerate MaxClimb 1  1 000 206 
767CF6 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 000 226 
767CF6 DEFAULT 2 7 Climb MaxClimb ZERO 3 000   
767CF6 DEFAULT 2 8 Accelerate MaxClimb ZERO  1 000 250 
767CF6 DEFAULT 2 9 Climb MaxClimb ZERO 5 500   
767CF6 DEFAULT 2 10 Climb MaxClimb ZERO 7 500   
767CF6 DEFAULT 2 11 Climb MaxClimb ZERO 10 000   
767CF6 DEFAULT 3 1 Takeoff MaxTakeoff 15    
767CF6 DEFAULT 3 2 Climb MaxTakeoff 15 1 000   
767CF6 DEFAULT 3 3 Accelerate MaxTakeoff 15  1 769 150 
767CF6 DEFAULT 3 4 Accelerate MaxTakeoff 5  1 769 170 
767CF6 DEFAULT 3 5 Accelerate MaxClimb 1  1 000 209 
767CF6 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 000 229 
767CF6 DEFAULT 3 7 Climb MaxClimb ZERO 3 000   
767CF6 DEFAULT 3 8 Accelerate MaxClimb ZERO  1 000 250 
767CF6 DEFAULT 3 9 Climb MaxClimb ZERO 5 500   
767CF6 DEFAULT 3 10 Climb MaxClimb ZERO 7 500   
767CF6 DEFAULT 3 11 Climb MaxClimb ZERO 10 000   
767CF6 DEFAULT 4 1 Takeoff MaxTakeoff 15    
767CF6 DEFAULT 4 2 Climb MaxTakeoff 15 1 000   
767CF6 DEFAULT 4 3 Accelerate MaxTakeoff 15  1 656 155 
767CF6 DEFAULT 4 4 Accelerate MaxTakeoff 5  1 656 175 
767CF6 DEFAULT 4 5 Accelerate MaxClimb 1  1 000 214 
767CF6 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 000 234 
767CF6 DEFAULT 4 7 Climb MaxClimb ZERO 3 000   
767CF6 DEFAULT 4 8 Accelerate MaxClimb ZERO  1 000 250 
767CF6 DEFAULT 4 9 Climb MaxClimb ZERO 5 500   
767CF6 DEFAULT 4 10 Climb MaxClimb ZERO 7 500   
767CF6 DEFAULT 4 11 Climb MaxClimb ZERO 10 000   
767CF6 DEFAULT 5 1 Takeoff MaxTakeoff 15    
767CF6 DEFAULT 5 2 Climb MaxTakeoff 15 1 000   
767CF6 DEFAULT 5 3 Accelerate MaxTakeoff 15  1 529 160 
767CF6 DEFAULT 5 4 Accelerate MaxTakeoff 5  1 529 180 
767CF6 DEFAULT 5 5 Accelerate MaxClimb 1  1 000 219 
767CF6 DEFAULT 5 6 Accelerate MaxClimb ZERO  1 000 239 
767CF6 DEFAULT 5 7 Climb MaxClimb ZERO 3 000   
767CF6 DEFAULT 5 8 Accelerate MaxClimb ZERO  1 000 250 
767CF6 DEFAULT 5 9 Climb MaxClimb ZERO 5 500   
767CF6 DEFAULT 5 10 Climb MaxClimb ZERO 7 500   
767CF6 DEFAULT 5 11 Climb MaxClimb ZERO 10 000   
767CF6 DEFAULT 6 1 Takeoff MaxTakeoff 15    
767CF6 DEFAULT 6 2 Climb MaxTakeoff 15 1 000   
767CF6 DEFAULT 6 3 Accelerate MaxTakeoff 15  1 407 166 
767CF6 DEFAULT 6 4 Accelerate MaxTakeoff 5  1 407 186 
767CF6 DEFAULT 6 5 Accelerate MaxClimb 1  1 000 225 
767CF6 DEFAULT 6 6 Accelerate MaxClimb ZERO  1 000 245 
767CF6 DEFAULT 6 7 Climb MaxClimb ZERO 3 000   
767CF6 DEFAULT 6 8 Accelerate MaxClimb ZERO  1 000 250 
767CF6 DEFAULT 6 9 Climb MaxClimb ZERO 5 500   
767CF6 DEFAULT 6 10 Climb MaxClimb ZERO 7 500   
767CF6 DEFAULT 6 11 Climb MaxClimb ZERO 10 000   
767CF6 DEFAULT 7 1 Takeoff MaxTakeoff 15    
767CF6 DEFAULT 7 2 Climb MaxTakeoff 15 1 000   
767CF6 DEFAULT 7 3 Accelerate MaxTakeoff 15  1 345 169 
767CF6 DEFAULT 7 4 Accelerate MaxTakeoff 5  1 345 189 
767CF6 DEFAULT 7 5 Accelerate MaxClimb 1  1 000 228 
767CF6 DEFAULT 7 6 Accelerate MaxClimb ZERO  1 000 248 
767CF6 DEFAULT 7 7 Climb MaxClimb ZERO 3 000   
767CF6 DEFAULT 7 8 Accelerate MaxClimb ZERO  1 000 250 
767CF6 DEFAULT 7 9 Climb MaxClimb ZERO 5 500   
767CF6 DEFAULT 7 10 Climb MaxClimb ZERO 7 500   
767CF6 DEFAULT 7 11 Climb MaxClimb ZERO 10 000   
767JT9 DEFAULT 1 1 Takeoff MaxTakeoff 15    
767JT9 DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
767JT9 DEFAULT 1 3 Accelerate MaxTakeoff 15  1 879 145 
767JT9 DEFAULT 1 4 Accelerate MaxTakeoff 5  1 879 165 
767JT9 DEFAULT 1 5 Accelerate MaxClimb 1  1 000 204 
767JT9 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 000 224 
767JT9 DEFAULT 1 7 Climb MaxClimb ZERO 3 000   
767JT9 DEFAULT 1 8 Accelerate MaxClimb ZERO  1 000 250 
767JT9 DEFAULT 1 9 Climb MaxClimb ZERO 5 500   
767JT9 DEFAULT 1 10 Climb MaxClimb ZERO 7 500   
767JT9 DEFAULT 1 11 Climb MaxClimb ZERO 10 000   
767JT9 DEFAULT 2 1 Takeoff MaxTakeoff 15    
767JT9 DEFAULT 2 2 Climb MaxTakeoff 15 1 000   
767JT9 DEFAULT 2 3 Accelerate MaxTakeoff 15  1 807 148 
767JT9 DEFAULT 2 4 Accelerate MaxTakeoff 5  1 807 168 
767JT9 DEFAULT 2 5 Accelerate MaxClimb 1  1 000 207 
767JT9 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 000 227 
767JT9 DEFAULT 2 7 Climb MaxClimb ZERO 3 000   
767JT9 DEFAULT 2 8 Accelerate MaxClimb ZERO  1 000 250 
767JT9 DEFAULT 2 9 Climb MaxClimb ZERO 5 500   
767JT9 DEFAULT 2 10 Climb MaxClimb ZERO 7 500   
767JT9 DEFAULT 2 11 Climb MaxClimb ZERO 10 000   
767JT9 DEFAULT 3 1 Takeoff MaxTakeoff 15    
767JT9 DEFAULT 3 2 Climb MaxTakeoff 15 1 000   
767JT9 DEFAULT 3 3 Accelerate MaxTakeoff 15  1 738 150 
767JT9 DEFAULT 3 4 Accelerate MaxTakeoff 5  1 738 170 
767JT9 DEFAULT 3 5 Accelerate MaxClimb 1  1 000 210 
767JT9 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 000 230 
767JT9 DEFAULT 3 7 Climb MaxClimb ZERO 3 000   
767JT9 DEFAULT 3 8 Accelerate MaxClimb ZERO  1 000 250 
767JT9 DEFAULT 3 9 Climb MaxClimb ZERO 5 500   
767JT9 DEFAULT 3 10 Climb MaxClimb ZERO 7 500   
767JT9 DEFAULT 3 11 Climb MaxClimb ZERO 10 000   
767JT9 DEFAULT 4 1 Takeoff MaxTakeoff 15    
767JT9 DEFAULT 4 2 Climb MaxTakeoff 15 1 000   
767JT9 DEFAULT 4 3 Accelerate MaxTakeoff 15  1 626 155 
767JT9 DEFAULT 4 4 Accelerate MaxTakeoff 5  1 626 175 
767JT9 DEFAULT 4 5 Accelerate MaxClimb 1  1 000 214 
767JT9 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 000 234 
767JT9 DEFAULT 4 7 Climb MaxClimb ZERO 3 000   
767JT9 DEFAULT 4 8 Accelerate MaxClimb ZERO  1 000 250 
767JT9 DEFAULT 4 9 Climb MaxClimb ZERO 5 500   
767JT9 DEFAULT 4 10 Climb MaxClimb ZERO 7 500   
767JT9 DEFAULT 4 11 Climb MaxClimb ZERO 10 000   
767JT9 DEFAULT 5 1 Takeoff MaxTakeoff 15    
767JT9 DEFAULT 5 2 Climb MaxTakeoff 15 1 000   
767JT9 DEFAULT 5 3 Accelerate MaxTakeoff 15  1 499 161 
767JT9 DEFAULT 5 4 Accelerate MaxTakeoff 5  1 499 181 
767JT9 DEFAULT 5 5 Accelerate MaxClimb 1  1 000 220 
767JT9 DEFAULT 5 6 Accelerate MaxClimb ZERO  1 000 240 
767JT9 DEFAULT 5 7 Climb MaxClimb ZERO 3 000   
767JT9 DEFAULT 5 8 Accelerate MaxClimb ZERO  1 000 250 
767JT9 DEFAULT 5 9 Climb MaxClimb ZERO 5 500   
767JT9 DEFAULT 5 10 Climb MaxClimb ZERO 7 500   
767JT9 DEFAULT 5 11 Climb MaxClimb ZERO 10 000   
767JT9 DEFAULT 6 1 Takeoff MaxTakeoff 15    
767JT9 DEFAULT 6 2 Climb MaxTakeoff 15 1 000   
767JT9 DEFAULT 6 3 Accelerate MaxTakeoff 15  1 379 167 
767JT9 DEFAULT 6 4 Accelerate MaxTakeoff 5  1 379 187 
767JT9 DEFAULT 6 5 Accelerate MaxClimb 1  1 000 226 
767JT9 DEFAULT 6 6 Accelerate MaxClimb ZERO  1 000 246 
767JT9 DEFAULT 6 7 Climb MaxClimb ZERO 3 000   
767JT9 DEFAULT 6 8 Accelerate MaxClimb ZERO  1 000 250 
767JT9 DEFAULT 6 9 Climb MaxClimb ZERO 5 500   
767JT9 DEFAULT 6 10 Climb MaxClimb ZERO 7 500   
767JT9 DEFAULT 6 11 Climb MaxClimb ZERO 10 000   
767JT9 DEFAULT 7 1 Takeoff MaxTakeoff 15    
767JT9 DEFAULT 7 2 Climb MaxTakeoff 15 1 000   
767JT9 DEFAULT 7 3 Accelerate MaxTakeoff 15  1 328 170 
767JT9 DEFAULT 7 4 Accelerate MaxTakeoff 5  1 328 190 
767JT9 DEFAULT 7 5 Accelerate MaxClimb 1  1 000 228 
767JT9 DEFAULT 7 6 Accelerate MaxClimb ZERO  1 000 248 
767JT9 DEFAULT 7 7 Climb MaxClimb ZERO 3 000   
767JT9 DEFAULT 7 8 Accelerate MaxClimb ZERO  1 000 250 
767JT9 DEFAULT 7 9 Climb MaxClimb ZERO 5 500   
767JT9 DEFAULT 7 10 Climb MaxClimb ZERO 7 500   
767JT9 DEFAULT 7 11 Climb MaxClimb ZERO 10 000   
777200 DEFAULT 1 1 Takeoff MaxTakeoff T_05    
777200 DEFAULT 1 2 Climb MaxTakeoff T_05C 1 089   
777200 DEFAULT 1 3 Accelerate MaxClimb T_01  1 583,4 205,9 
777200 DEFAULT 1 4 Accelerate MaxClimb T_00  1 744,7 213,7 
777200 DEFAULT 1 5 Climb MaxClimb T_00 3 000   
777200 DEFAULT 1 6 Accelerate MaxClimb T_00  1 856,6 250 
777200 DEFAULT 1 7 Climb MaxClimb T_00 5 500   
777200 DEFAULT 1 8 Climb MaxClimb T_00 7 500   
777200 DEFAULT 1 9 Climb MaxClimb T_00 10 000   
777200 DEFAULT 2 1 Takeoff MaxTakeoff T_05    
777200 DEFAULT 2 2 Climb MaxTakeoff T_05C 1 057   
777200 DEFAULT 2 3 Accelerate MaxClimb T_01  1 526,8 206,6 
777200 DEFAULT 2 4 Accelerate MaxClimb T_00  1 681 215,6 
777200 DEFAULT 2 5 Climb MaxClimb T_00 3 000   
777200 DEFAULT 2 6 Accelerate MaxClimb T_00  1 791,2 250 
777200 DEFAULT 2 7 Climb MaxClimb T_00 5 500   
777200 DEFAULT 2 8 Climb MaxClimb T_00 7 500   
777200 DEFAULT 2 9 Climb MaxClimb T_00 10 000   
777200 DEFAULT 3 1 Takeoff MaxTakeoff T_05    
777200 DEFAULT 3 2 Climb MaxTakeoff T_05C 1 022   
777200 DEFAULT 3 3 Accelerate MaxClimb T_01  1 468,5 207,3 
777200 DEFAULT 3 4 Accelerate MaxClimb T_00  1 618,3 217,7 
777200 DEFAULT 3 5 Climb MaxClimb T_00 3 000   
777200 DEFAULT 3 6 Accelerate MaxClimb T_00  1 725,7 250 
777200 DEFAULT 3 7 Climb MaxClimb T_00 5 500   
777200 DEFAULT 3 8 Climb MaxClimb T_00 7 500   
777200 DEFAULT 3 9 Climb MaxClimb T_00 10 000   
777200 DEFAULT 4 1 Takeoff MaxTakeoff T_05    
777200 DEFAULT 4 2 Climb MaxTakeoff T_05C 1 000   
777200 DEFAULT 4 3 Accelerate MaxClimb T_01  1 363,3 208,9 
777200 DEFAULT 4 4 Accelerate MaxClimb T_00  1 510,5 221,7 
777200 DEFAULT 4 5 Climb MaxClimb T_00 3 000   
777200 DEFAULT 4 6 Accelerate MaxClimb T_00  1 601,3 250 
777200 DEFAULT 4 7 Climb MaxClimb T_00 5 500   
777200 DEFAULT 4 8 Climb MaxClimb T_00 7 500   
777200 DEFAULT 4 9 Climb MaxClimb T_00 10 000   
777200 DEFAULT 5 1 Takeoff MaxTakeoff T_05    
777200 DEFAULT 5 2 Climb MaxTakeoff T_05C 1 000   
777200 DEFAULT 5 3 Accelerate MaxClimb T_01  1 247,5 211 
777200 DEFAULT 5 4 Accelerate MaxClimb T_00  1 389,1 225,5 
777200 DEFAULT 5 5 Climb MaxClimb T_00 3 000   
777200 DEFAULT 5 6 Accelerate MaxClimb T_00  1 467,1 250 
777200 DEFAULT 5 7 Climb MaxClimb T_00 5 500   
777200 DEFAULT 5 8 Climb MaxClimb T_00 7 500   
777200 DEFAULT 5 9 Climb MaxClimb T_00 10 000   
777200 DEFAULT 6 1 Takeoff MaxTakeoff T_05    
777200 DEFAULT 6 2 Climb MaxTakeoff T_05C 1 000   
777200 DEFAULT 6 3 Accelerate MaxClimb T_01  1 136,7 213,4 
777200 DEFAULT 6 4 Accelerate MaxClimb T_00  1 275 231,5 
777200 DEFAULT 6 5 Climb MaxClimb T_00 3 000   
777200 DEFAULT 6 6 Accelerate MaxClimb T_00  1 337,6 250 
777200 DEFAULT 6 7 Climb MaxClimb T_00 5 500   
777200 DEFAULT 6 8 Climb MaxClimb T_00 7 500   
777200 DEFAULT 6 9 Climb MaxClimb T_00 10 000   
777200 DEFAULT 7 1 Takeoff MaxTakeoff T_05    
777200 DEFAULT 7 2 Climb MaxTakeoff T_05C 1 000   
777200 DEFAULT 7 3 Accelerate MaxClimb T_01  1 032,4 216,2 
777200 DEFAULT 7 4 Accelerate MaxClimb T_00  1 147 228,5 
777200 DEFAULT 7 5 Accelerate MaxClimb T_00  1 189,4 236,6 
777200 DEFAULT 7 6 Climb MaxClimb T_00 3 000   
777200 DEFAULT 7 7 Accelerate MaxClimb T_00  1 215,6 250 
777200 DEFAULT 7 8 Climb MaxClimb T_00 5 500   
777200 DEFAULT 7 9 Climb MaxClimb T_00 7 500   
777200 DEFAULT 7 10 Climb MaxClimb T_00 10 000   
777200 DEFAULT 8 1 Takeoff MaxTakeoff T_05    
777200 DEFAULT 8 2 Climb MaxTakeoff T_05C 1 000   
777200 DEFAULT 8 3 Accelerate MaxClimb T_01  931,9 219,4 
777200 DEFAULT 8 4 Accelerate MaxClimb T_00H  1 033,1 232,5 
777200 DEFAULT 8 5 Accelerate MaxClimb T_00H  1 088,7 242 
777200 DEFAULT 8 6 Climb MaxClimb T_00H 3 000   
777200 DEFAULT 8 7 Accelerate MaxClimb T_00H  1 101,5 250 
777200 DEFAULT 8 8 Climb MaxClimb T_00H 5 500   
777200 DEFAULT 8 9 Climb MaxClimb T_00H 7 500   
777200 DEFAULT 8 10 Climb MaxClimb T_00H 10 000   
777200 DEFAULT 9 1 Takeoff MaxTakeoff T_05    
777200 DEFAULT 9 2 Climb MaxTakeoff T_05C 1 000   
777200 DEFAULT 9 3 Accelerate MaxClimb T_01  874,9 221,7 
777200 DEFAULT 9 4 Accelerate MaxClimb T_00H  969,4 235,4 
777200 DEFAULT 9 5 Accelerate MaxClimb T_00H  1 020,2 245,6 
777200 DEFAULT 9 6 Climb MaxClimb T_00H 3 000   
777200 DEFAULT 9 7 Accelerate MaxClimb T_00H  1 031,1 250 
777200 DEFAULT 9 8 Climb MaxClimb T_00H 5 500   
777200 DEFAULT 9 9 Climb MaxClimb T_00H 7 500   
777200 DEFAULT 9 10 Climb MaxClimb T_00H 10 000   
777200 ICAO_A 1 1 Takeoff MaxTakeoff T_05    
777200 ICAO_A 1 2 Climb MaxTakeoff T_05C 1 500   
777200 ICAO_A 1 3 Climb MaxClimb T_01 3 000   
777200 ICAO_A 1 4 Accelerate MaxClimb T_05A  1 504 203,3 
777200 ICAO_A 1 5 Accelerate MaxClimb T_01  1 700 213,4 
777200 ICAO_A 1 6 Accelerate MaxClimb T_00  1 856,1 250 
777200 ICAO_A 1 7 Climb MaxClimb T_00 5 500   
777200 ICAO_A 1 8 Climb MaxClimb T_00 7 500   
777200 ICAO_A 1 9 Climb MaxClimb T_00 10 000   
777200 ICAO_A 2 1 Takeoff MaxTakeoff T_05    
777200 ICAO_A 2 2 Climb MaxTakeoff T_05C 1 500   
777200 ICAO_A 2 3 Climb MaxClimb T_01 3 000   
777200 ICAO_A 2 4 Accelerate MaxClimb T_05A  1 451,9 204 
777200 ICAO_A 2 5 Accelerate MaxClimb T_01  1 633,4 215,4 
777200 ICAO_A 2 6 Accelerate MaxClimb T_00  1 789,9 250 
777200 ICAO_A 2 7 Climb MaxClimb T_00 5 500   
777200 ICAO_A 2 8 Climb MaxClimb T_00 7 500   
777200 ICAO_A 2 9 Climb MaxClimb T_00 10 000   
777200 ICAO_A 3 1 Takeoff MaxTakeoff T_05    
777200 ICAO_A 3 2 Climb MaxTakeoff T_05C 1 500   
777200 ICAO_A 3 3 Climb MaxClimb T_01 3 000   
777200 ICAO_A 3 4 Accelerate MaxClimb T_05A  1 395,1 204,9 
777200 ICAO_A 3 5 Accelerate MaxClimb T_01  1 575 217,3 
777200 ICAO_A 3 6 Accelerate MaxClimb T_00  1 719,4 250 
777200 ICAO_A 3 7 Climb MaxClimb T_00 5 500   
777200 ICAO_A 3 8 Climb MaxClimb T_00 7 500   
777200 ICAO_A 3 9 Climb MaxClimb T_00 10 000   
777200 ICAO_A 4 1 Takeoff MaxTakeoff T_05    
777200 ICAO_A 4 2 Climb MaxTakeoff T_05C 1 500   
777200 ICAO_A 4 3 Climb MaxClimb T_01 3 000   
777200 ICAO_A 4 4 Accelerate MaxClimb T_05A  1 295,2 206,6 
777200 ICAO_A 4 5 Accelerate MaxClimb T_01  1 477,7 221,3 
777200 ICAO_A 4 6 Accelerate MaxClimb T_00  1 592,4 250 
777200 ICAO_A 4 7 Climb MaxClimb T_00 5 500   
777200 ICAO_A 4 8 Climb MaxClimb T_00 7 500   
777200 ICAO_A 4 9 Climb MaxClimb T_00 10 000   
777200 ICAO_A 5 1 Takeoff MaxTakeoff T_05    
777200 ICAO_A 5 2 Climb MaxTakeoff T_05C 1 500   
777200 ICAO_A 5 3 Climb MaxClimb T_01 3 000   
777200 ICAO_A 5 4 Accelerate MaxClimb T_05A  1 182,6 208,8 
777200 ICAO_A 5 5 Accelerate MaxClimb T_01  1 346,3 222,1 
777200 ICAO_A 5 6 Accelerate MaxClimb T_00  1 451,1 250 
777200 ICAO_A 5 7 Climb MaxClimb T_00 5 500   
777200 ICAO_A 5 8 Climb MaxClimb T_00 7 500   
777200 ICAO_A 5 9 Climb MaxClimb T_00 10 000   
777200 ICAO_A 6 1 Takeoff MaxTakeoff T_05    
777200 ICAO_A 6 2 Climb MaxTakeoff T_05C 1 500   
777200 ICAO_A 6 3 Climb MaxClimb T_01 3 000   
777200 ICAO_A 6 4 Accelerate MaxClimb T_05  1 075,6 211,4 
777200 ICAO_A 6 5 Accelerate MaxClimb T_01  1 217,4 223,4 
777200 ICAO_A 6 6 Accelerate MaxClimb T_00  1 316,4 250 
777200 ICAO_A 6 7 Climb MaxClimb T_00 5 500   
777200 ICAO_A 6 8 Climb MaxClimb T_00 7 500   
777200 ICAO_A 6 9 Climb MaxClimb T_00 10 000   
777200 ICAO_A 7 1 Takeoff MaxTakeoff T_05    
777200 ICAO_A 7 2 Climb MaxTakeoff T_05C 1 500   
777200 ICAO_A 7 3 Climb MaxClimb T_01 3 000   
777200 ICAO_A 7 4 Accelerate MaxClimb T_05  973,3 214,3 
777200 ICAO_A 7 5 Accelerate MaxClimb T_01  1 104,3 227,2 
777200 ICAO_A 7 6 Accelerate MaxClimb T_00  1 188,2 250 
777200 ICAO_A 7 7 Climb MaxClimb T_00 5 500   
777200 ICAO_A 7 8 Climb MaxClimb T_00 7 500   
777200 ICAO_A 7 9 Climb MaxClimb T_00 10 000   
777200 ICAO_A 8 1 Takeoff MaxTakeoff T_05    
777200 ICAO_A 8 2 Climb MaxTakeoff T_05CH 1 500   
777200 ICAO_A 8 3 Climb MaxClimb T_01 3 000   
777200 ICAO_A 8 4 Accelerate MaxClimb T_05  877,9 217,6 
777200 ICAO_A 8 5 Accelerate MaxClimb T_01  997,4 231,4 
777200 ICAO_A 8 6 Accelerate MaxClimb T_00H  1 071,6 250 
777200 ICAO_A 8 7 Climb MaxClimb T_00H 5 500   
777200 ICAO_A 8 8 Climb MaxClimb T_00H 7 500   
777200 ICAO_A 8 9 Climb MaxClimb T_00H 10 000   
777200 ICAO_A 9 1 Takeoff MaxTakeoff T_05    
777200 ICAO_A 9 2 Climb MaxTakeoff T_05CH 1 500   
777200 ICAO_A 9 3 Climb MaxClimb T_05 3 000   
777200 ICAO_A 9 4 Accelerate MaxClimb T_05  820,9 220 
777200 ICAO_A 9 5 Accelerate MaxClimb T_01  930,3 234,3 
777200 ICAO_A 9 6 Accelerate MaxClimb T_00H  1 000 250 
777200 ICAO_A 9 7 Climb MaxClimb T_00H 5 500   
777200 ICAO_A 9 8 Climb MaxClimb T_00 7 500   
777200 ICAO_A 9 9 Climb MaxClimb T_00 10 000   
777200 ICAO_B 1 1 Takeoff MaxTakeoff T_05    
777200 ICAO_B 1 2 Climb MaxTakeoff T_05C 1 089   
777200 ICAO_B 1 3 Accelerate MaxTakeoff T_05A  2 183,5 193,8 
777200 ICAO_B 1 4 Accelerate MaxTakeoff T_01  1 783,1 213,6 
777200 ICAO_B 1 5 Climb MaxClimb T_00 3 000   
777200 ICAO_B 1 6 Accelerate MaxClimb T_00  1 857,4 250 
777200 ICAO_B 1 7 Climb MaxClimb T_00 5 500   
777200 ICAO_B 1 8 Climb MaxClimb T_00 7 500   
777200 ICAO_B 1 9 Climb MaxClimb T_00 10 000   
777200 ICAO_B 2 1 Takeoff MaxTakeoff T_05    
777200 ICAO_B 2 2 Climb MaxTakeoff T_05C 1 057   
777200 ICAO_B 2 3 Accelerate MaxTakeoff T_05A  2 121,3 195,8 
777200 ICAO_B 2 4 Accelerate MaxTakeoff T_01  1 722,3 215,5 
777200 ICAO_B 2 5 Climb MaxClimb T_00 3 000   
777200 ICAO_B 2 6 Accelerate MaxClimb T_00  1 789,8 250 
777200 ICAO_B 2 7 Climb MaxClimb T_00 5 500   
777200 ICAO_B 2 8 Climb MaxClimb T_00 7 500   
777200 ICAO_B 2 9 Climb MaxClimb T_00 10 000   
777200 ICAO_B 3 1 Takeoff MaxTakeoff T_05    
777200 ICAO_B 3 2 Climb MaxTakeoff T_05C 1 022   
777200 ICAO_B 3 3 Accelerate MaxTakeoff T_05A  2 059,4 197,9 
777200 ICAO_B 3 4 Accelerate MaxTakeoff T_01  1 664,2 217,6 
777200 ICAO_B 3 5 Climb MaxClimb T_00 3 000   
777200 ICAO_B 3 6 Accelerate MaxClimb T_00  1 723 250 
777200 ICAO_B 3 7 Climb MaxClimb T_00 5 500   
777200 ICAO_B 3 8 Climb MaxClimb T_00 7 500   
777200 ICAO_B 3 9 Climb MaxClimb T_00 10 000   
777200 ICAO_B 4 1 Takeoff MaxTakeoff T_05    
777200 ICAO_B 4 2 Climb MaxTakeoff T_05C 1 000   
777200 ICAO_B 4 3 Accelerate MaxTakeoff T_05A  1 940,1 201,8 
777200 ICAO_B 4 4 Accelerate MaxTakeoff T_01  1 555,7 221,6 
777200 ICAO_B 4 5 Climb MaxClimb T_00 3 000   
777200 ICAO_B 4 6 Accelerate MaxClimb T_00  1 602,1 250 
777200 ICAO_B 4 7 Climb MaxClimb T_00 5 500   
777200 ICAO_B 4 8 Climb MaxClimb T_00 7 500   
777200 ICAO_B 4 9 Climb MaxClimb T_00 10 000   
777200 ICAO_B 5 1 Takeoff MaxTakeoff T_05    
777200 ICAO_B 5 2 Climb MaxTakeoff T_05C 1 000   
777200 ICAO_B 5 3 Accelerate MaxTakeoff T_05A  1 809,2 206,7 
777200 ICAO_B 5 4 Accelerate MaxTakeoff T_01  1 431,6 226,5 
777200 ICAO_B 5 5 Climb MaxClimb T_00 3 000   
777200 ICAO_B 5 6 Accelerate MaxClimb T_00  1 466,4 250 
777200 ICAO_B 5 7 Climb MaxClimb T_00 5 500   
777200 ICAO_B 5 8 Climb MaxClimb T_00 7 500   
777200 ICAO_B 5 9 Climb MaxClimb T_00 10 000   
777200 ICAO_B 6 1 Takeoff MaxTakeoff T_05    
777200 ICAO_B 6 2 Climb MaxTakeoff T_05C 1 000   
777200 ICAO_B 6 3 Accelerate MaxTakeoff T_05A  1 683,9 211,6 
777200 ICAO_B 6 4 Accelerate MaxTakeoff T_01  1 315,7 231,4 
777200 ICAO_B 6 5 Climb MaxClimb T_00 3 000   
777200 ICAO_B 6 6 Accelerate MaxClimb T_00  1 337,6 250 
777200 ICAO_B 6 7 Climb MaxClimb T_00 5 500   
777200 ICAO_B 6 8 Climb MaxClimb T_00 7 500   
777200 ICAO_B 6 9 Climb MaxClimb T_00 10 000   
777200 ICAO_B 7 1 Takeoff MaxTakeoff T_05    
777200 ICAO_B 7 2 Climb MaxTakeoff T_05C 1 000   
777200 ICAO_B 7 3 Accelerate MaxTakeoff T_05A  1 562,2 216,6 
777200 ICAO_B 7 4 Accelerate MaxTakeoff T_01  1 197,4 236,5 
777200 ICAO_B 7 5 Climb MaxClimb T_00 3 000   
777200 ICAO_B 7 6 Accelerate MaxClimb T_00  1 214,8 250 
777200 ICAO_B 7 7 Climb MaxClimb T_00 5 500   
777200 ICAO_B 7 8 Climb MaxClimb T_00 7 500   
777200 ICAO_B 7 9 Climb MaxClimb T_00 10 000   
777200 ICAO_B 8 1 Takeoff MaxTakeoff T_05    
777200 ICAO_B 8 2 Climb MaxTakeoff T_05C 1 000   
777200 ICAO_B 8 3 Accelerate MaxTakeoff T_05A  1 450,3 222,2 
777200 ICAO_B 8 4 Accelerate MaxTakeoff T_01  1 090,6 241,9 
777200 ICAO_B 8 5 Climb MaxClimb T_00 3 000   
777200 ICAO_B 8 6 Accelerate MaxClimb T_00  1 101,5 250 
777200 ICAO_B 8 7 Climb MaxClimb T_00 5 500   
777200 ICAO_B 8 8 Climb MaxClimb T_00 7 500   
777200 ICAO_B 8 9 Climb MaxClimb T_00 10 000   
777200 ICAO_B 9 1 Takeoff MaxTakeoff T_05    
777200 ICAO_B 9 2 Climb MaxTakeoff T_05C 1 000   
777200 ICAO_B 9 3 Accelerate MaxTakeoff T_05A  1 381,9 225,8 
777200 ICAO_B 9 4 Accelerate MaxTakeoff T_01  1 025,7 245,6 
777200 ICAO_B 9 5 Climb MaxClimb T_00 3 000   
777200 ICAO_B 9 6 Accelerate MaxClimb T_00  1 031,1 250 
777200 ICAO_B 9 7 Climb MaxClimb T_00 5 500   
777200 ICAO_B 9 8 Climb MaxClimb T_00 7 500   
777200 ICAO_B 9 9 Climb MaxClimb T_00 10 000   
777300 DEFAULT 1 1 Takeoff MaxTakeoff T_20_U    
777300 DEFAULT 1 2 Climb MaxTakeoff T_20_U 1 068   
777300 DEFAULT 1 3 Accelerate MaxClimb T_05_U  1 471,6 215,4 
777300 DEFAULT 1 4 Climb MaxClimb T_00_U 3 000   
777300 DEFAULT 1 5 Accelerate MaxClimb T_00_U  1 779,1 250 
777300 DEFAULT 1 6 Climb MaxClimb T_00_U 5 000   
777300 DEFAULT 1 7 Climb MaxClimb T_00_U 7 500   
777300 DEFAULT 1 8 Climb MaxClimb T_00_U 10 000   
777300 DEFAULT 2 1 Takeoff MaxTakeoff T_20_U    
777300 DEFAULT 2 2 Climb MaxTakeoff T_20_U 1 064   
777300 DEFAULT 2 3 Accelerate MaxClimb T_05_U  1 418 217,8 
777300 DEFAULT 2 4 Climb MaxClimb T_00_U 3 000   
777300 DEFAULT 2 5 Accelerate MaxClimb T_00_U  1 713,9 250 
777300 DEFAULT 2 6 Climb MaxClimb T_00_U 5 000   
777300 DEFAULT 2 7 Climb MaxClimb T_00_U 7 500   
777300 DEFAULT 2 8 Climb MaxClimb T_00_U 10 000   
777300 DEFAULT 3 1 Takeoff MaxTakeoff T_20_U    
777300 DEFAULT 3 2 Climb MaxTakeoff T_20_U 1 062   
777300 DEFAULT 3 3 Accelerate MaxClimb T_05_U  1 368 220,3 
777300 DEFAULT 3 4 Climb MaxClimb T_00_U 3 000   
777300 DEFAULT 3 5 Accelerate MaxClimb T_00_U  1 638,9 250 
777300 DEFAULT 3 6 Climb MaxClimb T_00_U 5 000   
777300 DEFAULT 3 7 Climb MaxClimb T_00_U 7 500   
777300 DEFAULT 3 8 Climb MaxClimb T_00_U 10 000   
777300 DEFAULT 4 1 Takeoff MaxTakeoff T_20_U    
777300 DEFAULT 4 2 Climb MaxTakeoff T_20_U 1 058   
777300 DEFAULT 4 3 Accelerate MaxClimb T_05_U  1 279 224,3 
777300 DEFAULT 4 4 Climb MaxClimb T_00_U 3 000   
777300 DEFAULT 4 5 Accelerate MaxClimb T_00_U  1 519,4 250 
777300 DEFAULT 4 6 Climb MaxClimb T_00_U 5 000   
777300 DEFAULT 4 7 Climb MaxClimb T_00_U 7 500   
777300 DEFAULT 4 8 Climb MaxClimb T_00_U 10 000   
777300 DEFAULT 5 1 Takeoff MaxTakeoff T_20_U    
777300 DEFAULT 5 2 Climb MaxTakeoff T_20_U 1 053   
777300 DEFAULT 5 3 Accelerate MaxClimb T_05_U  1 179,2 229,4 
777300 DEFAULT 5 4 Climb MaxClimb T_00_U 3 000   
777300 DEFAULT 5 5 Accelerate MaxClimb T_00_U  1 392,1 250 
777300 DEFAULT 5 6 Climb MaxClimb T_00_U 5 000   
777300 DEFAULT 5 7 Climb MaxClimb T_00_U 7 500   
777300 DEFAULT 5 8 Climb MaxClimb T_00_U 10 000   
777300 DEFAULT 6 1 Takeoff MaxTakeoff T_20_U    
777300 DEFAULT 6 2 Climb MaxTakeoff T_20_U 1 049   
777300 DEFAULT 6 3 Accelerate MaxClimb T_05_U  1 082,8 234,4 
777300 DEFAULT 6 4 Climb MaxClimb T_00_U 3 000   
777300 DEFAULT 6 5 Accelerate MaxClimb T_00_U  1 260 250 
777300 DEFAULT 6 6 Climb MaxClimb T_00_U 5 000   
777300 DEFAULT 6 7 Climb MaxClimb T_00_U 7 500   
777300 DEFAULT 6 8 Climb MaxClimb T_00_U 10 000   
777300 DEFAULT 7 1 Takeoff MaxTakeoff T_20_U    
777300 DEFAULT 7 2 Climb MaxTakeoff T_20_U 1 042   
777300 DEFAULT 7 3 Accelerate MaxClimb T_05_U  911,6 243,4 
777300 DEFAULT 7 4 Climb MaxClimb T_00_U 3 000   
777300 DEFAULT 7 5 Accelerate MaxClimb T_00_U  1 060,3 250 
777300 DEFAULT 7 6 Climb MaxClimb T_00_U 5 000   
777300 DEFAULT 7 7 Climb MaxClimb T_00_U 7 500   
777300 DEFAULT 7 8 Climb MaxClimb T_00_U 10 000   
777300 ICAO_A 1 1 Takeoff MaxTakeoff T_20_U    
777300 ICAO_A 1 2 Climb MaxTakeoff T_20_U 1 565   
777300 ICAO_A 1 3 Climb MaxClimb T_20_U 3 000   
777300 ICAO_A 1 4 Accelerate MaxClimb T_05_U  1 420,7 215,2 
777300 ICAO_A 1 5 Climb MaxClimb T_00_U 4 117   
777300 ICAO_A 1 6 Accelerate MaxClimb T_00_U  1 762,5 250 
777300 ICAO_A 1 7 Climb MaxClimb T_00_U 5 000   
777300 ICAO_A 1 8 Climb MaxClimb T_00_U 7 500   
777300 ICAO_A 1 9 Climb MaxClimb T_00_U 10 000   
777300 ICAO_A 2 1 Takeoff MaxTakeoff T_20_U    
777300 ICAO_A 2 2 Climb MaxTakeoff T_20_U 1 563   
777300 ICAO_A 2 3 Climb MaxClimb T_20_U 3 000   
777300 ICAO_A 2 4 Accelerate MaxClimb T_05_U  1 372,5 217,6 
777300 ICAO_A 2 5 Climb MaxClimb T_00_U 4 014   
777300 ICAO_A 2 6 Accelerate MaxClimb T_00_U  1 691,8 250 
777300 ICAO_A 2 7 Climb MaxClimb T_00_U 5 000   
777300 ICAO_A 2 8 Climb MaxClimb T_00_U 7 500   
777300 ICAO_A 2 9 Climb MaxClimb T_00_U 10 000   
777300 ICAO_A 3 1 Takeoff MaxTakeoff T_20_U    
777300 ICAO_A 3 2 Climb MaxTakeoff T_20_U 1 561   
777300 ICAO_A 3 3 Climb MaxClimb T_20_U 3 000   
777300 ICAO_A 3 4 Accelerate MaxClimb T_05_U  1 320,6 220 
777300 ICAO_A 3 5 Climb MaxClimb T_00_U 4 041   
777300 ICAO_A 3 6 Accelerate MaxClimb T_00_U  1 616 250 
777300 ICAO_A 3 7 Climb MaxClimb T_00_U 5 000   
777300 ICAO_A 3 8 Climb MaxClimb T_00_U 7 500   
777300 ICAO_A 3 9 Climb MaxClimb T_00_U 10 000   
777300 ICAO_A 4 1 Takeoff MaxTakeoff T_20_U    
777300 ICAO_A 4 2 Climb MaxTakeoff T_20_U 1 557   
777300 ICAO_A 4 3 Climb MaxClimb T_20_U 3 000   
777300 ICAO_A 4 4 Accelerate MaxClimb T_00_U  1 320,5 250 
777300 ICAO_A 4 5 Climb MaxClimb T_00_U 5 000   
777300 ICAO_A 4 6 Climb MaxClimb T_00_U 7 500   
777300 ICAO_A 4 7 Climb MaxClimb T_00_U 10 000   
777300 ICAO_A 5 1 Takeoff MaxTakeoff T_05_U    
777300 ICAO_A 5 2 Climb MaxTakeoff T_20_U 1 553   
777300 ICAO_A 5 3 Climb MaxClimb T_20_U 3 000   
777300 ICAO_A 5 4 Accelerate MaxClimb T_00_U  1 199,1 250 
777300 ICAO_A 5 5 Climb MaxClimb T_00_U 5 000   
777300 ICAO_A 5 6 Climb MaxClimb T_00_U 7 500   
777300 ICAO_A 5 7 Climb MaxClimb T_00_U 10 000   
777300 ICAO_A 6 1 Takeoff MaxTakeoff T_20_U    
777300 ICAO_A 6 2 Climb MaxTakeoff T_20_U 1 553   
777300 ICAO_A 6 3 Climb MaxClimb T_20_U 3 000   
777300 ICAO_A 6 4 Accelerate MaxClimb T_00_U  1 083,7 250 
777300 ICAO_A 6 5 Climb MaxClimb T_00_U 5 000   
777300 ICAO_A 6 6 Climb MaxClimb T_00_U 7 500   
777300 ICAO_A 6 7 Climb MaxClimb T_00_U 10 000   
777300 ICAO_A 7 1 Takeoff MaxTakeoff T_20_U    
777300 ICAO_A 7 2 Climb MaxTakeoff T_20_U 1 553   
777300 ICAO_A 7 3 Climb MaxClimb T_20_U 3 000   
777300 ICAO_A 7 4 Accelerate MaxClimb T_00_U  889 250 
777300 ICAO_A 7 5 Climb MaxClimb T_00_U 5 000   
777300 ICAO_A 7 6 Climb MaxClimb T_00_U 7 500   
777300 ICAO_A 7 7 Climb MaxClimb T_00_U 10 000   
777300 ICAO_B 1 1 Takeoff MaxTakeoff T_20_U    
777300 ICAO_B 1 2 Climb MaxTakeoff T_20_U 1 000   
777300 ICAO_B 1 3 Accelerate MaxTakeoff T_05_U  2 149,6 215,4 
777300 ICAO_B 1 4 Climb MaxTakeoff T_00_U 3 416   
777300 ICAO_B 1 5 Accelerate MaxClimb T_00_U  1 800 250 
777300 ICAO_B 1 6 Climb MaxClimb T_00_U 5 000   
777300 ICAO_B 1 7 Climb MaxClimb T_00_U 7 500   
777300 ICAO_B 1 8 Climb MaxClimb T_00_U 10 000   
777300 ICAO_B 2 1 Takeoff MaxTakeoff T_20_U    
777300 ICAO_B 2 2 Climb MaxTakeoff T_20_U 1 000   
777300 ICAO_B 2 3 Accelerate MaxTakeoff T_05_U  2 086,3 217,9 
777300 ICAO_B 2 4 Climb MaxTakeoff T_00_U 3 205   
777300 ICAO_B 2 5 Accelerate MaxClimb T_00_U  1 772,6 250 
777300 ICAO_B 2 6 Climb MaxClimb T_00_U 5 000   
777300 ICAO_B 2 7 Climb MaxClimb T_00_U 7 500   
777300 ICAO_B 2 8 Climb MaxClimb T_00_U 10 000   
777300 ICAO_B 3 1 Takeoff MaxTakeoff T_20_U    
777300 ICAO_B 3 2 Climb MaxTakeoff T_20_U 1 000   
777300 ICAO_B 3 3 Accelerate MaxTakeoff T_05_U  2 020,6 220,3 
777300 ICAO_B 3 4 Climb MaxTakeoff T_00_U 3 076   
777300 ICAO_B 3 5 Accelerate MaxClimb T_00_U  1 708,6 250 
777300 ICAO_B 3 6 Climb MaxClimb T_00_U 5 000   
777300 ICAO_B 3 7 Climb MaxClimb T_00_U 7 500   
777300 ICAO_B 3 8 Climb MaxClimb T_00_U 10 000   
777300 ICAO_B 4 1 Takeoff MaxTakeoff T_20_U    
777300 ICAO_B 4 2 Climb MaxTakeoff T_20_U 1 000   
777300 ICAO_B 4 3 Accelerate MaxTakeoff T_05_U  1 895,3 226,3 
777300 ICAO_B 4 4 Climb MaxTakeoff T_00_U 2 894   
777300 ICAO_B 4 5 Climb MaxClimb T_00_U 3 000   
777300 ICAO_B 4 6 Accelerate MaxClimb T_00_U  1 525,8 250 
777300 ICAO_B 4 7 Climb MaxClimb T_00_U 5 000   
777300 ICAO_B 4 8 Climb MaxClimb T_00_U 7 500   
777300 ICAO_B 4 9 Climb MaxClimb T_00_U 10 000   
777300 ICAO_B 5 1 Takeoff MaxTakeoff T_20_U    
777300 ICAO_B 5 2 Climb MaxTakeoff T_20_U 1 000   
777300 ICAO_B 5 3 Accelerate MaxTakeoff T_05_U  1 768,6 229,4 
777300 ICAO_B 5 4 Climb MaxTakeoff T_00_U 2 679   
777300 ICAO_B 5 5 Climb MaxClimb T_00_U 3 000   
777300 ICAO_B 5 6 Accelerate MaxClimb T_00_U  1 387,7 250 
777300 ICAO_B 5 7 Climb MaxClimb T_00_U 5 000   
777300 ICAO_B 5 8 Climb MaxClimb T_00_U 7 500   
777300 ICAO_B 5 9 Climb MaxClimb T_00_U 10 000   
777300 ICAO_B 6 1 Takeoff MaxTakeoff T_20_U    
777300 ICAO_B 6 2 Climb MaxTakeoff T_20_U 1 000   
777300 ICAO_B 6 3 Accelerate MaxTakeoff T_05_U  1 639,4 235,5 
777300 ICAO_B 6 4 Climb MaxTakeoff T_00_U 2 402   
777300 ICAO_B 6 5 Climb MaxClimb T_00_U 3 000   
777300 ICAO_B 6 6 Accelerate MaxClimb T_00_U  1 271,6 250 
777300 ICAO_B 6 7 Climb MaxClimb T_00_U 5 000   
777300 ICAO_B 6 8 Climb MaxClimb T_00_U 7 500   
777300 ICAO_B 6 9 Climb MaxClimb T_00_U 10 000   
777300 ICAO_B 7 1 Takeoff MaxTakeoff T_20_U    
777300 ICAO_B 7 2 Climb MaxTakeoff T_20_U 1 000   
777300 ICAO_B 7 3 Accelerate MaxTakeoff T_05_U  1 491 244,4 
777300 ICAO_B 7 4 Climb MaxTakeoff T_00_U 2 216   
777300 ICAO_B 7 5 Climb MaxClimb T_00_U 3 000   
777300 ICAO_B 7 6 Accelerate MaxClimb T_00_U  1 271,6 250 
777300 ICAO_B 7 7 Climb MaxClimb T_00_U 5 000   
777300 ICAO_B 7 8 Climb MaxClimb T_00_U 7 500   
777300 ICAO_B 7 9 Climb MaxClimb T_00_U 10 000   
7773ER DEFAULT 1 1 Takeoff MaxTakeoff FLAP_5    
7773ER DEFAULT 1 2 Climb MaxTakeoff FLAP_5 1 434   
7773ER DEFAULT 1 3 Accelerate_Percent MaxClimb FLAP_5   200 55
7773ER DEFAULT 1 4 Accelerate_Percent MaxClimb FLAP_1   223 50
7773ER DEFAULT 1 5 Climb MaxClimb FLAP_0 3 000   
7773ER DEFAULT 1 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER DEFAULT 1 7 Climb MaxClimb FLAP_0 10 000   
7773ER DEFAULT 2 1 Takeoff MaxTakeoff FLAP_5    
7773ER DEFAULT 2 2 Climb MaxTakeoff FLAP_5 1 434   
7773ER DEFAULT 2 3 Accelerate_Percent MaxClimb FLAP_5   200 55
7773ER DEFAULT 2 4 Accelerate_Percent MaxClimb FLAP_1   225 50
7773ER DEFAULT 2 5 Climb MaxClimb FLAP_0 3 000   
7773ER DEFAULT 2 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER DEFAULT 2 7 Climb MaxClimb FLAP_0 10 000   
7773ER DEFAULT 3 1 Takeoff MaxTakeoff FLAP_5    
7773ER DEFAULT 3 2 Climb MaxTakeoff FLAP_5 1 355   
7773ER DEFAULT 3 3 Accelerate_Percent MaxClimb FLAP_5   204 55
7773ER DEFAULT 3 4 Accelerate_Percent MaxClimb FLAP_1   228 50
7773ER DEFAULT 3 5 Climb MaxClimb FLAP_0 3 000   
7773ER DEFAULT 3 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER DEFAULT 3 7 Climb MaxClimb FLAP_0 10 000   
7773ER DEFAULT 4 1 Takeoff MaxTakeoff FLAP_5    
7773ER DEFAULT 4 2 Climb MaxTakeoff FLAP_5 1 289   
7773ER DEFAULT 4 3 Accelerate_Percent MaxClimb FLAP_5   205 55
7773ER DEFAULT 4 4 Accelerate_Percent MaxClimb FLAP_1   230 50
7773ER DEFAULT 4 5 Climb MaxClimb FLAP_0 3 000   
7773ER DEFAULT 4 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER DEFAULT 4 7 Climb MaxClimb FLAP_0 10 000   
7773ER DEFAULT 5 1 Takeoff MaxTakeoff FLAP_5    
7773ER DEFAULT 5 2 Climb MaxTakeoff FLAP_5 1 214   
7773ER DEFAULT 5 3 Accelerate_Percent MaxClimb FLAP_5   210 55
7773ER DEFAULT 5 4 Accelerate_Percent MaxClimb FLAP_1   235 50
7773ER DEFAULT 5 5 Climb MaxClimb FLAP_0 3 000   
7773ER DEFAULT 5 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER DEFAULT 5 7 Climb MaxClimb FLAP_0 10 000   
7773ER DEFAULT 6 1 Takeoff MaxTakeoff FLAP_5    
7773ER DEFAULT 6 2 Climb MaxTakeoff FLAP_5 1 142   
7773ER DEFAULT 6 3 Accelerate_Percent MaxClimb FLAP_5   215 55
7773ER DEFAULT 6 4 Accelerate_Percent MaxClimb FLAP_1   240 50
7773ER DEFAULT 6 5 Climb MaxClimb FLAP_0 3 000   
7773ER DEFAULT 6 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER DEFAULT 6 7 Climb MaxClimb FLAP_0 10 000   
7773ER DEFAULT 7 1 Takeoff MaxTakeoff FLAP_5    
7773ER DEFAULT 7 2 Climb MaxTakeoff FLAP_5 1 067   
7773ER DEFAULT 7 3 Accelerate_Percent MaxClimb FLAP_5   222 55
7773ER DEFAULT 7 4 Accelerate_Percent MaxClimb FLAP_1   248 50
7773ER DEFAULT 7 5 Climb MaxClimb FLAP_0 3 000   
7773ER DEFAULT 7 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER DEFAULT 7 7 Climb MaxClimb FLAP_0 10 000   
7773ER DEFAULT 8 1 Takeoff MaxTakeoff FLAP_5    
7773ER DEFAULT 8 2 Climb MaxTakeoff FLAP_5 1 000   
7773ER DEFAULT 8 3 Accelerate_Percent MaxClimb FLAP_5   222 55
7773ER DEFAULT 8 4 Accelerate_Percent MaxClimb FLAP_1   255 50
7773ER DEFAULT 8 5 Climb MaxClimb FLAP_0 3 000   
7773ER DEFAULT 8 6 Accelerate_Percent MaxClimb FLAP_0   256 50
7773ER DEFAULT 8 7 Climb MaxClimb FLAP_0 10 000   
7773ER DEFAULT 9 1 Takeoff MaxTakeoff FLAP_5    
7773ER DEFAULT 9 2 Climb MaxTakeoff FLAP_5 1 000   
7773ER DEFAULT 9 3 Accelerate_Percent MaxClimb FLAP_5   226 55
7773ER DEFAULT 9 4 Accelerate_Percent MaxClimb FLAP_1   261 50
7773ER DEFAULT 9 5 Climb MaxClimb FLAP_0 3 000   
7773ER DEFAULT 9 6 Accelerate_Percent MaxClimb FLAP_0   261,1 50
7773ER DEFAULT 9 7 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_A 1 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_A 1 2 Climb MaxTakeoff FLAP_5 1 500   
7773ER ICAO_A 1 3 Climb MaxClimb FLAP_5 3 000   
7773ER ICAO_A 1 4 Accelerate_Percent MaxClimb FLAP_5   210 55
7773ER ICAO_A 1 5 Accelerate_Percent MaxClimb FLAP_1   220 55
7773ER ICAO_A 1 6 Climb MaxClimb FLAP_1 4 400   
7773ER ICAO_A 1 7 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER ICAO_A 1 8 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_A 2 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_A 2 2 Climb MaxTakeoff FLAP_5 1 500   
7773ER ICAO_A 2 3 Climb MaxClimb FLAP_5 3 000   
7773ER ICAO_A 2 4 Accelerate_Percent MaxClimb FLAP_5   220 55
7773ER ICAO_A 2 5 Accelerate_Percent MaxClimb FLAP_1   230 55
7773ER ICAO_A 2 6 Climb MaxClimb FLAP_1 4 300   
7773ER ICAO_A 2 7 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER ICAO_A 2 8 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_A 3 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_A 3 2 Climb MaxTakeoff FLAP_5 1 500   
7773ER ICAO_A 3 3 Climb MaxClimb FLAP_5 3 000   
7773ER ICAO_A 3 4 Accelerate_Percent MaxClimb FLAP_5   220 55
7773ER ICAO_A 3 5 Accelerate_Percent MaxClimb FLAP_1   230 55
7773ER ICAO_A 3 6 Climb MaxClimb FLAP_1 4 200   
7773ER ICAO_A 3 7 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER ICAO_A 3 8 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_A 4 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_A 4 2 Climb MaxTakeoff FLAP_5 1 500   
7773ER ICAO_A 4 3 Climb MaxClimb FLAP_5 3 000   
7773ER ICAO_A 4 4 Accelerate_Percent MaxClimb FLAP_5   220 55
7773ER ICAO_A 4 5 Accelerate_Percent MaxClimb FLAP_1   230 55
7773ER ICAO_A 4 6 Climb MaxClimb FLAP_1 4 100   
7773ER ICAO_A 4 7 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER ICAO_A 4 8 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_A 5 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_A 5 2 Climb MaxTakeoff FLAP_5 1 500   
7773ER ICAO_A 5 3 Climb MaxClimb FLAP_5 3 000   
7773ER ICAO_A 5 4 Accelerate_Percent MaxClimb FLAP_5   220 55
7773ER ICAO_A 5 5 Accelerate_Percent MaxClimb FLAP_1   230 55
7773ER ICAO_A 5 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER ICAO_A 5 7 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_A 6 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_A 6 2 Climb MaxTakeoff FLAP_5 1 500   
7773ER ICAO_A 6 3 Climb MaxClimb FLAP_5 3 000   
7773ER ICAO_A 6 4 Accelerate_Percent MaxClimb FLAP_5   220 55
7773ER ICAO_A 6 5 Accelerate_Percent MaxClimb FLAP_1   230 55
7773ER ICAO_A 6 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER ICAO_A 6 7 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_A 7 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_A 7 2 Climb MaxTakeoff FLAP_5 1 500   
7773ER ICAO_A 7 3 Climb MaxClimb FLAP_5 3 000   
7773ER ICAO_A 7 4 Accelerate_Percent MaxClimb FLAP_5   220 55
7773ER ICAO_A 7 5 Accelerate_Percent MaxClimb FLAP_1   230 55
7773ER ICAO_A 7 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER ICAO_A 7 7 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_A 8 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_A 8 2 Climb MaxTakeoff FLAP_5 1 500   
7773ER ICAO_A 8 3 Climb MaxClimb FLAP_5 3 000   
7773ER ICAO_A 8 4 Accelerate_Percent MaxClimb FLAP_5   220 55
7773ER ICAO_A 8 5 Accelerate_Percent MaxClimb FLAP_1   230 55
7773ER ICAO_A 8 6 Accelerate_Percent MaxClimb FLAP_0   255 50
7773ER ICAO_A 8 7 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_A 9 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_A 9 2 Climb MaxTakeoff FLAP_5 1 500   
7773ER ICAO_A 9 3 Climb MaxClimb FLAP_5 3 000   
7773ER ICAO_A 9 4 Accelerate_Percent MaxClimb FLAP_5   230 55
7773ER ICAO_A 9 5 Accelerate_Percent MaxClimb FLAP_1   240 55
7773ER ICAO_A 9 6 Accelerate_Percent MaxClimb FLAP_0   260 50
7773ER ICAO_A 9 7 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_B 1 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_B 1 2 Climb MaxTakeoff FLAP_5 1 434   
7773ER ICAO_B 1 3 Accelerate_Percent MaxTakeoff FLAP_5   223 55
7773ER ICAO_B 1 4 Climb MaxTakeoff FLAP_1 3 564   
7773ER ICAO_B 1 5 Accelerate_Percent MaxClimb FLAP_0   240 50
7773ER ICAO_B 1 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER ICAO_B 1 7 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_B 2 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_B 2 2 Climb MaxTakeoff FLAP_5 1 396   
7773ER ICAO_B 2 3 Accelerate_Percent MaxTakeoff FLAP_5   225 55
7773ER ICAO_B 2 4 Climb MaxTakeoff FLAP_1 3 442   
7773ER ICAO_B 2 5 Accelerate_Percent MaxClimb FLAP_0   240 50
7773ER ICAO_B 2 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER ICAO_B 2 7 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_B 3 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_B 3 2 Climb MaxTakeoff FLAP_5 1 355   
7773ER ICAO_B 3 3 Accelerate_Percent MaxTakeoff FLAP_5   228 55
7773ER ICAO_B 3 4 Climb MaxTakeoff FLAP_1 3 314   
7773ER ICAO_B 3 5 Accelerate_Percent MaxClimb FLAP_0   240 50
7773ER ICAO_B 3 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER ICAO_B 3 7 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_B 4 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_B 4 2 Climb MaxTakeoff FLAP_5 1 289   
7773ER ICAO_B 4 3 Accelerate_Percent MaxTakeoff FLAP_5   231 55
7773ER ICAO_B 4 4 Climb MaxTakeoff FLAP_1 3 104   
7773ER ICAO_B 4 5 Accelerate_Percent MaxClimb FLAP_0   240 50
7773ER ICAO_B 4 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER ICAO_B 4 7 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_B 5 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_B 5 2 Climb MaxTakeoff FLAP_5 1 214   
7773ER ICAO_B 5 3 Accelerate_Percent MaxTakeoff FLAP_5   236 55
7773ER ICAO_B 5 4 Climb MaxTakeoff FLAP_1 3 000   
7773ER ICAO_B 5 5 Accelerate_Percent MaxClimb FLAP_0   245 50
7773ER ICAO_B 5 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER ICAO_B 5 7 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_B 6 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_B 6 2 Climb MaxTakeoff FLAP_5 1 138   
7773ER ICAO_B 6 3 Accelerate_Percent MaxTakeoff FLAP_5   241 55
7773ER ICAO_B 6 4 Climb MaxTakeoff FLAP_1 3 000   
7773ER ICAO_B 6 5 Accelerate_Percent MaxClimb FLAP_0   250 50
7773ER ICAO_B 6 6 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_B 7 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_B 7 2 Climb MaxTakeoff FLAP_5 1 067   
7773ER ICAO_B 7 3 Accelerate_Percent MaxTakeoff FLAP_5   249 55
7773ER ICAO_B 7 4 Climb MaxTakeoff FLAP_1 2 451   
7773ER ICAO_B 7 5 Accelerate_Percent MaxClimb FLAP_1   250 55
7773ER ICAO_B 7 6 Climb MaxClimb FLAP_0 3 000   
7773ER ICAO_B 7 7 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_B 8 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_B 8 2 Climb MaxTakeoff FLAP_5 1 000   
7773ER ICAO_B 8 3 Accelerate_Percent MaxTakeoff FLAP_5   257 55
7773ER ICAO_B 8 4 Climb MaxTakeoff FLAP_1 2 280   
7773ER ICAO_B 8 5 Accelerate_Percent MaxClimb FLAP_1   257 55
7773ER ICAO_B 8 6 Climb MaxClimb FLAP_0 3 000   
7773ER ICAO_B 8 7 Climb MaxClimb FLAP_0 10 000   
7773ER ICAO_B 9 1 Takeoff MaxTakeoff FLAP_5    
7773ER ICAO_B 9 2 Climb MaxTakeoff FLAP_5 1 000   
7773ER ICAO_B 9 3 Accelerate_Percent MaxTakeoff FLAP_5   261 55
7773ER ICAO_B 9 4 Climb MaxTakeoff FLAP_1 2 180   
7773ER ICAO_B 9 5 Accelerate_Percent MaxClimb FLAP_1   262 55
7773ER ICAO_B 9 6 Climb MaxClimb FLAP_0 3 000   
7773ER ICAO_B 9 7 Climb MaxClimb FLAP_0 10 000   
7878R DEFAULT 1 1 Takeoff MaxTakeoff FLAP_5    
7878R DEFAULT 1 2 Climb MaxTakeoff FLAP_5 1 000   
7878R DEFAULT 1 3 Accelerate_Percent MaxClimb FLAP_5   214 55
7878R DEFAULT 1 4 Accelerate_Percent MaxClimb FLAP_1   225 55
7878R DEFAULT 1 5 Climb MaxClimb FLAP_0 3 000   
7878R DEFAULT 1 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R DEFAULT 1 7 Climb MaxClimb FLAP_0 10 000   
7878R DEFAULT 2 1 Takeoff MaxTakeoff FLAP_5    
7878R DEFAULT 2 2 Climb MaxTakeoff FLAP_5 1 000   
7878R DEFAULT 2 3 Accelerate_Percent MaxClimb FLAP_5   214 55
7878R DEFAULT 2 4 Accelerate_Percent MaxClimb FLAP_1   222 55
7878R DEFAULT 2 5 Climb MaxClimb FLAP_0 3 000   
7878R DEFAULT 2 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R DEFAULT 2 7 Climb MaxClimb FLAP_0 10 000   
7878R DEFAULT 3 1 Takeoff MaxTakeoff FLAP_5    
7878R DEFAULT 3 2 Climb MaxTakeoff FLAP_5 1 000   
7878R DEFAULT 3 3 Accelerate_Percent MaxClimb FLAP_5   215 55
7878R DEFAULT 3 4 Accelerate_Percent MaxClimb FLAP_1   230 55
7878R DEFAULT 3 5 Climb MaxClimb FLAP_0 3 000   
7878R DEFAULT 3 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R DEFAULT 3 7 Climb MaxClimb FLAP_0 10 000   
7878R DEFAULT 4 1 Takeoff MaxTakeoff FLAP_5    
7878R DEFAULT 4 2 Climb MaxTakeoff FLAP_5 1 000   
7878R DEFAULT 4 3 Accelerate_Percent MaxClimb FLAP_5   215 55
7878R DEFAULT 4 4 Accelerate_Percent MaxClimb FLAP_1   228 55
7878R DEFAULT 4 5 Climb MaxClimb FLAP_0 3 000   
7878R DEFAULT 4 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R DEFAULT 4 7 Climb MaxClimb FLAP_0 10 000   
7878R DEFAULT 5 1 Takeoff MaxTakeoff FLAP_5    
7878R DEFAULT 5 2 Climb MaxTakeoff FLAP_5 1 000   
7878R DEFAULT 5 3 Accelerate_Percent MaxClimb FLAP_5   218 55
7878R DEFAULT 5 4 Accelerate_Percent MaxClimb FLAP_1   235 55
7878R DEFAULT 5 5 Climb MaxClimb FLAP_0 3 000   
7878R DEFAULT 5 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R DEFAULT 5 7 Climb MaxClimb FLAP_0 10 000   
7878R DEFAULT 6 1 Takeoff MaxTakeoff FLAP_5    
7878R DEFAULT 6 2 Climb MaxTakeoff FLAP_5 1 000   
7878R DEFAULT 6 3 Accelerate_Percent MaxClimb FLAP_5   220 55
7878R DEFAULT 6 4 Accelerate_Percent MaxClimb FLAP_1   238 55
7878R DEFAULT 6 5 Climb MaxClimb FLAP_0 3 000   
7878R DEFAULT 6 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R DEFAULT 6 7 Climb MaxClimb FLAP_0 10 000   
7878R DEFAULT 7 1 Takeoff MaxTakeoff FLAP_5    
7878R DEFAULT 7 2 Climb MaxTakeoff FLAP_5 1 000   
7878R DEFAULT 7 3 Accelerate_Percent MaxClimb FLAP_5   224 55
7878R DEFAULT 7 4 Accelerate_Percent MaxClimb FLAP_1   243 55
7878R DEFAULT 7 5 Climb MaxClimb FLAP_0 3 000   
7878R DEFAULT 7 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R DEFAULT 7 7 Climb MaxClimb FLAP_0 10 000   
7878R DEFAULT 8 1 Takeoff MaxTakeoff FLAP_5    
7878R DEFAULT 8 2 Climb MaxTakeoff FLAP_5 1 000   
7878R DEFAULT 8 3 Accelerate_Percent MaxClimb FLAP_5   226 55
7878R DEFAULT 8 4 Accelerate_Percent MaxClimb FLAP_1   246 55
7878R DEFAULT 8 5 Climb MaxClimb FLAP_0 3 000   
7878R DEFAULT 8 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R DEFAULT 8 7 Climb MaxClimb FLAP_0 10 000   
7878R DEFAULT 9 1 Takeoff MaxTakeoff FLAP_5    
7878R DEFAULT 9 2 Climb MaxTakeoff FLAP_5 1 000   
7878R DEFAULT 9 3 Accelerate_Percent MaxClimb FLAP_5   230 55
7878R DEFAULT 9 4 Accelerate_Percent MaxClimb FLAP_1   245 55
7878R DEFAULT 9 5 Climb MaxClimb FLAP_0 3 000   
7878R DEFAULT 9 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R DEFAULT 9 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_A 1 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_A 1 2 Climb MaxTakeoff FLAP_5 1 500   
7878R ICAO_A 1 3 Climb MaxClimb FLAP_5 3 000   
7878R ICAO_A 1 4 Accelerate_Percent MaxClimb FLAP_5   220 55
7878R ICAO_A 1 5 Climb MaxClimb FLAP_1 4 500   
7878R ICAO_A 1 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_A 1 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_A 2 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_A 2 2 Climb MaxTakeoff FLAP_5 1 500   
7878R ICAO_A 2 3 Climb MaxClimb FLAP_5 3 000   
7878R ICAO_A 2 4 Accelerate_Percent MaxClimb FLAP_5   220 55
7878R ICAO_A 2 5 Climb MaxClimb FLAP_1 4 400   
7878R ICAO_A 2 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_A 2 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_A 3 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_A 3 2 Climb MaxTakeoff FLAP_5 1 500   
7878R ICAO_A 3 3 Climb MaxClimb FLAP_5 3 000   
7878R ICAO_A 3 4 Accelerate_Percent MaxClimb FLAP_5   220 55
7878R ICAO_A 3 5 Climb MaxClimb FLAP_1 4 400   
7878R ICAO_A 3 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_A 3 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_A 4 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_A 4 2 Climb MaxTakeoff FLAP_5 1 500   
7878R ICAO_A 4 3 Climb MaxClimb FLAP_5 3 000   
7878R ICAO_A 4 4 Accelerate_Percent MaxClimb FLAP_5   220 55
7878R ICAO_A 4 5 Climb MaxClimb FLAP_1 4 300   
7878R ICAO_A 4 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_A 4 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_A 5 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_A 5 2 Climb MaxTakeoff FLAP_5 1 500   
7878R ICAO_A 5 3 Climb MaxClimb FLAP_5 3 000   
7878R ICAO_A 5 4 Accelerate_Percent MaxClimb FLAP_5   224 55
7878R ICAO_A 5 5 Climb MaxClimb FLAP_1 4 200   
7878R ICAO_A 5 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_A 5 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_A 6 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_A 6 2 Climb MaxTakeoff FLAP_5 1 500   
7878R ICAO_A 6 3 Climb MaxClimb FLAP_5 3 000   
7878R ICAO_A 6 4 Accelerate_Percent MaxClimb FLAP_5   226 55
7878R ICAO_A 6 5 Climb MaxClimb FLAP_1 4 100   
7878R ICAO_A 6 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_A 6 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_A 7 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_A 7 2 Climb MaxTakeoff FLAP_5 1 500   
7878R ICAO_A 7 3 Climb MaxClimb FLAP_5 3 000   
7878R ICAO_A 7 4 Accelerate_Percent MaxClimb FLAP_5   232 55
7878R ICAO_A 7 5 Climb MaxClimb FLAP_1 4 000   
7878R ICAO_A 7 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_A 7 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_A 8 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_A 8 2 Climb MaxTakeoff FLAP_5 1 500   
7878R ICAO_A 8 3 Climb MaxClimb FLAP_5 3 000   
7878R ICAO_A 8 4 Accelerate_Percent MaxClimb FLAP_5   232 55
7878R ICAO_A 8 5 Climb MaxClimb FLAP_1 4 000   
7878R ICAO_A 8 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_A 8 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_A 9 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_A 9 2 Climb MaxTakeoff FLAP_5 1 500   
7878R ICAO_A 9 3 Climb MaxClimb FLAP_5 3 000   
7878R ICAO_A 9 4 Accelerate_Percent MaxClimb FLAP_5   235 55
7878R ICAO_A 9 5 Climb MaxClimb FLAP_1 4 000   
7878R ICAO_A 9 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_A 9 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_B 1 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_B 1 2 Climb MaxTakeoff FLAP_5 1 000   
7878R ICAO_B 1 3 Accelerate_Percent MaxTakeoff FLAP_5   220 55
7878R ICAO_B 1 4 Climb MaxTakeoff FLAP_1 2 700   
7878R ICAO_B 1 5 Climb MaxClimb FLAP_0 3 000   
7878R ICAO_B 1 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_B 1 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_B 2 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_B 2 2 Climb MaxTakeoff FLAP_5 1 000   
7878R ICAO_B 2 3 Accelerate_Percent MaxTakeoff FLAP_5   220 55
7878R ICAO_B 2 4 Climb MaxTakeoff FLAP_1 2 700   
7878R ICAO_B 2 5 Climb MaxClimb FLAP_0 3 000   
7878R ICAO_B 2 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_B 2 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_B 3 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_B 3 2 Climb MaxTakeoff FLAP_5 1 000   
7878R ICAO_B 3 3 Accelerate_Percent MaxTakeoff FLAP_5   220 55
7878R ICAO_B 3 4 Climb MaxTakeoff FLAP_1 2 700   
7878R ICAO_B 3 5 Climb MaxClimb FLAP_0 3 000   
7878R ICAO_B 3 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_B 3 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_B 4 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_B 4 2 Climb MaxTakeoff FLAP_5 1 000   
7878R ICAO_B 4 3 Accelerate_Percent MaxTakeoff FLAP_5   225 55
7878R ICAO_B 4 4 Climb MaxTakeoff FLAP_1 2 600   
7878R ICAO_B 4 5 Climb MaxClimb FLAP_0 3 000   
7878R ICAO_B 4 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_B 4 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_B 5 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_B 5 2 Climb MaxTakeoff FLAP_5 1 000   
7878R ICAO_B 5 3 Accelerate_Percent MaxTakeoff FLAP_5   230 55
7878R ICAO_B 5 4 Climb MaxTakeoff FLAP_1 2 500   
7878R ICAO_B 5 5 Climb MaxClimb FLAP_0 3 000   
7878R ICAO_B 5 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_B 5 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_B 6 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_B 6 2 Climb MaxTakeoff FLAP_5 1 000   
7878R ICAO_B 6 3 Accelerate_Percent MaxTakeoff FLAP_5   230 55
7878R ICAO_B 6 4 Climb MaxTakeoff FLAP_1 2 400   
7878R ICAO_B 6 5 Climb MaxClimb FLAP_0 3 000   
7878R ICAO_B 6 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_B 6 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_B 7 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_B 7 2 Climb MaxTakeoff FLAP_5 1 000   
7878R ICAO_B 7 3 Accelerate_Percent MaxTakeoff FLAP_5   235 55
7878R ICAO_B 7 4 Climb MaxTakeoff FLAP_1 2 200   
7878R ICAO_B 7 5 Climb MaxClimb FLAP_0 3 000   
7878R ICAO_B 7 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_B 7 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_B 8 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_B 8 2 Climb MaxTakeoff FLAP_5 1 000   
7878R ICAO_B 8 3 Accelerate_Percent MaxTakeoff FLAP_5   240 55
7878R ICAO_B 8 4 Climb MaxTakeoff FLAP_1 2 100   
7878R ICAO_B 8 5 Climb MaxClimb FLAP_0 3 000   
7878R ICAO_B 8 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_B 8 7 Climb MaxClimb FLAP_0 10 000   
7878R ICAO_B 9 1 Takeoff MaxTakeoff FLAP_5    
7878R ICAO_B 9 2 Climb MaxTakeoff FLAP_5 1 000   
7878R ICAO_B 9 3 Accelerate_Percent MaxTakeoff FLAP_5   245 55
7878R ICAO_B 9 4 Climb MaxTakeoff FLAP_1 2 100   
7878R ICAO_B 9 5 Climb MaxClimb FLAP_0 3 000   
7878R ICAO_B 9 6 Accelerate_Percent MaxClimb FLAP_0   250 50
7878R ICAO_B 9 7 Climb MaxClimb FLAP_0 10 000   
A300-622R DEFAULT 1 1 Takeoff MaxTakeoff 1 500    
A300-622R DEFAULT 1 2 Climb MaxTakeoff 1 500 1 000   
A300-622R DEFAULT 1 3 Accelerate MaxTakeoff 1 500  1 419,5 185,3 
A300-622R DEFAULT 1 4 Climb MaxClimb 0 3 000   
A300-622R DEFAULT 1 5 Accelerate MaxClimb 0  1 275 250 
A300-622R DEFAULT 1 6 Climb MaxClimb 0 5 500   
A300-622R DEFAULT 1 7 Climb MaxClimb 0 7 500   
A300-622R DEFAULT 1 8 Climb MaxClimb 0 10 000   
A300-622R DEFAULT 2 1 Takeoff MaxTakeoff 1 500    
A300-622R DEFAULT 2 2 Climb MaxTakeoff 1 500 1 000   
A300-622R DEFAULT 2 3 Accelerate MaxTakeoff 1 500  1 361,3 189,3 
A300-622R DEFAULT 2 4 Climb MaxClimb 0 3 000   
A300-622R DEFAULT 2 5 Accelerate MaxClimb 0  1 216,8 250 
A300-622R DEFAULT 2 6 Climb MaxClimb 0 5 500   
A300-622R DEFAULT 2 7 Climb MaxClimb 0 7 500   
A300-622R DEFAULT 2 8 Climb MaxClimb 0 10 000   
A300-622R DEFAULT 3 1 Takeoff MaxTakeoff 1 500    
A300-622R DEFAULT 3 2 Climb MaxTakeoff 1 500 1 000   
A300-622R DEFAULT 3 3 Accelerate MaxTakeoff 1 500  1 303,7 193,2 
A300-622R DEFAULT 3 4 Climb MaxClimb 0 3 000   
A300-622R DEFAULT 3 5 Accelerate MaxClimb 0  1 159,4 250 
A300-622R DEFAULT 3 6 Climb MaxClimb 0 5 500   
A300-622R DEFAULT 3 7 Climb MaxClimb 0 7 500   
A300-622R DEFAULT 3 8 Climb MaxClimb 0 10 000   
A300-622R DEFAULT 4 1 Takeoff MaxTakeoff 1 500    
A300-622R DEFAULT 4 2 Climb MaxTakeoff 1 500 1 000   
A300-622R DEFAULT 4 3 Accelerate MaxTakeoff 1 500  1 210,4 200,1 
A300-622R DEFAULT 4 4 Climb MaxClimb 0 3 000   
A300-622R DEFAULT 4 5 Accelerate MaxClimb 0  1 065,5 250 
A300-622R DEFAULT 4 6 Climb MaxClimb 0 5 500   
A300-622R DEFAULT 4 7 Climb MaxClimb 0 7 500   
A300-622R DEFAULT 4 8 Climb MaxClimb 0 10 000   
A300-622R DEFAULT 5 1 Takeoff MaxTakeoff 1 500    
A300-622R DEFAULT 5 2 Climb MaxTakeoff 1 500 1 000   
A300-622R DEFAULT 5 3 Accelerate MaxTakeoff 1 500  1 099,6 209,1 
A300-622R DEFAULT 5 4 Climb MaxClimb 0 3 000   
A300-622R DEFAULT 5 5 Accelerate MaxClimb 0  953,9 250 
A300-622R DEFAULT 5 6 Climb MaxClimb 0 5 500   
A300-622R DEFAULT 5 7 Climb MaxClimb 0 7 500   
A300-622R DEFAULT 5 8 Climb MaxClimb 0 10 000   
A300-622R DEFAULT 6 1 Takeoff MaxTakeoff 1 500    
A300-622R DEFAULT 6 2 Climb MaxTakeoff 1 500 1 000   
A300-622R DEFAULT 6 3 Accelerate MaxTakeoff 1 500  1 015,3 216,4 
A300-622R DEFAULT 6 4 Climb MaxClimb 0 3 000   
A300-622R DEFAULT 6 5 Accelerate MaxClimb 0  870,9 250 
A300-622R DEFAULT 6 6 Climb MaxClimb 0 5 500   
A300-622R DEFAULT 6 7 Climb MaxClimb 0 7 500   
A300-622R DEFAULT 6 8 Climb MaxClimb 0 10 000   
A300-622R ICAO_A 1 1 Takeoff MaxTakeoff 1 500    
A300-622R ICAO_A 1 2 Climb MaxTakeoff 1 500 1 500   
A300-622R ICAO_A 1 3 Climb MaxClimb 1 500 3 000   
A300-622R ICAO_A 1 4 Accelerate MaxClimb 1 500  979,6 185,2 
A300-622R ICAO_A 1 5 Accelerate MaxClimb 0  1 107,6 204,5 
A300-622R ICAO_A 1 6 Accelerate MaxClimb 0  1 303,7 250 
A300-622R ICAO_A 1 7 Climb MaxClimb 0 5 500   
A300-622R ICAO_A 1 8 Climb MaxClimb 0 7 500   
A300-622R ICAO_A 1 9 Climb MaxClimb 0 10 000   
A300-622R ICAO_A 2 1 Takeoff MaxTakeoff 1 500    
A300-622R ICAO_A 2 2 Climb MaxTakeoff 1 500 1 500   
A300-622R ICAO_A 2 3 Climb MaxClimb 1 500 3 000   
A300-622R ICAO_A 2 4 Accelerate MaxClimb 1 500  935 189,1 
A300-622R ICAO_A 2 5 Accelerate MaxClimb 0  1 059,7 207,3 
A300-622R ICAO_A 2 6 Accelerate MaxClimb 0  1 241,6 250 
A300-622R ICAO_A 2 7 Climb MaxClimb 0 5 500   
A300-622R ICAO_A 2 8 Climb MaxClimb 0 7 500   
A300-622R ICAO_A 2 9 Climb MaxClimb 0 10 000   
A300-622R ICAO_A 3 1 Takeoff MaxTakeoff 1 500    
A300-622R ICAO_A 3 2 Climb MaxTakeoff 1 500 1 500   
A300-622R ICAO_A 3 3 Climb MaxClimb 1 500 3 000   
A300-622R ICAO_A 3 4 Accelerate MaxClimb 1 500  890,5 193,1 
A300-622R ICAO_A 3 5 Accelerate MaxClimb 0  1 012,1 210,1 
A300-622R ICAO_A 3 6 Accelerate MaxClimb 0  1 180,8 250 
A300-622R ICAO_A 3 7 Climb MaxClimb 0 5 500   
A300-622R ICAO_A 3 8 Climb MaxClimb 0 7 500   
A300-622R ICAO_A 3 9 Climb MaxClimb 0 10 000   
A300-622R ICAO_A 4 1 Takeoff MaxTakeoff 1 500    
A300-622R ICAO_A 4 2 Climb MaxTakeoff 1 500 1 500   
A300-622R ICAO_A 4 3 Climb MaxClimb 1 500 3 000   
A300-622R ICAO_A 4 4 Accelerate MaxClimb 1 500  817,4 200 
A300-622R ICAO_A 4 5 Accelerate MaxClimb 0  933,4 215,2 
A300-622R ICAO_A 4 6 Accelerate MaxClimb 0  1 081,4 250 
A300-622R ICAO_A 4 7 Climb MaxClimb 0 5 500   
A300-622R ICAO_A 4 8 Climb MaxClimb 0 7 500   
A300-622R ICAO_A 4 9 Climb MaxClimb 0 10 000   
A300-622R ICAO_A 5 1 Takeoff MaxTakeoff 1 500    
A300-622R ICAO_A 5 2 Climb MaxTakeoff 1 500 1 500   
A300-622R ICAO_A 5 3 Climb MaxClimb 1 500 3 000   
A300-622R ICAO_A 5 4 Accelerate MaxClimb 1 500  729 208,9 
A300-622R ICAO_A 5 5 Accelerate MaxClimb 0  839,1 222,1 
A300-622R ICAO_A 5 6 Accelerate MaxClimb 0  963,8 250 
A300-622R ICAO_A 5 7 Climb MaxClimb 0 5 500   
A300-622R ICAO_A 5 8 Climb MaxClimb 0 7 500   
A300-622R ICAO_A 5 9 Climb MaxClimb 0 10 000   
A300-622R ICAO_A 6 1 Takeoff MaxTakeoff 1 500    
A300-622R ICAO_A 6 2 Climb MaxTakeoff 1 500 1 500   
A300-622R ICAO_A 6 3 Climb MaxClimb 1 500 3 000   
A300-622R ICAO_A 6 4 Accelerate MaxClimb 1 500  660,6 216,3 
A300-622R ICAO_A 6 5 Accelerate MaxClimb 0  765,7 227,9 
A300-622R ICAO_A 6 6 Accelerate MaxClimb 0  876,5 250 
A300-622R ICAO_A 6 7 Climb MaxClimb 0 5 500   
A300-622R ICAO_A 6 8 Climb MaxClimb 0 7 500   
A300-622R ICAO_A 6 9 Climb MaxClimb 0 10 000   
A300-622R ICAO_B 1 1 Takeoff MaxTakeoff 1 500    
A300-622R ICAO_B 1 2 Climb MaxTakeoff 1 500 1 000   
A300-622R ICAO_B 1 3 Accelerate MaxTakeoff 1 500  1 419,5 185,3 
A300-622R ICAO_B 1 4 Climb MaxClimb 0 3 000   
A300-622R ICAO_B 1 5 Accelerate MaxClimb 0  1 275 250 
A300-622R ICAO_B 1 6 Climb MaxClimb 0 5 500   
A300-622R ICAO_B 1 7 Climb MaxClimb 0 7 500   
A300-622R ICAO_B 1 8 Climb MaxClimb 0 10 000   
A300-622R ICAO_B 2 1 Takeoff MaxTakeoff 1 500    
A300-622R ICAO_B 2 2 Climb MaxTakeoff 1 500 1 000   
A300-622R ICAO_B 2 3 Accelerate MaxTakeoff 1 500  1 361,3 189,3 
A300-622R ICAO_B 2 4 Climb MaxClimb 0 3 000   
A300-622R ICAO_B 2 5 Accelerate MaxClimb 0  1 216,8 250 
A300-622R ICAO_B 2 6 Climb MaxClimb 0 5 500   
A300-622R ICAO_B 2 7 Climb MaxClimb 0 7 500   
A300-622R ICAO_B 2 8 Climb MaxClimb 0 10 000   
A300-622R ICAO_B 3 1 Takeoff MaxTakeoff 1 500    
A300-622R ICAO_B 3 2 Climb MaxTakeoff 1 500 1 000   
A300-622R ICAO_B 3 3 Accelerate MaxTakeoff 1 500  1 303,7 193,2 
A300-622R ICAO_B 3 4 Climb MaxClimb 0 3 000   
A300-622R ICAO_B 3 5 Accelerate MaxClimb 0  1 159,4 250 
A300-622R ICAO_B 3 6 Climb MaxClimb 0 5 500   
A300-622R ICAO_B 3 7 Climb MaxClimb 0 7 500   
A300-622R ICAO_B 3 8 Climb MaxClimb 0 10 000   
A300-622R ICAO_B 4 1 Takeoff MaxTakeoff 1 500    
A300-622R ICAO_B 4 2 Climb MaxTakeoff 1 500 1 000   
A300-622R ICAO_B 4 3 Accelerate MaxTakeoff 1 500  1 210,4 200,1 
A300-622R ICAO_B 4 4 Climb MaxClimb 0 3 000   
A300-622R ICAO_B 4 5 Accelerate MaxClimb 0  1 065,5 250 
A300-622R ICAO_B 4 6 Climb MaxClimb 0 5 500   
A300-622R ICAO_B 4 7 Climb MaxClimb 0 7 500   
A300-622R ICAO_B 4 8 Climb MaxClimb 0 10 000   
A300-622R ICAO_B 5 1 Takeoff MaxTakeoff 1 500    
A300-622R ICAO_B 5 2 Climb MaxTakeoff 1 500 1 000   
A300-622R ICAO_B 5 3 Accelerate MaxTakeoff 1 500  1 099,6 209,1 
A300-622R ICAO_B 5 4 Climb MaxClimb 0 3 000   
A300-622R ICAO_B 5 5 Accelerate MaxClimb 0  953,9 250 
A300-622R ICAO_B 5 6 Climb MaxClimb 0 5 500   
A300-622R ICAO_B 5 7 Climb MaxClimb 0 7 500   
A300-622R ICAO_B 5 8 Climb MaxClimb 0 10 000   
A300-622R ICAO_B 6 1 Takeoff MaxTakeoff 1 500    
A300-622R ICAO_B 6 2 Climb MaxTakeoff 1 500 1 000   
A300-622R ICAO_B 6 3 Accelerate MaxTakeoff 1 500  1 015,3 216,4 
A300-622R ICAO_B 6 4 Climb MaxClimb 0 3 000   
A300-622R ICAO_B 6 5 Accelerate MaxClimb 0  870,9 250 
A300-622R ICAO_B 6 6 Climb MaxClimb 0 5 500   
A300-622R ICAO_B 6 7 Climb MaxClimb 0 7 500   
A300-622R ICAO_B 6 8 Climb MaxClimb 0 10 000   
A300B4-203 DEFAULT 1 1 Takeoff MaxTakeoff 8    
A300B4-203 DEFAULT 1 2 Climb MaxTakeoff 8 1 000   
A300B4-203 DEFAULT 1 3 Accelerate MaxTakeoff 8  2 440 169 
A300B4-203 DEFAULT 1 4 Accelerate MaxTakeoff 1  1 830 189 
A300B4-203 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 209 
A300B4-203 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
A300B4-203 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
A300B4-203 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
A300B4-203 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
A300B4-203 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
A300B4-203 DEFAULT 2 1 Takeoff MaxTakeoff 8    
A300B4-203 DEFAULT 2 2 Climb MaxTakeoff 8 1 000   
A300B4-203 DEFAULT 2 3 Accelerate MaxTakeoff 8  2 268 174 
A300B4-203 DEFAULT 2 4 Accelerate MaxTakeoff 1  1 701 194 
A300B4-203 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 214 
A300B4-203 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
A300B4-203 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
A300B4-203 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
A300B4-203 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
A300B4-203 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
A300B4-203 DEFAULT 3 1 Takeoff MaxTakeoff 8    
A300B4-203 DEFAULT 3 2 Climb MaxTakeoff 8 1 000   
A300B4-203 DEFAULT 3 3 Accelerate MaxTakeoff 8  2 137 178 
A300B4-203 DEFAULT 3 4 Accelerate MaxTakeoff 1  1 603 198 
A300B4-203 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 218 
A300B4-203 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
A300B4-203 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
A300B4-203 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
A300B4-203 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
A300B4-203 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
A300B4-203 DEFAULT 4 1 Takeoff MaxTakeoff 8    
A300B4-203 DEFAULT 4 2 Climb MaxTakeoff 8 1 000   
A300B4-203 DEFAULT 4 3 Accelerate MaxTakeoff 8  1 912 186 
A300B4-203 DEFAULT 4 4 Accelerate MaxTakeoff 1  1 434 206 
A300B4-203 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 226 
A300B4-203 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
A300B4-203 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
A300B4-203 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
A300B4-203 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
A300B4-203 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
A300B4-203 DEFAULT 5 1 Takeoff MaxTakeoff 8    
A300B4-203 DEFAULT 5 2 Climb MaxTakeoff 8 1 000   
A300B4-203 DEFAULT 5 3 Accelerate MaxTakeoff 8  1 688 194 
A300B4-203 DEFAULT 5 4 Accelerate MaxTakeoff 1  1 266 214 
A300B4-203 DEFAULT 5 5 Accelerate MaxClimb ZERO  1 000 234 
A300B4-203 DEFAULT 5 6 Climb MaxClimb ZERO 3 000   
A300B4-203 DEFAULT 5 7 Accelerate MaxClimb ZERO  1 000 250 
A300B4-203 DEFAULT 5 8 Climb MaxClimb ZERO 5 500   
A300B4-203 DEFAULT 5 9 Climb MaxClimb ZERO 7 500   
A300B4-203 DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
A310-304 DEFAULT 1 1 Takeoff MaxTakeoff 1 500    
A310-304 DEFAULT 1 2 Climb MaxTakeoff 1 500 1 000   
A310-304 DEFAULT 1 3 Accelerate MaxTakeoff 1 500  1 475,7 179,5 
A310-304 DEFAULT 1 4 Climb MaxClimb 0 3 000   
A310-304 DEFAULT 1 5 Accelerate MaxClimb 0  1 454,9 250 
A310-304 DEFAULT 1 6 Climb MaxClimb 0 5 500   
A310-304 DEFAULT 1 7 Climb MaxClimb 0 7 500   
A310-304 DEFAULT 1 8 Climb MaxClimb 0 10 000   
A310-304 DEFAULT 2 1 Takeoff MaxTakeoff 1 500    
A310-304 DEFAULT 2 2 Climb MaxTakeoff 1 500 1 000   
A310-304 DEFAULT 2 3 Accelerate MaxTakeoff 1 500  1 415,7 183 
A310-304 DEFAULT 2 4 Climb MaxClimb 0 3 000   
A310-304 DEFAULT 2 5 Accelerate MaxClimb 0  1 392,7 250 
A310-304 DEFAULT 2 6 Climb MaxClimb 0 5 500   
A310-304 DEFAULT 2 7 Climb MaxClimb 0 7 500   
A310-304 DEFAULT 2 8 Climb MaxClimb 0 10 000   
A310-304 DEFAULT 3 1 Takeoff MaxTakeoff 1 500    
A310-304 DEFAULT 3 2 Climb MaxTakeoff 1 500 1 000   
A310-304 DEFAULT 3 3 Accelerate MaxTakeoff 1 500  1 357 186,6 
A310-304 DEFAULT 3 4 Climb MaxClimb 0 3 000   
A310-304 DEFAULT 3 5 Accelerate MaxClimb 0  1 332,3 250 
A310-304 DEFAULT 3 6 Climb MaxClimb 0 5 500   
A310-304 DEFAULT 3 7 Climb MaxClimb 0 7 500   
A310-304 DEFAULT 3 8 Climb MaxClimb 0 10 000   
A310-304 DEFAULT 4 1 Takeoff MaxTakeoff 1 500    
A310-304 DEFAULT 4 2 Climb MaxTakeoff 1 500 1 000   
A310-304 DEFAULT 4 3 Accelerate MaxTakeoff 1 500  1 262,8 192,8 
A310-304 DEFAULT 4 4 Climb MaxClimb 0 3 000   
A310-304 DEFAULT 4 5 Accelerate MaxClimb 0  1 234,1 250 
A310-304 DEFAULT 4 6 Climb MaxClimb 0 5 500   
A310-304 DEFAULT 4 7 Climb MaxClimb 0 7 500   
A310-304 DEFAULT 4 8 Climb MaxClimb 0 10 000   
A310-304 DEFAULT 5 1 Takeoff MaxTakeoff 1 500    
A310-304 DEFAULT 5 2 Climb MaxTakeoff 1 500 1 000   
A310-304 DEFAULT 5 3 Accelerate MaxTakeoff 1 500  1 151,8 200,9 
A310-304 DEFAULT 5 4 Climb MaxClimb 0 3 000   
A310-304 DEFAULT 5 5 Accelerate MaxClimb 0  1 117,9 250 
A310-304 DEFAULT 5 6 Climb MaxClimb 0 5 500   
A310-304 DEFAULT 5 7 Climb MaxClimb 0 7 500   
A310-304 DEFAULT 5 8 Climb MaxClimb 0 10 000   
A310-304 DEFAULT 6 1 Takeoff MaxTakeoff 1 500    
A310-304 DEFAULT 6 2 Climb MaxTakeoff 1 500 1 000   
A310-304 DEFAULT 6 3 Accelerate MaxTakeoff 1 500  990,5 214,3 
A310-304 DEFAULT 6 4 Climb MaxClimb 0 3 000   
A310-304 DEFAULT 6 5 Accelerate MaxClimb 0  944,8 250 
A310-304 DEFAULT 6 6 Climb MaxClimb 0 5 500   
A310-304 DEFAULT 6 7 Climb MaxClimb 0 7 500   
A310-304 DEFAULT 6 8 Climb MaxClimb 0 10 000   
A310-304 ICAO_A 1 1 Takeoff MaxTakeoff 1 500    
A310-304 ICAO_A 1 2 Climb MaxTakeoff 1 500 1 500   
A310-304 ICAO_A 1 3 Climb MaxClimb 1 500 3 000   
A310-304 ICAO_A 1 4 Accelerate MaxClimb 1 500  1 167,6 179,4 
A310-304 ICAO_A 1 5 Accelerate MaxClimb 0  1 273,6 200,4 
A310-304 ICAO_A 1 6 Accelerate MaxClimb 0  1 496,6 250 
A310-304 ICAO_A 1 7 Climb MaxClimb 0 5 500   
A310-304 ICAO_A 1 8 Climb MaxClimb 0 7 500   
A310-304 ICAO_A 1 9 Climb MaxClimb 0 10 000   
A310-304 ICAO_A 2 1 Takeoff MaxTakeoff 1 500    
A310-304 ICAO_A 2 2 Climb MaxTakeoff 1 500 1 500   
A310-304 ICAO_A 2 3 Climb MaxClimb 1 500 3 000   
A310-304 ICAO_A 2 4 Accelerate MaxClimb 1 500  1 115,8 182,9 
A310-304 ICAO_A 2 5 Accelerate MaxClimb 0  1 222,3 202,8 
A310-304 ICAO_A 2 6 Accelerate MaxClimb 0  1 430,5 250 
A310-304 ICAO_A 2 7 Climb MaxClimb 0 5 500   
A310-304 ICAO_A 2 8 Climb MaxClimb 0 7 500   
A310-304 ICAO_A 2 9 Climb MaxClimb 0 10 000   
A310-304 ICAO_A 3 1 Takeoff MaxTakeoff 1 500    
A310-304 ICAO_A 3 2 Climb MaxTakeoff 1 500 1 500   
A310-304 ICAO_A 3 3 Climb MaxClimb 1 500 3 000   
A310-304 ICAO_A 3 4 Accelerate MaxClimb 1 500  1 065,4 186,5 
A310-304 ICAO_A 3 5 Accelerate MaxClimb 0  1 172,6 205,3 
A310-304 ICAO_A 3 6 Accelerate MaxClimb 0  1 366,6 250 
A310-304 ICAO_A 3 7 Climb MaxClimb 0 5 500   
A310-304 ICAO_A 3 8 Climb MaxClimb 0 7 500   
A310-304 ICAO_A 3 9 Climb MaxClimb 0 10 000   
A310-304 ICAO_A 4 1 Takeoff MaxTakeoff 1 500    
A310-304 ICAO_A 4 2 Climb MaxTakeoff 1 500 1 500   
A310-304 ICAO_A 4 3 Climb MaxClimb 1 500 3 000   
A310-304 ICAO_A 4 4 Accelerate MaxClimb 1 500  984,3 192,7 
A310-304 ICAO_A 4 5 Accelerate MaxClimb 0  1 091,4 209,7 
A310-304 ICAO_A 4 6 Accelerate MaxClimb 0  1 262,9 250 
A310-304 ICAO_A 4 7 Climb MaxClimb 0 5 500   
A310-304 ICAO_A 4 8 Climb MaxClimb 0 7 500   
A310-304 ICAO_A 4 9 Climb MaxClimb 0 10 000   
A310-304 ICAO_A 5 1 Takeoff MaxTakeoff 1 500    
A310-304 ICAO_A 5 2 Climb MaxTakeoff 1 500 1 500   
A310-304 ICAO_A 5 3 Climb MaxClimb 1 500 3 000   
A310-304 ICAO_A 5 4 Accelerate MaxClimb 1 500  888,4 200,8 
A310-304 ICAO_A 5 5 Accelerate MaxClimb 0  994,5 215,7 
A310-304 ICAO_A 5 6 Accelerate MaxClimb 0  1 140,7 250 
A310-304 ICAO_A 5 7 Climb MaxClimb 0 5 500   
A310-304 ICAO_A 5 8 Climb MaxClimb 0 7 500   
A310-304 ICAO_A 5 9 Climb MaxClimb 0 10 000   
A310-304 ICAO_A 6 1 Takeoff MaxTakeoff 1 500    
A310-304 ICAO_A 6 2 Climb MaxTakeoff 1 500 1 500   
A310-304 ICAO_A 6 3 Climb MaxClimb 1 500 3 000   
A310-304 ICAO_A 6 4 Accelerate MaxClimb 1 500  747,4 214,2 
A310-304 ICAO_A 6 5 Accelerate MaxClimb 0  848,6 226,2 
A310-304 ICAO_A 6 6 Accelerate MaxClimb 0  959,5 250 
A310-304 ICAO_A 6 7 Climb MaxClimb 0 5 500   
A310-304 ICAO_A 6 8 Climb MaxClimb 0 7 500   
A310-304 ICAO_A 6 9 Climb MaxClimb 0 10 000   
A310-304 ICAO_B 1 1 Takeoff MaxTakeoff 1 500    
A310-304 ICAO_B 1 2 Climb MaxTakeoff 1 500 1 000   
A310-304 ICAO_B 1 3 Accelerate MaxTakeoff 1 500  1 475,7 179,5 
A310-304 ICAO_B 1 4 Climb MaxClimb 0 3 000   
A310-304 ICAO_B 1 5 Accelerate MaxClimb 0  1 454,9 250 
A310-304 ICAO_B 1 6 Climb MaxClimb 0 5 500   
A310-304 ICAO_B 1 7 Climb MaxClimb 0 7 500   
A310-304 ICAO_B 1 8 Climb MaxClimb 0 10 000   
A310-304 ICAO_B 2 1 Takeoff MaxTakeoff 1 500    
A310-304 ICAO_B 2 2 Climb MaxTakeoff 1 500 1 000   
A310-304 ICAO_B 2 3 Accelerate MaxTakeoff 1 500  1 415,7 183 
A310-304 ICAO_B 2 4 Climb MaxClimb 0 3 000   
A310-304 ICAO_B 2 5 Accelerate MaxClimb 0  1 392,7 250 
A310-304 ICAO_B 2 6 Climb MaxClimb 0 5 500   
A310-304 ICAO_B 2 7 Climb MaxClimb 0 7 500   
A310-304 ICAO_B 2 8 Climb MaxClimb 0 10 000   
A310-304 ICAO_B 3 1 Takeoff MaxTakeoff 1 500    
A310-304 ICAO_B 3 2 Climb MaxTakeoff 1 500 1 000   
A310-304 ICAO_B 3 3 Accelerate MaxTakeoff 1 500  1 357 186,6 
A310-304 ICAO_B 3 4 Climb MaxClimb 0 3 000   
A310-304 ICAO_B 3 5 Accelerate MaxClimb 0  1 332,3 250 
A310-304 ICAO_B 3 6 Climb MaxClimb 0 5 500   
A310-304 ICAO_B 3 7 Climb MaxClimb 0 7 500   
A310-304 ICAO_B 3 8 Climb MaxClimb 0 10 000   
A310-304 ICAO_B 4 1 Takeoff MaxTakeoff 1 500    
A310-304 ICAO_B 4 2 Climb MaxTakeoff 1 500 1 000   
A310-304 ICAO_B 4 3 Accelerate MaxTakeoff 1 500  1 262,8 192,8 
A310-304 ICAO_B 4 4 Climb MaxClimb 0 3 000   
A310-304 ICAO_B 4 5 Accelerate MaxClimb 0  1 234,1 250 
A310-304 ICAO_B 4 6 Climb MaxClimb 0 5 500   
A310-304 ICAO_B 4 7 Climb MaxClimb 0 7 500   
A310-304 ICAO_B 4 8 Climb MaxClimb 0 10 000   
A310-304 ICAO_B 5 1 Takeoff MaxTakeoff 1 500    
A310-304 ICAO_B 5 2 Climb MaxTakeoff 1 500 1 000   
A310-304 ICAO_B 5 3 Accelerate MaxTakeoff 1 500  1 151,8 200,9 
A310-304 ICAO_B 5 4 Climb MaxClimb 0 3 000   
A310-304 ICAO_B 5 5 Accelerate MaxClimb 0  1 117,9 250 
A310-304 ICAO_B 5 6 Climb MaxClimb 0 5 500   
A310-304 ICAO_B 5 7 Climb MaxClimb 0 7 500   
A310-304 ICAO_B 5 8 Climb MaxClimb 0 10 000   
A310-304 ICAO_B 6 1 Takeoff MaxTakeoff 1 500    
A310-304 ICAO_B 6 2 Climb MaxTakeoff 1 500 1 000   
A310-304 ICAO_B 6 3 Accelerate MaxTakeoff 1 500  990,5 214,3 
A310-304 ICAO_B 6 4 Climb MaxClimb 0 3 000   
A310-304 ICAO_B 6 5 Accelerate MaxClimb 0  944,8 250 
A310-304 ICAO_B 6 6 Climb MaxClimb 0 5 500   
A310-304 ICAO_B 6 7 Climb MaxClimb 0 7 500   
A310-304 ICAO_B 6 8 Climb MaxClimb 0 10 000   
A319-131 DEFAULT 1 1 Takeoff MaxTakeoff 1+F    
A319-131 DEFAULT 1 2 Climb MaxTakeoff 1+F 1 000   
A319-131 DEFAULT 1 3 Accelerate MaxTakeoff 1+F  1 042,6 181,6 
A319-131 DEFAULT 1 4 Accelerate MaxTakeoff 1  1 177,5 200,7 
A319-131 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
A319-131 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 320,8 250 
A319-131 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
A319-131 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
A319-131 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
A319-131 DEFAULT 2 1 Takeoff MaxTakeoff 1+F    
A319-131 DEFAULT 2 2 Climb MaxTakeoff 1+F 1 000   
A319-131 DEFAULT 2 3 Accelerate MaxTakeoff 1+F  997,1 185,3 
A319-131 DEFAULT 2 4 Accelerate MaxTakeoff 1  1 128,9 203,3 
A319-131 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
A319-131 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 264 250 
A319-131 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
A319-131 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
A319-131 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
A319-131 DEFAULT 3 1 Takeoff MaxTakeoff 1+F    
A319-131 DEFAULT 3 2 Climb MaxTakeoff 1+F 1 000   
A319-131 DEFAULT 3 3 Accelerate MaxTakeoff 1+F  952,7 189 
A319-131 DEFAULT 3 4 Accelerate MaxTakeoff 1  1 081 206 
A319-131 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
A319-131 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 208,7 250 
A319-131 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
A319-131 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
A319-131 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
A319-131 DEFAULT 4 1 Takeoff MaxTakeoff 1+F    
A319-131 DEFAULT 4 2 Climb MaxTakeoff 1+F 1 000   
A319-131 DEFAULT 4 3 Accelerate MaxTakeoff 1+F  880,8 195,6 
A319-131 DEFAULT 4 4 Accelerate MaxTakeoff 1  1 001,7 210,8 
A319-131 DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
A319-131 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 119,6 250 
A319-131 DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
A319-131 DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
A319-131 DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
A319-131 DEFAULT 5 1 Takeoff MaxTakeoff 1+F    
A319-131 DEFAULT 5 2 Accelerate MaxTakeoff 1+F  735,2 169,7 
A319-131 DEFAULT 5 3 Climb MaxTakeoff 1+F 1 000   
A319-131 DEFAULT 5 4 Accelerate MaxTakeoff 1+F  793,4 208,8 
A319-131 DEFAULT 5 5 Accelerate MaxTakeoff ZERO  860 221,2 
A319-131 DEFAULT 5 6 Climb MaxClimb ZERO 3 000   
A319-131 DEFAULT 5 7 Accelerate MaxClimb ZERO  964,2 250 
A319-131 DEFAULT 5 8 Climb MaxClimb ZERO 5 500   
A319-131 DEFAULT 5 9 Climb MaxClimb ZERO 7 500   
A319-131 DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
A319-131 ICAO_A 1 1 Takeoff MaxTakeoff 1+F    
A319-131 ICAO_A 1 2 Climb MaxTakeoff 1+F 1 500   
A319-131 ICAO_A 1 3 Climb MaxClimb 1+F 3 000   
A319-131 ICAO_A 1 4 Accelerate MaxClimb 1+F  822,7 181,4 
A319-131 ICAO_A 1 5 Accelerate MaxClimb 1  972,3 196,5 
A319-131 ICAO_A 1 6 Accelerate MaxClimb ZERO  1 162,8 223,8 
A319-131 ICAO_A 1 7 Accelerate MaxClimb ZERO  1 374,2 250 
A319-131 ICAO_A 1 8 Climb MaxClimb ZERO 5 500   
A319-131 ICAO_A 1 9 Climb MaxClimb ZERO 7 500   
A319-131 ICAO_A 1 10 Climb MaxClimb ZERO 10 000   
A319-131 ICAO_A 2 1 Takeoff MaxTakeoff 1+F    
A319-131 ICAO_A 2 2 Climb MaxTakeoff 1+F 1 500   
A319-131 ICAO_A 2 3 Climb MaxClimb 1+F 3 000   
A319-131 ICAO_A 2 4 Accelerate MaxClimb 1+F  786,5 185,2 
A319-131 ICAO_A 2 5 Accelerate MaxClimb 1  935,4 199,4 
A319-131 ICAO_A 2 6 Accelerate MaxClimb ZERO  1 115,9 225,3 
A319-131 ICAO_A 2 7 Accelerate MaxClimb ZERO  1 312,1 250 
A319-131 ICAO_A 2 8 Climb MaxClimb ZERO 5 500   
A319-131 ICAO_A 2 9 Climb MaxClimb ZERO 7 500   
A319-131 ICAO_A 2 10 Climb MaxClimb ZERO 10 000   
A319-131 ICAO_A 3 1 Takeoff MaxTakeoff 1+F    
A319-131 ICAO_A 3 2 Climb MaxTakeoff 1+F 1 500   
A319-131 ICAO_A 3 3 Climb MaxClimb 1+F 3 000   
A319-131 ICAO_A 3 4 Accelerate MaxClimb 1+F  751,1 188,9 
A319-131 ICAO_A 3 5 Accelerate MaxClimb 1  899,4 202,4 
A319-131 ICAO_A 3 6 Accelerate MaxClimb ZERO  1 070,2 226,9 
A319-131 ICAO_A 3 7 Accelerate MaxClimb ZERO  1 252 250 
A319-131 ICAO_A 3 8 Climb MaxClimb ZERO 5 500   
A319-131 ICAO_A 3 9 Climb MaxClimb ZERO 7 500   
A319-131 ICAO_A 3 10 Climb MaxClimb ZERO 10 000   
A319-131 ICAO_A 4 1 Takeoff MaxTakeoff 1+F    
A319-131 ICAO_A 4 2 Climb MaxTakeoff 1+F 1 500   
A319-131 ICAO_A 4 3 Climb MaxClimb 1+F 3 000   
A319-131 ICAO_A 4 4 Accelerate MaxClimb 1+F  693,7 195,4 
A319-131 ICAO_A 4 5 Accelerate MaxClimb 1  840,2 207,6 
A319-131 ICAO_A 4 6 Accelerate MaxClimb ZERO  996,8 230 
A319-131 ICAO_A 4 7 Accelerate MaxClimb ZERO  1 155,3 250 
A319-131 ICAO_A 4 8 Climb MaxClimb ZERO 5 500   
A319-131 ICAO_A 4 9 Climb MaxClimb ZERO 7 500   
A319-131 ICAO_A 4 10 Climb MaxClimb ZERO 10 000   
A319-131 ICAO_A 5 1 Takeoff MaxTakeoff 1+F    
A319-131 ICAO_A 5 2 Accelerate MaxTakeoff 1+F  735,2 169,7 
A319-131 ICAO_A 5 3 Climb MaxTakeoff 1+F 1 500   
A319-131 ICAO_A 5 4 Climb MaxClimb 1+F 3 000   
A319-131 ICAO_A 5 5 Accelerate MaxClimb 1+F  637,2 208,7 
A319-131 ICAO_A 5 6 Accelerate MaxClimb 1  733,4 218,7 
A319-131 ICAO_A 5 7 Accelerate MaxClimb ZERO  869,2 237,4 
A319-131 ICAO_A 5 8 Accelerate MaxClimb ZERO  987,8 250 
A319-131 ICAO_A 5 9 Climb MaxClimb ZERO 5 500   
A319-131 ICAO_A 5 10 Climb MaxClimb ZERO 7 500   
A319-131 ICAO_A 5 11 Climb MaxClimb ZERO 10 000   
A319-131 ICAO_B 1 1 Takeoff MaxTakeoff 1+F    
A319-131 ICAO_B 1 2 Climb MaxTakeoff 1+F 1 000   
A319-131 ICAO_B 1 3 Accelerate MaxTakeoff 1+F  1 042,6 181,6 
A319-131 ICAO_B 1 4 Accelerate MaxTakeoff 1  1 177,5 200,7 
A319-131 ICAO_B 1 5 Climb MaxClimb ZERO 3 000   
A319-131 ICAO_B 1 6 Accelerate MaxClimb ZERO  1 320,8 250 
A319-131 ICAO_B 1 7 Climb MaxClimb ZERO 5 500   
A319-131 ICAO_B 1 8 Climb MaxClimb ZERO 7 500   
A319-131 ICAO_B 1 9 Climb MaxClimb ZERO 10 000   
A319-131 ICAO_B 2 1 Takeoff MaxTakeoff 1+F    
A319-131 ICAO_B 2 2 Climb MaxTakeoff 1+F 1 000   
A319-131 ICAO_B 2 3 Accelerate MaxTakeoff 1+F  997,1 185,3 
A319-131 ICAO_B 2 4 Accelerate MaxTakeoff 1  1 128,9 203,3 
A319-131 ICAO_B 2 5 Climb MaxClimb ZERO 3 000   
A319-131 ICAO_B 2 6 Accelerate MaxClimb ZERO  1 264 250 
A319-131 ICAO_B 2 7 Climb MaxClimb ZERO 5 500   
A319-131 ICAO_B 2 8 Climb MaxClimb ZERO 7 500   
A319-131 ICAO_B 2 9 Climb MaxClimb ZERO 10 000   
A319-131 ICAO_B 3 1 Takeoff MaxTakeoff 1+F    
A319-131 ICAO_B 3 2 Climb MaxTakeoff 1+F 1 000   
A319-131 ICAO_B 3 3 Accelerate MaxTakeoff 1+F  952,7 189 
A319-131 ICAO_B 3 4 Accelerate MaxTakeoff 1  1 081 206 
A319-131 ICAO_B 3 5 Climb MaxClimb ZERO 3 000   
A319-131 ICAO_B 3 6 Accelerate MaxClimb ZERO  1 208,7 250 
A319-131 ICAO_B 3 7 Climb MaxClimb ZERO 5 500   
A319-131 ICAO_B 3 8 Climb MaxClimb ZERO 7 500   
A319-131 ICAO_B 3 9 Climb MaxClimb ZERO 10 000   
A319-131 ICAO_B 4 1 Takeoff MaxTakeoff 1+F    
A319-131 ICAO_B 4 2 Climb MaxTakeoff 1+F 1 000   
A319-131 ICAO_B 4 3 Accelerate MaxTakeoff 1+F  880,8 195,6 
A319-131 ICAO_B 4 4 Accelerate MaxTakeoff 1  1 001,7 210,8 
A319-131 ICAO_B 4 5 Climb MaxClimb ZERO 3 000   
A319-131 ICAO_B 4 6 Accelerate MaxClimb ZERO  1 119,6 250 
A319-131 ICAO_B 4 7 Climb MaxClimb ZERO 5 500   
A319-131 ICAO_B 4 8 Climb MaxClimb ZERO 7 500   
A319-131 ICAO_B 4 9 Climb MaxClimb ZERO 10 000   
A319-131 ICAO_B 5 1 Takeoff MaxTakeoff 1+F    
A319-131 ICAO_B 5 2 Accelerate MaxTakeoff 1+F  735,2 169,7 
A319-131 ICAO_B 5 3 Climb MaxTakeoff 1+F 1 000   
A319-131 ICAO_B 5 4 Accelerate MaxTakeoff 1+F  793,4 208,8 
A319-131 ICAO_B 5 5 Accelerate MaxTakeoff ZERO  860 221,2 
A319-131 ICAO_B 5 6 Climb MaxClimb ZERO 3 000   
A319-131 ICAO_B 5 7 Accelerate MaxClimb ZERO  964,2 250 
A319-131 ICAO_B 5 8 Climb MaxClimb ZERO 5 500   
A319-131 ICAO_B 5 9 Climb MaxClimb ZERO 7 500   
A319-131 ICAO_B 5 10 Climb MaxClimb ZERO 10 000   
A320-211 DEFAULT 1 1 Takeoff MaxTakeoff 1+F    
A320-211 DEFAULT 1 2 Climb MaxTakeoff 1+F 1 000   
A320-211 DEFAULT 1 3 Accelerate MaxTakeoff 1+F  1 150,5 186,2 
A320-211 DEFAULT 1 4 Accelerate MaxTakeoff 1  1 300,7 208,1 
A320-211 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
A320-211 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 230,7 250 
A320-211 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
A320-211 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
A320-211 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
A320-211 DEFAULT 2 1 Takeoff MaxTakeoff 1+F    
A320-211 DEFAULT 2 2 Climb MaxTakeoff 1+F 1 000   
A320-211 DEFAULT 2 3 Accelerate MaxTakeoff 1+F  1 098,5 190,2 
A320-211 DEFAULT 2 4 Accelerate MaxTakeoff 1  1 243,7 210,7 
A320-211 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
A320-211 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 171 250 
A320-211 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
A320-211 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
A320-211 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
A320-211 DEFAULT 3 1 Takeoff MaxTakeoff 1+F    
A320-211 DEFAULT 3 2 Climb MaxTakeoff 1+F 1 000   
A320-211 DEFAULT 3 3 Accelerate MaxTakeoff 1+F  1 049,6 194,3 
A320-211 DEFAULT 3 4 Accelerate MaxTakeoff 1  1 189,2 213,5 
A320-211 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
A320-211 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 113,9 250 
A320-211 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
A320-211 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
A320-211 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
A320-211 DEFAULT 4 1 Takeoff MaxTakeoff 1+F    
A320-211 DEFAULT 4 2 Climb MaxTakeoff 1+F 1 000   
A320-211 DEFAULT 4 3 Accelerate MaxTakeoff 1+F  972,6 201,4 
A320-211 DEFAULT 4 4 Accelerate MaxTakeoff 1  1 101 218,7 
A320-211 DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
A320-211 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 021 250 
A320-211 DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
A320-211 DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
A320-211 DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
A320-211 DEFAULT 5 1 Takeoff MaxTakeoff 1+F    
A320-211 DEFAULT 5 2 Climb MaxTakeoff 1+F 1 000   
A320-211 DEFAULT 5 3 Accelerate MaxTakeoff 1+F  933,1 205,1 
A320-211 DEFAULT 5 4 Accelerate MaxTakeoff 1  1 056 221,4 
A320-211 DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
A320-211 DEFAULT 5 6 Accelerate MaxClimb ZERO  973,2 250 
A320-211 DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
A320-211 DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
A320-211 DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
A320-211 ICAO_A 1 1 Takeoff MaxTakeoff 1+F    
A320-211 ICAO_A 1 2 Climb MaxTakeoff 1+F 1 500   
A320-211 ICAO_A 1 3 Climb MaxClimb 1+F 3 000   
A320-211 ICAO_A 1 4 Accelerate MaxClimb 1+F  812,1 186,1 
A320-211 ICAO_A 1 5 Accelerate MaxClimb 1  933,5 201,2 
A320-211 ICAO_A 1 6 Accelerate MaxClimb ZERO  1 119,7 228,2 
A320-211 ICAO_A 1 7 Accelerate MaxClimb ZERO  1 240,5 250 
A320-211 ICAO_A 1 8 Climb MaxClimb ZERO 5 500   
A320-211 ICAO_A 1 9 Climb MaxClimb ZERO 7 500   
A320-211 ICAO_A 1 10 Climb MaxClimb ZERO 10 000   
A320-211 ICAO_A 2 1 Takeoff MaxTakeoff 1+F    
A320-211 ICAO_A 2 2 Climb MaxTakeoff 1+F 1 500   
A320-211 ICAO_A 2 3 Climb MaxClimb 1+F 3 000   
A320-211 ICAO_A 2 4 Accelerate MaxClimb 1+F  769,5 190,1 
A320-211 ICAO_A 2 5 Accelerate MaxClimb 1  899,8 204,3 
A320-211 ICAO_A 2 6 Accelerate MaxClimb ZERO  1 069,9 229,9 
A320-211 ICAO_A 2 7 Accelerate MaxClimb ZERO  1 176,4 250 
A320-211 ICAO_A 2 8 Climb MaxClimb ZERO 5 500   
A320-211 ICAO_A 2 9 Climb MaxClimb ZERO 7 500   
A320-211 ICAO_A 2 10 Climb MaxClimb ZERO 10 000   
A320-211 ICAO_A 3 1 Takeoff MaxTakeoff 1+F    
A320-211 ICAO_A 3 2 Climb MaxTakeoff 1+F 1 500   
A320-211 ICAO_A 3 3 Climb MaxClimb 1+F 3 000   
A320-211 ICAO_A 3 4 Accelerate MaxClimb 1+F  730,3 194,1 
A320-211 ICAO_A 3 5 Accelerate MaxClimb 1  868 207,6 
A320-211 ICAO_A 3 6 Accelerate MaxClimb ZERO  1 021,8 231,7 
A320-211 ICAO_A 3 7 Accelerate MaxClimb ZERO  1 115,4 250 
A320-211 ICAO_A 3 8 Climb MaxClimb ZERO 5 500   
A320-211 ICAO_A 3 9 Climb MaxClimb ZERO 7 500   
A320-211 ICAO_A 3 10 Climb MaxClimb ZERO 10 000   
A320-211 ICAO_A 4 1 Takeoff MaxTakeoff 1+F    
A320-211 ICAO_A 4 2 Climb MaxTakeoff 1+F 1 500   
A320-211 ICAO_A 4 3 Climb MaxClimb 1+F 3 000   
A320-211 ICAO_A 4 4 Accelerate MaxClimb 1+F  670,3 201,2 
A320-211 ICAO_A 4 5 Accelerate MaxClimb 1  816,4 213,5 
A320-211 ICAO_A 4 6 Accelerate MaxClimb ZERO  942 235,2 
A320-211 ICAO_A 4 7 Accelerate MaxClimb ZERO  1 017,5 250 
A320-211 ICAO_A 4 8 Climb MaxClimb ZERO 5 500   
A320-211 ICAO_A 4 9 Climb MaxClimb ZERO 7 500   
A320-211 ICAO_A 4 10 Climb MaxClimb ZERO 10 000   
A320-211 ICAO_A 5 1 Takeoff MaxTakeoff 1+F    
A320-211 ICAO_A 5 2 Climb MaxTakeoff 1+F 1 500   
A320-211 ICAO_A 5 3 Climb MaxClimb 1+F 3 000   
A320-211 ICAO_A 5 4 Accelerate MaxClimb 1+F  640,5 205 
A320-211 ICAO_A 5 5 Accelerate MaxClimb 1  789,5 216,6 
A320-211 ICAO_A 5 6 Accelerate MaxClimb ZERO  899,5 237,1 
A320-211 ICAO_A 5 7 Accelerate MaxClimb ZERO  968,2 250 
A320-211 ICAO_A 5 8 Climb MaxClimb ZERO 5 500   
A320-211 ICAO_A 5 9 Climb MaxClimb ZERO 7 500   
A320-211 ICAO_A 5 10 Climb MaxClimb ZERO 10 000   
A320-211 ICAO_B 1 1 Takeoff MaxTakeoff 1+F    
A320-211 ICAO_B 1 2 Climb MaxTakeoff 1+F 1 000   
A320-211 ICAO_B 1 3 Accelerate MaxTakeoff 1+F  1 150,5 186,2 
A320-211 ICAO_B 1 4 Accelerate MaxTakeoff 1  1 300,7 208,1 
A320-211 ICAO_B 1 5 Climb MaxClimb ZERO 3 000   
A320-211 ICAO_B 1 6 Accelerate MaxClimb ZERO  1 230,7 250 
A320-211 ICAO_B 1 7 Climb MaxClimb ZERO 5 500   
A320-211 ICAO_B 1 8 Climb MaxClimb ZERO 7 500   
A320-211 ICAO_B 1 9 Climb MaxClimb ZERO 10 000   
A320-211 ICAO_B 2 1 Takeoff MaxTakeoff 1+F    
A320-211 ICAO_B 2 2 Climb MaxTakeoff 1+F 1 000   
A320-211 ICAO_B 2 3 Accelerate MaxTakeoff 1+F  1 098,5 190,2 
A320-211 ICAO_B 2 4 Accelerate MaxTakeoff 1  1 243,7 210,7 
A320-211 ICAO_B 2 5 Climb MaxClimb ZERO 3 000   
A320-211 ICAO_B 2 6 Accelerate MaxClimb ZERO  1 171 250 
A320-211 ICAO_B 2 7 Climb MaxClimb ZERO 5 500   
A320-211 ICAO_B 2 8 Climb MaxClimb ZERO 7 500   
A320-211 ICAO_B 2 9 Climb MaxClimb ZERO 10 000   
A320-211 ICAO_B 3 1 Takeoff MaxTakeoff 1+F    
A320-211 ICAO_B 3 2 Climb MaxTakeoff 1+F 1 000   
A320-211 ICAO_B 3 3 Accelerate MaxTakeoff 1+F  1 049,6 194,3 
A320-211 ICAO_B 3 4 Accelerate MaxTakeoff 1  1 189,2 213,5 
A320-211 ICAO_B 3 5 Climb MaxClimb ZERO 3 000   
A320-211 ICAO_B 3 6 Accelerate MaxClimb ZERO  1 113,9 250 
A320-211 ICAO_B 3 7 Climb MaxClimb ZERO 5 500   
A320-211 ICAO_B 3 8 Climb MaxClimb ZERO 7 500   
A320-211 ICAO_B 3 9 Climb MaxClimb ZERO 10 000   
A320-211 ICAO_B 4 1 Takeoff MaxTakeoff 1+F    
A320-211 ICAO_B 4 2 Climb MaxTakeoff 1+F 1 000   
A320-211 ICAO_B 4 3 Accelerate MaxTakeoff 1+F  972,6 201,4 
A320-211 ICAO_B 4 4 Accelerate MaxTakeoff 1  1 101 218,7 
A320-211 ICAO_B 4 5 Climb MaxClimb ZERO 3 000   
A320-211 ICAO_B 4 6 Accelerate MaxClimb ZERO  1 021 250 
A320-211 ICAO_B 4 7 Climb MaxClimb ZERO 5 500   
A320-211 ICAO_B 4 8 Climb MaxClimb ZERO 7 500   
A320-211 ICAO_B 4 9 Climb MaxClimb ZERO 10 000   
A320-211 ICAO_B 5 1 Takeoff MaxTakeoff 1+F    
A320-211 ICAO_B 5 2 Climb MaxTakeoff 1+F 1 000   
A320-211 ICAO_B 5 3 Accelerate MaxTakeoff 1+F  933,1 205,1 
A320-211 ICAO_B 5 4 Accelerate MaxTakeoff 1  1 056 221,4 
A320-211 ICAO_B 5 5 Climb MaxClimb ZERO 3 000   
A320-211 ICAO_B 5 6 Accelerate MaxClimb ZERO  973,2 250 
A320-211 ICAO_B 5 7 Climb MaxClimb ZERO 5 500   
A320-211 ICAO_B 5 8 Climb MaxClimb ZERO 7 500   
A320-211 ICAO_B 5 9 Climb MaxClimb ZERO 10 000   
A320-232 DEFAULT 1 1 Takeoff MaxTakeoff 1+F    
A320-232 DEFAULT 1 2 Climb MaxTakeoff 1+F 1 000   
A320-232 DEFAULT 1 3 Accelerate MaxTakeoff 1+F  1 219,6 185,5 
A320-232 DEFAULT 1 4 Accelerate MaxTakeoff 1  1 372,6 208,6 
A320-232 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
A320-232 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 192,1 250 
A320-232 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
A320-232 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
A320-232 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
A320-232 DEFAULT 2 1 Takeoff MaxTakeoff 1+F    
A320-232 DEFAULT 2 2 Climb MaxTakeoff 1+F 1 000   
A320-232 DEFAULT 2 3 Accelerate MaxTakeoff 1+F  1 167,9 189,3 
A320-232 DEFAULT 2 4 Accelerate MaxTakeoff 1  1 315,7 211 
A320-232 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
A320-232 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 137,4 250 
A320-232 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
A320-232 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
A320-232 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
A320-232 DEFAULT 3 1 Takeoff MaxTakeoff 1+F    
A320-232 DEFAULT 3 2 Climb MaxTakeoff 1+F 1 000   
A320-232 DEFAULT 3 3 Accelerate MaxTakeoff 1+F  1 118,6 193,2 
A320-232 DEFAULT 3 4 Accelerate MaxTakeoff 1  1 260,6 213,6 
A320-232 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
A320-232 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 085,2 250 
A320-232 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
A320-232 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
A320-232 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
A320-232 DEFAULT 4 1 Takeoff MaxTakeoff 1+F    
A320-232 DEFAULT 4 2 Climb MaxTakeoff 1+F 1 000   
A320-232 DEFAULT 4 3 Accelerate MaxTakeoff 1+F  1 040,6 199,9 
A320-232 DEFAULT 4 4 Accelerate MaxTakeoff 1  1 170,7 218,4 
A320-232 DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
A320-232 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 001,5 250 
A320-232 DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
A320-232 DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
A320-232 DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
A320-232 DEFAULT 5 1 Takeoff MaxTakeoff 1+F    
A320-232 DEFAULT 5 2 Climb MaxTakeoff 1+F 1 000   
A320-232 DEFAULT 5 3 Accelerate MaxTakeoff 1+F  921,9 210,9 
A320-232 DEFAULT 5 4 Accelerate MaxTakeoff 1  1 033,9 226,5 
A320-232 DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
A320-232 DEFAULT 5 6 Accelerate MaxClimb ZERO  876,3 250 
A320-232 DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
A320-232 DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
A320-232 DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
A320-232 ICAO_A 1 1 Takeoff MaxTakeoff 1+F    
A320-232 ICAO_A 1 2 Climb MaxTakeoff 1+F 1 500   
A320-232 ICAO_A 1 3 Climb MaxClimb 1+F 3 000   
A320-232 ICAO_A 1 4 Accelerate MaxClimb 1+F  776,1 185,4 
A320-232 ICAO_A 1 5 Accelerate MaxClimb 1  906,7 200,1 
A320-232 ICAO_A 1 6 Accelerate MaxClimb ZERO  1 062 226 
A320-232 ICAO_A 1 7 Accelerate MaxClimb ZERO  1 218,7 250 
A320-232 ICAO_A 1 8 Climb MaxClimb ZERO 5 500   
A320-232 ICAO_A 1 9 Climb MaxClimb ZERO 7 500   
A320-232 ICAO_A 1 10 Climb MaxClimb ZERO 10 000   
A320-232 ICAO_A 2 1 Takeoff MaxTakeoff 1+F    
A320-232 ICAO_A 2 2 Climb MaxTakeoff 1+F 1 500   
A320-232 ICAO_A 2 3 Climb MaxClimb 1+F 3 000   
A320-232 ICAO_A 2 4 Accelerate MaxClimb 1+F  739,7 189,1 
A320-232 ICAO_A 2 5 Accelerate MaxClimb 1  870 203 
A320-232 ICAO_A 2 6 Accelerate MaxClimb ZERO  1 015,7 227,5 
A320-232 ICAO_A 2 7 Accelerate MaxClimb ZERO  1 160,7 250 
A320-232 ICAO_A 2 8 Climb MaxClimb ZERO 5 500   
A320-232 ICAO_A 2 9 Climb MaxClimb ZERO 7 500   
A320-232 ICAO_A 2 10 Climb MaxClimb ZERO 10 000   
A320-232 ICAO_A 3 1 Takeoff MaxTakeoff 1+F    
A320-232 ICAO_A 3 2 Climb MaxTakeoff 1+F 1 500   
A320-232 ICAO_A 3 3 Climb MaxClimb 1+F 3 000   
A320-232 ICAO_A 3 4 Accelerate MaxClimb 1+F  705 193 
A320-232 ICAO_A 3 5 Accelerate MaxClimb 1  834,6 206,1 
A320-232 ICAO_A 3 6 Accelerate MaxClimb ZERO  971,6 229,2 
A320-232 ICAO_A 3 7 Accelerate MaxClimb ZERO  1 105,4 250 
A320-232 ICAO_A 3 8 Climb MaxClimb ZERO 5 500   
A320-232 ICAO_A 3 9 Climb MaxClimb ZERO 7 500   
A320-232 ICAO_A 3 10 Climb MaxClimb ZERO 10 000   
A320-232 ICAO_A 4 1 Takeoff MaxTakeoff 1+F    
A320-232 ICAO_A 4 2 Climb MaxTakeoff 1+F 1 500   
A320-232 ICAO_A 4 3 Climb MaxClimb 1+F 3 000   
A320-232 ICAO_A 4 4 Accelerate MaxClimb 1+F  650,5 199,8 
A320-232 ICAO_A 4 5 Accelerate MaxClimb 1  776,9 211,6 
A320-232 ICAO_A 4 6 Accelerate MaxClimb ZERO  901,1 232,6 
A320-232 ICAO_A 4 7 Accelerate MaxClimb ZERO  1 016,8 250 
A320-232 ICAO_A 4 8 Climb MaxClimb ZERO 5 500   
A320-232 ICAO_A 4 9 Climb MaxClimb ZERO 7 500   
A320-232 ICAO_A 4 10 Climb MaxClimb ZERO 10 000   
A320-232 ICAO_A 5 1 Takeoff MaxTakeoff 1+F    
A320-232 ICAO_A 5 2 Climb MaxTakeoff 1+F 1 500   
A320-232 ICAO_A 5 3 Climb MaxClimb 1+F 3 000   
A320-232 ICAO_A 5 4 Accelerate MaxClimb 1+F  568,3 210,7 
A320-232 ICAO_A 5 5 Accelerate MaxClimb 1  687,3 220,6 
A320-232 ICAO_A 5 6 Accelerate MaxClimb ZERO  794,5 238,5 
A320-232 ICAO_A 5 7 Accelerate MaxClimb ZERO  884,4 250 
A320-232 ICAO_A 5 8 Climb MaxClimb ZERO 5 500   
A320-232 ICAO_A 5 9 Climb MaxClimb ZERO 7 500   
A320-232 ICAO_A 5 10 Climb MaxClimb ZERO 10 000   
A320-232 ICAO_B 1 1 Takeoff MaxTakeoff 1+F    
A320-232 ICAO_B 1 2 Climb MaxTakeoff 1+F 1 000   
A320-232 ICAO_B 1 3 Accelerate MaxTakeoff 1+F  1 219,6 185,5 
A320-232 ICAO_B 1 4 Accelerate MaxTakeoff 1  1 372,6 208,6 
A320-232 ICAO_B 1 5 Climb MaxClimb ZERO 3 000   
A320-232 ICAO_B 1 6 Accelerate MaxClimb ZERO  1 192,1 250 
A320-232 ICAO_B 1 7 Climb MaxClimb ZERO 5 500   
A320-232 ICAO_B 1 8 Climb MaxClimb ZERO 7 500   
A320-232 ICAO_B 1 9 Climb MaxClimb ZERO 10 000   
A320-232 ICAO_B 2 1 Takeoff MaxTakeoff 1+F    
A320-232 ICAO_B 2 2 Climb MaxTakeoff 1+F 1 000   
A320-232 ICAO_B 2 3 Accelerate MaxTakeoff 1+F  1 167,9 189,3 
A320-232 ICAO_B 2 4 Accelerate MaxTakeoff 1  1 315,7 211 
A320-232 ICAO_B 2 5 Climb MaxClimb ZERO 3 000   
A320-232 ICAO_B 2 6 Accelerate MaxClimb ZERO  1 137,4 250 
A320-232 ICAO_B 2 7 Climb MaxClimb ZERO 5 500   
A320-232 ICAO_B 2 8 Climb MaxClimb ZERO 7 500   
A320-232 ICAO_B 2 9 Climb MaxClimb ZERO 10 000   
A320-232 ICAO_B 3 1 Takeoff MaxTakeoff 1+F    
A320-232 ICAO_B 3 2 Climb MaxTakeoff 1+F 1 000   
A320-232 ICAO_B 3 3 Accelerate MaxTakeoff 1+F  1 118,6 193,2 
A320-232 ICAO_B 3 4 Accelerate MaxTakeoff 1  1 260,6 213,6 
A320-232 ICAO_B 3 5 Climb MaxClimb ZERO 3 000   
A320-232 ICAO_B 3 6 Accelerate MaxClimb ZERO  1 085,2 250 
A320-232 ICAO_B 3 7 Climb MaxClimb ZERO 5 500   
A320-232 ICAO_B 3 8 Climb MaxClimb ZERO 7 500   
A320-232 ICAO_B 3 9 Climb MaxClimb ZERO 10 000   
ACFTID Profile_ID Stage Length Step Number Step Type Thrust Rating Flap_ID End Point Altitude (ft) Rate Of Climb (ft/min) End Point CAS (kt) Accelerate_Percent (%)
A320-232 ICAO_B 4 1 Takeoff MaxTakeoff 1+F    
A320-232 ICAO_B 4 2 Climb MaxTakeoff 1+F 1 000   
A320-232 ICAO_B 4 3 Accelerate MaxTakeoff 1+F  1 040,6 199,9 
A320-232 ICAO_B 4 4 Accelerate MaxTakeoff 1  1 170,7 218,4 
A320-232 ICAO_B 4 5 Climb MaxClimb ZERO 3 000   
A320-232 ICAO_B 4 6 Accelerate MaxClimb ZERO  1 001,5 250 
A320-232 ICAO_B 4 7 Climb MaxClimb ZERO 5 500   
A320-232 ICAO_B 4 8 Climb MaxClimb ZERO 7 500   
A320-232 ICAO_B 4 9 Climb MaxClimb ZERO 10 000   
A320-232 ICAO_B 5 1 Takeoff MaxTakeoff 1+F    
A320-232 ICAO_B 5 2 Climb MaxTakeoff 1+F 1 000   
A320-232 ICAO_B 5 3 Accelerate MaxTakeoff 1+F  921,9 210,9 
A320-232 ICAO_B 5 4 Accelerate MaxTakeoff 1  1 033,9 226,5 
A320-232 ICAO_B 5 5 Climb MaxClimb ZERO 3 000   
A320-232 ICAO_B 5 6 Accelerate MaxClimb ZERO  876,3 250 
A320-232 ICAO_B 5 7 Climb MaxClimb ZERO 5 500   
A320-232 ICAO_B 5 8 Climb MaxClimb ZERO 7 500   
A320-232 ICAO_B 5 9 Climb MaxClimb ZERO 10 000   
A321-232 DEFAULT 1 1 Takeoff MaxTakeoff 1+F    
A321-232 DEFAULT 1 2 Climb MaxTakeoff 1+F 1 000   
A321-232 DEFAULT 1 3 Accelerate MaxTakeoff 1+F  1 235,6 195 
A321-232 DEFAULT 1 4 Accelerate MaxTakeoff 1  1 376 219,7 
A321-232 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
A321-232 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 127,8 250 
A321-232 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
A321-232 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
A321-232 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
A321-232 DEFAULT 2 1 Takeoff MaxTakeoff 1+F    
A321-232 DEFAULT 2 2 Climb MaxTakeoff 1+F 1 000   
A321-232 DEFAULT 2 3 Accelerate MaxTakeoff 1+F  1 180,9 199 
A321-232 DEFAULT 2 4 Accelerate MaxTakeoff 1  1 316,8 222,2 
A321-232 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
A321-232 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 070,3 250 
A321-232 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
A321-232 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
A321-232 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
A321-232 DEFAULT 3 1 Takeoff MaxTakeoff 1+F    
A321-232 DEFAULT 3 2 Climb MaxTakeoff 1+F 1 000   
A321-232 DEFAULT 3 3 Accelerate MaxTakeoff 1+F  1 127,9 203 
A321-232 DEFAULT 3 4 Accelerate MaxTakeoff 1  1 259,2 224,8 
A321-232 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
A321-232 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 015,1 250 
A321-232 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
A321-232 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
A321-232 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
A321-232 DEFAULT 4 1 Takeoff MaxTakeoff 1+F    
A321-232 DEFAULT 4 2 Climb MaxTakeoff 1+F 1 000   
A321-232 DEFAULT 4 3 Accelerate MaxTakeoff 1+F  1 039 209 
A321-232 DEFAULT 4 4 Accelerate MaxTakeoff 1  1 161,6 228,6 
A321-232 DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
A321-232 DEFAULT 4 6 Accelerate MaxClimb ZERO  923,7 250 
A321-232 DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
A321-232 DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
A321-232 DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
A321-232 DEFAULT 5 1 Takeoff MaxTakeoff 1+F    
A321-232 DEFAULT 5 2 Climb MaxTakeoff 1+F 1 000   
A321-232 DEFAULT 5 3 Accelerate MaxTakeoff 1+F  889,6 210 
A321-232 DEFAULT 5 4 Accelerate MaxTakeoff 1  969,1 226,5 
A321-232 DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
A321-232 DEFAULT 5 6 Accelerate MaxClimb ZERO  752,3 250 
A321-232 DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
A321-232 DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
A321-232 DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
A321-232 ICAO_A 1 1 Takeoff MaxTakeoff 1+F    
A321-232 ICAO_A 1 2 Climb MaxTakeoff 1+F 1 500   
A321-232 ICAO_A 1 3 Climb MaxClimb 1+F 3 000   
A321-232 ICAO_A 1 4 Accelerate MaxClimb 1+F  819,7 194,9 
A321-232 ICAO_A 1 5 Accelerate MaxClimb 1  920,7 210,8 
A321-232 ICAO_A 1 6 Accelerate MaxClimb ZERO  1 039,9 234,6 
A321-232 ICAO_A 1 7 Accelerate MaxClimb ZERO  1 125,4 250 
A321-232 ICAO_A 1 8 Climb MaxClimb ZERO 5 500   
A321-232 ICAO_A 1 9 Climb MaxClimb ZERO 7 500   
A321-232 ICAO_A 1 10 Climb MaxClimb ZERO 10 000   
A321-232 ICAO_A 2 1 Takeoff MaxTakeoff 1+F    
A321-232 ICAO_A 2 2 Climb MaxTakeoff 1+F 1 500   
A321-232 ICAO_A 2 3 Climb MaxClimb 1+F 3 000   
A321-232 ICAO_A 2 4 Accelerate MaxClimb 1+F  778,4 198,9 
A321-232 ICAO_A 2 5 Accelerate MaxClimb 1  874,3 213,7 
A321-232 ICAO_A 2 6 Accelerate MaxClimb ZERO  987,1 236,1 
A321-232 ICAO_A 2 7 Accelerate MaxClimb ZERO  1 066,3 250 
A321-232 ICAO_A 2 8 Climb MaxClimb ZERO 5 500   
A321-232 ICAO_A 2 9 Climb MaxClimb ZERO 7 500   
A321-232 ICAO_A 2 10 Climb MaxClimb ZERO 10 000   
A321-232 ICAO_A 3 1 Takeoff MaxTakeoff 1+F    
A321-232 ICAO_A 3 2 Climb MaxTakeoff 1+F 1 500   
A321-232 ICAO_A 3 3 Climb MaxClimb 1+F 3 000   
A321-232 ICAO_A 3 4 Accelerate MaxClimb 1+F  737,9 202,9 
A321-232 ICAO_A 3 5 Accelerate MaxClimb 1  829,1 216,7 
A321-232 ICAO_A 3 6 Accelerate MaxClimb ZERO  936,1 237,7 
A321-232 ICAO_A 3 7 Accelerate MaxClimb ZERO  1 009,5 250 
A321-232 ICAO_A 3 8 Climb MaxClimb ZERO 5 500   
A321-232 ICAO_A 3 9 Climb MaxClimb ZERO 7 500   
A321-232 ICAO_A 3 10 Climb MaxClimb ZERO 10 000   
A321-232 ICAO_A 4 1 Takeoff MaxTakeoff 1+F    
A321-232 ICAO_A 4 2 Climb MaxTakeoff 1+F 1 500   
A321-232 ICAO_A 4 3 Climb MaxClimb 1+F 3 000   
A321-232 ICAO_A 4 4 Accelerate MaxClimb 1+F  670,5 209,9 
A321-232 ICAO_A 4 5 Accelerate MaxClimb 1  754,2 222,1 
A321-232 ICAO_A 4 6 Accelerate MaxClimb ZERO  852,9 240,9 
A321-232 ICAO_A 4 7 Accelerate MaxClimb ZERO  917,2 250 
A321-232 ICAO_A 4 8 Climb MaxClimb ZERO 5 500   
A321-232 ICAO_A 4 9 Climb MaxClimb ZERO 7 500   
A321-232 ICAO_A 4 10 Climb MaxClimb ZERO 10 000   
A321-232 ICAO_A 5 1 Takeoff MaxTakeoff 1+F    
A321-232 ICAO_A 5 2 Climb MaxTakeoff 1+F 1 500   
A321-232 ICAO_A 5 3 Climb MaxClimb 1+F 3 000   
A321-232 ICAO_A 5 4 Accelerate MaxClimb 1+F  551,5 210 
A321-232 ICAO_A 5 5 Accelerate MaxClimb 1  604,9 219,9 
A321-232 ICAO_A 5 6 Accelerate MaxClimb ZERO  685,2 235,3 
A321-232 ICAO_A 5 7 Accelerate MaxClimb ZERO  749,8 250 
A321-232 ICAO_A 5 8 Climb MaxClimb ZERO 5 500   
A321-232 ICAO_A 5 9 Climb MaxClimb ZERO 7 500   
A321-232 ICAO_A 5 10 Climb MaxClimb ZERO 10 000   
A321-232 ICAO_B 1 1 Takeoff MaxTakeoff 1+F    
A321-232 ICAO_B 1 2 Climb MaxTakeoff 1+F 1 000   
A321-232 ICAO_B 1 3 Accelerate MaxTakeoff 1+F  1 235,6 195 
A321-232 ICAO_B 1 4 Accelerate MaxTakeoff 1  1 376 219,7 
A321-232 ICAO_B 1 5 Climb MaxClimb ZERO 3 000   
A321-232 ICAO_B 1 6 Accelerate MaxClimb ZERO  1 127,8 250 
A321-232 ICAO_B 1 7 Climb MaxClimb ZERO 5 500   
A321-232 ICAO_B 1 8 Climb MaxClimb ZERO 7 500   
A321-232 ICAO_B 1 9 Climb MaxClimb ZERO 10 000   
A321-232 ICAO_B 2 1 Takeoff MaxTakeoff 1+F    
A321-232 ICAO_B 2 2 Climb MaxTakeoff 1+F 1 000   
A321-232 ICAO_B 2 3 Accelerate MaxTakeoff 1+F  1 180,9 199 
A321-232 ICAO_B 2 4 Accelerate MaxTakeoff 1  1 316,8 222,2 
A321-232 ICAO_B 2 5 Climb MaxClimb ZERO 3 000   
A321-232 ICAO_B 2 6 Accelerate MaxClimb ZERO  1 070,3 250 
A321-232 ICAO_B 2 7 Climb MaxClimb ZERO 5 500   
A321-232 ICAO_B 2 8 Climb MaxClimb ZERO 7 500   
A321-232 ICAO_B 2 9 Climb MaxClimb ZERO 10 000   
A321-232 ICAO_B 3 1 Takeoff MaxTakeoff 1+F    
A321-232 ICAO_B 3 2 Climb MaxTakeoff 1+F 1 000   
A321-232 ICAO_B 3 3 Accelerate MaxTakeoff 1+F  1 127,9 203 
A321-232 ICAO_B 3 4 Accelerate MaxTakeoff 1  1 259,2 224,8 
A321-232 ICAO_B 3 5 Climb MaxClimb ZERO 3 000   
A321-232 ICAO_B 3 6 Accelerate MaxClimb ZERO  1 015,1 250 
A321-232 ICAO_B 3 7 Climb MaxClimb ZERO 5 500   
A321-232 ICAO_B 3 8 Climb MaxClimb ZERO 7 500   
A321-232 ICAO_B 3 9 Climb MaxClimb ZERO 10 000   
A321-232 ICAO_B 4 1 Takeoff MaxTakeoff 1+F    
A321-232 ICAO_B 4 2 Climb MaxTakeoff 1+F 1 000   
A321-232 ICAO_B 4 3 Accelerate MaxTakeoff 1+F  1 039 209 
A321-232 ICAO_B 4 4 Accelerate MaxTakeoff 1  1 161,6 228,6 
A321-232 ICAO_B 4 5 Climb MaxClimb ZERO 3 000   
A321-232 ICAO_B 4 6 Accelerate MaxClimb ZERO  923,7 250 
A321-232 ICAO_B 4 7 Climb MaxClimb ZERO 5 500   
A321-232 ICAO_B 4 8 Climb MaxClimb ZERO 7 500   
A321-232 ICAO_B 4 9 Climb MaxClimb ZERO 10 000   
A321-232 ICAO_B 5 1 Takeoff MaxTakeoff 1+F    
A321-232 ICAO_B 5 2 Climb MaxTakeoff 1+F 1 000   
A321-232 ICAO_B 5 3 Accelerate MaxTakeoff 1+F  889,6 210 
A321-232 ICAO_B 5 4 Accelerate MaxTakeoff 1  969,1 226,5 
A321-232 ICAO_B 5 5 Climb MaxClimb ZERO 3 000   
A321-232 ICAO_B 5 6 Accelerate MaxClimb ZERO  752,3 250 
A321-232 ICAO_B 5 7 Climb MaxClimb ZERO 5 500   
A321-232 ICAO_B 5 8 Climb MaxClimb ZERO 7 500   
A321-232 ICAO_B 5 9 Climb MaxClimb ZERO 10 000   
A330-301 DEFAULT 1 1 Takeoff MaxTakeoff 1+F    
A330-301 DEFAULT 1 2 Climb MaxTakeoff 1+F 1 000   
A330-301 DEFAULT 1 3 Accelerate MaxTakeoff 1+F  1 160,6 170,7 
A330-301 DEFAULT 1 4 Accelerate MaxTakeoff 1  1 267,7 207,4 
A330-301 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
A330-301 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 218,2 250 
A330-301 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
A330-301 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
A330-301 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
A330-301 DEFAULT 2 1 Takeoff MaxTakeoff 1+F    
A330-301 DEFAULT 2 2 Climb MaxTakeoff 1+F 1 000   
A330-301 DEFAULT 2 3 Accelerate MaxTakeoff 1+F  1 121,7 173,4 
A330-301 DEFAULT 2 4 Accelerate MaxTakeoff 1  1 228,7 208,6 
A330-301 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
A330-301 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 176 250 
A330-301 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
A330-301 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
A330-301 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
A330-301 DEFAULT 3 1 Takeoff MaxTakeoff 1+F    
A330-301 DEFAULT 3 2 Climb MaxTakeoff 1+F 1 000   
A330-301 DEFAULT 3 3 Accelerate MaxTakeoff 1+F  1 083,6 176,1 
A330-301 DEFAULT 3 4 Accelerate MaxTakeoff 1  1 190,2 209,8 
A330-301 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
A330-301 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 134,5 250 
A330-301 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
A330-301 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
A330-301 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
A330-301 DEFAULT 4 1 Takeoff MaxTakeoff 1+F    
A330-301 DEFAULT 4 2 Climb MaxTakeoff 1+F 1 000   
A330-301 DEFAULT 4 3 Accelerate MaxTakeoff 1+F  1 022,6 180,8 
A330-301 DEFAULT 4 4 Accelerate MaxTakeoff 1  1 126,6 212,1 
A330-301 DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
A330-301 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 066,4 250 
A330-301 DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
A330-301 DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
A330-301 DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
A330-301 DEFAULT 5 1 Takeoff MaxTakeoff 1+F    
A330-301 DEFAULT 5 2 Climb MaxTakeoff 1+F 1 000   
A330-301 DEFAULT 5 3 Accelerate MaxTakeoff 1+F  951,6 186,7 
A330-301 DEFAULT 5 4 Accelerate MaxTakeoff 1  1 051,7 215,3 
A330-301 DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
A330-301 DEFAULT 5 6 Accelerate MaxClimb ZERO  986,6 250 
A330-301 DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
A330-301 DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
A330-301 DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
A330-301 DEFAULT 6 1 Takeoff MaxTakeoff 1+F    
A330-301 DEFAULT 6 2 Climb MaxTakeoff 1+F 1 000   
A330-301 DEFAULT 6 3 Accelerate MaxTakeoff 1+F  883,9 193 
A330-301 DEFAULT 6 4 Accelerate MaxTakeoff 1  978,1 218,9 
A330-301 DEFAULT 6 5 Climb MaxClimb ZERO 3 000   
A330-301 DEFAULT 6 6 Accelerate MaxClimb ZERO  908,7 250 
A330-301 DEFAULT 6 7 Climb MaxClimb ZERO 5 500   
A330-301 DEFAULT 6 8 Climb MaxClimb ZERO 7 500   
A330-301 DEFAULT 6 9 Climb MaxClimb ZERO 10 000   
A330-301 DEFAULT 7 1 Takeoff MaxTakeoff 1+F    
A330-301 DEFAULT 7 2 Climb MaxTakeoff 1+F 1 000   
A330-301 DEFAULT 7 3 Accelerate MaxTakeoff 1+F  864,2 195 
A330-301 DEFAULT 7 4 Accelerate MaxTakeoff 1  956,5 220,1 
A330-301 DEFAULT 7 5 Climb MaxClimb ZERO 3 000   
A330-301 DEFAULT 7 6 Accelerate MaxClimb ZERO  885,7 250 
A330-301 DEFAULT 7 7 Climb MaxClimb ZERO 5 500   
A330-301 DEFAULT 7 8 Climb MaxClimb ZERO 7 500   
A330-301 DEFAULT 7 9 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_A 1 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_A 1 2 Climb MaxTakeoff 1+F 1 500   
A330-301 ICAO_A 1 3 Climb MaxClimb 1+F 3 000   
A330-301 ICAO_A 1 4 Accelerate MaxClimb 1+F  722,8 170,7 
A330-301 ICAO_A 1 5 Accelerate MaxClimb 1  783,9 193 
A330-301 ICAO_A 1 6 Accelerate MaxClimb ZERO  965 210,2 
A330-301 ICAO_A 1 7 Accelerate MaxClimb ZERO  1 210,9 250 
A330-301 ICAO_A 1 8 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_A 1 9 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_A 1 10 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_A 2 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_A 2 2 Climb MaxTakeoff 1+F 1 500   
A330-301 ICAO_A 2 3 Climb MaxClimb 1+F 3 000   
A330-301 ICAO_A 2 4 Accelerate MaxClimb 1+F  694,4 173,3 
A330-301 ICAO_A 2 5 Accelerate MaxClimb 1  758,4 194,7 
A330-301 ICAO_A 2 6 Accelerate MaxClimb ZERO  938 211,3 
A330-301 ICAO_A 2 7 Accelerate MaxClimb ZERO  1 168,1 250 
A330-301 ICAO_A 2 8 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_A 2 9 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_A 2 10 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_A 3 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_A 3 2 Climb MaxTakeoff 1+F 1 500   
A330-301 ICAO_A 3 3 Climb MaxClimb 1+F 3 000   
A330-301 ICAO_A 3 4 Accelerate MaxClimb 1+F  668,3 176 
A330-301 ICAO_A 3 5 Accelerate MaxClimb 1  734,4 196,4 
A330-301 ICAO_A 3 6 Accelerate MaxClimb ZERO  911,9 212,4 
A330-301 ICAO_A 3 7 Accelerate MaxClimb ZERO  1 126,3 250 
A330-301 ICAO_A 3 8 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_A 3 9 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_A 3 10 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_A 4 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_A 4 2 Climb MaxTakeoff 1+F 1 500   
A330-301 ICAO_A 4 3 Climb MaxClimb 1+F 3 000   
A330-301 ICAO_A 4 4 Accelerate MaxClimb 1+F  622 180,8 
A330-301 ICAO_A 4 5 Accelerate MaxClimb 1  698,3 199,8 
A330-301 ICAO_A 4 6 Accelerate MaxClimb ZERO  871,8 214,9 
A330-301 ICAO_A 4 7 Accelerate MaxClimb ZERO  1 057,8 250 
A330-301 ICAO_A 4 8 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_A 4 9 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_A 4 10 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_A 5 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_A 5 2 Climb MaxTakeoff 1+F 1 500   
A330-301 ICAO_A 5 3 Climb MaxClimb 1+F 3 000   
A330-301 ICAO_A 5 4 Accelerate MaxClimb 1+F  569,3 186,8 
A330-301 ICAO_A 5 5 Accelerate MaxClimb 1  663,1 204,4 
A330-301 ICAO_A 5 6 Accelerate MaxClimb ZERO  827,1 218,4 
A330-301 ICAO_A 5 7 Accelerate MaxClimb ZERO  977,1 250 
A330-301 ICAO_A 5 8 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_A 5 9 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_A 5 10 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_A 6 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_A 6 2 Climb MaxTakeoff 1+F 1 500   
A330-301 ICAO_A 6 3 Climb MaxClimb 1+F 3 000   
A330-301 ICAO_A 6 4 Accelerate MaxClimb 1+F  519,8 193 
A330-301 ICAO_A 6 5 Accelerate MaxClimb 1  634,2 209,3 
A330-301 ICAO_A 6 6 Accelerate MaxClimb ZERO  781 222,2 
A330-301 ICAO_A 6 7 Accelerate MaxClimb ZERO  898,1 250 
A330-301 ICAO_A 6 8 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_A 6 9 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_A 6 10 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_A 7 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_A 7 2 Climb MaxTakeoff 1+F 1 500   
A330-301 ICAO_A 7 3 Climb MaxClimb 1+F 3 000   
A330-301 ICAO_A 7 4 Accelerate MaxClimb 1+F  506,2 194,9 
A330-301 ICAO_A 7 5 Accelerate MaxClimb 1  625,8 210,8 
A330-301 ICAO_A 7 6 Accelerate MaxClimb ZERO  766,4 223,5 
A330-301 ICAO_A 7 7 Accelerate MaxClimb ZERO  875,2 250 
A330-301 ICAO_A 7 8 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_A 7 9 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_A 7 10 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_B 1 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_B 1 2 Climb MaxTakeoff 1+F 1 000   
A330-301 ICAO_B 1 3 Accelerate MaxTakeoff 1+F  1 160,6 170,7 
A330-301 ICAO_B 1 4 Accelerate MaxTakeoff 1  1 267,7 207,4 
A330-301 ICAO_B 1 5 Climb MaxClimb ZERO 3 000   
A330-301 ICAO_B 1 6 Accelerate MaxClimb ZERO  1 218,2 250 
A330-301 ICAO_B 1 7 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_B 1 8 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_B 1 9 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_B 2 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_B 2 2 Climb MaxTakeoff 1+F 1 000   
A330-301 ICAO_B 2 3 Accelerate MaxTakeoff 1+F  1 121,7 173,4 
A330-301 ICAO_B 2 4 Accelerate MaxTakeoff 1  1 228,7 208,6 
A330-301 ICAO_B 2 5 Climb MaxClimb ZERO 3 000   
A330-301 ICAO_B 2 6 Accelerate MaxClimb ZERO  1 176 250 
A330-301 ICAO_B 2 7 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_B 2 8 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_B 2 9 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_B 3 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_B 3 2 Climb MaxTakeoff 1+F 1 000   
A330-301 ICAO_B 3 3 Accelerate MaxTakeoff 1+F  1 083,6 176,1 
A330-301 ICAO_B 3 4 Accelerate MaxTakeoff 1  1 190,2 209,8 
A330-301 ICAO_B 3 5 Climb MaxClimb ZERO 3 000   
A330-301 ICAO_B 3 6 Accelerate MaxClimb ZERO  1 134,5 250 
A330-301 ICAO_B 3 7 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_B 3 8 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_B 3 9 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_B 4 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_B 4 2 Climb MaxTakeoff 1+F 1 000   
A330-301 ICAO_B 4 3 Accelerate MaxTakeoff 1+F  1 022,6 180,8 
A330-301 ICAO_B 4 4 Accelerate MaxTakeoff 1  1 126,6 212,1 
A330-301 ICAO_B 4 5 Climb MaxClimb ZERO 3 000   
A330-301 ICAO_B 4 6 Accelerate MaxClimb ZERO  1 066,4 250 
A330-301 ICAO_B 4 7 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_B 4 8 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_B 4 9 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_B 5 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_B 5 2 Climb MaxTakeoff 1+F 1 000   
A330-301 ICAO_B 5 3 Accelerate MaxTakeoff 1+F  951,6 186,7 
A330-301 ICAO_B 5 4 Accelerate MaxTakeoff 1  1 051,7 215,3 
A330-301 ICAO_B 5 5 Climb MaxClimb ZERO 3 000   
A330-301 ICAO_B 5 6 Accelerate MaxClimb ZERO  986,6 250 
A330-301 ICAO_B 5 7 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_B 5 8 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_B 5 9 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_B 6 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_B 6 2 Climb MaxTakeoff 1+F 1 000   
A330-301 ICAO_B 6 3 Accelerate MaxTakeoff 1+F  883,9 193 
A330-301 ICAO_B 6 4 Accelerate MaxTakeoff 1  978,1 218,9 
A330-301 ICAO_B 6 5 Climb MaxClimb ZERO 3 000   
A330-301 ICAO_B 6 6 Accelerate MaxClimb ZERO  908,7 250 
A330-301 ICAO_B 6 7 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_B 6 8 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_B 6 9 Climb MaxClimb ZERO 10 000   
A330-301 ICAO_B 7 1 Takeoff MaxTakeoff 1+F    
A330-301 ICAO_B 7 2 Climb MaxTakeoff 1+F 1 000   
A330-301 ICAO_B 7 3 Accelerate MaxTakeoff 1+F  864,2 195 
A330-301 ICAO_B 7 4 Accelerate MaxTakeoff 1  956,5 220,1 
A330-301 ICAO_B 7 5 Climb MaxClimb ZERO 3 000   
A330-301 ICAO_B 7 6 Accelerate MaxClimb ZERO  885,7 250 
A330-301 ICAO_B 7 7 Climb MaxClimb ZERO 5 500   
A330-301 ICAO_B 7 8 Climb MaxClimb ZERO 7 500   
A330-301 ICAO_B 7 9 Climb MaxClimb ZERO 10 000   
A330-343 DEFAULT 1 1 Takeoff MaxTakeoff 1+F    
A330-343 DEFAULT 1 2 Climb MaxTakeoff 1+F 1 000   
A330-343 DEFAULT 1 3 Accelerate MaxTakeoff 1+F  1 273,5 174,9 
A330-343 DEFAULT 1 4 Accelerate MaxTakeoff 1  1 384,8 213,9 
A330-343 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
A330-343 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 268,1 250 
A330-343 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
A330-343 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
A330-343 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
A330-343 DEFAULT 2 1 Takeoff MaxTakeoff 1+F    
A330-343 DEFAULT 2 2 Climb MaxTakeoff 1+F 1 000   
A330-343 DEFAULT 2 3 Accelerate MaxTakeoff 1+F  1 218,9 177,7 
A330-343 DEFAULT 2 4 Accelerate MaxTakeoff 1  1 340,4 215 
A330-343 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
A330-343 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 223,6 250 
A330-343 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
A330-343 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
A330-343 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
A330-343 DEFAULT 3 1 Takeoff MaxTakeoff 1+F    
A330-343 DEFAULT 3 2 Climb MaxTakeoff 1+F 1 000   
A330-343 DEFAULT 3 3 Accelerate MaxTakeoff 1+F  1 181,2 180,4 
A330-343 DEFAULT 3 4 Accelerate MaxTakeoff 1  1 296,6 216,1 
A330-343 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
A330-343 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 180 250 
A330-343 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
A330-343 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
A330-343 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
A330-343 DEFAULT 4 1 Takeoff MaxTakeoff 1+F    
A330-343 DEFAULT 4 2 Climb MaxTakeoff 1+F 1 000   
A330-343 DEFAULT 4 3 Accelerate MaxTakeoff 1+F  1 115,2 185,2 
A330-343 DEFAULT 4 4 Accelerate MaxTakeoff 1  1 224,1 218,3 
A330-343 DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
A330-343 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 108,4 250 
A330-343 DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
A330-343 DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
A330-343 DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
A330-343 DEFAULT 5 1 Takeoff MaxTakeoff 1+F    
A330-343 DEFAULT 5 2 Climb MaxTakeoff 1+F 1 000   
A330-343 DEFAULT 5 3 Accelerate MaxTakeoff 1+F  1 038,3 191,3 
A330-343 DEFAULT 5 4 Accelerate MaxTakeoff 1  1 139,2 221,4 
A330-343 DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
A330-343 DEFAULT 5 6 Accelerate MaxClimb ZERO  1 025,2 250 
A330-343 DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
A330-343 DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
A330-343 DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
A330-343 DEFAULT 6 1 Takeoff MaxTakeoff 1+F    
A330-343 DEFAULT 6 2 Climb MaxTakeoff 1+F 1 000   
A330-343 DEFAULT 6 3 Accelerate MaxTakeoff 1+F  962,8 197,3 
A330-343 DEFAULT 6 4 Accelerate MaxTakeoff 1  1 054,3 224,5 
A330-343 DEFAULT 6 5 Climb MaxClimb ZERO 3 000   
A330-343 DEFAULT 6 6 Accelerate MaxClimb ZERO  943,3 250 
A330-343 DEFAULT 6 7 Climb MaxClimb ZERO 5 500   
A330-343 DEFAULT 6 8 Climb MaxClimb ZERO 7 500   
A330-343 DEFAULT 6 9 Climb MaxClimb ZERO 10 000   
A330-343 DEFAULT 7 1 Takeoff MaxTakeoff 1+F    
A330-343 DEFAULT 7 2 Climb MaxTakeoff 1+F 1 000   
A330-343 DEFAULT 7 3 Accelerate MaxTakeoff 1+F  869,5 200,8 
A330-343 DEFAULT 7 4 Accelerate MaxTakeoff 1  948,6 225 
A330-343 DEFAULT 7 5 Climb MaxClimb ZERO 3 000   
A330-343 DEFAULT 7 6 Accelerate MaxClimb ZERO  842 250 
A330-343 DEFAULT 7 7 Climb MaxClimb ZERO 5 500   
A330-343 DEFAULT 7 8 Climb MaxClimb ZERO 7 500   
A330-343 DEFAULT 7 9 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_A 1 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_A 1 2 Climb MaxTakeoff 1+F 1 500   
A330-343 ICAO_A 1 3 Climb MaxClimb 1+F 3 000   
A330-343 ICAO_A 1 4 Accelerate MaxClimb 1+F  839,6 174,8 
A330-343 ICAO_A 1 5 Accelerate MaxClimb 1  914,2 200,1 
A330-343 ICAO_A 1 6 Accelerate MaxClimb ZERO  1 103,7 218,9 
A330-343 ICAO_A 1 7 Accelerate MaxClimb ZERO  1 253,2 250 
A330-343 ICAO_A 1 8 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_A 1 9 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_A 1 10 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_A 2 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_A 2 2 Climb MaxTakeoff 1+F 1 500   
A330-343 ICAO_A 2 3 Climb MaxClimb 1+F 3 000   
A330-343 ICAO_A 2 4 Accelerate MaxClimb 1+F  801,5 177,5 
A330-343 ICAO_A 2 5 Accelerate MaxClimb 1  885,4 201,7 
A330-343 ICAO_A 2 6 Accelerate MaxClimb ZERO  1 068,3 219,8 
A330-343 ICAO_A 2 7 Accelerate MaxClimb ZERO  1 208,4 250 
A330-343 ICAO_A 2 8 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_A 2 9 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_A 2 10 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_A 3 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_A 3 2 Climb MaxTakeoff 1+F 1 500   
A330-343 ICAO_A 3 3 Climb MaxClimb 1+F 3 000   
A330-343 ICAO_A 3 4 Accelerate MaxClimb 1+F  766,4 180,3 
A330-343 ICAO_A 3 5 Accelerate MaxClimb 1  857,9 203,5 
A330-343 ICAO_A 3 6 Accelerate MaxClimb ZERO  1 033,8 220,9 
A330-343 ICAO_A 3 7 Accelerate MaxClimb ZERO  1 164,8 250 
A330-343 ICAO_A 3 8 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_A 3 9 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_A 3 10 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_A 4 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_A 4 2 Climb MaxTakeoff 1+F 1 500   
A330-343 ICAO_A 4 3 Climb MaxClimb 1+F 3 000   
A330-343 ICAO_A 4 4 Accelerate MaxClimb 1+F  717,5 185,3 
A330-343 ICAO_A 4 5 Accelerate MaxClimb 1  814,6 206,8 
A330-343 ICAO_A 4 6 Accelerate MaxClimb ZERO  977,3 223 
A330-343 ICAO_A 4 7 Accelerate MaxClimb ZERO  1 093,5 250 
A330-343 ICAO_A 4 8 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_A 4 9 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_A 4 10 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_A 5 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_A 5 2 Climb MaxTakeoff 1+F 1 500   
A330-343 ICAO_A 5 3 Climb MaxClimb 1+F 3 000   
A330-343 ICAO_A 5 4 Accelerate MaxClimb 1+F  661,1 191,5 
A330-343 ICAO_A 5 5 Accelerate MaxClimb 1  767 211,2 
A330-343 ICAO_A 5 6 Accelerate MaxClimb ZERO  910,6 226,1 
A330-343 ICAO_A 5 7 Accelerate MaxClimb ZERO  1 011 250 
A330-343 ICAO_A 5 8 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_A 5 9 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_A 5 10 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_A 6 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_A 6 2 Climb MaxTakeoff 1+F 1 500   
A330-343 ICAO_A 6 3 Climb MaxClimb 1+F 3 000   
A330-343 ICAO_A 6 4 Accelerate MaxClimb 1+F  607,1 197,4 
A330-343 ICAO_A 6 5 Accelerate MaxClimb 1  717 215,3 
A330-343 ICAO_A 6 6 Accelerate MaxClimb ZERO  840,3 228,8 
A330-343 ICAO_A 6 7 Accelerate MaxClimb ZERO  929,9 250 
A330-343 ICAO_A 6 8 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_A 6 9 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_A 6 10 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_A 7 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_A 7 2 Climb MaxTakeoff 1+F 1 500   
A330-343 ICAO_A 7 3 Climb MaxClimb 1+F 3 000   
A330-343 ICAO_A 7 4 Accelerate MaxClimb 1+F  538 200,4 
A330-343 ICAO_A 7 5 Accelerate MaxClimb 1  638,8 216,2 
A330-343 ICAO_A 7 6 Accelerate MaxClimb ZERO  743,9 228,1 
A330-343 ICAO_A 7 7 Accelerate MaxClimb ZERO  830,4 250 
A330-343 ICAO_A 7 8 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_A 7 9 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_A 7 10 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_B 1 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_B 1 2 Climb MaxTakeoff 1+F 1 000   
A330-343 ICAO_B 1 3 Accelerate MaxTakeoff 1+F  1 273,5 174,9 
A330-343 ICAO_B 1 4 Accelerate MaxTakeoff 1  1 384,8 213,9 
A330-343 ICAO_B 1 5 Climb MaxClimb ZERO 3 000   
A330-343 ICAO_B 1 6 Accelerate MaxClimb ZERO  1 268,1 250 
A330-343 ICAO_B 1 7 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_B 1 8 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_B 1 9 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_B 2 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_B 2 2 Climb MaxTakeoff 1+F 1 000   
A330-343 ICAO_B 2 3 Accelerate MaxTakeoff 1+F  1 218,9 177,7 
A330-343 ICAO_B 2 4 Accelerate MaxTakeoff 1  1 340,4 215 
A330-343 ICAO_B 2 5 Climb MaxClimb ZERO 3 000   
A330-343 ICAO_B 2 6 Accelerate MaxClimb ZERO  1 223,6 250 
A330-343 ICAO_B 2 7 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_B 2 8 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_B 2 9 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_B 3 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_B 3 2 Climb MaxTakeoff 1+F 1 000   
A330-343 ICAO_B 3 3 Accelerate MaxTakeoff 1+F  1 181,2 180,4 
A330-343 ICAO_B 3 4 Accelerate MaxTakeoff 1  1 296,6 216,1 
A330-343 ICAO_B 3 5 Climb MaxClimb ZERO 3 000   
A330-343 ICAO_B 3 6 Accelerate MaxClimb ZERO  1 180 250 
A330-343 ICAO_B 3 7 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_B 3 8 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_B 3 9 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_B 4 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_B 4 2 Climb MaxTakeoff 1+F 1 000   
A330-343 ICAO_B 4 3 Accelerate MaxTakeoff 1+F  1 115,2 185,2 
A330-343 ICAO_B 4 4 Accelerate MaxTakeoff 1  1 224,1 218,3 
A330-343 ICAO_B 4 5 Climb MaxClimb ZERO 3 000   
A330-343 ICAO_B 4 6 Accelerate MaxClimb ZERO  1 108,4 250 
A330-343 ICAO_B 4 7 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_B 4 8 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_B 4 9 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_B 5 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_B 5 2 Climb MaxTakeoff 1+F 1 000   
A330-343 ICAO_B 5 3 Accelerate MaxTakeoff 1+F  1 038,3 191,3 
A330-343 ICAO_B 5 4 Accelerate MaxTakeoff 1  1 139,2 221,4 
A330-343 ICAO_B 5 5 Climb MaxClimb ZERO 3 000   
A330-343 ICAO_B 5 6 Accelerate MaxClimb ZERO  1 025,2 250 
A330-343 ICAO_B 5 7 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_B 5 8 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_B 5 9 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_B 6 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_B 6 2 Climb MaxTakeoff 1+F 1 000   
A330-343 ICAO_B 6 3 Accelerate MaxTakeoff 1+F  962,8 197,3 
A330-343 ICAO_B 6 4 Accelerate MaxTakeoff 1  1 054,3 224,5 
A330-343 ICAO_B 6 5 Climb MaxClimb ZERO 3 000   
A330-343 ICAO_B 6 6 Accelerate MaxClimb ZERO  943,3 250 
A330-343 ICAO_B 6 7 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_B 6 8 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_B 6 9 Climb MaxClimb ZERO 10 000   
A330-343 ICAO_B 7 1 Takeoff MaxTakeoff 1+F    
A330-343 ICAO_B 7 2 Climb MaxTakeoff 1+F 1 000   
A330-343 ICAO_B 7 3 Accelerate MaxTakeoff 1+F  869,5 200,8 
A330-343 ICAO_B 7 4 Accelerate MaxTakeoff 1  948,6 225 
A330-343 ICAO_B 7 5 Climb MaxClimb ZERO 3 000   
A330-343 ICAO_B 7 6 Accelerate MaxClimb ZERO  842 250 
A330-343 ICAO_B 7 7 Climb MaxClimb ZERO 5 500   
A330-343 ICAO_B 7 8 Climb MaxClimb ZERO 7 500   
A330-343 ICAO_B 7 9 Climb MaxClimb ZERO 10 000   
A340-211 DEFAULT 1 1 Takeoff MaxTakeoff 1+F    
A340-211 DEFAULT 1 2 Climb MaxTakeoff 1+F 1 000   
A340-211 DEFAULT 1 3 Accelerate MaxTakeoff 1+F  1 019,3 177,6 
A340-211 DEFAULT 1 4 Accelerate MaxTakeoff 1  1 101,1 215,2 
A340-211 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
A340-211 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 165,6 250 
A340-211 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
A340-211 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
A340-211 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
A340-211 DEFAULT 2 1 Takeoff MaxTakeoff 1+F    
A340-211 DEFAULT 2 2 Climb MaxTakeoff 1+F 1 000   
A340-211 DEFAULT 2 3 Accelerate MaxTakeoff 1+F  973,9 180,5 
A340-211 DEFAULT 2 4 Accelerate MaxTakeoff 1  1 061,1 216,3 
A340-211 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
A340-211 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 120,6 250 
A340-211 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
A340-211 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
A340-211 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
A340-211 DEFAULT 3 1 Takeoff MaxTakeoff 1+F    
A340-211 DEFAULT 3 2 Climb MaxTakeoff 1+F 1 000   
A340-211 DEFAULT 3 3 Accelerate MaxTakeoff 1+F  930,2 183,1 
A340-211 DEFAULT 3 4 Accelerate MaxTakeoff 1  1 021,2 217,3 
A340-211 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
A340-211 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 076,1 250 
A340-211 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
A340-211 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
A340-211 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
A340-211 DEFAULT 4 1 Takeoff MaxTakeoff 1+F    
A340-211 DEFAULT 4 2 Climb MaxTakeoff 1+F 1 000   
A340-211 DEFAULT 4 3 Accelerate MaxTakeoff 1+F  860,1 188,2 
A340-211 DEFAULT 4 4 Accelerate MaxTakeoff 1  955,9 219,5 
A340-211 DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
A340-211 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 003,9 250 
A340-211 DEFAULT 4 7 Climb MaxClimb ZERO 5 500   
A340-211 DEFAULT 4 8 Climb MaxClimb ZERO 7 500   
A340-211 DEFAULT 4 9 Climb MaxClimb ZERO 10 000   
A340-211 DEFAULT 5 1 Takeoff MaxTakeoff 1+F    
A340-211 DEFAULT 5 2 Climb MaxTakeoff 1+F 1 000   
A340-211 DEFAULT 5 3 Accelerate MaxTakeoff 1+F  779,4 194,9 
A340-211 DEFAULT 5 4 Accelerate MaxTakeoff 1  879,4 222,9 
A340-211 DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
A340-211 DEFAULT 5 6 Accelerate MaxClimb ZERO  920,2 250 
A340-211 DEFAULT 5 7 Climb MaxClimb ZERO 5 500   
A340-211 DEFAULT 5 8 Climb MaxClimb ZERO 7 500   
A340-211 DEFAULT 5 9 Climb MaxClimb ZERO 10 000   
A340-211 DEFAULT 6 1 Takeoff MaxTakeoff 1+F    
A340-211 DEFAULT 6 2 Climb MaxTakeoff 1+F 1 000   
A340-211 DEFAULT 6 3 Accelerate MaxTakeoff 1+F  705,2 199,2 
A340-211 DEFAULT 6 4 Accelerate MaxTakeoff 1  802 224,4 
A340-211 DEFAULT 6 5 Climb MaxClimb ZERO 3 000   
A340-211 DEFAULT 6 6 Accelerate MaxClimb ZERO  836,4 250 
A340-211 DEFAULT 6 7 Climb MaxClimb ZERO 5 500   
A340-211 DEFAULT 6 8 Climb MaxClimb ZERO 7 500   
A340-211 DEFAULT 6 9 Climb MaxClimb ZERO 10 000   
A340-211 DEFAULT 7 1 Takeoff MaxTakeoff 1+F    
A340-211 DEFAULT 7 2 Climb MaxTakeoff 1+F 1 000   
A340-211 DEFAULT 7 3 Accelerate MaxTakeoff 1+F  519,8 199,2 
A340-211 DEFAULT 7 4 Accelerate MaxTakeoff 1  591,5 218,2 
A340-211 DEFAULT 7 5 Accelerate MaxTakeoff 1  653,7 223,4 
A340-211 DEFAULT 7 6 Climb MaxClimb ZERO 3 000   
A340-211 DEFAULT 7 7 Accelerate MaxClimb ZERO  622,6 250 
A340-211 DEFAULT 7 8 Climb MaxClimb ZERO 5 500   
A340-211 DEFAULT 7 9 Climb MaxClimb ZERO 7 500   
A340-211 DEFAULT 7 10 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_A 1 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_A 1 2 Climb MaxTakeoff 1+F 1 500   
A340-211 ICAO_A 1 3 Climb MaxClimb 1+F 3 000   
A340-211 ICAO_A 1 4 Accelerate MaxClimb 1+F  832,3 177,4 
A340-211 ICAO_A 1 5 Accelerate MaxClimb 1  890,6 206,8 
A340-211 ICAO_A 1 6 Accelerate MaxClimb ZERO  1 039,6 227,9 
A340-211 ICAO_A 1 7 Accelerate MaxClimb ZERO  1 154,4 250 
A340-211 ICAO_A 1 8 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_A 1 9 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_A 1 10 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_A 2 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_A 2 2 Climb MaxTakeoff 1+F 1 500   
A340-211 ICAO_A 2 3 Climb MaxClimb 1+F 3 000   
A340-211 ICAO_A 2 4 Accelerate MaxClimb 1+F  793 180,4 
A340-211 ICAO_A 2 5 Accelerate MaxClimb 1  855,5 208,3 
A340-211 ICAO_A 2 6 Accelerate MaxClimb ZERO  999,1 228,5 
A340-211 ICAO_A 2 7 Accelerate MaxClimb ZERO  1 109,1 250 
A340-211 ICAO_A 2 8 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_A 2 9 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_A 2 10 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_A 3 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_A 3 2 Climb MaxTakeoff 1+F 1 500   
A340-211 ICAO_A 3 3 Climb MaxClimb 1+F 3 000   
A340-211 ICAO_A 3 4 Accelerate MaxClimb 1+F  754,7 183 
A340-211 ICAO_A 3 5 Accelerate MaxClimb 1  820,5 209,4 
A340-211 ICAO_A 3 6 Accelerate MaxClimb ZERO  959,1 228,8 
A340-211 ICAO_A 3 7 Accelerate MaxClimb ZERO  1 064,5 250 
A340-211 ICAO_A 3 8 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_A 3 9 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_A 3 10 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_A 4 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_A 4 2 Climb MaxTakeoff 1+F 1 500   
A340-211 ICAO_A 4 3 Climb MaxClimb 1+F 3 000   
A340-211 ICAO_A 4 4 Accelerate MaxClimb 1+F  690,8 188,1 
A340-211 ICAO_A 4 5 Accelerate MaxClimb 1  763 212,2 
A340-211 ICAO_A 4 6 Accelerate MaxClimb ZERO  893,8 230 
A340-211 ICAO_A 4 7 Accelerate MaxClimb ZERO  991,5 250 
A340-211 ICAO_A 4 8 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_A 4 9 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_A 4 10 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_A 5 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_A 5 2 Climb MaxTakeoff 1+F 1 500   
A340-211 ICAO_A 5 3 Climb MaxClimb 1+F 3 000   
A340-211 ICAO_A 5 4 Accelerate MaxClimb 1+F  621,5 194,8 
A340-211 ICAO_A 5 5 Accelerate MaxClimb 1  695,5 216,1 
A340-211 ICAO_A 5 6 Accelerate MaxClimb ZERO  818,3 232,2 
A340-211 ICAO_A 5 7 Accelerate MaxClimb ZERO  906,8 250 
A340-211 ICAO_A 5 8 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_A 5 9 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_A 5 10 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_A 6 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_A 6 2 Climb MaxTakeoff 1+F 1 500   
A340-211 ICAO_A 6 3 Climb MaxClimb 1+F 3 000   
A340-211 ICAO_A 6 4 Accelerate MaxClimb 1+F  555,3 199,2 
A340-211 ICAO_A 6 5 Accelerate MaxClimb 1  627,4 218,1 
A340-211 ICAO_A 6 6 Accelerate MaxClimb ZERO  742,5 232,6 
A340-211 ICAO_A 6 7 Accelerate MaxClimb ZERO  824,1 250 
A340-211 ICAO_A 6 8 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_A 6 9 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_A 6 10 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_A 7 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_A 7 2 Climb MaxTakeoff 1+F 1 500   
A340-211 ICAO_A 7 3 Climb MaxClimb 1+F 3 000   
A340-211 ICAO_A 7 4 Accelerate MaxClimb 1+F  388,7 199,2 
A340-211 ICAO_A 7 5 Accelerate MaxClimb 1  444,2 212,8 
A340-211 ICAO_A 7 6 Accelerate MaxClimb 1  500,7 224,8 
A340-211 ICAO_A 7 7 Accelerate MaxClimb ZERO  555,6 235,4 
A340-211 ICAO_A 7 8 Accelerate MaxClimb ZERO  623 250 
A340-211 ICAO_A 7 9 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_A 7 10 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_A 7 11 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_B 1 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_B 1 2 Climb MaxTakeoff 1+F 1 000   
A340-211 ICAO_B 1 3 Accelerate MaxTakeoff 1+F  1 019,3 177,6 
A340-211 ICAO_B 1 4 Accelerate MaxTakeoff 1  1 101,1 215,2 
A340-211 ICAO_B 1 5 Climb MaxClimb ZERO 3 000   
A340-211 ICAO_B 1 6 Accelerate MaxClimb ZERO  1 165,6 250 
A340-211 ICAO_B 1 7 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_B 1 8 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_B 1 9 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_B 2 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_B 2 2 Climb MaxTakeoff 1+F 1 000   
A340-211 ICAO_B 2 3 Accelerate MaxTakeoff 1+F  973,9 180,5 
A340-211 ICAO_B 2 4 Accelerate MaxTakeoff 1  1 061,1 216,3 
A340-211 ICAO_B 2 5 Climb MaxClimb ZERO 3 000   
A340-211 ICAO_B 2 6 Accelerate MaxClimb ZERO  1 120,6 250 
A340-211 ICAO_B 2 7 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_B 2 8 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_B 2 9 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_B 3 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_B 3 2 Climb MaxTakeoff 1+F 1 000   
A340-211 ICAO_B 3 3 Accelerate MaxTakeoff 1+F  930,2 183,1 
A340-211 ICAO_B 3 4 Accelerate MaxTakeoff 1  1 021,2 217,3 
A340-211 ICAO_B 3 5 Climb MaxClimb ZERO 3 000   
A340-211 ICAO_B 3 6 Accelerate MaxClimb ZERO  1 076,1 250 
A340-211 ICAO_B 3 7 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_B 3 8 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_B 3 9 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_B 4 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_B 4 2 Climb MaxTakeoff 1+F 1 000   
A340-211 ICAO_B 4 3 Accelerate MaxTakeoff 1+F  860,1 188,2 
A340-211 ICAO_B 4 4 Accelerate MaxTakeoff 1  955,9 219,5 
A340-211 ICAO_B 4 5 Climb MaxClimb ZERO 3 000   
A340-211 ICAO_B 4 6 Accelerate MaxClimb ZERO  1 003,9 250 
A340-211 ICAO_B 4 7 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_B 4 8 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_B 4 9 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_B 5 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_B 5 2 Climb MaxTakeoff 1+F 1 000   
A340-211 ICAO_B 5 3 Accelerate MaxTakeoff 1+F  779,4 194,9 
A340-211 ICAO_B 5 4 Accelerate MaxTakeoff 1  879,4 222,9 
A340-211 ICAO_B 5 5 Climb MaxClimb ZERO 3 000   
A340-211 ICAO_B 5 6 Accelerate MaxClimb ZERO  920,2 250 
A340-211 ICAO_B 5 7 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_B 5 8 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_B 5 9 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_B 6 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_B 6 2 Climb MaxTakeoff 1+F 1 000   
A340-211 ICAO_B 6 3 Accelerate MaxTakeoff 1+F  705,2 199,2 
A340-211 ICAO_B 6 4 Accelerate MaxTakeoff 1  802 224,4 
A340-211 ICAO_B 6 5 Climb MaxClimb ZERO 3 000   
A340-211 ICAO_B 6 6 Accelerate MaxClimb ZERO  836,4 250 
A340-211 ICAO_B 6 7 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_B 6 8 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_B 6 9 Climb MaxClimb ZERO 10 000   
A340-211 ICAO_B 7 1 Takeoff MaxTakeoff 1+F    
A340-211 ICAO_B 7 2 Climb MaxTakeoff 1+F 1 000   
A340-211 ICAO_B 7 3 Accelerate MaxTakeoff 1+F  519,8 199,2 
A340-211 ICAO_B 7 4 Accelerate MaxTakeoff 1  591,5 218,2 
A340-211 ICAO_B 7 5 Accelerate MaxTakeoff 1  653,7 223,4 
A340-211 ICAO_B 7 6 Climb MaxClimb ZERO 3 000   
A340-211 ICAO_B 7 7 Accelerate MaxClimb ZERO  622,6 250 
A340-211 ICAO_B 7 8 Climb MaxClimb ZERO 5 500   
A340-211 ICAO_B 7 9 Climb MaxClimb ZERO 7 500   
A340-211 ICAO_B 7 10 Climb MaxClimb ZERO 10 000   
A340-642 DEFAULT 1 1 Takeoff MaxTakeoff 1+F    
A340-642 DEFAULT 1 2 Accelerate MaxTakeoff 1+F  1 518,1 178,9 
A340-642 DEFAULT 1 3 Climb MaxTakeoff 1+F 1 000   
A340-642 DEFAULT 1 4 Accelerate MaxTakeoff 1+F  1 534,7 191,5 
A340-642 DEFAULT 1 5 Accelerate MaxTakeoff 1  1 638,4 240,3 
A340-642 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
A340-642 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 461,4 250 
A340-642 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
A340-642 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
A340-642 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
A340-642 DEFAULT 2 1 Takeoff MaxTakeoff 1+F    
A340-642 DEFAULT 2 2 Accelerate MaxTakeoff 1+F  1 481 178,3 
A340-642 DEFAULT 2 3 Climb MaxTakeoff 1+F 1 000   
A340-642 DEFAULT 2 4 Accelerate MaxTakeoff 1+F  1 452,6 194,6 
A340-642 DEFAULT 2 5 Accelerate MaxTakeoff 1  1 595,8 241,6 
A340-642 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
A340-642 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 415 250 
A340-642 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
A340-642 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
A340-642 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
A340-642 DEFAULT 3 1 Takeoff MaxTakeoff 1+F    
A340-642 DEFAULT 3 2 Accelerate MaxTakeoff 1+F  1 444,1 177,7 
A340-642 DEFAULT 3 3 Climb MaxTakeoff 1+F 1 000   
A340-642 DEFAULT 3 4 Accelerate MaxTakeoff 1+F  1 382,6 197,7 
A340-642 DEFAULT 3 5 Accelerate MaxTakeoff 1  1 554,9 243 
A340-642 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
A340-642 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 374,5 250 
A340-642 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
A340-642 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
A340-642 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
A340-642 DEFAULT 4 1 Takeoff MaxTakeoff 1+F    
A340-642 DEFAULT 4 2 Accelerate MaxTakeoff 1+F  1 383,2 176,9 
A340-642 DEFAULT 4 3 Climb MaxTakeoff 1+F 1 000   
A340-642 DEFAULT 4 4 Accelerate MaxTakeoff 1+F  1 292 203 
A340-642 DEFAULT 4 5 Accelerate MaxTakeoff 1  1 478,5 245,2 
A340-642 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
A340-642 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 320,3 250 
A340-642 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
A340-642 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
A340-642 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
A340-642 DEFAULT 5 1 Takeoff MaxTakeoff 1+F    
A340-642 DEFAULT 5 2 Accelerate MaxTakeoff 1+F  1 327,9 180,6 
A340-642 DEFAULT 5 3 Climb MaxTakeoff 1+F 1 000   
A340-642 DEFAULT 5 4 Accelerate MaxTakeoff 1+F  1 209,7 210,1 
A340-642 DEFAULT 5 5 Accelerate MaxTakeoff 1  1 373,5 248,4 
A340-642 DEFAULT 5 6 Climb MaxClimb ZERO 3 000   
A340-642 DEFAULT 5 7 Accelerate MaxClimb ZERO  1 410,4 250 
A340-642 DEFAULT 5 8 Climb MaxClimb ZERO 5 500   
A340-642 DEFAULT 5 9 Climb MaxClimb ZERO 7 500   
A340-642 DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
A340-642 DEFAULT 6 1 Takeoff MaxTakeoff 1+F    
A340-642 DEFAULT 6 2 Accelerate MaxTakeoff 1+F  1 185 185,4 
A340-642 DEFAULT 6 3 Climb MaxTakeoff 1+F 1 000   
A340-642 DEFAULT 6 4 Accelerate MaxTakeoff 1+F  1 126,6 214,9 
A340-642 DEFAULT 6 5 Accelerate MaxTakeoff 1  1 268,8 249,8 
A340-642 DEFAULT 6 6 Climb MaxClimb ZERO 3 000   
A340-642 DEFAULT 6 7 Accelerate MaxClimb ZERO  2 048,9 250 
A340-642 DEFAULT 6 8 Climb MaxClimb ZERO 5 500   
A340-642 DEFAULT 6 9 Climb MaxClimb ZERO 7 500   
A340-642 DEFAULT 6 10 Climb MaxClimb ZERO 10 000   
A340-642 DEFAULT 7 1 Takeoff MaxTakeoff 1+F    
A340-642 DEFAULT 7 2 Climb MaxTakeoff 1+F 1 000   
A340-642 DEFAULT 7 3 Accelerate MaxTakeoff 1+F  868,2 214,9 
A340-642 DEFAULT 7 4 Accelerate MaxTakeoff 1  929,6 241,1 
A340-642 DEFAULT 7 5 Climb MaxClimb ZERO 3 000   
A340-642 DEFAULT 7 6 Accelerate MaxClimb ZERO  748,4 250 
A340-642 DEFAULT 7 7 Climb MaxClimb ZERO 5 500   
A340-642 DEFAULT 7 8 Climb MaxClimb ZERO 7 500   
A340-642 DEFAULT 7 9 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_A 1 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_A 1 2 Accelerate MaxTakeoff 1+F  1 518,1 178,9 
A340-642 ICAO_A 1 3 Climb MaxTakeoff 1+F 1 500   
A340-642 ICAO_A 1 4 Climb MaxClimb 1+F 3 000   
A340-642 ICAO_A 1 5 Accelerate MaxClimb 1+F  1 110,7 191,6 
A340-642 ICAO_A 1 6 Accelerate MaxClimb 1  1 176,6 225,9 
A340-642 ICAO_A 1 7 Accelerate MaxClimb 1  1 342,4 250 
A340-642 ICAO_A 1 8 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_A 1 9 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_A 1 10 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_A 2 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_A 2 2 Accelerate MaxTakeoff 1+F  1 481 178,3 
A340-642 ICAO_A 2 3 Climb MaxTakeoff 1+F 1 500   
A340-642 ICAO_A 2 4 Climb MaxClimb 1+F 3 000   
A340-642 ICAO_A 2 5 Accelerate MaxClimb 1+F  1 053,1 194,6 
A340-642 ICAO_A 2 6 Accelerate MaxClimb 1  1 135,6 227,4 
A340-642 ICAO_A 2 7 Accelerate MaxClimb 1  1 292,5 250 
A340-642 ICAO_A 2 8 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_A 2 9 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_A 2 10 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_A 3 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_A 3 2 Accelerate MaxTakeoff 1+F  1 444,1 177,7 
A340-642 ICAO_A 3 3 Climb MaxTakeoff 1+F 1 500   
A340-642 ICAO_A 3 4 Climb MaxClimb 1+F 3 000   
A340-642 ICAO_A 3 5 Accelerate MaxClimb 1+F  1 002,2 197,7 
A340-642 ICAO_A 3 6 Accelerate MaxClimb 1  1 095,6 228,9 
A340-642 ICAO_A 3 7 Accelerate MaxClimb 1  1 243,9 250 
A340-642 ICAO_A 3 8 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_A 3 9 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_A 3 10 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_A 4 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_A 4 2 Accelerate MaxTakeoff 1+F  1 383,2 176,9 
A340-642 ICAO_A 4 3 Climb MaxTakeoff 1+F 1 500   
A340-642 ICAO_A 4 4 Climb MaxClimb 1+F 3 000   
A340-642 ICAO_A 4 5 Accelerate MaxClimb 1+F  925,2 203,3 
A340-642 ICAO_A 4 6 Accelerate MaxClimb 1  1 029,9 232 
A340-642 ICAO_A 4 7 Accelerate MaxClimb 1  1 164 250 
A340-642 ICAO_A 4 8 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_A 4 9 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_A 4 10 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_A 5 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_A 5 2 Accelerate MaxTakeoff 1+F  1 327,9 180,6 
A340-642 ICAO_A 5 3 Climb MaxTakeoff 1+F 1 500   
A340-642 ICAO_A 5 4 Climb MaxClimb 1+F 3 000   
A340-642 ICAO_A 5 5 Accelerate MaxClimb 1+F  848,8 210,8 
A340-642 ICAO_A 5 6 Accelerate MaxClimb 1  950,4 236,5 
A340-642 ICAO_A 5 7 Accelerate MaxClimb 1  1 067,5 250 
A340-642 ICAO_A 5 8 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_A 5 9 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_A 5 10 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_A 6 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_A 6 2 Accelerate MaxTakeoff 1+F  1 185 185,4 
A340-642 ICAO_A 6 3 Climb MaxTakeoff 1+F 1 500   
A340-642 ICAO_A 6 4 Climb MaxClimb 1+F 3 000   
A340-642 ICAO_A 6 5 Accelerate MaxClimb 1+F  780,5 219 
A340-642 ICAO_A 6 6 Accelerate MaxClimb 1  875,9 242 
A340-642 ICAO_A 6 7 Accelerate MaxClimb 1  975,3 250 
A340-642 ICAO_A 6 8 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_A 6 9 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_A 6 10 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_A 7 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_A 7 2 Climb MaxTakeoff 1+F 1 500   
A340-642 ICAO_A 7 3 Climb MaxClimb 1+F 3 000   
A340-642 ICAO_A 7 4 Accelerate MaxClimb 1+F  556,7 214,9 
A340-642 ICAO_A 7 5 Accelerate MaxClimb 1  601,9 231,3 
A340-642 ICAO_A 7 6 Accelerate MaxClimb ZERO  681,8 244 
A340-642 ICAO_A 7 7 Accelerate MaxClimb ZERO  729,1 250 
A340-642 ICAO_A 7 8 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_A 7 9 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_A 7 10 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_B 1 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_B 1 2 Accelerate MaxTakeoff 1+F  1 518,1 178,9 
A340-642 ICAO_B 1 3 Climb MaxTakeoff 1+F 1 000   
A340-642 ICAO_B 1 4 Accelerate MaxTakeoff 1+F  1 534,7 191,5 
A340-642 ICAO_B 1 5 Accelerate MaxTakeoff 1  1 638,4 240,3 
A340-642 ICAO_B 1 6 Climb MaxClimb ZERO 3 000   
A340-642 ICAO_B 1 7 Accelerate MaxClimb ZERO  1 461,4 250 
A340-642 ICAO_B 1 8 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_B 1 9 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_B 1 10 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_B 2 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_B 2 2 Accelerate MaxTakeoff 1+F  1 481 178,3 
A340-642 ICAO_B 2 3 Climb MaxTakeoff 1+F 1 000   
A340-642 ICAO_B 2 4 Accelerate MaxTakeoff 1+F  1 452,6 194,6 
A340-642 ICAO_B 2 5 Accelerate MaxTakeoff 1  1 595,8 241,6 
A340-642 ICAO_B 2 6 Climb MaxClimb ZERO 3 000   
A340-642 ICAO_B 2 7 Accelerate MaxClimb ZERO  1 415 250 
A340-642 ICAO_B 2 8 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_B 2 9 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_B 2 10 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_B 3 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_B 3 2 Accelerate MaxTakeoff 1+F  1 444,1 177,7 
A340-642 ICAO_B 3 3 Climb MaxTakeoff 1+F 1 000   
A340-642 ICAO_B 3 4 Accelerate MaxTakeoff 1+F  1 382,6 197,7 
A340-642 ICAO_B 3 5 Accelerate MaxTakeoff 1  1 554,9 243 
A340-642 ICAO_B 3 6 Climb MaxClimb ZERO 3 000   
A340-642 ICAO_B 3 7 Accelerate MaxClimb ZERO  1 374,5 250 
A340-642 ICAO_B 3 8 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_B 3 9 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_B 3 10 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_B 4 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_B 4 2 Accelerate MaxTakeoff 1+F  1 383,2 176,9 
A340-642 ICAO_B 4 3 Climb MaxTakeoff 1+F 1 000   
A340-642 ICAO_B 4 4 Accelerate MaxTakeoff 1+F  1 292 203 
A340-642 ICAO_B 4 5 Accelerate MaxTakeoff 1  1 478,5 245,2 
A340-642 ICAO_B 4 6 Climb MaxClimb ZERO 3 000   
A340-642 ICAO_B 4 7 Accelerate MaxClimb ZERO  1 320,3 250 
A340-642 ICAO_B 4 8 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_B 4 9 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_B 4 10 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_B 5 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_B 5 2 Accelerate MaxTakeoff 1+F  1 327,9 180,6 
A340-642 ICAO_B 5 3 Climb MaxTakeoff 1+F 1 000   
A340-642 ICAO_B 5 4 Accelerate MaxTakeoff 1+F  1 209,7 210,1 
A340-642 ICAO_B 5 5 Accelerate MaxTakeoff 1  1 373,5 248,4 
A340-642 ICAO_B 5 6 Climb MaxClimb ZERO 3 000   
A340-642 ICAO_B 5 7 Accelerate MaxClimb ZERO  1 410,4 250 
A340-642 ICAO_B 5 8 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_B 5 9 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_B 5 10 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_B 6 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_B 6 2 Accelerate MaxTakeoff 1+F  1 185 185,4 
A340-642 ICAO_B 6 3 Climb MaxTakeoff 1+F 1 000   
A340-642 ICAO_B 6 4 Accelerate MaxTakeoff 1+F  1 126,6 214,9 
A340-642 ICAO_B 6 5 Accelerate MaxTakeoff 1  1 268,8 249,8 
A340-642 ICAO_B 6 6 Climb MaxClimb ZERO 3 000   
A340-642 ICAO_B 6 7 Accelerate MaxClimb ZERO  2 048,9 250 
A340-642 ICAO_B 6 8 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_B 6 9 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_B 6 10 Climb MaxClimb ZERO 10 000   
A340-642 ICAO_B 7 1 Takeoff MaxTakeoff 1+F    
A340-642 ICAO_B 7 2 Climb MaxTakeoff 1+F 1 000   
A340-642 ICAO_B 7 3 Accelerate MaxTakeoff 1+F  868,2 214,9 
A340-642 ICAO_B 7 4 Accelerate MaxTakeoff 1  929,6 241,1 
A340-642 ICAO_B 7 5 Climb MaxClimb ZERO 3 000   
A340-642 ICAO_B 7 6 Accelerate MaxClimb ZERO  748,4 250 
A340-642 ICAO_B 7 7 Climb MaxClimb ZERO 5 500   
A340-642 ICAO_B 7 8 Climb MaxClimb ZERO 7 500   
A340-642 ICAO_B 7 9 Climb MaxClimb ZERO 10 000   
A380-841 DEFAULT 1 1 Takeoff MaxTakeoff D_1+F    
A380-841 DEFAULT 1 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 DEFAULT 1 3 Accelerate MaxTakeoff D_1+F  1 085 175,1 
A380-841 DEFAULT 1 4 Accelerate MaxTakeoff D_1  1 306 238,9 
A380-841 DEFAULT 1 5 Climb MaxClimb D_1 3 000   
A380-841 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 497,8 250 
A380-841 DEFAULT 1 7 Climb MaxClimb ZERO 10 000   
A380-841 DEFAULT 2 1 Takeoff MaxTakeoff D_1+F    
A380-841 DEFAULT 2 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 DEFAULT 2 3 Accelerate MaxTakeoff D_1+F  1 054 177,6 
A380-841 DEFAULT 2 4 Accelerate MaxTakeoff D_1  1 262,8 238,9 
A380-841 DEFAULT 2 5 Climb MaxClimb D_1 3 000   
A380-841 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 444,8 250 
A380-841 DEFAULT 2 7 Climb MaxClimb ZERO 10 000   
A380-841 DEFAULT 3 1 Takeoff MaxTakeoff D_1+F    
A380-841 DEFAULT 3 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 DEFAULT 3 3 Accelerate MaxTakeoff D_1+F  1 022,1 180,2 
A380-841 DEFAULT 3 4 Accelerate MaxTakeoff D_1  1 220,9 239,1 
A380-841 DEFAULT 3 5 Climb MaxClimb D_1 3 000   
A380-841 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 394,3 250 
A380-841 DEFAULT 3 7 Climb MaxClimb ZERO 10 000   
A380-841 DEFAULT 4 1 Takeoff MaxTakeoff D_1+F    
A380-841 DEFAULT 4 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 DEFAULT 4 3 Accelerate MaxTakeoff D_1+F  975,4 184,8 
A380-841 DEFAULT 4 4 Accelerate MaxTakeoff D_1  1 152,5 239,6 
A380-841 DEFAULT 4 5 Climb MaxClimb D_1 3 000   
A380-841 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 313,6 250 
A380-841 DEFAULT 4 7 Climb MaxClimb ZERO 10 000   
A380-841 DEFAULT 5 1 Takeoff MaxTakeoff D_1+F    
A380-841 DEFAULT 5 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 DEFAULT 5 3 Accelerate MaxTakeoff D_1+F  908,1 190,6 
A380-841 DEFAULT 5 4 Accelerate MaxTakeoff D_1  1 072,2 240,8 
A380-841 DEFAULT 5 5 Climb MaxClimb D_1 3 000   
A380-841 DEFAULT 5 6 Accelerate MaxClimb ZERO  1 220,7 250 
A380-841 DEFAULT 5 7 Climb MaxClimb ZERO 10 000   
A380-841 DEFAULT 6 1 Takeoff MaxTakeoff D_1+F    
A380-841 DEFAULT 6 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 DEFAULT 6 3 Accelerate MaxTakeoff D_1+F  843 196,7 
A380-841 DEFAULT 6 4 Accelerate MaxTakeoff D_1  994,4 242,4 
A380-841 DEFAULT 6 5 Climb MaxClimb D_1 3 000   
A380-841 DEFAULT 6 6 Accelerate MaxClimb ZERO  1 134,1 250 
A380-841 DEFAULT 6 7 Climb MaxClimb ZERO 10 000   
A380-841 DEFAULT 7 1 Takeoff MaxTakeoff D_1+F    
A380-841 DEFAULT 7 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 DEFAULT 7 3 Accelerate MaxTakeoff D_1+F  783 202,7 
A380-841 DEFAULT 7 4 Accelerate MaxTakeoff D_1  925 244,4 
A380-841 DEFAULT 7 5 Climb MaxClimb D_1 3 000   
A380-841 DEFAULT 7 6 Accelerate MaxClimb ZERO  1 065,1 250 
A380-841 DEFAULT 7 7 Climb MaxClimb ZERO 10 000   
A380-841 DEFAULT 8 1 Takeoff MaxTakeoff D_1+F    
A380-841 DEFAULT 8 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 DEFAULT 8 3 Accelerate MaxTakeoff D_1+F  622,4 220 
A380-841 DEFAULT 8 4 Accelerate MaxTakeoff D_1  744,8 251,7 
A380-841 DEFAULT 8 5 Climb MaxClimb D_1 3 000   
A380-841 DEFAULT 8 6 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_A 1 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_A 1 2 Climb MaxTakeoff D_1+F 1 500   
A380-841 ICAO_A 1 3 Climb MaxClimb D_1+F 3 000   
A380-841 ICAO_A 1 4 Accelerate MaxClimb D_1  1 049,1 175,1 
A380-841 ICAO_A 1 5 Accelerate MaxClimb D_1  1 257,9 233,9 
A380-841 ICAO_A 1 6 Accelerate MaxClimb ZERO  1 403,3 250 
A380-841 ICAO_A 1 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_A 2 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_A 2 2 Climb MaxTakeoff D_1+F 1 500   
A380-841 ICAO_A 2 3 Climb MaxClimb D_1+F 3 000   
A380-841 ICAO_A 2 4 Accelerate MaxClimb D_1  1 005,4 177,7 
A380-841 ICAO_A 2 5 Accelerate MaxClimb D_1  1 217,2 234,1 
A380-841 ICAO_A 2 6 Accelerate MaxClimb ZERO  1 355,3 250 
A380-841 ICAO_A 2 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_A 3 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_A 3 2 Climb MaxTakeoff D_1+F 1 500   
A380-841 ICAO_A 3 3 Climb MaxClimb D_1+F 3 000   
A380-841 ICAO_A 3 4 Accelerate MaxClimb D_1  965,1 180,3 
A380-841 ICAO_A 3 5 Accelerate MaxClimb D_1  1 177,8 234,5 
A380-841 ICAO_A 3 6 Accelerate MaxClimb ZERO  1 308,6 250 
A380-841 ICAO_A 3 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_A 4 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_A 4 2 Climb MaxTakeoff D_1+F 1 500   
A380-841 ICAO_A 4 3 Climb MaxClimb D_1+F 3 000   
A380-841 ICAO_A 4 4 Accelerate MaxClimb D_1  912,3 184,9 
A380-841 ICAO_A 4 5 Accelerate MaxClimb D_1  1 113,9 235,4 
A380-841 ICAO_A 4 6 Accelerate MaxClimb ZERO  1 231,9 250 
A380-841 ICAO_A 4 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_A 5 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_A 5 2 Climb MaxTakeoff D_1+F 1 500   
A380-841 ICAO_A 5 3 Climb MaxClimb D_1+F 3 000   
A380-841 ICAO_A 5 4 Accelerate MaxClimb D_1  850,1 190,8 
A380-841 ICAO_A 5 5 Accelerate MaxClimb D_1  1 038,8 237,1 
A380-841 ICAO_A 5 6 Accelerate MaxClimb ZERO  1 141,2 250 
A380-841 ICAO_A 5 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_A 6 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_A 6 2 Climb MaxTakeoff D_1+F 1 500   
A380-841 ICAO_A 6 3 Climb MaxClimb D_1+F 3 000   
A380-841 ICAO_A 6 4 Accelerate MaxClimb D_1  789,5 196,9 
A380-841 ICAO_A 6 5 Accelerate MaxClimb D_1  965,9 239,1 
A380-841 ICAO_A 6 6 Accelerate MaxClimb ZERO  1 053 250 
A380-841 ICAO_A 6 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_A 7 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_A 7 2 Climb MaxTakeoff D_1+F 1 500   
A380-841 ICAO_A 7 3 Climb MaxClimb D_1+F 3 000   
A380-841 ICAO_A 7 4 Accelerate MaxClimb D_1  735,4 203,1 
A380-841 ICAO_A 7 5 Accelerate MaxClimb D_1  900,3 241,6 
A380-841 ICAO_A 7 6 Accelerate MaxClimb ZERO  973,7 250 
A380-841 ICAO_A 7 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_A 8 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_A 8 2 Climb MaxTakeoff D_1+F 1 500   
A380-841 ICAO_A 8 3 Climb MaxClimb D_1+F 3 000   
A380-841 ICAO_A 8 4 Accelerate MaxClimb D_1  587,9 220 
A380-841 ICAO_A 8 5 Accelerate MaxClimb D_1  722,8 249,2 
A380-841 ICAO_A 8 6 Accelerate MaxClimb ZERO  762,6 250 
A380-841 ICAO_A 8 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_B 1 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_B 1 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 ICAO_B 1 3 Accelerate MaxTakeoff D_1+F  1 085 175,1 
A380-841 ICAO_B 1 4 Accelerate MaxTakeoff D_1  1 306 238,9 
A380-841 ICAO_B 1 5 Climb MaxClimb D_1 3 000   
A380-841 ICAO_B 1 6 Accelerate MaxClimb ZERO  1 497,8 250 
A380-841 ICAO_B 1 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_B 2 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_B 2 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 ICAO_B 2 3 Accelerate MaxTakeoff D_1+F  1 054 177,6 
A380-841 ICAO_B 2 4 Accelerate MaxTakeoff D_1  1 262,8 238,9 
A380-841 ICAO_B 2 5 Climb MaxClimb D_1 3 000   
A380-841 ICAO_B 2 6 Accelerate MaxClimb ZERO  1 444,8 250 
A380-841 ICAO_B 2 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_B 3 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_B 3 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 ICAO_B 3 3 Accelerate MaxTakeoff D_1+F  1 022,1 180,2 
A380-841 ICAO_B 3 4 Accelerate MaxTakeoff D_1  1 220,9 239,1 
A380-841 ICAO_B 3 5 Climb MaxClimb D_1 3 000   
A380-841 ICAO_B 3 6 Accelerate MaxClimb ZERO  1 394,3 250 
A380-841 ICAO_B 3 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_B 4 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_B 4 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 ICAO_B 4 3 Accelerate MaxTakeoff D_1+F  975,4 184,8 
A380-841 ICAO_B 4 4 Accelerate MaxTakeoff D_1  1 152,5 239,6 
A380-841 ICAO_B 4 5 Climb MaxClimb D_1 3 000   
A380-841 ICAO_B 4 6 Accelerate MaxClimb ZERO  1 313,6 250 
A380-841 ICAO_B 4 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_B 5 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_B 5 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 ICAO_B 5 3 Accelerate MaxTakeoff D_1+F  908,1 190,6 
A380-841 ICAO_B 5 4 Accelerate MaxTakeoff D_1  1 072,2 240,8 
A380-841 ICAO_B 5 5 Climb MaxClimb D_1 3 000   
A380-841 ICAO_B 5 6 Accelerate MaxClimb ZERO  1 220,7 250 
A380-841 ICAO_B 5 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_B 6 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_B 6 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 ICAO_B 6 3 Accelerate MaxTakeoff D_1+F  843 196,7 
A380-841 ICAO_B 6 4 Accelerate MaxTakeoff D_1  994,4 242,4 
A380-841 ICAO_B 6 5 Climb MaxClimb D_1 3 000   
A380-841 ICAO_B 6 6 Accelerate MaxClimb ZERO  1 134,1 250 
A380-841 ICAO_B 6 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_B 7 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_B 7 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 ICAO_B 7 3 Accelerate MaxTakeoff D_1+F  783 202,7 
A380-841 ICAO_B 7 4 Accelerate MaxTakeoff D_1  925 244,4 
A380-841 ICAO_B 7 5 Climb MaxClimb D_1 3 000   
A380-841 ICAO_B 7 6 Accelerate MaxClimb ZERO  1 065,1 250 
A380-841 ICAO_B 7 7 Climb MaxClimb ZERO 10 000   
A380-841 ICAO_B 8 1 Takeoff MaxTakeoff D_1+F    
A380-841 ICAO_B 8 2 Climb MaxTakeoff D_1+F 1 000   
A380-841 ICAO_B 8 3 Accelerate MaxTakeoff D_1+F  622,4 220 
A380-841 ICAO_B 8 4 Accelerate MaxTakeoff D_1  744,8 251,7 
A380-841 ICAO_B 8 5 Climb MaxClimb D_1 3 000   
A380-841 ICAO_B 8 6 Climb MaxClimb ZERO 10 000   
A380-861 DEFAULT 1 1 Takeoff MaxTakeoff D_1+F    
A380-861 DEFAULT 1 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 DEFAULT 1 3 Accelerate MaxTakeoff D_1+F  1 086 175,1 
A380-861 DEFAULT 1 4 Accelerate MaxTakeoff D_1  1 312,2 239,2 
A380-861 DEFAULT 1 5 Climb MaxClimb D_1 3 000   
A380-861 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 499,1 250 
A380-861 DEFAULT 1 7 Climb MaxClimb ZERO 10 000   
A380-861 DEFAULT 2 1 Takeoff MaxTakeoff D_1+F    
A380-861 DEFAULT 2 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 DEFAULT 2 3 Accelerate MaxTakeoff D_1+F  1 056 177,6 
A380-861 DEFAULT 2 4 Accelerate MaxTakeoff D_1  1 269 239,2 
A380-861 DEFAULT 2 5 Climb MaxClimb D_1 3 000   
A380-861 DEFAULT 2 6 Accelerate MaxClimb ZERO  1 446,4 250 
A380-861 DEFAULT 2 7 Climb MaxClimb ZERO 10 000   
A380-861 DEFAULT 3 1 Takeoff MaxTakeoff D_1+F    
A380-861 DEFAULT 3 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 DEFAULT 3 3 Accelerate MaxTakeoff D_1+F  1 024,4 180,2 
A380-861 DEFAULT 3 4 Accelerate MaxTakeoff D_1  1 226,4 239,2 
A380-861 DEFAULT 3 5 Climb MaxClimb D_1 3 000   
A380-861 DEFAULT 3 6 Accelerate MaxClimb ZERO  1 394,9 250 
A380-861 DEFAULT 3 7 Climb MaxClimb ZERO 10 000   
A380-861 DEFAULT 4 1 Takeoff MaxTakeoff D_1+F    
A380-861 DEFAULT 4 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 DEFAULT 4 3 Accelerate MaxTakeoff D_1+F  972,5 184,7 
A380-861 DEFAULT 4 4 Accelerate MaxTakeoff D_1  1 158,3 239,8 
A380-861 DEFAULT 4 5 Climb MaxClimb D_1 3 000   
A380-861 DEFAULT 4 6 Accelerate MaxClimb ZERO  1 315,9 250 
A380-861 DEFAULT 4 7 Climb MaxClimb ZERO 10 000   
A380-861 DEFAULT 5 1 Takeoff MaxTakeoff D_1+F    
A380-861 DEFAULT 5 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 DEFAULT 5 3 Accelerate MaxTakeoff D_1+F  906,2 190,4 
A380-861 DEFAULT 5 4 Accelerate MaxTakeoff D_1  1 080,4 240,9 
A380-861 DEFAULT 5 5 Climb MaxClimb D_1 3 000   
A380-861 DEFAULT 5 6 Accelerate MaxClimb ZERO  1 225,2 250 
A380-861 DEFAULT 5 7 Climb MaxClimb ZERO 10 000   
A380-861 DEFAULT 6 1 Takeoff MaxTakeoff D_1+F    
A380-861 DEFAULT 6 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 DEFAULT 6 3 Accelerate MaxTakeoff D_1+F  840 196,4 
A380-861 DEFAULT 6 4 Accelerate MaxTakeoff D_1  1 003 242,5 
A380-861 DEFAULT 6 5 Climb MaxClimb D_1 3 000   
A380-861 DEFAULT 6 6 Accelerate MaxClimb ZERO  1 139 250 
A380-861 DEFAULT 6 7 Climb MaxClimb ZERO 10 000   
A380-861 DEFAULT 7 1 Takeoff MaxTakeoff D_1+F    
A380-861 DEFAULT 7 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 DEFAULT 7 3 Accelerate MaxTakeoff D_1+F  777,6 202,7 
A380-861 DEFAULT 7 4 Accelerate MaxTakeoff D_1  930,4 244,6 
A380-861 DEFAULT 7 5 Climb MaxClimb D_1 3 000   
A380-861 DEFAULT 7 6 Accelerate MaxClimb ZERO  1 063,2 250 
A380-861 DEFAULT 7 7 Climb MaxClimb ZERO 10 000   
A380-861 DEFAULT 8 1 Takeoff MaxTakeoff D_1+F    
A380-861 DEFAULT 8 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 DEFAULT 8 3 Accelerate MaxTakeoff D_1+F  618,5 220 
A380-861 DEFAULT 8 4 Accelerate MaxTakeoff D_1  746,6 251,8 
A380-861 DEFAULT 8 5 Climb MaxClimb D_1 3 000   
A380-861 DEFAULT 8 6 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_A 1 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_A 1 2 Climb MaxTakeoff D_1+F 1 500   
A380-861 ICAO_A 1 3 Climb MaxClimb D_1+F 3 000   
A380-861 ICAO_A 1 4 Accelerate MaxClimb D_1  1 057,7 175,1 
A380-861 ICAO_A 1 5 Accelerate MaxClimb D_1  1 257,2 233,9 
A380-861 ICAO_A 1 6 Accelerate MaxClimb ZERO  1 386,8 250 
A380-861 ICAO_A 1 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_A 2 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_A 2 2 Climb MaxTakeoff D_1+F 1 500   
A380-861 ICAO_A 2 3 Climb MaxClimb D_1+F 3 000   
A380-861 ICAO_A 2 4 Accelerate MaxClimb D_1  1 012,5 177,6 
A380-861 ICAO_A 2 5 Accelerate MaxClimb D_1  1 208,1 233,8 
A380-861 ICAO_A 2 6 Accelerate MaxClimb ZERO  1 339,4 250 
A380-861 ICAO_A 2 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_A 3 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_A 3 2 Climb MaxTakeoff D_1+F 1 500   
A380-861 ICAO_A 3 3 Climb MaxClimb D_1+F 3 000   
A380-861 ICAO_A 3 4 Accelerate MaxClimb D_1  970 180,2 
A380-861 ICAO_A 3 5 Accelerate MaxClimb D_1  1 168,2 234,1 
A380-861 ICAO_A 3 6 Accelerate MaxClimb ZERO  1 293 250 
A380-861 ICAO_A 3 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_A 4 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_A 4 2 Climb MaxTakeoff D_1+F 1 500   
A380-861 ICAO_A 4 3 Climb MaxClimb D_1+F 3 000   
A380-861 ICAO_A 4 4 Accelerate MaxClimb D_1  908,4 184,8 
A380-861 ICAO_A 4 5 Accelerate MaxClimb D_1  1 103,5 235 
A380-861 ICAO_A 4 6 Accelerate MaxClimb ZERO  1 216,8 250 
A380-861 ICAO_A 4 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_A 5 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_A 5 2 Climb MaxTakeoff D_1+F 1 500   
A380-861 ICAO_A 5 3 Climb MaxClimb D_1+F 3 000   
A380-861 ICAO_A 5 4 Accelerate MaxClimb D_1  847,3 190,5 
A380-861 ICAO_A 5 5 Accelerate MaxClimb D_1  1 029,6 236,5 
A380-861 ICAO_A 5 6 Accelerate MaxClimb ZERO  1 129,4 250 
A380-861 ICAO_A 5 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_A 6 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_A 6 2 Climb MaxTakeoff D_1+F 1 500   
A380-861 ICAO_A 6 3 Climb MaxClimb D_1+F 3 000   
A380-861 ICAO_A 6 4 Accelerate MaxClimb D_1  786 196,7 
A380-861 ICAO_A 6 5 Accelerate MaxClimb D_1  955,7 238,5 
A380-861 ICAO_A 6 6 Accelerate MaxClimb ZERO  1 041,8 250 
A380-861 ICAO_A 6 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_A 7 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_A 7 2 Climb MaxTakeoff D_1+F 1 500   
A380-861 ICAO_A 7 3 Climb MaxClimb D_1+F 3 000   
A380-861 ICAO_A 7 4 Accelerate MaxClimb D_1  728,1 203,1 
A380-861 ICAO_A 7 5 Accelerate MaxClimb D_1  886,1 241,1 
A380-861 ICAO_A 7 6 Accelerate MaxClimb ZERO  959,3 250 
A380-861 ICAO_A 7 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_A 8 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_A 8 2 Climb MaxTakeoff D_1+F 1 500   
A380-861 ICAO_A 8 3 Climb MaxClimb D_1+F 3 000   
A380-861 ICAO_A 8 4 Accelerate MaxClimb D_1  577,2 220 
A380-861 ICAO_A 8 5 Accelerate MaxClimb D_1  705,6 248,6 
A380-861 ICAO_A 8 6 Accelerate MaxClimb ZERO  749,1 250 
A380-861 ICAO_A 8 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_B 1 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_B 1 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 ICAO_B 1 3 Accelerate MaxTakeoff D_1+F  1 086 175,1 
A380-861 ICAO_B 1 4 Accelerate MaxTakeoff D_1  1 312,2 239,2 
A380-861 ICAO_B 1 5 Climb MaxClimb D_1 3 000   
A380-861 ICAO_B 1 6 Accelerate MaxClimb ZERO  1 499,1 250 
A380-861 ICAO_B 1 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_B 2 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_B 2 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 ICAO_B 2 3 Accelerate MaxTakeoff D_1+F  1 056 177,6 
A380-861 ICAO_B 2 4 Accelerate MaxTakeoff D_1  1 269 239,2 
A380-861 ICAO_B 2 5 Climb MaxClimb D_1 3 000   
A380-861 ICAO_B 2 6 Accelerate MaxClimb ZERO  1 446,4 250 
A380-861 ICAO_B 2 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_B 3 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_B 3 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 ICAO_B 3 3 Accelerate MaxTakeoff D_1+F  1 024,4 180,2 
A380-861 ICAO_B 3 4 Accelerate MaxTakeoff D_1  1 226,4 239,2 
A380-861 ICAO_B 3 5 Climb MaxClimb D_1 3 000   
A380-861 ICAO_B 3 6 Accelerate MaxClimb ZERO  1 394,9 250 
A380-861 ICAO_B 3 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_B 4 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_B 4 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 ICAO_B 4 3 Accelerate MaxTakeoff D_1+F  972,5 184,7 
A380-861 ICAO_B 4 4 Accelerate MaxTakeoff D_1  1 158,3 239,8 
A380-861 ICAO_B 4 5 Climb MaxClimb D_1 3 000   
A380-861 ICAO_B 4 6 Accelerate MaxClimb ZERO  1 315,9 250 
A380-861 ICAO_B 4 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_B 5 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_B 5 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 ICAO_B 5 3 Accelerate MaxTakeoff D_1+F  906,2 190,4 
A380-861 ICAO_B 5 4 Accelerate MaxTakeoff D_1  1 080,4 240,9 
A380-861 ICAO_B 5 5 Climb MaxClimb D_1 3 000   
A380-861 ICAO_B 5 6 Accelerate MaxClimb ZERO  1 225,2 250 
A380-861 ICAO_B 5 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_B 6 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_B 6 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 ICAO_B 6 3 Accelerate MaxTakeoff D_1+F  840 196,4 
A380-861 ICAO_B 6 4 Accelerate MaxTakeoff D_1  1 003 242,5 
A380-861 ICAO_B 6 5 Climb MaxClimb D_1 3 000   
A380-861 ICAO_B 6 6 Accelerate MaxClimb ZERO  1 139 250 
A380-861 ICAO_B 6 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_B 7 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_B 7 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 ICAO_B 7 3 Accelerate MaxTakeoff D_1+F  777,6 202,7 
A380-861 ICAO_B 7 4 Accelerate MaxTakeoff D_1  930,4 244,6 
A380-861 ICAO_B 7 5 Climb MaxClimb D_1 3 000   
A380-861 ICAO_B 7 6 Accelerate MaxClimb ZERO  1 063,2 250 
A380-861 ICAO_B 7 7 Climb MaxClimb ZERO 10 000   
A380-861 ICAO_B 8 1 Takeoff MaxTakeoff D_1+F    
A380-861 ICAO_B 8 2 Climb MaxTakeoff D_1+F 1 000   
A380-861 ICAO_B 8 3 Accelerate MaxTakeoff D_1+F  618,5 220 
A380-861 ICAO_B 8 4 Accelerate MaxTakeoff D_1  746,6 251,8 
A380-861 ICAO_B 8 5 Climb MaxClimb D_1 3 000   
A380-861 ICAO_B 8 6 Climb MaxClimb ZERO 10 000   
BAC111 DEFAULT 1 1 Takeoff MaxTakeoff 8    
BAC111 DEFAULT 1 2 Climb MaxTakeoff 8 1 000   
BAC111 DEFAULT 1 3 Accelerate MaxTakeoff 8  1 942 158 
BAC111 DEFAULT 1 4 Accelerate MaxTakeoff INT1  1 457 178 
BAC111 DEFAULT 1 5 Accelerate MaxClimb INT1  1 000 198 
BAC111 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
BAC111 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
BAC111 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
BAC111 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
BAC111 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
BAC111 DEFAULT 2 1 Takeoff MaxTakeoff 8    
BAC111 DEFAULT 2 2 Climb MaxTakeoff 8 1 000   
BAC111 DEFAULT 2 3 Accelerate MaxTakeoff 8  1 809 163 
BAC111 DEFAULT 2 4 Accelerate MaxTakeoff INT1  1 357 183 
BAC111 DEFAULT 2 5 Accelerate MaxClimb INT1  1 000 203 
BAC111 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
BAC111 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
BAC111 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
BAC111 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
BAC111 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
BAC111 DEFAULT 3 1 Takeoff MaxTakeoff 8    
BAC111 DEFAULT 3 2 Climb MaxTakeoff 8 1 000   
BAC111 DEFAULT 3 3 Accelerate MaxTakeoff 8  1 665 169 
BAC111 DEFAULT 3 4 Accelerate MaxTakeoff INT1  1 249 189 
BAC111 DEFAULT 3 5 Accelerate MaxClimb INT1  1 000 209 
BAC111 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
BAC111 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
BAC111 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
BAC111 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
BAC111 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
BAE146 DEFAULT 1 1 Takeoff MaxTakeoff 18    
BAE146 DEFAULT 1 2 Climb MaxTakeoff 18 1 000   
BAE146 DEFAULT 1 3 Accelerate MaxTakeoff 18  970 171 
BAE146 DEFAULT 1 4 Accelerate MaxClimb ZERO  900 201 
BAE146 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
BAE146 DEFAULT 1 6 Accelerate MaxClimb ZERO  900 250 
BAE146 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
BAE146 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
BAE146 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
BAE146 DEFAULT 2 1 Takeoff MaxTakeoff 18    
BAE146 DEFAULT 2 2 Climb MaxTakeoff 18 1 000   
BAE146 DEFAULT 2 3 Accelerate MaxTakeoff 18  801 178 
BAE146 DEFAULT 2 4 Accelerate MaxClimb ZERO  750 208 
BAE146 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
BAE146 DEFAULT 2 6 Accelerate MaxClimb ZERO  750 250 
BAE146 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
BAE146 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
BAE146 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
BAE146 DEFAULT 3 1 Takeoff MaxTakeoff 18    
BAE146 DEFAULT 3 2 Climb MaxTakeoff 18 1 000   
BAE146 DEFAULT 3 3 Accelerate MaxTakeoff 18  671 184 
BAE146 DEFAULT 3 4 Accelerate MaxClimb ZERO  500 214 
BAE146 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
BAE146 DEFAULT 3 6 Accelerate MaxClimb ZERO  500 250 
BAE146 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
BAE146 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
BAE146 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
BAE300 DEFAULT 1 1 Takeoff MaxTakeoff 18    
BAE300 DEFAULT 1 2 Climb MaxTakeoff 18 1 000   
BAE300 DEFAULT 1 3 Accelerate MaxTakeoff 18  920 176 
BAE300 DEFAULT 1 4 Accelerate MaxClimb ZERO  900 206 
BAE300 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
BAE300 DEFAULT 1 6 Accelerate MaxClimb ZERO  900 250 
BAE300 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
BAE300 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
BAE300 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
BAE300 DEFAULT 2 1 Takeoff MaxTakeoff 18    
BAE300 DEFAULT 2 2 Climb MaxTakeoff 18 1 000   
BAE300 DEFAULT 2 3 Accelerate MaxTakeoff 18  762 183 
BAE300 DEFAULT 2 4 Accelerate MaxClimb ZERO  750 213 
BAE300 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
BAE300 DEFAULT 2 6 Accelerate MaxClimb ZERO  750 250 
BAE300 DEFAULT 2 7 Climb MaxClimb ZERO 5 500   
BAE300 DEFAULT 2 8 Climb MaxClimb ZERO 7 500   
BAE300 DEFAULT 2 9 Climb MaxClimb ZERO 10 000   
BAE300 DEFAULT 3 1 Takeoff MaxTakeoff 18    
BAE300 DEFAULT 3 2 Climb MaxTakeoff 18 1 000   
BAE300 DEFAULT 3 3 Accelerate MaxTakeoff 18  622 189 
BAE300 DEFAULT 3 4 Accelerate MaxClimb ZERO  500 219 
BAE300 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
BAE300 DEFAULT 3 6 Accelerate MaxClimb ZERO  500 250 
BAE300 DEFAULT 3 7 Climb MaxClimb ZERO 5 500   
BAE300 DEFAULT 3 8 Climb MaxClimb ZERO 7 500   
BAE300 DEFAULT 3 9 Climb MaxClimb ZERO 10 000   
BEC58P DEFAULT 1 1 Takeoff MaxTakeoff TO    
BEC58P DEFAULT 1 2 Accelerate MaxTakeoff TO  1 040 115 
BEC58P DEFAULT 1 3 Climb MaxTakeoff TO 1 000   
BEC58P DEFAULT 1 4 Accelerate MaxTakeoff TO  1 040 130 
BEC58P DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
BEC58P DEFAULT 1 6 Climb MaxClimb ZERO 5 500   
BEC58P DEFAULT 1 7 Climb MaxClimb ZERO 7 500   
BEC58P DEFAULT 1 8 Climb MaxClimb ZERO 10 000   
CIT3 DEFAULT 1 1 Takeoff MaxTakeoff 20    
CIT3 DEFAULT 1 2 Accelerate MaxTakeoff 20  1 146 149 
CIT3 DEFAULT 1 3 Climb MaxTakeoff 20 1 500   
CIT3 DEFAULT 1 4 Accelerate MaxTakeoff 10  1 146 174 
CIT3 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
CIT3 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 503 250 
CIT3 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
CIT3 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
CIT3 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
CL600 DEFAULT 1 1 Takeoff MaxTakeoff 20    
CL600 DEFAULT 1 2 Accelerate MaxTakeoff 20  1 554 163 
CL600 DEFAULT 1 3 Climb MaxTakeoff 20 1 500   
CL600 DEFAULT 1 4 Accelerate MaxTakeoff 10  1 554 200 
CL600 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
CL600 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 771 250 
CL600 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
CL600 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
CL600 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
CL601 DEFAULT 1 1 Takeoff MaxTakeoff 20    
CL601 DEFAULT 1 2 Accelerate MaxTakeoff 20  1 673 177 
CL601 DEFAULT 1 3 Climb MaxTakeoff 20 1 500   
CL601 DEFAULT 1 4 Accelerate MaxTakeoff 10  1 673 200 
CL601 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
CL601 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 724 250 
CL601 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
CL601 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
CL601 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
CNA172 DEFAULT 1 1 Takeoff MaxTakeoff ZERO-C    
CNA172 DEFAULT 1 2 Accelerate MaxTakeoff ZERO-C  500 75 
CNA172 DEFAULT 1 3 Climb MaxTakeoff ZERO-C 1 000   
CNA172 DEFAULT 1 4 Accelerate MaxTakeoff ZERO-C  500 80 
CNA172 DEFAULT 1 5 Climb MaxClimb ZERO-C 3 000   
CNA172 DEFAULT 1 6 Climb MaxClimb ZERO-C 5 000   
CNA172 DEFAULT 1 7 Climb MaxClimb ZERO-C 8 000   
CNA182 DEFAULT 1 1 Takeoff MaxTakeoff F-20D    
CNA182 DEFAULT 1 2 Accelerate MaxTakeoff F-20D  500 80 
CNA182 DEFAULT 1 3 Climb MaxTakeoff ZERO 1 000   
CNA182 DEFAULT 1 4 Accelerate MaxTakeoff ZERO  500 85 
CNA182 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
CNA182 DEFAULT 1 6 Climb MaxClimb ZERO 5 000   
CNA182 DEFAULT 1 7 Climb MaxClimb ZERO 8 000   
CNA182 DEFAULT 1 8 Climb MaxClimb ZERO 10 000   
CNA208 DEFAULT 1 1 Takeoff MaxTakeoff F-20D    
CNA208 DEFAULT 1 2 Accelerate MaxTakeoff F-20D  915 104 
CNA208 DEFAULT 1 3 Climb MaxTakeoff ZERO 1 000   
CNA208 DEFAULT 1 4 Accelerate MaxClimb ZERO  846 115 
CNA208 DEFAULT 1 5 Climb MaxClimb ZERO 2 000   
CNA208 DEFAULT 1 6 Climb MaxClimb ZERO 4 000   
CNA208 DEFAULT 1 7 Climb MaxClimb ZERO 6 000   
CNA208 DEFAULT 1 8 Climb MaxClimb ZERO 8 000   
CNA208 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
CNA441 DEFAULT 1 1 Takeoff MaxTakeoff TO    
CNA441 DEFAULT 1 2 Accelerate MaxTakeoff TO  1 216 120 
CNA441 DEFAULT 1 3 Accelerate MaxTakeoff ZERO  1 216 140 
CNA441 DEFAULT 1 4 Climb MaxTakeoff ZERO 3 000   
CNA441 DEFAULT 1 5 Climb MaxClimb ZERO 5 500   
CNA441 DEFAULT 1 6 Climb MaxClimb ZERO 7 500   
CNA441 DEFAULT 1 7 Climb MaxClimb ZERO 10 000   
CNA500 DEFAULT 1 1 Takeoff MaxTakeoff 12    
CNA500 DEFAULT 1 2 Accelerate MaxTakeoff 12  997 131 
CNA500 DEFAULT 1 3 Climb MaxTakeoff 12 1 500   
CNA500 DEFAULT 1 4 Accelerate MaxTakeoff 1  997 200 
CNA500 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
CNA500 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 459 250 
CNA500 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
CNA500 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
CNA500 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
CNA510 DEFAULT 1 1 Takeoff MaxTakeoff D_15    
CNA510 DEFAULT 1 2 Climb MaxTakeoff D_15 535   
CNA510 DEFAULT 1 3 Accelerate MaxTakeoff D_15  1 500 138,3 
CNA510 DEFAULT 1 4 Climb MaxTakeoff D_15 1 500   
CNA510 DEFAULT 1 5 Accelerate MaxClimb ZERO_C  1 500 171 
CNA510 DEFAULT 1 6 Climb MaxClimb ZERO_C 3 000   
CNA510 DEFAULT 1 7 Accelerate MaxClimb ZERO_C  1 000 250 
CNA510 DEFAULT 1 8 Climb MaxClimb ZERO_C 5 500   
CNA510 DEFAULT 1 9 Climb MaxClimb ZERO_C 7 500   
CNA510 DEFAULT 1 10 Climb MaxClimb ZERO_C 10 000   
CNA510 FLAPS_0 1 1 Takeoff MaxTakeoff ZERO_D    
CNA510 FLAPS_0 1 2 Climb MaxTakeoff ZERO_D 601   
CNA510 FLAPS_0 1 3 Accelerate MaxTakeoff ZERO_D  1 500 138,3 
CNA510 FLAPS_0 1 4 Climb MaxTakeoff ZERO_D 1 500   
CNA510 FLAPS_0 1 5 Accelerate MaxClimb ZERO_C  1 500 171 
CNA510 FLAPS_0 1 6 Climb MaxClimb ZERO_C 3 000   
CNA510 FLAPS_0 1 7 Accelerate MaxClimb ZERO_C  1 000 250 
CNA510 FLAPS_0 1 8 Climb MaxClimb ZERO_C 5 500   
CNA510 FLAPS_0 1 9 Climb MaxClimb ZERO_C 7 500   
CNA510 FLAPS_0 1 10 Climb MaxClimb ZERO_C 10 000   
CNA510 FLAPS_15 1 1 Takeoff MaxTakeoff D_15    
CNA510 FLAPS_15 1 2 Climb MaxTakeoff D_15 535   
CNA510 FLAPS_15 1 3 Accelerate MaxTakeoff D_15  1 500 138,3 
CNA510 FLAPS_15 1 4 Climb MaxTakeoff D_15 1 500   
CNA510 FLAPS_15 1 5 Accelerate MaxClimb ZERO_C  1 500 171 
CNA510 FLAPS_15 1 6 Climb MaxClimb ZERO_C 3 000   
CNA510 FLAPS_15 1 7 Accelerate MaxClimb ZERO_C  1 000 250 
CNA510 FLAPS_15 1 8 Climb MaxClimb ZERO_C 5 500   
CNA510 FLAPS_15 1 9 Climb MaxClimb ZERO_C 7 500   
CNA510 FLAPS_15 1 10 Climb MaxClimb ZERO_C 10 000   
CNA525C DEFAULT 1 1 Takeoff MaxTakeoff D-15    
CNA525C DEFAULT 1 2 Climb MaxTakeoff D-15 482,5   
CNA525C DEFAULT 1 3 Accelerate MaxTakeoff D-15  1 500 140,3 
CNA525C DEFAULT 1 4 Climb MaxTakeoff D-15 1 500   
CNA525C DEFAULT 1 5 Accelerate MaxClimb ZERO_C  1 500 171 
CNA525C DEFAULT 1 6 Climb MaxClimb ZERO_C 3 000   
CNA525C DEFAULT 1 7 Accelerate MaxClimb ZERO_C  1 000 250 
CNA525C DEFAULT 1 8 Climb MaxClimb ZERO_C 5 500   
CNA525C DEFAULT 1 9 Climb MaxClimb ZERO_C 7 500   
CNA525C DEFAULT 1 10 Climb MaxClimb ZERO_C 10 000   
CNA55B DEFAULT 1 1 Takeoff MaxTakeoff D_15    
CNA55B DEFAULT 1 2 Climb MaxTakeoff D_15 379   
CNA55B DEFAULT 1 3 Accelerate MaxTakeoff D_15  1 500 146,5 
CNA55B DEFAULT 1 4 Climb MaxTakeoff D_15 1 500   
CNA55B DEFAULT 1 5 Accelerate MaxClimb ZERO_C  1 500 171,5 
CNA55B DEFAULT 1 6 Climb MaxClimb ZERO_C 3 000   
CNA55B DEFAULT 1 7 Accelerate MaxClimb ZERO_C  1 000 250 
CNA55B DEFAULT 1 8 Climb MaxClimb ZERO_C 5 500   
CNA55B DEFAULT 1 9 Climb MaxClimb ZERO_C 7 500   
CNA55B DEFAULT 1 10 Climb MaxClimb ZERO_C 10 000   
CNA55B FLAPS_0 1 1 Takeoff MaxTakeoff ZERO_D    
CNA55B FLAPS_0 1 2 Climb MaxTakeoff ZERO_D 420   
CNA55B FLAPS_0 1 3 Accelerate MaxTakeoff ZERO_D  1 500 156 
CNA55B FLAPS_0 1 4 Climb MaxTakeoff ZERO_D 1 500   
CNA55B FLAPS_0 1 5 Accelerate MaxClimb ZERO_C  1 500 181,1 
CNA55B FLAPS_0 1 6 Climb MaxClimb ZERO_C 3 000   
CNA55B FLAPS_0 1 7 Accelerate MaxClimb ZERO_C  1 000 250 
CNA55B FLAPS_0 1 8 Climb MaxClimb ZERO_C 5 500   
CNA55B FLAPS_0 1 9 Climb MaxClimb ZERO_C 7 500   
CNA55B FLAPS_0 1 10 Climb MaxClimb ZERO_C 10 000   
CNA55B FLAPS_15 1 1 Takeoff MaxTakeoff D_15    
CNA55B FLAPS_15 1 2 Climb MaxTakeoff D_15 379   
CNA55B FLAPS_15 1 3 Accelerate MaxTakeoff D_15  1 500 146,5 
CNA55B FLAPS_15 1 4 Climb MaxTakeoff D_15 1 500   
CNA55B FLAPS_15 1 5 Accelerate MaxClimb ZERO_C  1 500 171,5 
CNA55B FLAPS_15 1 6 Climb MaxClimb ZERO_C 3 000   
CNA55B FLAPS_15 1 7 Accelerate MaxClimb ZERO_C  1 000 250 
CNA55B FLAPS_15 1 8 Climb MaxClimb ZERO_C 5 500   
CNA55B FLAPS_15 1 9 Climb MaxClimb ZERO_C 7 500   
CNA55B FLAPS_15 1 10 Climb MaxClimb ZERO_C 10 000   
CNA560E DEFAULT 1 1 Takeoff MaxTakeoff 15    
CNA560E DEFAULT 1 2 Climb MaxTakeoff 15 277   
CNA560E DEFAULT 1 3 Accelerate MaxTakeoff 15  1 500 161,7 
CNA560E DEFAULT 1 4 Climb MaxTakeoff 15 1 500   
CNA560E DEFAULT 1 5 Accelerate MaxClimb 15  1 500 186,7 
CNA560E DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
CNA560E DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
CNA560E DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
CNA560E DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
CNA560E DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
CNA560U DEFAULT 1 1 Takeoff MaxTakeoff 15    
CNA560U DEFAULT 1 2 Accelerate MaxTakeoff 15  1 200 148 
CNA560U DEFAULT 1 3 Climb MaxTakeoff 15 1 500   
CNA560U DEFAULT 1 4 Accelerate MaxTakeoff ZERO  1 500 175 
CNA560U DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
CNA560U DEFAULT 1 6 Accelerate MaxClimb ZERO  1 500 250 
CNA560U DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
CNA560U DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
CNA560U DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
CNA560XL DEFAULT 1 1 Takeoff MaxTakeoff 15    
CNA560XL DEFAULT 1 2 Accelerate MaxTakeoff 15  1 500 158 
CNA560XL DEFAULT 1 3 Climb MaxTakeoff 15 1 500   
CNA560XL DEFAULT 1 4 Accelerate MaxClimb ZERO  1 500 185 
CNA560XL DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
CNA560XL DEFAULT 1 6 Accelerate MaxClimb ZERO  1 500 250 
CNA560XL DEFAULT 1 7 Climb MaxClimb ZERO 10 000   
CNA680 DEFAULT 1 1 Takeoff MaxTakeoff 15    
CNA680 DEFAULT 1 2 Climb MaxTakeoff 15 386   
CNA680 DEFAULT 1 3 Accelerate MaxTakeoff 15  1 000 140,6 
CNA680 DEFAULT 1 4 Climb MaxTakeoff 15 1 500   
CNA680 DEFAULT 1 5 Accelerate MaxClimb 15  1 500 175 
CNA680 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
CNA680 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 500 250 
CNA680 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
CNA680 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
CNA680 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
CNA750 DEFAULT 1 1 Takeoff MaxTakeoff 15    
CNA750 DEFAULT 1 2 Climb MaxTakeoff 15 277   
CNA750 DEFAULT 1 3 Accelerate MaxTakeoff 15  1 500 161,7 
CNA750 DEFAULT 1 4 Climb MaxTakeoff 15 1 500   
CNA750 DEFAULT 1 5 Accelerate MaxClimb 15  1 500 186,7 
CNA750 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
CNA750 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
CNA750 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
CNA750 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
CNA750 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
CNA750 FLAP_15 1 1 Takeoff MaxTakeoff 15    
CNA750 FLAP_15 1 2 Climb MaxTakeoff 15 277   
CNA750 FLAP_15 1 3 Accelerate MaxTakeoff 15  1 500 161,7 
CNA750 FLAP_15 1 4 Climb MaxTakeoff 15 1 500   
CNA750 FLAP_15 1 5 Accelerate MaxClimb 15  1 500 186,7 
CNA750 FLAP_15 1 6 Climb MaxClimb ZERO 3 000   
CNA750 FLAP_15 1 7 Accelerate MaxClimb ZERO  1 000 250 
CNA750 FLAP_15 1 8 Climb MaxClimb ZERO 5 500   
CNA750 FLAP_15 1 9 Climb MaxClimb ZERO 7 500   
CNA750 FLAP_15 1 10 Climb MaxClimb ZERO 10 000   
CNA750 FLAP_5 1 1 Takeoff MaxTakeoff 5    
CNA750 FLAP_5 1 2 Climb MaxTakeoff 5 285   
CNA750 FLAP_5 1 3 Accelerate MaxTakeoff 5  1 500 168,9 
CNA750 FLAP_5 1 4 Climb MaxTakeoff 5 1 500   
CNA750 FLAP_5 1 5 Accelerate MaxClimb 5  1 500 193,9 
CNA750 FLAP_5 1 6 Climb MaxClimb ZERO 3 000   
CNA750 FLAP_5 1 7 Accelerate MaxClimb ZERO  1 000 250 
CNA750 FLAP_5 1 8 Climb MaxClimb ZERO 5 500   
CNA750 FLAP_5 1 9 Climb MaxClimb ZERO 7 500   
CNA750 FLAP_5 1 10 Climb MaxClimb ZERO 10 000   
CRJ9-ER DEFAULT 1 1 Takeoff MaxTakeoff D-8    
CRJ9-ER DEFAULT 1 2 Climb MaxTakeoff D-8 595   
CRJ9-ER DEFAULT 1 3 Climb MaxTakeoff U-8 1 000   
CRJ9-ER DEFAULT 1 4 Accelerate MaxClimb 0-204  500 204 
CRJ9-ER DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
CRJ9-ER DEFAULT 1 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER DEFAULT 1 7 Climb MaxClimb ZERO 10 000   
CRJ9-ER DEFAULT 2 1 Takeoff MaxTakeoff D-8    
CRJ9-ER DEFAULT 2 2 Climb MaxTakeoff D-8 555   
CRJ9-ER DEFAULT 2 3 Climb MaxTakeoff U-8 1 000   
CRJ9-ER DEFAULT 2 4 Accelerate MaxClimb 0-204  500 204 
CRJ9-ER DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
CRJ9-ER DEFAULT 2 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER DEFAULT 2 7 Climb MaxClimb ZERO 10 000   
CRJ9-ER DEFAULT 3 1 Takeoff MaxTakeoff D-8    
CRJ9-ER DEFAULT 3 2 Climb MaxTakeoff D-8 525   
CRJ9-ER DEFAULT 3 3 Climb MaxTakeoff U-8 1 000   
CRJ9-ER DEFAULT 3 4 Accelerate MaxClimb 0-204  500 204 
CRJ9-ER DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
CRJ9-ER DEFAULT 3 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER DEFAULT 3 7 Climb MaxClimb ZERO 10 000   
CRJ9-ER DEFAULT 4 1 Takeoff MaxTakeoff D-8    
CRJ9-ER DEFAULT 4 2 Climb MaxTakeoff D-8 485   
CRJ9-ER DEFAULT 4 3 Climb MaxTakeoff U-8 1 000   
CRJ9-ER DEFAULT 4 4 Accelerate MaxClimb 0-204  500 204 
CRJ9-ER DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
CRJ9-ER DEFAULT 4 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER DEFAULT 4 7 Climb MaxClimb ZERO 10 000   
CRJ9-ER DEFAULT 5 1 Takeoff MaxTakeoff D-8    
CRJ9-ER DEFAULT 5 2 Climb MaxTakeoff D-8 465   
CRJ9-ER DEFAULT 5 3 Climb MaxTakeoff U-8 1 000   
CRJ9-ER DEFAULT 5 4 Accelerate MaxClimb 0-204  500 204 
CRJ9-ER DEFAULT 5 5 Climb MaxClimb 0-204 3 000   
CRJ9-ER DEFAULT 5 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER DEFAULT 5 7 Climb MaxClimb ZERO 10 000   
CRJ9-ER ICAO_A 1 1 Takeoff MaxTakeoff D-8    
CRJ9-ER ICAO_A 1 2 Climb MaxTakeoff D-8 595   
CRJ9-ER ICAO_A 1 3 Climb MaxTakeoff U-8 1 500   
CRJ9-ER ICAO_A 1 4 Climb MaxClimb U-8 3 000   
CRJ9-ER ICAO_A 1 5 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER ICAO_A 1 6 Climb MaxClimb ZERO 10 000   
CRJ9-ER ICAO_A 2 1 Takeoff MaxTakeoff D-8    
CRJ9-ER ICAO_A 2 2 Climb MaxTakeoff D-8 555   
CRJ9-ER ICAO_A 2 3 Climb MaxTakeoff U-8 1 500   
CRJ9-ER ICAO_A 2 4 Climb MaxClimb U-8 3 000   
CRJ9-ER ICAO_A 2 5 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER ICAO_A 2 6 Climb MaxClimb ZERO 10 000   
CRJ9-ER ICAO_A 3 1 Takeoff MaxTakeoff D-8    
CRJ9-ER ICAO_A 3 2 Climb MaxTakeoff D-8 525   
CRJ9-ER ICAO_A 3 3 Climb MaxTakeoff U-8 1 500   
CRJ9-ER ICAO_A 3 4 Climb MaxClimb U-8 3 000   
CRJ9-ER ICAO_A 3 5 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER ICAO_A 3 6 Climb MaxClimb ZERO 10 000   
CRJ9-ER ICAO_A 4 1 Takeoff MaxTakeoff D-8    
CRJ9-ER ICAO_A 4 2 Climb MaxTakeoff D-8 485   
CRJ9-ER ICAO_A 4 3 Climb MaxTakeoff U-8 1 500   
CRJ9-ER ICAO_A 4 4 Climb MaxClimb U-8 3 000   
CRJ9-ER ICAO_A 4 5 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER ICAO_A 4 6 Climb MaxClimb ZERO 10 000   
CRJ9-ER ICAO_A 5 1 Takeoff MaxTakeoff D-8    
CRJ9-ER ICAO_A 5 2 Climb MaxTakeoff D-8 465   
CRJ9-ER ICAO_A 5 3 Climb MaxTakeoff U-8 1 500   
CRJ9-ER ICAO_A 5 4 Climb MaxClimb U-8 3 000   
CRJ9-ER ICAO_A 5 5 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER ICAO_A 5 6 Climb MaxClimb ZERO 10 000   
CRJ9-ER ICAO_B 1 1 Takeoff MaxTakeoff D-8    
CRJ9-ER ICAO_B 1 2 Climb MaxTakeoff D-8 595   
CRJ9-ER ICAO_B 1 3 Climb MaxTakeoff U-8 1 000   
CRJ9-ER ICAO_B 1 4 Accelerate MaxTakeoff 0-204  500 204 
CRJ9-ER ICAO_B 1 5 Climb MaxClimb ZERO 3 000   
CRJ9-ER ICAO_B 1 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER ICAO_B 1 7 Climb MaxClimb ZERO 10 000   
CRJ9-ER ICAO_B 2 1 Takeoff MaxTakeoff D-8    
CRJ9-ER ICAO_B 2 2 Climb MaxTakeoff D-8 555   
CRJ9-ER ICAO_B 2 3 Climb MaxTakeoff U-8 1 000   
CRJ9-ER ICAO_B 2 4 Accelerate MaxTakeoff 0-204  500 204 
CRJ9-ER ICAO_B 2 5 Climb MaxClimb ZERO 3 000   
CRJ9-ER ICAO_B 2 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER ICAO_B 2 7 Climb MaxClimb ZERO 10 000   
CRJ9-ER ICAO_B 3 1 Takeoff MaxTakeoff D-8    
CRJ9-ER ICAO_B 3 2 Climb MaxTakeoff D-8 525   
CRJ9-ER ICAO_B 3 3 Climb MaxTakeoff U-8 1 000   
CRJ9-ER ICAO_B 3 4 Accelerate MaxTakeoff 0-204  500 204 
CRJ9-ER ICAO_B 3 5 Climb MaxClimb ZERO 3 000   
CRJ9-ER ICAO_B 3 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER ICAO_B 3 7 Climb MaxClimb ZERO 10 000   
CRJ9-ER ICAO_B 4 1 Takeoff MaxTakeoff D-8    
CRJ9-ER ICAO_B 4 2 Climb MaxTakeoff D-8 485   
CRJ9-ER ICAO_B 4 3 Climb MaxTakeoff U-8 1 000   
CRJ9-ER ICAO_B 4 4 Accelerate MaxTakeoff 0-204  500 204 
CRJ9-ER ICAO_B 4 5 Climb MaxClimb ZERO 3 000   
CRJ9-ER ICAO_B 4 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER ICAO_B 4 7 Climb MaxClimb ZERO 10 000   
CRJ9-ER ICAO_B 5 1 Takeoff MaxTakeoff D-8    
CRJ9-ER ICAO_B 5 2 Climb MaxTakeoff D-8 465   
CRJ9-ER ICAO_B 5 3 Climb MaxTakeoff U-8 1 000   
CRJ9-ER ICAO_B 5 4 Accelerate MaxTakeoff 0-204  500 204 
CRJ9-ER ICAO_B 5 5 Climb MaxClimb ZERO 3 000   
CRJ9-ER ICAO_B 5 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-ER ICAO_B 5 7 Climb MaxClimb ZERO 10 000   
CRJ9-LR DEFAULT 1 1 Takeoff MaxTakeoff D-8    
CRJ9-LR DEFAULT 1 2 Climb MaxTakeoff D-8 615   
CRJ9-LR DEFAULT 1 3 Climb MaxTakeoff U-8 1 000   
CRJ9-LR DEFAULT 1 4 Accelerate MaxClimb 0-204  500 204 
CRJ9-LR DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
CRJ9-LR DEFAULT 1 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-LR DEFAULT 1 7 Climb MaxClimb ZERO 10 000   
CRJ9-LR DEFAULT 2 1 Takeoff MaxTakeoff D-8    
CRJ9-LR DEFAULT 2 2 Climb MaxTakeoff D-8 575   
CRJ9-LR DEFAULT 2 3 Climb MaxTakeoff U-8 1 000   
CRJ9-LR DEFAULT 2 4 Accelerate MaxClimb 0-204  500 204 
CRJ9-LR DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
CRJ9-LR DEFAULT 2 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-LR DEFAULT 2 7 Climb MaxClimb ZERO 10 000   
CRJ9-LR DEFAULT 3 1 Takeoff MaxTakeoff D-8    
CRJ9-LR DEFAULT 3 2 Climb MaxTakeoff D-8 545   
CRJ9-LR DEFAULT 3 3 Climb MaxTakeoff U-8 1 000   
CRJ9-LR DEFAULT 3 4 Accelerate MaxClimb 0-204  500 204 
CRJ9-LR DEFAULT 3 5 Climb MaxClimb 0-204 3 000   
CRJ9-LR DEFAULT 3 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-LR DEFAULT 3 7 Climb MaxClimb ZERO 10 000   
CRJ9-LR DEFAULT 4 1 Takeoff MaxTakeoff D-8    
CRJ9-LR DEFAULT 4 2 Climb MaxTakeoff D-8 505   
CRJ9-LR DEFAULT 4 3 Climb MaxTakeoff U-8 1 000   
CRJ9-LR DEFAULT 4 4 Accelerate MaxClimb 0-204  500 204 
CRJ9-LR DEFAULT 4 5 Climb MaxClimb ZERO 3 000   
CRJ9-LR DEFAULT 4 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-LR DEFAULT 4 7 Climb MaxClimb 0-250 10 000   
CRJ9-LR DEFAULT 5 1 Takeoff MaxTakeoff D-8    
CRJ9-LR DEFAULT 5 2 Climb MaxTakeoff D-8 455   
CRJ9-LR DEFAULT 5 3 Climb MaxTakeoff U-8 1 000   
CRJ9-LR DEFAULT 5 4 Accelerate MaxClimb 0-204  500 204 
CRJ9-LR DEFAULT 5 5 Climb MaxClimb ZERO 3 000   
CRJ9-LR DEFAULT 5 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-LR DEFAULT 5 7 Climb MaxClimb ZERO 10 000   
CRJ9-LR ICAO_A 1 1 Takeoff MaxTakeoff D-8    
CRJ9-LR ICAO_A 1 2 Climb MaxTakeoff D-8 615   
CRJ9-LR ICAO_A 1 3 Climb MaxTakeoff U-8 1 500   
CRJ9-LR ICAO_A 1 4 Climb MaxClimb U-8 3 000   
CRJ9-LR ICAO_A 1 5 Accelerate MaxClimb 0-250  500 250 
CRJ9-LR ICAO_A 1 6 Climb MaxClimb ZERO 10 000   
CRJ9-LR ICAO_A 2 1 Takeoff MaxTakeoff D-8    
CRJ9-LR ICAO_A 2 2 Climb MaxTakeoff D-8 575   
CRJ9-LR ICAO_A 2 3 Climb MaxTakeoff U-8 1 500   
CRJ9-LR ICAO_A 2 4 Climb MaxClimb U-8 3 000   
CRJ9-LR ICAO_A 2 5 Accelerate MaxClimb U-8  500 250 
CRJ9-LR ICAO_A 2 6 Climb MaxClimb ZERO 10 000   
CRJ9-LR ICAO_A 3 1 Takeoff MaxTakeoff D-8    
CRJ9-LR ICAO_A 3 2 Climb MaxTakeoff D-8 545   
CRJ9-LR ICAO_A 3 3 Climb MaxTakeoff U-8 1 500   
CRJ9-LR ICAO_A 3 4 Climb MaxClimb U-8 3 000   
CRJ9-LR ICAO_A 3 5 Accelerate MaxClimb U-8  500 250 
CRJ9-LR ICAO_A 3 6 Climb MaxClimb ZERO 10 000   
CRJ9-LR ICAO_A 4 1 Takeoff MaxTakeoff D-8    
CRJ9-LR ICAO_A 4 2 Climb MaxTakeoff D-8 505   
CRJ9-LR ICAO_A 4 3 Climb MaxTakeoff U-8 1 500   
CRJ9-LR ICAO_A 4 4 Climb MaxClimb U-8 3 000   
CRJ9-LR ICAO_A 4 5 Accelerate MaxClimb U-8  500 250 
CRJ9-LR ICAO_A 4 6 Climb MaxClimb ZERO 10 000   
CRJ9-LR ICAO_A 5 1 Takeoff MaxTakeoff D-8    
CRJ9-LR ICAO_A 5 2 Climb MaxTakeoff D-8 455   
CRJ9-LR ICAO_A 5 3 Climb MaxTakeoff U-8 1 500   
CRJ9-LR ICAO_A 5 4 Climb MaxClimb U-8 3 000   
CRJ9-LR ICAO_A 5 5 Accelerate MaxClimb 0-250  500 250 
CRJ9-LR ICAO_A 5 6 Climb MaxClimb ZERO 10 000   
CRJ9-LR ICAO_B 1 1 Takeoff MaxTakeoff D-8    
CRJ9-LR ICAO_B 1 2 Climb MaxTakeoff D-8 615   
CRJ9-LR ICAO_B 1 3 Climb MaxTakeoff U-8 1 000   
CRJ9-LR ICAO_B 1 4 Accelerate MaxTakeoff 0-204  500 204 
CRJ9-LR ICAO_B 1 5 Climb MaxClimb ZERO 3 000   
CRJ9-LR ICAO_B 1 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-LR ICAO_B 1 7 Climb MaxClimb ZERO 10 000   
CRJ9-LR ICAO_B 2 1 Takeoff MaxTakeoff D-8    
CRJ9-LR ICAO_B 2 2 Climb MaxTakeoff D-8 575   
CRJ9-LR ICAO_B 2 3 Climb MaxTakeoff U-8 1 000   
CRJ9-LR ICAO_B 2 4 Accelerate MaxTakeoff 0-204  500 204 
CRJ9-LR ICAO_B 2 5 Climb MaxClimb ZERO 3 000   
CRJ9-LR ICAO_B 2 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-LR ICAO_B 2 7 Climb MaxClimb ZERO 10 000   
CRJ9-LR ICAO_B 3 1 Takeoff MaxTakeoff D-8    
CRJ9-LR ICAO_B 3 2 Climb MaxTakeoff D-8 545   
CRJ9-LR ICAO_B 3 3 Climb MaxTakeoff U-8 1 000   
CRJ9-LR ICAO_B 3 4 Accelerate MaxTakeoff 0-204  500 204 
CRJ9-LR ICAO_B 3 5 Climb MaxClimb ZERO 3 000   
CRJ9-LR ICAO_B 3 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-LR ICAO_B 3 7 Climb MaxClimb ZERO 10 000   
CRJ9-LR ICAO_B 4 1 Takeoff MaxTakeoff D-8    
CRJ9-LR ICAO_B 4 2 Climb MaxTakeoff D-8 505   
CRJ9-LR ICAO_B 4 3 Climb MaxTakeoff U-8 1 000   
CRJ9-LR ICAO_B 4 4 Accelerate MaxTakeoff 0-204  500 204 
CRJ9-LR ICAO_B 4 5 Climb MaxClimb ZERO 3 000   
CRJ9-LR ICAO_B 4 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-LR ICAO_B 4 7 Climb MaxClimb ZERO 10 000   
CRJ9-LR ICAO_B 5 1 Takeoff MaxTakeoff D-8    
CRJ9-LR ICAO_B 5 2 Climb MaxTakeoff D-8 455   
CRJ9-LR ICAO_B 5 3 Climb MaxTakeoff U-8 1 000   
CRJ9-LR ICAO_B 5 4 Accelerate MaxTakeoff 0-204  500 204 
CRJ9-LR ICAO_B 5 5 Climb MaxClimb ZERO 3 000   
CRJ9-LR ICAO_B 5 6 Accelerate MaxClimb 0-250  500 250 
CRJ9-LR ICAO_B 5 7 Climb MaxClimb ZERO 10 000   
CVR580 DEFAULT 1 1 Takeoff MaxTakeoff 10    
CVR580 DEFAULT 1 2 Climb MaxTakeoff 10 1 000   
CVR580 DEFAULT 1 3 Accelerate MaxTakeoff 10  1 907 130 
CVR580 DEFAULT 1 4 Accelerate MaxClimb INTR  1 430 150 
CVR580 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
CVR580 DEFAULT 1 6 Climb MaxClimb ZERO 5 500   
CVR580 DEFAULT 1 7 Climb MaxClimb ZERO 7 500   
CVR580 DEFAULT 1 8 Climb MaxClimb ZERO 10 000   
CVR580 DEFAULT 2 1 Takeoff MaxTakeoff 10    
CVR580 DEFAULT 2 2 Climb MaxTakeoff 10 1 000   
CVR580 DEFAULT 2 3 Accelerate MaxTakeoff 10  1 557 136 
CVR580 DEFAULT 2 4 Accelerate MaxClimb INTR  1 168 156 
CVR580 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
CVR580 DEFAULT 2 6 Climb MaxClimb ZERO 5 500   
CVR580 DEFAULT 2 7 Climb MaxClimb ZERO 7 500   
CVR580 DEFAULT 2 8 Climb MaxClimb ZERO 10 000   
CVR580 DEFAULT 3 1 Takeoff MaxTakeoff 10    
CVR580 DEFAULT 3 2 Climb MaxTakeoff 10 1 000   
CVR580 DEFAULT 3 3 Accelerate MaxTakeoff 10  1 321 140 
CVR580 DEFAULT 3 4 Accelerate MaxClimb INTR  991 160 
CVR580 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
CVR580 DEFAULT 3 6 Climb MaxClimb ZERO 5 500   
CVR580 DEFAULT 3 7 Climb MaxClimb ZERO 7 500   
CVR580 DEFAULT 3 8 Climb MaxClimb ZERO 10 000   
DC1010 DEFAULT 1 1 Takeoff MaxTakeoff 10    
DC1010 DEFAULT 1 2 Climb MaxTakeoff 10 1 000   
DC1010 DEFAULT 1 3 Accelerate MaxTakeoff 10  1 904 159 
DC1010 DEFAULT 1 4 Accelerate MaxTakeoff 5  1 428 174 
DC1010 DEFAULT 1 5 Accelerate MaxClimb INT  1 000 189 
DC1010 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
DC1010 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
DC1010 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
DC1010 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
DC1010 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
DC1010 DEFAULT 2 1 Takeoff MaxTakeoff 10    
DC1010 DEFAULT 2 2 Climb MaxTakeoff 10 1 000   
DC1010 DEFAULT 2 3 Accelerate MaxTakeoff 10  1 799 163 
DC1010 DEFAULT 2 4 Accelerate MaxTakeoff 5  1 350 178 
DC1010 DEFAULT 2 5 Accelerate MaxClimb INT  1 000 193 
DC1010 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
DC1010 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
DC1010 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
DC1010 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
DC1010 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
DC1010 DEFAULT 3 1 Takeoff MaxTakeoff 10    
DC1010 DEFAULT 3 2 Climb MaxTakeoff 10 1 000   
DC1010 DEFAULT 3 3 Accelerate MaxTakeoff 10  1 670 167 
DC1010 DEFAULT 3 4 Accelerate MaxTakeoff 5  1 253 182 
DC1010 DEFAULT 3 5 Accelerate MaxClimb INT  1 000 197 
DC1010 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
DC1010 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
DC1010 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
DC1010 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
DC1010 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
DC1010 DEFAULT 4 1 Takeoff MaxTakeoff 10    
DC1010 DEFAULT 4 2 Climb MaxTakeoff 10 1 000   
DC1010 DEFAULT 4 3 Accelerate MaxTakeoff 10  1 494 174 
DC1010 DEFAULT 4 4 Accelerate MaxTakeoff 5  1 121 189 
DC1010 DEFAULT 4 5 Accelerate MaxClimb INT  1 000 204 
DC1010 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
DC1010 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
DC1010 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
DC1010 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
DC1010 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
DC1010 DEFAULT 5 1 Takeoff MaxTakeoff 10    
DC1010 DEFAULT 5 2 Climb MaxTakeoff 10 1 000   
DC1010 DEFAULT 5 3 Accelerate MaxTakeoff 10  1 335 180 
DC1010 DEFAULT 5 4 Accelerate MaxTakeoff 5  1 002 195 
DC1010 DEFAULT 5 5 Accelerate MaxClimb INT  1 000 210 
DC1010 DEFAULT 5 6 Climb MaxClimb ZERO 3 000   
DC1010 DEFAULT 5 7 Accelerate MaxClimb ZERO  1 000 250 
DC1010 DEFAULT 5 8 Climb MaxClimb ZERO 5 500   
DC1010 DEFAULT 5 9 Climb MaxClimb ZERO 7 500   
DC1010 DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
DC1010 DEFAULT 6 1 Takeoff MaxTakeoff 10    
DC1010 DEFAULT 6 2 Climb MaxTakeoff 10 1 000   
DC1010 DEFAULT 6 3 Accelerate MaxTakeoff 10  1 191 186 
DC1010 DEFAULT 6 4 Accelerate MaxTakeoff 5  894 201 
DC1010 DEFAULT 6 5 Accelerate MaxClimb INT  800 216 
DC1010 DEFAULT 6 6 Climb MaxClimb ZERO 3 000   
DC1010 DEFAULT 6 7 Accelerate MaxClimb ZERO  800 250 
DC1010 DEFAULT 6 8 Climb MaxClimb ZERO 5 500   
DC1010 DEFAULT 6 9 Climb MaxClimb ZERO 7 500   
DC1010 DEFAULT 6 10 Climb MaxClimb ZERO 10 000   
DC1040 DEFAULT 1 1 Takeoff MaxTakeoff 15    
DC1040 DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
DC1040 DEFAULT 1 3 Accelerate MaxTakeoff 15  2 255 175 
DC1040 DEFAULT 1 4 Accelerate MaxTakeoff 5  1 692 190 
DC1040 DEFAULT 1 5 Accelerate MaxClimb INT  1 000 205 
DC1040 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
DC1040 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
DC1040 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
DC1040 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
DC1040 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
DC1040 DEFAULT 2 1 Takeoff MaxTakeoff 15    
DC1040 DEFAULT 2 2 Climb MaxTakeoff 15 1 000   
DC1040 DEFAULT 2 3 Accelerate MaxTakeoff 15  2 146 178 
DC1040 DEFAULT 2 4 Accelerate MaxTakeoff 5  1 610 193 
DC1040 DEFAULT 2 5 Accelerate MaxClimb INT  1 000 208 
DC1040 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
DC1040 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
DC1040 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
DC1040 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
DC1040 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
DC1040 DEFAULT 3 1 Takeoff MaxTakeoff 15    
DC1040 DEFAULT 3 2 Climb MaxTakeoff 15 1 000   
DC1040 DEFAULT 3 3 Accelerate MaxTakeoff 15  2 050 181 
DC1040 DEFAULT 3 4 Accelerate MaxTakeoff 5  1 538 196 
DC1040 DEFAULT 3 5 Accelerate MaxClimb INT  1 000 211 
DC1040 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
DC1040 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
DC1040 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
DC1040 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
DC1040 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
DC1040 DEFAULT 4 1 Takeoff MaxTakeoff 15    
DC1040 DEFAULT 4 2 Climb MaxTakeoff 15 1 000   
DC1040 DEFAULT 4 3 Accelerate MaxTakeoff 15  1 859 187 
DC1040 DEFAULT 4 4 Accelerate MaxTakeoff 5  1 395 202 
DC1040 DEFAULT 4 5 Accelerate MaxClimb INT  1 000 217 
DC1040 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
DC1040 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
DC1040 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
DC1040 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
DC1040 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
DC1040 DEFAULT 5 1 Takeoff MaxTakeoff 15    
DC1040 DEFAULT 5 2 Climb MaxTakeoff 15 1 000   
DC1040 DEFAULT 5 3 Accelerate MaxTakeoff 15  1 639 195 
DC1040 DEFAULT 5 4 Accelerate MaxTakeoff 5  1 229 210 
DC1040 DEFAULT 5 5 Accelerate MaxClimb INT  1 000 225 
DC1040 DEFAULT 5 6 Climb MaxClimb ZERO 3 000   
DC1040 DEFAULT 5 7 Accelerate MaxClimb ZERO  1 000 250 
DC1040 DEFAULT 5 8 Climb MaxClimb ZERO 5 500   
DC1040 DEFAULT 5 9 Climb MaxClimb ZERO 7 500   
DC1040 DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
DC1040 DEFAULT 6 1 Takeoff MaxTakeoff 15    
DC1040 DEFAULT 6 2 Climb MaxTakeoff 15 1 000   
DC1040 DEFAULT 6 3 Accelerate MaxTakeoff 15  1 436 203 
DC1040 DEFAULT 6 4 Accelerate MaxTakeoff 5  1 077 218 
DC1040 DEFAULT 6 5 Accelerate MaxClimb INT  1 000 233 
DC1040 DEFAULT 6 6 Climb MaxClimb ZERO 3 000   
DC1040 DEFAULT 6 7 Accelerate MaxClimb ZERO  1 000 250 
DC1040 DEFAULT 6 8 Climb MaxClimb ZERO 5 500   
DC1040 DEFAULT 6 9 Climb MaxClimb ZERO 7 500   
DC1040 DEFAULT 6 10 Climb MaxClimb ZERO 10 000   
DC1040 DEFAULT 7 1 Takeoff MaxTakeoff 15    
DC1040 DEFAULT 7 2 Climb MaxTakeoff 15 1 000   
DC1040 DEFAULT 7 3 Accelerate MaxTakeoff 15  1 170 211 
DC1040 DEFAULT 7 4 Accelerate MaxTakeoff 5  878 226 
DC1040 DEFAULT 7 5 Accelerate MaxClimb INT  800 241 
DC1040 DEFAULT 7 6 Climb MaxClimb ZERO 3 000   
DC1040 DEFAULT 7 7 Accelerate MaxClimb ZERO  800 250 
DC1040 DEFAULT 7 8 Climb MaxClimb ZERO 5 500   
DC1040 DEFAULT 7 9 Climb MaxClimb ZERO 7 500   
DC1040 DEFAULT 7 10 Climb MaxClimb ZERO 10 000   
DC3 DEFAULT 1 1 Takeoff MaxTakeoff TO    
DC3 DEFAULT 1 2 Climb MaxTakeoff TO 400   
DC3 DEFAULT 1 3 Climb MaxClimb ZERO 3 000   
DC3 DEFAULT 1 4 Accelerate MaxClimb ZERO  1 000 126 
DC3 DEFAULT 1 5 Climb MaxClimb ZERO 5 500   
DC3 DEFAULT 1 6 Climb MaxClimb ZERO 7 500   
DC3 DEFAULT 1 7 Climb MaxClimb ZERO 10 000   
DC3 DEFAULT 2 1 Takeoff MaxTakeoff TO    
DC3 DEFAULT 2 2 Climb MaxTakeoff TO 400   
DC3 DEFAULT 2 3 Climb MaxClimb ZERO 3 000   
DC3 DEFAULT 2 4 Accelerate MaxClimb ZERO  800 130 
DC3 DEFAULT 2 5 Climb MaxClimb ZERO 5 500   
DC3 DEFAULT 2 6 Climb MaxClimb ZERO 7 500   
DC3 DEFAULT 2 7 Climb MaxClimb ZERO 10 000   
DC3 DEFAULT 3 1 Takeoff MaxTakeoff TO    
DC3 DEFAULT 3 2 Climb MaxTakeoff TO 400   
DC3 DEFAULT 3 3 Climb MaxClimb ZERO 3 000   
DC3 DEFAULT 3 4 Accelerate MaxClimb ZERO  633 134 
DC3 DEFAULT 3 5 Climb MaxClimb ZERO 7 500   
DC3 DEFAULT 3 6 Climb MaxClimb ZERO 10 000   
DC6 DEFAULT 1 1 Takeoff MaxTakeoff TO    
DC6 DEFAULT 1 2 Climb MaxTakeoff TO 1 500   
DC6 DEFAULT 1 3 Accelerate MaxTakeoff TO  818 135 
DC6 DEFAULT 1 4 Climb MaxClimb ZERO 3 000   
DC6 DEFAULT 1 5 Climb MaxClimb ZERO 5 500   
DC6 DEFAULT 1 6 Climb MaxClimb ZERO 7 500   
DC6 DEFAULT 1 7 Climb MaxClimb ZERO 10 000   
DC6 DEFAULT 2 1 Takeoff MaxTakeoff TO    
DC6 DEFAULT 2 2 Climb MaxTakeoff TO 1 500   
DC6 DEFAULT 2 3 Accelerate MaxTakeoff TO  643 143 
DC6 DEFAULT 2 4 Climb MaxClimb ZERO 3 000   
DC6 DEFAULT 2 5 Climb MaxClimb ZERO 5 500   
DC6 DEFAULT 2 6 Climb MaxClimb ZERO 7 500   
DC6 DEFAULT 2 7 Climb MaxClimb ZERO 10 000   
DC6 DEFAULT 3 1 Takeoff MaxTakeoff TO    
DC6 DEFAULT 3 2 Climb MaxTakeoff TO 1 500   
DC6 DEFAULT 3 3 Accelerate MaxTakeoff TO  498 149 
DC6 DEFAULT 3 4 Climb MaxClimb ZERO 3 000   
DC6 DEFAULT 3 5 Climb MaxClimb ZERO 5 500   
DC6 DEFAULT 3 6 Climb MaxClimb ZERO 7 500   
DC6 DEFAULT 3 7 Climb MaxClimb ZERO 10 000   
DC850 DEFAULT 1 1 Takeoff MaxTakeoff 15    
DC850 DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
DC850 DEFAULT 1 3 Accelerate MaxTakeoff 15  2 205 149 
DC850 DEFAULT 1 4 Accelerate MaxTakeoff INT  1 654 169 
DC850 DEFAULT 1 5 Accelerate MaxClimb INT  1 000 189 
DC850 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
DC850 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
DC850 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
DC850 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
DC850 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
DC850 DEFAULT 2 1 Takeoff MaxTakeoff 15    
DC850 DEFAULT 2 2 Climb MaxTakeoff 15 1 000   
DC850 DEFAULT 2 3 Accelerate MaxTakeoff 15  2 089 153 
DC850 DEFAULT 2 4 Accelerate MaxTakeoff INT  1 567 173 
DC850 DEFAULT 2 5 Accelerate MaxClimb INT  1 000 193 
DC850 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
DC850 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
DC850 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
DC850 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
DC850 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
DC850 DEFAULT 3 1 Takeoff MaxTakeoff 15    
DC850 DEFAULT 3 2 Climb MaxTakeoff 15 1 000   
DC850 DEFAULT 3 3 Accelerate MaxTakeoff 15  1 930 158 
DC850 DEFAULT 3 4 Accelerate MaxTakeoff INT  1 448 178 
DC850 DEFAULT 3 5 Accelerate MaxClimb INT  1 000 198 
DC850 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
DC850 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
DC850 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
DC850 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
DC850 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
DC850 DEFAULT 4 1 Takeoff MaxTakeoff 15    
DC850 DEFAULT 4 2 Climb MaxTakeoff 15 1 000   
DC850 DEFAULT 4 3 Accelerate MaxTakeoff 15  1 743 165 
DC850 DEFAULT 4 4 Accelerate MaxTakeoff INT  1 308 185 
DC850 DEFAULT 4 5 Accelerate MaxClimb INT  1 000 205 
DC850 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
DC850 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
DC850 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
DC850 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
DC850 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
DC850 DEFAULT 5 1 Takeoff MaxTakeoff 15    
DC850 DEFAULT 5 2 Climb MaxTakeoff 15 1 000   
DC850 DEFAULT 5 3 Accelerate MaxTakeoff 15  1 541 173 
DC850 DEFAULT 5 4 Accelerate MaxTakeoff INT  1 156 193 
DC850 DEFAULT 5 5 Accelerate MaxClimb INT  1 000 213 
DC850 DEFAULT 5 6 Climb MaxClimb ZERO 3 000   
DC850 DEFAULT 5 7 Accelerate MaxClimb ZERO  1 000 250 
DC850 DEFAULT 5 8 Climb MaxClimb ZERO 5 500   
DC850 DEFAULT 5 9 Climb MaxClimb ZERO 7 500   
DC850 DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
DC850 DEFAULT 6 1 Takeoff MaxTakeoff 15    
DC850 DEFAULT 6 2 Climb MaxTakeoff 15 1 000   
DC850 DEFAULT 6 3 Accelerate MaxTakeoff 15  1 397 180 
DC850 DEFAULT 6 4 Accelerate MaxTakeoff INT  1 048 200 
DC850 DEFAULT 6 5 Accelerate MaxClimb INT  1 000 220 
DC850 DEFAULT 6 6 Climb MaxClimb ZERO 3 000   
DC850 DEFAULT 6 7 Accelerate MaxClimb ZERO  1 000 250 
DC850 DEFAULT 6 8 Climb MaxClimb ZERO 5 500   
DC850 DEFAULT 6 9 Climb MaxClimb ZERO 7 500   
DC850 DEFAULT 6 10 Climb MaxClimb ZERO 10 000   
DC860 DEFAULT 1 1 Takeoff MaxTakeoff 12    
DC860 DEFAULT 1 2 Climb MaxTakeoff 12 1 000   
DC860 DEFAULT 1 3 Accelerate MaxTakeoff 12  2 055 160 
DC860 DEFAULT 1 4 Accelerate MaxTakeoff INT  1 541 180 
DC860 DEFAULT 1 5 Accelerate MaxClimb INT  1 000 200 
DC860 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
DC860 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
DC860 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
DC860 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
DC860 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
DC860 DEFAULT 2 1 Takeoff MaxTakeoff 12    
DC860 DEFAULT 2 2 Climb MaxTakeoff 12 1 000   
DC860 DEFAULT 2 3 Accelerate MaxTakeoff 12  1 959 164 
DC860 DEFAULT 2 4 Accelerate MaxTakeoff INT  1 470 184 
DC860 DEFAULT 2 5 Accelerate MaxClimb INT  1 000 204 
DC860 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
DC860 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
DC860 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
DC860 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
DC860 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
DC860 DEFAULT 3 1 Takeoff MaxTakeoff 12    
DC860 DEFAULT 3 2 Climb MaxTakeoff 12 1 000   
DC860 DEFAULT 3 3 Accelerate MaxTakeoff 12  1 827 168 
DC860 DEFAULT 3 4 Accelerate MaxTakeoff INT  1 371 188 
DC860 DEFAULT 3 5 Accelerate MaxClimb INT  1 000 208 
DC860 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
DC860 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
DC860 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
DC860 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
DC860 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
DC860 DEFAULT 4 1 Takeoff MaxTakeoff 12    
DC860 DEFAULT 4 2 Climb MaxTakeoff 12 1 000   
DC860 DEFAULT 4 3 Accelerate MaxTakeoff 12  1 668 175 
DC860 DEFAULT 4 4 Accelerate MaxTakeoff INT  1 251 195 
DC860 DEFAULT 4 5 Accelerate MaxClimb INT  1 000 215 
DC860 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
DC860 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
DC860 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
DC860 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
DC860 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
DC860 DEFAULT 5 1 Takeoff MaxTakeoff 12    
DC860 DEFAULT 5 2 Climb MaxTakeoff 12 1 000   
DC860 DEFAULT 5 3 Accelerate MaxTakeoff 12  1 491 182 
DC860 DEFAULT 5 4 Accelerate MaxTakeoff INT  1 118 202 
DC860 DEFAULT 5 5 Accelerate MaxClimb INT  1 000 222 
DC860 DEFAULT 5 6 Climb MaxClimb ZERO 3 000   
DC860 DEFAULT 5 7 Accelerate MaxClimb ZERO  1 000 250 
DC860 DEFAULT 5 8 Climb MaxClimb ZERO 5 500   
DC860 DEFAULT 5 9 Climb MaxClimb ZERO 7 500   
DC860 DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
DC860 DEFAULT 6 1 Takeoff MaxTakeoff 12    
DC860 DEFAULT 6 2 Climb MaxTakeoff 12 1 000   
DC860 DEFAULT 6 3 Accelerate MaxTakeoff 12  1 394 187 
DC860 DEFAULT 6 4 Accelerate MaxTakeoff INT  1 046 207 
DC860 DEFAULT 6 5 Accelerate MaxClimb INT  1 000 227 
DC860 DEFAULT 6 6 Climb MaxClimb ZERO 3 000   
DC860 DEFAULT 6 7 Accelerate MaxClimb ZERO  1 000 250 
DC860 DEFAULT 6 8 Climb MaxClimb ZERO 5 500   
DC860 DEFAULT 6 9 Climb MaxClimb ZERO 7 500   
DC860 DEFAULT 6 10 Climb MaxClimb ZERO 10 000   
DC860 DEFAULT 7 1 Takeoff MaxTakeoff 12    
DC860 DEFAULT 7 2 Climb MaxTakeoff 12 1 000   
DC860 DEFAULT 7 3 Accelerate MaxTakeoff 12  1 275 192 
DC860 DEFAULT 7 4 Accelerate MaxTakeoff INT  956 212 
DC860 DEFAULT 7 5 Accelerate MaxClimb INT  900 232 
DC860 DEFAULT 7 6 Climb MaxClimb ZERO 3 000   
DC860 DEFAULT 7 7 Accelerate MaxClimb ZERO  900 250 
DC860 DEFAULT 7 8 Climb MaxClimb ZERO 5 500   
DC860 DEFAULT 7 9 Climb MaxClimb ZERO 7 500   
DC860 DEFAULT 7 10 Climb MaxClimb ZERO 10 000   
DC870 DEFAULT 1 1 Takeoff MaxTakeoff 12    
DC870 DEFAULT 1 2 Climb MaxTakeoff 12 1 000   
DC870 DEFAULT 1 3 Accelerate MaxTakeoff 12  2 405 160 
DC870 DEFAULT 1 4 Accelerate MaxTakeoff INT  1 804 180 
DC870 DEFAULT 1 5 Accelerate MaxClimb INT  1 000 200 
DC870 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
DC870 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
DC870 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
DC870 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
DC870 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
DC870 DEFAULT 2 1 Takeoff MaxTakeoff 12    
DC870 DEFAULT 2 2 Climb MaxTakeoff 12 1 000   
DC870 DEFAULT 2 3 Accelerate MaxTakeoff 12  2 289 164 
DC870 DEFAULT 2 4 Accelerate MaxTakeoff INT  1 717 184 
DC870 DEFAULT 2 5 Accelerate MaxClimb INT  1 000 204 
DC870 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
DC870 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
DC870 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
DC870 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
DC870 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
DC870 DEFAULT 3 1 Takeoff MaxTakeoff 12    
DC870 DEFAULT 3 2 Climb MaxTakeoff 12 1 000   
DC870 DEFAULT 3 3 Accelerate MaxTakeoff 12  2 129 168 
DC870 DEFAULT 3 4 Accelerate MaxTakeoff INT  1 597 188 
DC870 DEFAULT 3 5 Accelerate MaxClimb INT  1 000 208 
DC870 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
DC870 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
DC870 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
DC870 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
DC870 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
DC870 DEFAULT 4 1 Takeoff MaxTakeoff 12    
DC870 DEFAULT 4 2 Climb MaxTakeoff 12 1 000   
DC870 DEFAULT 4 3 Accelerate MaxTakeoff 12  1 938 175 
DC870 DEFAULT 4 4 Accelerate MaxTakeoff INT  1 454 195 
DC870 DEFAULT 4 5 Accelerate MaxClimb INT  1 000 215 
DC870 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
DC870 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
DC870 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
DC870 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
DC870 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
DC870 DEFAULT 5 1 Takeoff MaxTakeoff 12    
DC870 DEFAULT 5 2 Climb MaxTakeoff 12 1 000   
DC870 DEFAULT 5 3 Accelerate MaxTakeoff 12  1 727 182 
DC870 DEFAULT 5 4 Accelerate MaxTakeoff INT  1 295 202 
DC870 DEFAULT 5 5 Accelerate MaxClimb INT  1 000 222 
DC870 DEFAULT 5 6 Climb MaxClimb ZERO 3 000   
DC870 DEFAULT 5 7 Accelerate MaxClimb ZERO  1 000 250 
DC870 DEFAULT 5 8 Climb MaxClimb ZERO 5 500   
DC870 DEFAULT 5 9 Climb MaxClimb ZERO 7 500   
DC870 DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
DC870 DEFAULT 6 1 Takeoff MaxTakeoff 12    
DC870 DEFAULT 6 2 Climb MaxTakeoff 12 1 000   
DC870 DEFAULT 6 3 Accelerate MaxTakeoff 12  1 611 187 
DC870 DEFAULT 6 4 Accelerate MaxTakeoff INT  1 209 207 
DC870 DEFAULT 6 5 Accelerate MaxClimb INT  1 000 227 
DC870 DEFAULT 6 6 Climb MaxClimb ZERO 3 000   
DC870 DEFAULT 6 7 Accelerate MaxClimb ZERO  1 000 250 
DC870 DEFAULT 6 8 Climb MaxClimb ZERO 5 500   
DC870 DEFAULT 6 9 Climb MaxClimb ZERO 7 500   
DC870 DEFAULT 6 10 Climb MaxClimb ZERO 10 000   
DC870 DEFAULT 7 1 Takeoff MaxTakeoff 12    
DC870 DEFAULT 7 2 Climb MaxTakeoff 12 1 000   
DC870 DEFAULT 7 3 Accelerate MaxTakeoff 12  1 470 192 
DC870 DEFAULT 7 4 Accelerate MaxTakeoff INT  1 103 212 
DC870 DEFAULT 7 5 Accelerate MaxClimb INT  1 000 232 
DC870 DEFAULT 7 6 Climb MaxClimb ZERO 3 000   
DC870 DEFAULT 7 7 Accelerate MaxClimb ZERO  1 000 250 
DC870 DEFAULT 7 8 Climb MaxClimb ZERO 5 500   
DC870 DEFAULT 7 9 Climb MaxClimb ZERO 7 500   
DC870 DEFAULT 7 10 Climb MaxClimb ZERO 10 000   
DC8QN DEFAULT 1 1 Takeoff MaxTakeoff 12    
DC8QN DEFAULT 1 2 Climb MaxTakeoff 12 1 000   
DC8QN DEFAULT 1 3 Accelerate MaxTakeoff 12  2 055 160 
DC8QN DEFAULT 1 4 Accelerate MaxTakeoff INT  1 541 180 
DC8QN DEFAULT 1 5 Accelerate MaxClimb INT  1 000 200 
DC8QN DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
DC8QN DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
DC8QN DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
DC8QN DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
DC8QN DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
DC8QN DEFAULT 2 1 Takeoff MaxTakeoff 12    
DC8QN DEFAULT 2 2 Climb MaxTakeoff 12 1 000   
DC8QN DEFAULT 2 3 Accelerate MaxTakeoff 12  1 959 164 
DC8QN DEFAULT 2 4 Accelerate MaxTakeoff INT  1 470 184 
DC8QN DEFAULT 2 5 Accelerate MaxClimb INT  1 000 204 
DC8QN DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
DC8QN DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
DC8QN DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
DC8QN DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
DC8QN DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
DC8QN DEFAULT 3 1 Takeoff MaxTakeoff 12    
DC8QN DEFAULT 3 2 Climb MaxTakeoff 12 1 000   
DC8QN DEFAULT 3 3 Accelerate MaxTakeoff 12  1 827 168 
DC8QN DEFAULT 3 4 Accelerate MaxTakeoff INT  1 371 188 
DC8QN DEFAULT 3 5 Accelerate MaxClimb INT  1 000 208 
DC8QN DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
DC8QN DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
DC8QN DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
DC8QN DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
DC8QN DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
DC8QN DEFAULT 4 1 Takeoff MaxTakeoff 12    
DC8QN DEFAULT 4 2 Climb MaxTakeoff 12 1 000   
DC8QN DEFAULT 4 3 Accelerate MaxTakeoff 12  1 668 175 
DC8QN DEFAULT 4 4 Accelerate MaxTakeoff INT  1 251 195 
DC8QN DEFAULT 4 5 Accelerate MaxClimb INT  1 000 215 
DC8QN DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
DC8QN DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
DC8QN DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
DC8QN DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
DC8QN DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
DC8QN DEFAULT 5 1 Takeoff MaxTakeoff 12    
DC8QN DEFAULT 5 2 Climb MaxTakeoff 12 1 000   
DC8QN DEFAULT 5 3 Accelerate MaxTakeoff 12  1 491 182 
DC8QN DEFAULT 5 4 Accelerate MaxTakeoff INT  1 118 202 
DC8QN DEFAULT 5 5 Accelerate MaxClimb INT  1 000 222 
DC8QN DEFAULT 5 6 Climb MaxClimb ZERO 3 000   
DC8QN DEFAULT 5 7 Accelerate MaxClimb ZERO  1 000 250 
DC8QN DEFAULT 5 8 Climb MaxClimb ZERO 5 500   
DC8QN DEFAULT 5 9 Climb MaxClimb ZERO 7 500   
DC8QN DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
DC8QN DEFAULT 6 1 Takeoff MaxTakeoff 12    
DC8QN DEFAULT 6 2 Climb MaxTakeoff 12 1 000   
DC8QN DEFAULT 6 3 Accelerate MaxTakeoff 12  1 394 187 
DC8QN DEFAULT 6 4 Accelerate MaxTakeoff INT  1 046 207 
DC8QN DEFAULT 6 5 Accelerate MaxClimb INT  1 000 227 
DC8QN DEFAULT 6 6 Climb MaxClimb ZERO 3 000   
DC8QN DEFAULT 6 7 Accelerate MaxClimb ZERO  1 000 250 
DC8QN DEFAULT 6 8 Climb MaxClimb ZERO 5 500   
DC8QN DEFAULT 6 9 Climb MaxClimb ZERO 7 500   
DC8QN DEFAULT 6 10 Climb MaxClimb ZERO 10 000   
DC8QN DEFAULT 7 1 Takeoff MaxTakeoff 12    
DC8QN DEFAULT 7 2 Climb MaxTakeoff 12 1 000   
DC8QN DEFAULT 7 3 Accelerate MaxTakeoff 12  1 275 192 
DC8QN DEFAULT 7 4 Accelerate MaxTakeoff INT  956 212 
DC8QN DEFAULT 7 5 Accelerate MaxClimb INT  900 232 
DC8QN DEFAULT 7 6 Climb MaxClimb ZERO 3 000   
DC8QN DEFAULT 7 7 Accelerate MaxClimb ZERO  900 250 
DC8QN DEFAULT 7 8 Climb MaxClimb ZERO 5 500   
DC8QN DEFAULT 7 9 Climb MaxClimb ZERO 7 500   
DC8QN DEFAULT 7 10 Climb MaxClimb ZERO 10 000   
DC910 DEFAULT 1 1 Takeoff MaxTakeoff 15    
DC910 DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
DC910 DEFAULT 1 3 Accelerate MaxTakeoff 15  2 296 136 
DC910 DEFAULT 1 4 Accelerate MaxTakeoff 5  1 722 146 
DC910 DEFAULT 1 5 Accelerate MaxClimb INT  1 000 181 
DC910 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
DC910 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
DC910 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
DC910 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
DC910 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
DC910 DEFAULT 2 1 Takeoff MaxTakeoff 15    
DC910 DEFAULT 2 2 Climb MaxTakeoff 15 1 000   
DC910 DEFAULT 2 3 Accelerate MaxTakeoff 15  2 070 143 
DC910 DEFAULT 2 4 Accelerate MaxTakeoff 5  1 553 153 
DC910 DEFAULT 2 5 Accelerate MaxClimb INT  1 000 188 
DC910 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
DC910 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
DC910 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
DC910 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
DC910 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
DC910 DEFAULT 3 1 Takeoff MaxTakeoff 15    
DC910 DEFAULT 3 2 Climb MaxTakeoff 15 1 000   
DC910 DEFAULT 3 3 Accelerate MaxTakeoff 15  1 901 149 
DC910 DEFAULT 3 4 Accelerate MaxTakeoff 5  1 426 159 
DC910 DEFAULT 3 5 Accelerate MaxClimb INT  1 000 194 
DC910 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
DC910 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
DC910 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
DC910 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
DC910 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
DC930 DEFAULT 1 1 Takeoff MaxTakeoff 15    
DC930 DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
DC930 DEFAULT 1 3 Accelerate MaxTakeoff 15  1 741 154 
DC930 DEFAULT 1 4 Accelerate MaxTakeoff 5  1 306 164 
DC930 DEFAULT 1 5 Accelerate MaxClimb INT  1 000 199 
DC930 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
DC930 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
DC930 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
DC930 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
DC930 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
DC930 DEFAULT 2 1 Takeoff MaxTakeoff 15    
DC930 DEFAULT 2 2 Climb MaxTakeoff 15 1 000   
DC930 DEFAULT 2 3 Accelerate MaxTakeoff 15  1 559 161 
DC930 DEFAULT 2 4 Accelerate MaxTakeoff 5  1 169 171 
DC930 DEFAULT 2 5 Accelerate MaxClimb INT  1 000 206 
DC930 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
DC930 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
DC930 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
DC930 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
DC930 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
DC930 DEFAULT 3 1 Takeoff MaxTakeoff 15    
DC930 DEFAULT 3 2 Climb MaxTakeoff 15 1 000   
DC930 DEFAULT 3 3 Accelerate MaxTakeoff 15  1 406 168 
DC930 DEFAULT 3 4 Accelerate MaxTakeoff 5  1 055 178 
DC930 DEFAULT 3 5 Accelerate MaxClimb INT  1 000 213 
DC930 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
DC930 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
DC930 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
DC930 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
DC930 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
DC93LW DEFAULT 1 1 Takeoff MaxTakeoff 15    
DC93LW DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
DC93LW DEFAULT 1 3 Accelerate MaxTakeoff 15  1 741 154 
DC93LW DEFAULT 1 4 Accelerate MaxTakeoff 5  1 306 164 
DC93LW DEFAULT 1 5 Accelerate MaxClimb INT  1 000 199 
DC93LW DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
DC93LW DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
DC93LW DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
DC93LW DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
DC93LW DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
DC93LW DEFAULT 2 1 Takeoff MaxTakeoff 15    
DC93LW DEFAULT 2 2 Climb MaxTakeoff 15 1 000   
DC93LW DEFAULT 2 3 Accelerate MaxTakeoff 15  1 559 161 
DC93LW DEFAULT 2 4 Accelerate MaxTakeoff 5  1 169 171 
DC93LW DEFAULT 2 5 Accelerate MaxClimb INT  1 000 206 
DC93LW DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
DC93LW DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
DC93LW DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
DC93LW DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
DC93LW DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
DC93LW DEFAULT 3 1 Takeoff MaxTakeoff 15    
DC93LW DEFAULT 3 2 Climb MaxTakeoff 15 1 000   
DC93LW DEFAULT 3 3 Accelerate MaxTakeoff 15  1 406 168 
DC93LW DEFAULT 3 4 Accelerate MaxTakeoff 5  1 055 178 
DC93LW DEFAULT 3 5 Accelerate MaxClimb INT  1 000 213 
DC93LW DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
DC93LW DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
DC93LW DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
DC93LW DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
DC93LW DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
DC950 DEFAULT 1 1 Takeoff MaxTakeoff 15    
DC950 DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
DC950 DEFAULT 1 3 Accelerate MaxTakeoff 15  1 983 159 
DC950 DEFAULT 1 4 Accelerate MaxTakeoff 5  1 487 169 
DC950 DEFAULT 1 5 Accelerate MaxClimb INTR  1 000 204 
DC950 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
DC950 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
DC950 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
DC950 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
DC950 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
DC950 DEFAULT 2 1 Takeoff MaxTakeoff 15    
DC950 DEFAULT 2 2 Climb MaxTakeoff 15 1 000   
DC950 DEFAULT 2 3 Accelerate MaxTakeoff 15  1 843 164 
DC950 DEFAULT 2 4 Accelerate MaxTakeoff 5  1 382 174 
DC950 DEFAULT 2 5 Accelerate MaxClimb INTR  1 000 209 
DC950 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
DC950 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
DC950 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
DC950 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
DC950 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
DC950 DEFAULT 3 1 Takeoff MaxTakeoff 15    
DC950 DEFAULT 3 2 Climb MaxTakeoff 15 1 000   
DC950 DEFAULT 3 3 Accelerate MaxTakeoff 15  1 698 170 
DC950 DEFAULT 3 4 Accelerate MaxTakeoff 5  1 274 180 
DC950 DEFAULT 3 5 Accelerate MaxClimb INTR  1 000 215 
DC950 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
DC950 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
DC950 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
DC950 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
DC950 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
DC95HW DEFAULT 1 1 Takeoff MaxTakeoff 15    
DC95HW DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
DC95HW DEFAULT 1 3 Accelerate MaxTakeoff 15  1 983 159 
DC95HW DEFAULT 1 4 Accelerate MaxTakeoff 5  1 487 169 
DC95HW DEFAULT 1 5 Accelerate MaxClimb INTR  1 000 204 
DC95HW DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
DC95HW DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
DC95HW DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
DC95HW DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
DC95HW DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
DC95HW DEFAULT 2 1 Takeoff MaxTakeoff 15    
DC95HW DEFAULT 2 2 Climb MaxTakeoff 15 1 000   
DC95HW DEFAULT 2 3 Accelerate MaxTakeoff 15  1 843 164 
DC95HW DEFAULT 2 4 Accelerate MaxTakeoff 5  1 382 174 
DC95HW DEFAULT 2 5 Accelerate MaxClimb INTR  1 000 209 
DC95HW DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
DC95HW DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
DC95HW DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
DC95HW DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
DC95HW DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
DC95HW DEFAULT 3 1 Takeoff MaxTakeoff 15    
DC95HW DEFAULT 3 2 Climb MaxTakeoff 15 1 000   
DC95HW DEFAULT 3 3 Accelerate MaxTakeoff 15  1 698 170 
DC95HW DEFAULT 3 4 Accelerate MaxTakeoff 5  1 274 180 
DC95HW DEFAULT 3 5 Accelerate MaxClimb INTR  1 000 215 
DC95HW DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
DC95HW DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
DC95HW DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
DC95HW DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
DC95HW DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
DC9Q7 DEFAULT 1 1 Takeoff MaxTakeoff 15    
DC9Q7 DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
DC9Q7 DEFAULT 1 3 Accelerate MaxTakeoff 15  2 296 136 
DC9Q7 DEFAULT 1 4 Accelerate MaxTakeoff 5  1 722 146 
DC9Q7 DEFAULT 1 5 Accelerate MaxClimb INT  1 000 181 
DC9Q7 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
DC9Q7 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
DC9Q7 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
DC9Q7 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
DC9Q7 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
DC9Q7 DEFAULT 2 1 Takeoff MaxTakeoff 15    
DC9Q7 DEFAULT 2 2 Climb MaxTakeoff 15 1 000   
DC9Q7 DEFAULT 2 3 Accelerate MaxTakeoff 15  2 070 143 
DC9Q7 DEFAULT 2 4 Accelerate MaxTakeoff 5  1 553 153 
DC9Q7 DEFAULT 2 5 Accelerate MaxClimb INT  1 000 188 
DC9Q7 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
DC9Q7 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
DC9Q7 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
DC9Q7 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
DC9Q7 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
DC9Q7 DEFAULT 3 1 Takeoff MaxTakeoff 15    
DC9Q7 DEFAULT 3 2 Climb MaxTakeoff 15 1 000   
DC9Q7 DEFAULT 3 3 Accelerate MaxTakeoff 15  1 901 149 
DC9Q7 DEFAULT 3 4 Accelerate MaxTakeoff 5  1 426 159 
DC9Q7 DEFAULT 3 5 Accelerate MaxClimb INT  1 000 194 
DC9Q7 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
DC9Q7 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
DC9Q7 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
DC9Q7 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
DC9Q7 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
DC9Q9 DEFAULT 1 1 Takeoff MaxTakeoff 15    
DC9Q9 DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
DC9Q9 DEFAULT 1 3 Accelerate MaxTakeoff 15  1 741 154 
DC9Q9 DEFAULT 1 4 Accelerate MaxTakeoff 5  1 306 164 
DC9Q9 DEFAULT 1 5 Accelerate MaxClimb INT  1 000 199 
DC9Q9 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
DC9Q9 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
DC9Q9 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
DC9Q9 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
DC9Q9 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
DC9Q9 DEFAULT 2 1 Takeoff MaxTakeoff 15    
DC9Q9 DEFAULT 2 2 Climb MaxTakeoff 15 1 000   
DC9Q9 DEFAULT 2 3 Accelerate MaxTakeoff 15  1 559 161 
DC9Q9 DEFAULT 2 4 Accelerate MaxTakeoff 5  1 169 171 
DC9Q9 DEFAULT 2 5 Accelerate MaxClimb INT  1 000 206 
DC9Q9 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
DC9Q9 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
DC9Q9 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
DC9Q9 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
DC9Q9 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
DC9Q9 DEFAULT 3 1 Takeoff MaxTakeoff 15    
DC9Q9 DEFAULT 3 2 Climb MaxTakeoff 15 1 000   
DC9Q9 DEFAULT 3 3 Accelerate MaxTakeoff 15  1 406 168 
DC9Q9 DEFAULT 3 4 Accelerate MaxTakeoff 5  1 055 178 
DC9Q9 DEFAULT 3 5 Accelerate MaxClimb INT  1 000 213 
DC9Q9 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
DC9Q9 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
DC9Q9 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
DC9Q9 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
DC9Q9 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
DHC6 DEFAULT 1 1 Takeoff MaxTakeoff TO    
DHC6 DEFAULT 1 2 Climb MaxTakeoff TO 1 000   
DHC6 DEFAULT 1 3 Accelerate MaxTakeoff TO  952 98 
DHC6 DEFAULT 1 4 Climb MaxClimb ZERO 3 000   
DHC6 DEFAULT 1 5 Climb MaxClimb ZERO 5 500   
DHC6 DEFAULT 1 6 Climb MaxClimb ZERO 7 500   
DHC6 DEFAULT 1 7 Climb MaxClimb ZERO 10 000   
DHC6QP DEFAULT 1 1 Takeoff MaxTakeoff TO    
DHC6QP DEFAULT 1 2 Climb MaxTakeoff TO 1 000   
DHC6QP DEFAULT 1 3 Accelerate MaxTakeoff TO  952 98 
DHC6QP DEFAULT 1 4 Climb MaxClimb ZERO 3 000   
DHC6QP DEFAULT 1 5 Climb MaxClimb ZERO 5 500   
DHC6QP DEFAULT 1 6 Climb MaxClimb ZERO 7 500   
DHC6QP DEFAULT 1 7 Climb MaxClimb ZERO 10 000   
DHC7 DEFAULT 1 1 Takeoff MaxTakeoff 25    
DHC7 DEFAULT 1 2 Climb MaxTakeoff 25 1 000   
DHC7 DEFAULT 1 3 Accelerate MaxTakeoff 25  933 102 
DHC7 DEFAULT 1 4 Accelerate MaxTakeoff 10  700 122 
DHC7 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
DHC7 DEFAULT 1 6 Accelerate MaxClimb ZERO  700 160 
DHC7 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
DHC7 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
DHC7 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
DHC8 DEFAULT 1 1 Takeoff MaxTakeoff 15    
DHC8 DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
DHC8 DEFAULT 1 3 Accelerate MaxTakeoff 15  1 491 110 
DHC8 DEFAULT 1 4 Accelerate MaxClimb 5  1 119 125 
DHC8 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
DHC8 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 119 165 
DHC8 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
DHC8 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
DHC8 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
ACFTID Profile_ID Stage Length Step Number Step Type Thrust Rating Flap_ID End Point Altitude (ft) Rate Of Climb (ft/min) End Point CAS (kt) Accelerate_Percent (%)
DHC830 DEFAULT 1 1 Takeoff MaxTakeoff 10    
DHC830 DEFAULT 1 2 Climb MaxTakeoff 10 1 000   
DHC830 DEFAULT 1 3 Accelerate MaxTakeoff 10  1 280 122 
DHC830 DEFAULT 1 4 Accelerate MaxClimb 5  960 137 
DHC830 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
DHC830 DEFAULT 1 6 Accelerate MaxClimb ZERO  960 179 
DHC830 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
DHC830 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
DHC830 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
DO228 DEFAULT 1 1 Takeoff MaxTakeoff FLAPS1    
DO228 DEFAULT 1 2 Accelerate MaxTakeoff FLAPS1  1 000 101 
DO228 DEFAULT 1 3 Climb MaxTakeoff ZERO 1 000   
DO228 DEFAULT 1 4 Accelerate MaxClimb ZERO  1 000 122 
DO228 DEFAULT 1 5 Climb MaxClimb ZERO 2 000   
DO228 DEFAULT 1 6 Climb MaxClimb ZERO 4 000   
DO228 DEFAULT 1 7 Climb MaxClimb ZERO 6 000   
DO228 DEFAULT 1 8 Climb MaxClimb ZERO 8 000   
DO228 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
DO328 DEFAULT 1 1 Takeoff MaxTakeoff F12-D    
DO328 DEFAULT 1 2 Accelerate MaxTakeoff F12-D  1 000 120 
DO328 DEFAULT 1 3 Climb MaxTakeoff ZERO 1 000   
DO328 DEFAULT 1 4 Accelerate MaxTakeoff ZERO  1 000 130 
DO328 DEFAULT 1 5 Climb MaxClimb ZERO 2 000   
DO328 DEFAULT 1 6 Climb MaxClimb ZERO 4 000   
DO328 DEFAULT 1 7 Climb MaxClimb ZERO 6 000   
DO328 DEFAULT 1 8 Climb MaxClimb ZERO 8 000   
DO328 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
ECLIPSE500 DEFAULT 1 1 Takeoff MaxTakeoff TO_DN    
ECLIPSE500 DEFAULT 1 2 Climb MaxTakeoff TO_DN 200   
ECLIPSE500 DEFAULT 1 3 Climb MaxTakeoff TO_UP 400   
ECLIPSE500 DEFAULT 1 4 Accelerate MaxClimb UP_UP  1 972,9 114 
ECLIPSE500 DEFAULT 1 5 Accelerate MaxClimb UP_UP  2 153,3 130,7 
ECLIPSE500 DEFAULT 1 6 Accelerate MaxClimb UP_UP  2 276 145,3 
ECLIPSE500 DEFAULT 1 7 Accelerate MaxClimb UP_UP  2 313,3 158,2 
ECLIPSE500 DEFAULT 1 8 Accelerate MaxClimb UP_UP  2 288,2 170 
ECLIPSE500 DEFAULT 1 9 Climb ReduceClimb UP_UP 6 000   
ECLIPSE500 DEFAULT 1 10 Climb ReduceClimb UP_UP 8 000   
ECLIPSE500 DEFAULT 1 11 Climb ReduceClimb UP_UP 10 000   
ECLIPSE500 DEFAULT 2 1 Takeoff MaxTakeoff TO_DN    
ECLIPSE500 DEFAULT 2 2 Climb MaxTakeoff TO_DN 200   
ECLIPSE500 DEFAULT 2 3 Climb MaxTakeoff TO_UP 400   
ECLIPSE500 DEFAULT 2 4 Accelerate MaxClimb UP_UP  1 803,3 114,8 
ECLIPSE500 DEFAULT 2 5 Accelerate MaxClimb UP_UP  1 971,7 131,2 
ECLIPSE500 DEFAULT 2 6 Accelerate MaxClimb UP_UP  2 087,6 145,6 
ECLIPSE500 DEFAULT 2 7 Accelerate MaxClimb UP_UP  2 124,1 158,4 
ECLIPSE500 DEFAULT 2 8 Accelerate MaxClimb UP_UP  2 102,8 170 
ECLIPSE500 DEFAULT 2 9 Climb ReduceClimb UP_UP 6 000   
ECLIPSE500 DEFAULT 2 10 Climb ReduceClimb UP_UP 8 000   
ECLIPSE500 DEFAULT 2 11 Climb ReduceClimb UP_UP 10 000   
ECLIPSE500 DEFAULT 3 1 Takeoff MaxTakeoff TO_DN    
ECLIPSE500 DEFAULT 3 2 Climb MaxTakeoff TO_DN 200   
ECLIPSE500 DEFAULT 3 3 Climb MaxTakeoff TO_UP 400   
ECLIPSE500 DEFAULT 3 4 Accelerate MaxClimb UP_UP  1 760,4 115 
ECLIPSE500 DEFAULT 3 5 Accelerate MaxClimb UP_UP  1 926,2 131,4 
ECLIPSE500 DEFAULT 3 6 Accelerate MaxClimb UP_UP  2 039,6 145,7 
ECLIPSE500 DEFAULT 3 7 Accelerate MaxClimb UP_UP  2 075,3 158,4 
ECLIPSE500 DEFAULT 3 8 Accelerate MaxClimb UP_UP  2 054,5 170 
ECLIPSE500 DEFAULT 3 9 Climb ReduceClimb UP_UP 6 000   
ECLIPSE500 DEFAULT 3 10 Climb ReduceClimb UP_UP 8 000   
ECLIPSE500 DEFAULT 3 11 Climb ReduceClimb UP_UP 10 000   
ECLIPSE500 HI_ALT 1 1 Takeoff MaxTakeoff TO_DN    
ECLIPSE500 HI_ALT 1 2 Climb MaxTakeoff TO_DN 200   
ECLIPSE500 HI_ALT 1 3 Climb MaxTakeoff TO_UP 400   
ECLIPSE500 HI_ALT 1 4 Accelerate ReduceClimb UP_UP  1 798,3 113,9 
ECLIPSE500 HI_ALT 1 5 Accelerate ReduceClimb UP_UP  1 951,8 130,7 
ECLIPSE500 HI_ALT 1 6 Accelerate ReduceClimb UP_UP  2 043,9 145,3 
ECLIPSE500 HI_ALT 1 7 Accelerate ReduceClimb UP_UP  2 054,7 158,2 
ECLIPSE500 HI_ALT 1 8 Accelerate ReduceClimb UP_UP  1 998,7 170 
ECLIPSE500 HI_ALT 1 9 Climb ReduceClimb UP_UP 6 000   
ECLIPSE500 HI_ALT 1 10 Climb ReduceClimb UP_UP 8 000   
ECLIPSE500 HI_ALT 1 11 Climb ReduceClimb UP_UP 10 000   
ECLIPSE500 HI_ALT 2 1 Takeoff MaxTakeoff TO_DN    
ECLIPSE500 HI_ALT 2 2 Climb MaxTakeoff TO_DN 200   
ECLIPSE500 HI_ALT 2 3 Climb MaxTakeoff TO_UP 400   
ECLIPSE500 HI_ALT 2 4 Accelerate ReduceClimb UP_UP  1 637 114,8 
ECLIPSE500 HI_ALT 2 5 Accelerate ReduceClimb UP_UP  1 780,8 131,2 
ECLIPSE500 HI_ALT 2 6 Accelerate ReduceClimb UP_UP  1 868,3 145,6 
ECLIPSE500 HI_ALT 2 7 Accelerate ReduceClimb UP_UP  1 880,3 158,4 
ECLIPSE500 HI_ALT 2 8 Accelerate ReduceClimb UP_UP  1 838,2 170 
ECLIPSE500 HI_ALT 2 9 Climb ReduceClimb UP_UP 6 000   
ECLIPSE500 HI_ALT 2 10 Climb ReduceClimb UP_UP 8 000   
ECLIPSE500 HI_ALT 2 11 Climb ReduceClimb UP_UP 10 000   
ECLIPSE500 HI_ALT 3 1 Takeoff MaxTakeoff TO_DN    
ECLIPSE500 HI_ALT 3 2 Climb MaxTakeoff TO_DN 200   
ECLIPSE500 HI_ALT 3 3 Climb MaxTakeoff TO_UP 400   
ECLIPSE500 HI_ALT 3 4 Accelerate ReduceClimb UP_UP  1 595,5 115 
ECLIPSE500 HI_ALT 3 5 Accelerate ReduceClimb UP_UP  1 736,8 131,4 
ECLIPSE500 HI_ALT 3 6 Accelerate ReduceClimb UP_UP  1 823,1 145,6 
ECLIPSE500 HI_ALT 3 7 Accelerate ReduceClimb UP_UP  1 835,6 158,4 
ECLIPSE500 HI_ALT 3 8 Accelerate ReduceClimb UP_UP  1 794,8 170 
ECLIPSE500 HI_ALT 3 9 Climb ReduceClimb UP_UP 6 000   
ECLIPSE500 HI_ALT 3 10 Climb ReduceClimb UP_UP 8 000   
ECLIPSE500 HI_ALT 3 11 Climb ReduceClimb UP_UP 10 000   
EMB120 DEFAULT 1 1 Takeoff MaxTakeoff 15    
EMB120 DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
EMB120 DEFAULT 1 3 Accelerate MaxTakeoff 15  460 130 
EMB120 DEFAULT 1 4 Accelerate MaxTakeoff ZERO  345 135 
EMB120 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 143 
EMB120 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
EMB120 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
EMB120 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
EMB120 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
EMB145 DEFAULT 1 1 Takeoff MaxTakeoff 9-GEAR    
EMB145 DEFAULT 1 2 Climb MaxTakeoff 9 1 000   
EMB145 DEFAULT 1 3 Accelerate MaxClimb ZERO  1 367 220 
EMB145 DEFAULT 1 4 Climb MaxClimb ZERO 3 000   
EMB145 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 250 
EMB145 DEFAULT 1 6 Climb MaxClimb ZERO 5 500   
EMB145 DEFAULT 1 7 Climb MaxClimb ZERO 7 500   
EMB145 DEFAULT 1 8 Climb MaxClimb ZERO 10 000   
EMB145 DEFAULT 2 1 Takeoff MaxTakeoff 9-GEAR    
EMB145 DEFAULT 2 2 Climb MaxTakeoff 9 1 000   
EMB145 DEFAULT 2 3 Accelerate MaxClimb ZERO  1 334 220 
EMB145 DEFAULT 2 4 Climb MaxClimb ZERO 3 000   
EMB145 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 250 
EMB145 DEFAULT 2 6 Climb MaxClimb ZERO 5 500   
EMB145 DEFAULT 2 7 Climb MaxClimb ZERO 7 500   
EMB145 DEFAULT 2 8 Climb MaxClimb ZERO 10 000   
EMB145 DEFAULT 3 1 Takeoff MaxTakeoff 9-GEAR    
EMB145 DEFAULT 3 2 Climb MaxTakeoff 9 1 000   
EMB145 DEFAULT 3 3 Accelerate MaxClimb ZERO  1 315 220 
EMB145 DEFAULT 3 4 Climb MaxClimb ZERO 3 000   
EMB145 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 250 
EMB145 DEFAULT 3 6 Climb MaxClimb ZERO 5 500   
EMB145 DEFAULT 3 7 Climb MaxClimb ZERO 7 500   
EMB145 DEFAULT 3 8 Climb MaxClimb ZERO 10 000   
EMB145 DEFAULT 4 1 Takeoff MaxTakeoff 9-GEAR    
EMB145 DEFAULT 4 2 Climb MaxTakeoff 9 1 000   
EMB145 DEFAULT 4 3 Accelerate MaxClimb ZERO  1 293 220 
EMB145 DEFAULT 4 4 Climb MaxClimb ZERO 3 200   
EMB145 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 250 
EMB145 DEFAULT 4 6 Climb MaxClimb ZERO 5 500   
EMB145 DEFAULT 4 7 Climb MaxClimb ZERO 7 500   
EMB145 DEFAULT 4 8 Climb MaxClimb ZERO 10 000   
EMB14L DEFAULT 1 1 Takeoff MaxTakeoff 9-GEAR    
EMB14L DEFAULT 1 2 Climb MaxTakeoff 9 1 000   
EMB14L DEFAULT 1 3 Accelerate MaxClimb ZERO  1 465 220 
EMB14L DEFAULT 1 4 Climb MaxClimb ZERO 3 000   
EMB14L DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 250 
EMB14L DEFAULT 1 6 Climb MaxClimb ZERO 5 500   
EMB14L DEFAULT 1 7 Climb MaxClimb ZERO 7 500   
EMB14L DEFAULT 1 8 Climb MaxClimb ZERO 10 000   
EMB14L DEFAULT 2 1 Takeoff MaxTakeoff 9-GEAR    
EMB14L DEFAULT 2 2 Climb MaxTakeoff 9 1 000   
EMB14L DEFAULT 2 3 Accelerate MaxClimb ZERO  1 420 220 
EMB14L DEFAULT 2 4 Climb MaxClimb ZERO 3 000   
EMB14L DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 250 
EMB14L DEFAULT 2 6 Climb MaxClimb ZERO 5 500   
EMB14L DEFAULT 2 7 Climb MaxClimb ZERO 7 500   
EMB14L DEFAULT 2 8 Climb MaxClimb ZERO 10 000   
EMB14L DEFAULT 3 1 Takeoff MaxTakeoff 9-GEAR    
EMB14L DEFAULT 3 2 Climb MaxTakeoff 9 1 000   
EMB14L DEFAULT 3 3 Accelerate MaxClimb ZERO  1 395 220 
EMB14L DEFAULT 3 4 Climb MaxClimb ZERO 3 000   
EMB14L DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 250 
EMB14L DEFAULT 3 6 Climb MaxClimb ZERO 5 500   
EMB14L DEFAULT 3 7 Climb MaxClimb ZERO 7 500   
EMB14L DEFAULT 3 8 Climb MaxClimb ZERO 10 000   
EMB14L DEFAULT 4 1 Takeoff MaxTakeoff 9-GEAR    
EMB14L DEFAULT 4 2 Climb MaxTakeoff 9 1 000   
EMB14L DEFAULT 4 3 Accelerate MaxClimb ZERO  1 366 220 
EMB14L DEFAULT 4 4 Climb MaxClimb ZERO 3 000   
EMB14L DEFAULT 4 5 Accelerate MaxClimb ZERO  1 000 250 
EMB14L DEFAULT 4 6 Climb MaxClimb ZERO 5 500   
EMB14L DEFAULT 4 7 Climb MaxClimb ZERO 7 500   
EMB14L DEFAULT 4 8 Climb MaxClimb ZERO 10 000   
EMB14L DEFAULT 5 1 Takeoff MaxTakeoff 9-GEAR    
EMB14L DEFAULT 5 2 Climb MaxTakeoff 9 1 000   
EMB14L DEFAULT 5 3 Accelerate MaxClimb ZERO  1 335 220 
EMB14L DEFAULT 5 4 Climb MaxClimb ZERO 3 000   
EMB14L DEFAULT 5 5 Accelerate MaxClimb ZERO  1 000 250 
EMB14L DEFAULT 5 6 Climb MaxClimb ZERO 5 500   
EMB14L DEFAULT 5 7 Climb MaxClimb ZERO 7 500   
EMB14L DEFAULT 5 8 Climb MaxClimb ZERO 10 000   
EMB14L DEFAULT 6 1 Takeoff MaxTakeoff 9-GEAR    
EMB14L DEFAULT 6 2 Climb MaxTakeoff 9 1 000   
EMB14L DEFAULT 6 3 Accelerate MaxClimb ZERO  1 298 220 
EMB14L DEFAULT 6 4 Climb MaxClimb ZERO 3 000   
EMB14L DEFAULT 6 5 Accelerate MaxClimb ZERO  1 000 250 
EMB14L DEFAULT 6 6 Climb MaxClimb ZERO 5 500   
EMB14L DEFAULT 6 7 Climb MaxClimb ZERO 7 500   
EMB14L DEFAULT 6 8 Climb MaxClimb ZERO 10 000   
EMB170 DEFAULT 1 1 Takeoff MaxTakeoff 1    
EMB170 DEFAULT 1 2 Climb MaxTakeoff 1 1 000   
EMB170 DEFAULT 1 3 Accelerate MaxClimb ZERO  1 936 196 
EMB170 DEFAULT 1 4 Climb MaxClimb ZERO 3 000   
EMB170 DEFAULT 1 5 Accelerate MaxClimb ZERO  2 339 240 
EMB170 DEFAULT 1 6 Climb MaxClimb ZERO 5 500   
EMB170 DEFAULT 1 7 Climb MaxClimb ZERO 7 500   
EMB170 DEFAULT 1 8 Climb MaxClimb ZERO 10 000   
EMB170 DEFAULT 2 1 Takeoff MaxTakeoff 1    
EMB170 DEFAULT 2 2 Climb MaxTakeoff 1 1 000   
EMB170 DEFAULT 2 3 Accelerate MaxClimb ZERO  1 836 197,1 
EMB170 DEFAULT 2 4 Climb MaxClimb ZERO 3 000   
EMB170 DEFAULT 2 5 Accelerate MaxClimb ZERO  2 228 240 
EMB170 DEFAULT 2 6 Climb MaxClimb ZERO 5 500   
EMB170 DEFAULT 2 7 Climb MaxClimb ZERO 7 500   
EMB170 DEFAULT 2 8 Climb MaxClimb ZERO 10 000   
EMB170 DEFAULT 3 1 Takeoff MaxTakeoff 1    
EMB170 DEFAULT 3 2 Climb MaxTakeoff 1 1 000   
EMB170 DEFAULT 3 3 Accelerate MaxClimb ZERO  1 772 200,9 
EMB170 DEFAULT 3 4 Climb MaxClimb ZERO 3 000   
EMB170 DEFAULT 3 5 Accelerate MaxClimb ZERO  2 120 240 
EMB170 DEFAULT 3 6 Climb MaxClimb ZERO 5 500   
EMB170 DEFAULT 3 7 Climb MaxClimb ZERO 7 500   
EMB170 DEFAULT 3 8 Climb MaxClimb ZERO 10 000   
EMB170 ICAO_A 1 1 Takeoff MaxTakeoff 1    
EMB170 ICAO_A 1 2 Climb MaxTakeoff 1 1 500   
EMB170 ICAO_A 1 3 Climb MaxClimb 1 3 000   
EMB170 ICAO_A 1 4 Accelerate MaxClimb ZERO  1 650 195 
EMB170 ICAO_A 1 5 Accelerate MaxClimb ZERO  2 035 240 
EMB170 ICAO_A 1 6 Climb MaxClimb ZERO 5 500   
EMB170 ICAO_A 1 7 Climb MaxClimb ZERO 7 500   
EMB170 ICAO_A 1 8 Climb MaxClimb ZERO 10 000   
EMB170 ICAO_A 2 1 Takeoff MaxTakeoff 1    
EMB170 ICAO_A 2 2 Climb MaxTakeoff 1 1 500   
EMB170 ICAO_A 2 3 Climb MaxClimb 1 3 000   
EMB170 ICAO_A 2 4 Accelerate MaxClimb ZERO  1 617 198,1 
EMB170 ICAO_A 2 5 Accelerate MaxClimb ZERO  1 944 240 
EMB170 ICAO_A 2 6 Climb MaxClimb ZERO 5 500   
EMB170 ICAO_A 2 7 Climb MaxClimb ZERO 7 500   
EMB170 ICAO_A 2 8 Climb MaxClimb ZERO 10 000   
EMB170 ICAO_A 3 1 Takeoff MaxTakeoff 1    
EMB170 ICAO_A 3 2 Climb MaxTakeoff 1 1 500   
EMB170 ICAO_A 3 3 Climb MaxClimb 1 3 000   
EMB170 ICAO_A 3 4 Accelerate MaxClimb ZERO  1 546 200,4 
EMB170 ICAO_A 3 5 Accelerate MaxClimb ZERO  1 850 240 
EMB170 ICAO_A 3 6 Climb MaxClimb ZERO 5 500   
EMB170 ICAO_A 3 7 Climb MaxClimb ZERO 7 500   
EMB170 ICAO_A 3 8 Climb MaxClimb ZERO 10 000   
EMB170 ICAO_B 1 1 Takeoff MaxTakeoff 1    
EMB170 ICAO_B 1 2 Climb MaxTakeoff 1 1 000   
EMB170 ICAO_B 1 3 Accelerate MaxTakeoff ZERO  1 899 195,5 
EMB170 ICAO_B 1 4 Climb MaxClimb ZERO 3 000   
EMB170 ICAO_B 1 5 Accelerate MaxClimb ZERO  2 301 240 
EMB170 ICAO_B 1 6 Climb MaxClimb ZERO 5 500   
EMB170 ICAO_B 1 7 Climb MaxClimb ZERO 7 500   
EMB170 ICAO_B 1 8 Climb MaxClimb ZERO 10 000   
EMB170 ICAO_B 2 1 Takeoff MaxTakeoff 1    
EMB170 ICAO_B 2 2 Climb MaxTakeoff 1 1 000   
EMB170 ICAO_B 2 3 Accelerate MaxTakeoff ZERO  1 823 198,2 
EMB170 ICAO_B 2 4 Climb MaxClimb ZERO 3 000   
EMB170 ICAO_B 2 5 Accelerate MaxClimb ZERO  2 195 240 
EMB170 ICAO_B 2 6 Climb MaxClimb ZERO 5 500   
EMB170 ICAO_B 2 7 Climb MaxClimb ZERO 7 500   
EMB170 ICAO_B 2 8 Climb MaxClimb ZERO 10 000   
EMB170 ICAO_B 3 1 Takeoff MaxTakeoff 1    
EMB170 ICAO_B 3 2 Climb MaxTakeoff 1 1 000   
EMB170 ICAO_B 3 3 Accelerate MaxTakeoff ZERO  1 743 201 
EMB170 ICAO_B 3 4 Climb MaxClimb ZERO 3 000   
EMB170 ICAO_B 3 5 Accelerate MaxClimb ZERO  2 085 240 
EMB170 ICAO_B 3 6 Climb MaxClimb ZERO 5 500   
EMB170 ICAO_B 3 7 Climb MaxClimb ZERO 7 500   
EMB170 ICAO_B 3 8 Climb MaxClimb ZERO 10 000   
EMB175 DEFAULT 1 1 Takeoff MaxTakeoff 1    
EMB175 DEFAULT 1 2 Climb MaxTakeoff 1 1 000   
EMB175 DEFAULT 1 3 Accelerate MaxClimb ZERO  1 900 196 
EMB175 DEFAULT 1 4 Climb MaxClimb ZERO 3 000   
EMB175 DEFAULT 1 5 Accelerate MaxClimb ZERO  2 308 240 
EMB175 DEFAULT 1 6 Climb MaxClimb ZERO 5 500   
EMB175 DEFAULT 1 7 Climb MaxClimb ZERO 7 500   
EMB175 DEFAULT 1 8 Climb MaxClimb ZERO 10 000   
EMB175 DEFAULT 2 1 Takeoff MaxTakeoff 1    
EMB175 DEFAULT 2 2 Climb MaxTakeoff 1 1 000   
EMB175 DEFAULT 2 3 Accelerate MaxClimb ZERO  1 823 198,1 
EMB175 DEFAULT 2 4 Climb MaxClimb ZERO 3 000   
EMB175 DEFAULT 2 5 Accelerate MaxClimb ZERO  2 190 240 
EMB175 DEFAULT 2 6 Climb MaxClimb ZERO 5 500   
EMB175 DEFAULT 2 7 Climb MaxClimb ZERO 7 500   
EMB175 DEFAULT 2 8 Climb MaxClimb ZERO 10 000   
EMB175 DEFAULT 3 1 Takeoff MaxTakeoff 1    
EMB175 DEFAULT 3 2 Climb MaxTakeoff 1 1 000   
EMB175 DEFAULT 3 3 Accelerate MaxClimb ZERO  1 745 200,3 
EMB175 DEFAULT 3 4 Climb MaxClimb ZERO 3 000   
EMB175 DEFAULT 3 5 Accelerate MaxClimb ZERO  2 086 240 
EMB175 DEFAULT 3 6 Climb MaxClimb ZERO 5 500   
EMB175 DEFAULT 3 7 Climb MaxClimb ZERO 7 500   
EMB175 DEFAULT 3 8 Climb MaxClimb ZERO 10 000   
EMB175 ICAO_A 1 1 Takeoff MaxTakeoff 1    
EMB175 ICAO_A 1 2 Climb MaxTakeoff 1 1 500   
EMB175 ICAO_A 1 3 Climb MaxClimb 1 3 000   
EMB175 ICAO_A 1 4 Accelerate MaxClimb ZERO  1 634 195 
EMB175 ICAO_A 1 5 Accelerate MaxClimb ZERO  1 979 240 
EMB175 ICAO_A 1 6 Climb MaxClimb ZERO 5 500   
EMB175 ICAO_A 1 7 Climb MaxClimb ZERO 7 500   
EMB175 ICAO_A 1 8 Climb MaxClimb ZERO 10 000   
EMB175 ICAO_A 2 1 Takeoff MaxTakeoff 1    
EMB175 ICAO_A 2 2 Climb MaxTakeoff 1 1 500   
EMB175 ICAO_A 2 3 Climb MaxClimb 1 3 000   
EMB175 ICAO_A 2 4 Accelerate MaxClimb ZERO  1 568 198,5 
EMB175 ICAO_A 2 5 Accelerate MaxClimb ZERO  1 885 240 
EMB175 ICAO_A 2 6 Climb MaxClimb ZERO 5 500   
EMB175 ICAO_A 2 7 Climb MaxClimb ZERO 7 500   
EMB175 ICAO_A 2 8 Climb MaxClimb ZERO 10 000   
EMB175 ICAO_A 3 1 Takeoff MaxTakeoff 1    
EMB175 ICAO_A 3 2 Climb MaxTakeoff 1 1 500   
EMB175 ICAO_A 3 3 Climb MaxClimb 1 3 000   
EMB175 ICAO_A 3 4 Accelerate MaxClimb ZERO  1 499 201,3 
EMB175 ICAO_A 3 5 Accelerate MaxClimb ZERO  1 794 240 
EMB175 ICAO_A 3 6 Climb MaxClimb ZERO 5 500   
EMB175 ICAO_A 3 7 Climb MaxClimb ZERO 7 500   
EMB175 ICAO_A 3 8 Climb MaxClimb ZERO 10 000   
EMB175 ICAO_B 1 1 Takeoff MaxTakeoff 1    
EMB175 ICAO_B 1 2 Climb MaxTakeoff 1 1 000   
EMB175 ICAO_B 1 3 Accelerate MaxTakeoff ZERO  1 818 195,5 
EMB175 ICAO_B 1 4 Climb MaxClimb ZERO 3 000   
EMB175 ICAO_B 1 5 Accelerate MaxClimb ZERO  2 202 240 
EMB175 ICAO_B 1 6 Climb MaxClimb ZERO 5 500   
EMB175 ICAO_B 1 7 Climb MaxClimb ZERO 7 500   
EMB175 ICAO_B 1 8 Climb MaxClimb ZERO 10 000   
EMB175 ICAO_B 2 1 Takeoff MaxTakeoff 1    
EMB175 ICAO_B 2 2 Climb MaxTakeoff 1 1 000   
EMB175 ICAO_B 2 3 Accelerate MaxTakeoff ZERO  1 744 197,1 
EMB175 ICAO_B 2 4 Climb MaxClimb ZERO 3 000   
EMB175 ICAO_B 2 5 Accelerate MaxClimb ZERO  2 099 240 
EMB175 ICAO_B 2 6 Climb MaxClimb ZERO 5 500   
EMB175 ICAO_B 2 7 Climb MaxClimb ZERO 7 500   
EMB175 ICAO_B 2 8 Climb MaxClimb ZERO 10 000   
EMB175 ICAO_B 3 1 Takeoff MaxTakeoff 1    
EMB175 ICAO_B 3 2 Climb MaxTakeoff 1 1 000   
EMB175 ICAO_B 3 3 Accelerate MaxTakeoff ZERO  1 668 200,8 
EMB175 ICAO_B 3 4 Climb MaxClimb ZERO 3 000   
EMB175 ICAO_B 3 5 Accelerate MaxClimb ZERO  1 996 240 
EMB175 ICAO_B 3 6 Climb MaxClimb ZERO 5 500   
EMB175 ICAO_B 3 7 Climb MaxClimb ZERO 7 500   
EMB175 ICAO_B 3 8 Climb MaxClimb ZERO 10 000   
EMB190 DEFAULT 1 1 Takeoff MaxTakeoff 1    
EMB190 DEFAULT 1 2 Climb MaxTakeoff 1 1 000   
EMB190 DEFAULT 1 3 Accelerate MaxClimb ZERO  1 685 194,5 
EMB190 DEFAULT 1 4 Climb MaxClimb ZERO 3 000   
EMB190 DEFAULT 1 5 Accelerate MaxClimb ZERO  2 041 250 
EMB190 DEFAULT 1 6 Climb MaxClimb ZERO 5 500   
EMB190 DEFAULT 1 7 Climb MaxClimb ZERO 7 500   
EMB190 DEFAULT 1 8 Climb MaxClimb ZERO 10 000   
EMB190 DEFAULT 2 1 Takeoff MaxTakeoff 1    
EMB190 DEFAULT 2 2 Climb MaxTakeoff 1 1 000   
EMB190 DEFAULT 2 3 Accelerate MaxClimb ZERO  1 616 197,1 
EMB190 DEFAULT 2 4 Climb MaxClimb ZERO 3 000   
EMB190 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 944 250 
EMB190 DEFAULT 2 6 Climb MaxClimb ZERO 5 500   
EMB190 DEFAULT 2 7 Climb MaxClimb ZERO 7 500   
EMB190 DEFAULT 2 8 Climb MaxClimb ZERO 10 000   
EMB190 DEFAULT 3 1 Takeoff MaxTakeoff 1    
EMB190 DEFAULT 3 2 Climb MaxTakeoff 1 1 000   
EMB190 DEFAULT 3 3 Accelerate MaxClimb ZERO  1 546 199,7 
EMB190 DEFAULT 3 4 Climb MaxClimb ZERO 3 000   
EMB190 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 850 250 
EMB190 DEFAULT 3 6 Climb MaxClimb ZERO 5 500   
EMB190 DEFAULT 3 7 Climb MaxClimb ZERO 7 500   
EMB190 DEFAULT 3 8 Climb MaxClimb ZERO 10 000   
EMB190 DEFAULT 4 1 Takeoff MaxTakeoff 1    
EMB190 DEFAULT 4 2 Climb MaxTakeoff 1 1 000   
EMB190 DEFAULT 4 3 Accelerate MaxClimb ZERO  1 416 205,2 
EMB190 DEFAULT 4 4 Climb MaxClimb ZERO 3 000   
EMB190 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 677 250 
EMB190 DEFAULT 4 6 Climb MaxClimb ZERO 5 500   
EMB190 DEFAULT 4 7 Climb MaxClimb ZERO 7 500   
EMB190 DEFAULT 4 8 Climb MaxClimb ZERO 10 000   
EMB190 ICAO_A 1 1 Takeoff MaxTakeoff 1    
EMB190 ICAO_A 1 2 Climb MaxTakeoff 1 1 500   
EMB190 ICAO_A 1 3 Climb MaxClimb 1 3 000   
EMB190 ICAO_A 1 4 Accelerate MaxClimb ZERO  1 652 194,1 
EMB190 ICAO_A 1 5 Accelerate MaxClimb ZERO  2 012 250 
EMB190 ICAO_A 1 6 Climb MaxClimb ZERO 5 500   
EMB190 ICAO_A 1 7 Climb MaxClimb ZERO 7 500   
EMB190 ICAO_A 1 8 Climb MaxClimb ZERO 10 000   
EMB190 ICAO_A 2 1 Takeoff MaxTakeoff 1    
EMB190 ICAO_A 2 2 Climb MaxTakeoff 1 1 500   
EMB190 ICAO_A 2 3 Climb MaxClimb 1 3 000   
EMB190 ICAO_A 2 4 Accelerate MaxClimb ZERO  1 582 196,6 
EMB190 ICAO_A 2 5 Accelerate MaxClimb ZERO  1 918 250 
EMB190 ICAO_A 2 6 Climb MaxClimb ZERO 5 500   
EMB190 ICAO_A 2 7 Climb MaxClimb ZERO 7 500   
EMB190 ICAO_A 2 8 Climb MaxClimb ZERO 10 000   
EMB190 ICAO_A 3 1 Takeoff MaxTakeoff 1    
EMB190 ICAO_A 3 2 Climb MaxTakeoff 1 1 500   
EMB190 ICAO_A 3 3 Climb MaxClimb 1 3 000   
EMB190 ICAO_A 3 4 Accelerate MaxClimb ZERO  1 513 199,4 
EMB190 ICAO_A 3 5 Accelerate MaxClimb ZERO  1 826 250 
EMB190 ICAO_A 3 6 Climb MaxClimb ZERO 5 500   
EMB190 ICAO_A 3 7 Climb MaxClimb ZERO 7 500   
EMB190 ICAO_A 3 8 Climb MaxClimb ZERO 10 000   
EMB190 ICAO_A 4 1 Takeoff MaxTakeoff 1    
EMB190 ICAO_A 4 2 Climb MaxTakeoff 1 1 500   
EMB190 ICAO_A 4 3 Climb MaxClimb 1 3 000   
EMB190 ICAO_A 4 4 Accelerate MaxClimb ZERO  1 382 204,8 
EMB190 ICAO_A 4 5 Accelerate MaxClimb ZERO  1 658 250 
EMB190 ICAO_A 4 6 Climb MaxClimb ZERO 7 500   
EMB190 ICAO_A 4 7 Climb MaxClimb ZERO 10 000   
EMB190 ICAO_B 1 1 Takeoff MaxTakeoff 1    
EMB190 ICAO_B 1 2 Climb MaxTakeoff 1 1 000   
EMB190 ICAO_B 1 3 Accelerate MaxTakeoff ZERO  1 899 194,4 
EMB190 ICAO_B 1 4 Climb MaxClimb ZERO 3 000   
EMB190 ICAO_B 1 5 Accelerate MaxClimb ZERO  2 171 250 
EMB190 ICAO_B 1 6 Climb MaxClimb ZERO 5 500   
EMB190 ICAO_B 1 7 Climb MaxClimb ZERO 7 500   
EMB190 ICAO_B 1 8 Climb MaxClimb ZERO 10 000   
EMB190 ICAO_B 2 1 Takeoff MaxTakeoff 1    
EMB190 ICAO_B 2 2 Climb MaxTakeoff 1 1 000   
EMB190 ICAO_B 2 3 Accelerate MaxTakeoff ZERO  1 824 197 
EMB190 ICAO_B 2 4 Climb MaxClimb ZERO 3 000   
EMB190 ICAO_B 2 5 Accelerate MaxClimb ZERO  2 069 250 
EMB190 ICAO_B 2 6 Climb MaxClimb ZERO 5 500   
EMB190 ICAO_B 2 7 Climb MaxClimb ZERO 7 500   
EMB190 ICAO_B 2 8 Climb MaxClimb ZERO 10 000   
EMB190 ICAO_B 3 1 Takeoff MaxTakeoff 1    
EMB190 ICAO_B 3 2 Climb MaxTakeoff 1 1 000   
EMB190 ICAO_B 3 3 Accelerate MaxTakeoff ZERO  1 628 199,7 
EMB190 ICAO_B 3 4 Climb MaxClimb ZERO 3 000   
EMB190 ICAO_B 3 5 Accelerate MaxClimb ZERO  1 969 250 
EMB190 ICAO_B 3 6 Climb MaxClimb ZERO 5 500   
EMB190 ICAO_B 3 7 Climb MaxClimb ZERO 7 500   
EMB190 ICAO_B 3 8 Climb MaxClimb ZERO 10 000   
EMB190 ICAO_B 4 1 Takeoff MaxTakeoff 1    
EMB190 ICAO_B 4 2 Climb MaxTakeoff 1 1 000   
EMB190 ICAO_B 4 3 Accelerate MaxTakeoff ZERO  1 603 205,1 
EMB190 ICAO_B 4 4 Climb MaxClimb ZERO 3 000   
EMB190 ICAO_B 4 5 Accelerate MaxClimb ZERO  1 784 250 
EMB190 ICAO_B 4 6 Climb MaxClimb ZERO 5 500   
EMB190 ICAO_B 4 7 Climb MaxClimb ZERO 7 500   
EMB190 ICAO_B 4 8 Climb MaxClimb ZERO 10 000   
EMB195 DEFAULT 1 1 Takeoff MaxTakeoff 1    
EMB195 DEFAULT 1 2 Climb MaxTakeoff 1 1 000   
EMB195 DEFAULT 1 3 Accelerate MaxClimb ZERO  1 622 195 
EMB195 DEFAULT 1 4 Climb MaxClimb ZERO 3 000   
EMB195 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 965 250 
EMB195 DEFAULT 1 6 Climb MaxClimb ZERO 5 500   
EMB195 DEFAULT 1 7 Climb MaxClimb ZERO 7 500   
EMB195 DEFAULT 1 8 Climb MaxClimb ZERO 10 000   
EMB195 DEFAULT 2 1 Takeoff MaxTakeoff 1    
EMB195 DEFAULT 2 2 Climb MaxTakeoff 1 1 000   
EMB195 DEFAULT 2 3 Accelerate MaxClimb ZERO  1 556 197,6 
EMB195 DEFAULT 2 4 Climb MaxClimb ZERO 3 000   
EMB195 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 872 250 
EMB195 DEFAULT 2 6 Climb MaxClimb ZERO 5 500   
EMB195 DEFAULT 2 7 Climb MaxClimb ZERO 7 500   
EMB195 DEFAULT 2 8 Climb MaxClimb ZERO 10 000   
EMB195 DEFAULT 3 1 Takeoff MaxTakeoff 1    
EMB195 DEFAULT 3 2 Climb MaxTakeoff 1 1 000   
EMB195 DEFAULT 3 3 Accelerate MaxClimb ZERO  1 489 200,2 
EMB195 DEFAULT 3 4 Climb MaxClimb ZERO 3 000   
EMB195 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 781 250 
EMB195 DEFAULT 3 6 Climb MaxClimb ZERO 5 500   
EMB195 DEFAULT 3 7 Climb MaxClimb ZERO 7 500   
EMB195 DEFAULT 3 8 Climb MaxClimb ZERO 10 000   
EMB195 DEFAULT 4 1 Takeoff MaxTakeoff 1    
EMB195 DEFAULT 4 2 Climb MaxTakeoff 1 1 000   
EMB195 DEFAULT 4 3 Accelerate MaxClimb ZERO  1 364 205,7 
EMB195 DEFAULT 4 4 Climb MaxClimb ZERO 3 000   
EMB195 DEFAULT 4 5 Accelerate MaxClimb ZERO  1 615 250 
EMB195 DEFAULT 4 6 Climb MaxClimb ZERO 7 500   
EMB195 DEFAULT 4 7 Climb MaxClimb ZERO 10 000   
EMB195 ICAO_A 1 1 Takeoff MaxTakeoff 1    
EMB195 ICAO_A 1 2 Climb MaxTakeoff 1 1 500   
EMB195 ICAO_A 1 3 Climb MaxClimb 1 3 000   
EMB195 ICAO_A 1 4 Accelerate MaxClimb ZERO  1 605 196,5 
EMB195 ICAO_A 1 5 Accelerate MaxClimb ZERO  1 930 250 
EMB195 ICAO_A 1 6 Climb MaxClimb ZERO 7 500   
EMB195 ICAO_A 1 7 Climb MaxClimb ZERO 10 000   
EMB195 ICAO_A 2 1 Takeoff MaxTakeoff 1    
EMB195 ICAO_A 2 2 Climb MaxTakeoff 1 1 500   
EMB195 ICAO_A 2 3 Climb MaxClimb 1 3 000   
EMB195 ICAO_A 2 4 Accelerate MaxClimb ZERO  1 538 198,1 
EMB195 ICAO_A 2 5 Accelerate MaxClimb ZERO  1 871 250 
EMB195 ICAO_A 2 6 Climb MaxClimb ZERO 7 500   
EMB195 ICAO_A 2 7 Climb MaxClimb ZERO 10 000   
EMB195 ICAO_A 3 1 Takeoff MaxTakeoff 1    
EMB195 ICAO_A 3 2 Climb MaxTakeoff 1 1 500   
EMB195 ICAO_A 3 3 Climb MaxClimb 1 3 000   
EMB195 ICAO_A 3 4 Accelerate MaxClimb ZERO  1 467 201,3 
EMB195 ICAO_A 3 5 Accelerate MaxClimb ZERO  1 768 250 
EMB195 ICAO_A 3 6 Climb MaxClimb ZERO 7 500   
EMB195 ICAO_A 3 7 Climb MaxClimb ZERO 10 000   
EMB195 ICAO_A 4 1 Takeoff MaxTakeoff 1    
EMB195 ICAO_A 4 2 Climb MaxTakeoff 1 1 500   
EMB195 ICAO_A 4 3 Climb MaxClimb 1 3 000   
EMB195 ICAO_A 4 4 Accelerate MaxClimb ZERO  1 336 206,2 
EMB195 ICAO_A 4 5 Accelerate MaxClimb ZERO  1 607 250 
EMB195 ICAO_A 4 6 Climb MaxClimb ZERO 7 500   
EMB195 ICAO_A 4 7 Climb MaxClimb ZERO 10 000   
EMB195 ICAO_B 1 1 Takeoff MaxTakeoff 1    
EMB195 ICAO_B 1 2 Climb MaxTakeoff 1 1 000   
EMB195 ICAO_B 1 3 Accelerate MaxTakeoff ZERO  1 732 194,8 
EMB195 ICAO_B 1 4 Climb MaxClimb ZERO 3 000   
EMB195 ICAO_B 1 5 Accelerate MaxClimb ZERO  1 988 250 
EMB195 ICAO_B 1 6 Climb MaxClimb ZERO 5 500   
EMB195 ICAO_B 1 7 Climb MaxClimb ZERO 7 500   
EMB195 ICAO_B 1 8 Climb MaxClimb ZERO 10 000   
EMB195 ICAO_B 2 1 Takeoff MaxTakeoff 1    
EMB195 ICAO_B 2 2 Climb MaxTakeoff 1 1 000   
EMB195 ICAO_B 2 3 Accelerate MaxTakeoff ZERO  1 664 197 
EMB195 ICAO_B 2 4 Climb MaxClimb ZERO 3 000   
EMB195 ICAO_B 2 5 Accelerate MaxClimb ZERO  1 895 250 
EMB195 ICAO_B 2 6 Climb MaxClimb ZERO 5 500   
EMB195 ICAO_B 2 7 Climb MaxClimb ZERO 7 500   
EMB195 ICAO_B 2 8 Climb MaxClimb ZERO 10 000   
EMB195 ICAO_B 3 1 Takeoff MaxTakeoff 1    
EMB195 ICAO_B 3 2 Climb MaxTakeoff 1 1 000   
EMB195 ICAO_B 3 3 Accelerate MaxTakeoff ZERO  1 485 195 
EMB195 ICAO_B 3 4 Climb MaxClimb ZERO 3 000   
EMB195 ICAO_B 3 5 Accelerate MaxClimb ZERO  1 800 250 
EMB195 ICAO_B 3 6 Climb MaxClimb ZERO 5 500   
EMB195 ICAO_B 3 7 Climb MaxClimb ZERO 7 500   
EMB195 ICAO_B 3 8 Climb MaxClimb ZERO 10 000   
EMB195 ICAO_B 4 1 Takeoff MaxTakeoff 1    
EMB195 ICAO_B 4 2 Climb MaxTakeoff 1 1 000   
EMB195 ICAO_B 4 3 Accelerate MaxTakeoff ZERO  1 468 205,4 
EMB195 ICAO_B 4 4 Climb MaxClimb ZERO 3 000   
EMB195 ICAO_B 4 5 Accelerate MaxClimb ZERO  1 631 250 
EMB195 ICAO_B 4 6 Climb MaxClimb ZERO 5 500   
EMB195 ICAO_B 4 7 Climb MaxClimb ZERO 7 500   
EMB195 ICAO_B 4 8 Climb MaxClimb ZERO 10 000   
F10062 DEFAULT 1 1 Takeoff MaxTakeoff TO    
F10062 DEFAULT 1 2 Climb MaxTakeoff TO 1 000   
F10062 DEFAULT 1 3 Accelerate MaxTakeoff TO  2 196 154 
F10062 DEFAULT 1 4 Accelerate MaxTakeoff TO  1 647 169 
F10062 DEFAULT 1 5 Accelerate MaxClimb TO  1 000 184 
F10062 DEFAULT 1 6 Climb MaxClimb TO 3 000   
F10062 DEFAULT 1 7 Accelerate MaxClimb TO  1 000 250 
F10062 DEFAULT 1 8 Climb MaxClimb TO 5 500   
F10062 DEFAULT 1 9 Climb MaxClimb TO 7 500   
F10062 DEFAULT 1 10 Climb MaxClimb TO 10 000   
F10062 DEFAULT 2 1 Takeoff MaxTakeoff TO    
F10062 DEFAULT 2 2 Climb MaxTakeoff TO 1 000   
F10062 DEFAULT 2 3 Accelerate MaxTakeoff TO  1 982 161 
F10062 DEFAULT 2 4 Accelerate MaxTakeoff TO  1 487 176 
F10062 DEFAULT 2 5 Accelerate MaxClimb TO  1 000 191 
F10062 DEFAULT 2 6 Climb MaxClimb TO 3 000   
F10062 DEFAULT 2 7 Accelerate MaxClimb TO  1 000 250 
F10062 DEFAULT 2 8 Climb MaxClimb TO 5 500   
F10062 DEFAULT 2 9 Climb MaxClimb TO 7 500   
F10062 DEFAULT 2 10 Climb MaxClimb TO 10 000   
F10062 DEFAULT 3 1 Takeoff MaxTakeoff TO    
F10062 DEFAULT 3 2 Climb MaxTakeoff TO 1 000   
F10062 DEFAULT 3 3 Accelerate MaxTakeoff TO  1 819 167 
F10062 DEFAULT 3 4 Accelerate MaxTakeoff TO  1 364 182 
F10062 DEFAULT 3 5 Accelerate MaxClimb TO  1 000 197 
F10062 DEFAULT 3 6 Climb MaxClimb TO 3 000   
F10062 DEFAULT 3 7 Accelerate MaxClimb TO  1 000 250 
F10062 DEFAULT 3 8 Climb MaxClimb TO 5 500   
F10062 DEFAULT 3 9 Climb MaxClimb TO 7 500   
F10062 DEFAULT 3 10 Climb MaxClimb TO 10 000   
F10065 DEFAULT 1 1 Takeoff MaxTakeoff TO    
F10065 DEFAULT 1 2 Climb MaxTakeoff TO 1 000   
F10065 DEFAULT 1 3 Accelerate MaxTakeoff TO  2 446 157 
F10065 DEFAULT 1 4 Accelerate MaxTakeoff TO  1 835 172 
F10065 DEFAULT 1 5 Accelerate MaxClimb TO  1 000 187 
F10065 DEFAULT 1 6 Climb MaxClimb TO 3 000   
F10065 DEFAULT 1 7 Accelerate MaxClimb TO  1 000 250 
F10065 DEFAULT 1 8 Climb MaxClimb TO 5 500   
F10065 DEFAULT 1 9 Climb MaxClimb TO 7 500   
F10065 DEFAULT 1 10 Climb MaxClimb TO 10 000   
F10065 DEFAULT 2 1 Takeoff MaxTakeoff TO    
F10065 DEFAULT 2 2 Climb MaxTakeoff TO 1 000   
F10065 DEFAULT 2 3 Accelerate MaxTakeoff TO  2 218 165 
F10065 DEFAULT 2 4 Accelerate MaxTakeoff TO  1 664 180 
F10065 DEFAULT 2 5 Accelerate MaxClimb TO  1 000 195 
F10065 DEFAULT 2 6 Climb MaxClimb TO 3 000   
F10065 DEFAULT 2 7 Accelerate MaxClimb TO  1 000 250 
F10065 DEFAULT 2 8 Climb MaxClimb TO 5 500   
F10065 DEFAULT 2 9 Climb MaxClimb TO 7 500   
F10065 DEFAULT 2 10 Climb MaxClimb TO 10 000   
F10065 DEFAULT 3 1 Takeoff MaxTakeoff TO    
F10065 DEFAULT 3 2 Climb MaxTakeoff TO 1 000   
F10065 DEFAULT 3 3 Accelerate MaxTakeoff TO  2 021 171 
F10065 DEFAULT 3 4 Accelerate MaxTakeoff TO  1 516 186 
F10065 DEFAULT 3 5 Accelerate MaxClimb TO  1 000 201 
F10065 DEFAULT 3 6 Climb MaxClimb TO 3 000   
F10065 DEFAULT 3 7 Accelerate MaxClimb TO  1 000 250 
F10065 DEFAULT 3 8 Climb MaxClimb TO 5 500   
F10065 DEFAULT 3 9 Climb MaxClimb TO 7 500   
F10065 DEFAULT 3 10 Climb MaxClimb TO 10 000   
F28MK2 DEFAULT 1 1 Takeoff MaxTakeoff 6    
F28MK2 DEFAULT 1 2 Climb MaxTakeoff 6 1 000   
F28MK2 DEFAULT 1 3 Accelerate MaxTakeoff 6  2 229 155 
F28MK2 DEFAULT 1 4 Accelerate MaxTakeoff ZERO  1 672 170 
F28MK2 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 185 
F28MK2 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
F28MK2 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
F28MK2 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
F28MK2 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
F28MK2 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
F28MK2 DEFAULT 2 1 Takeoff MaxTakeoff 6    
F28MK2 DEFAULT 2 2 Climb MaxTakeoff 6 1 000   
F28MK2 DEFAULT 2 3 Accelerate MaxTakeoff 6  2 011 162 
F28MK2 DEFAULT 2 4 Accelerate MaxTakeoff ZERO  1 508 177 
F28MK2 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 192 
F28MK2 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
F28MK2 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
F28MK2 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
F28MK2 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
F28MK2 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
F28MK4 DEFAULT 1 1 Takeoff MaxTakeoff 6    
F28MK4 DEFAULT 1 2 Climb MaxTakeoff 6 1 000   
F28MK4 DEFAULT 1 3 Accelerate MaxTakeoff 6  2 103 152 
F28MK4 DEFAULT 1 4 Accelerate MaxTakeoff ZERO  1 578 167 
F28MK4 DEFAULT 1 5 Accelerate MaxClimb ZERO  1 000 182 
F28MK4 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
F28MK4 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
F28MK4 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
F28MK4 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
F28MK4 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
F28MK4 DEFAULT 2 1 Takeoff MaxTakeoff 6    
F28MK4 DEFAULT 2 2 Climb MaxTakeoff 6 1 000   
F28MK4 DEFAULT 2 3 Accelerate MaxTakeoff 6  1 941 157 
F28MK4 DEFAULT 2 4 Accelerate MaxTakeoff ZERO  1 456 172 
F28MK4 DEFAULT 2 5 Accelerate MaxClimb ZERO  1 000 187 
F28MK4 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
F28MK4 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
F28MK4 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
F28MK4 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
F28MK4 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
F28MK4 DEFAULT 3 1 Takeoff MaxTakeoff 6    
F28MK4 DEFAULT 3 2 Climb MaxTakeoff 6 1 000   
F28MK4 DEFAULT 3 3 Accelerate MaxTakeoff 6  1 743 165 
F28MK4 DEFAULT 3 4 Accelerate MaxTakeoff 6  1 307 180 
F28MK4 DEFAULT 3 5 Accelerate MaxClimb ZERO  1 000 195 
F28MK4 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
F28MK4 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
F28MK4 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
F28MK4 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
F28MK4 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
FAL20 DEFAULT 1 1 Takeoff MaxTakeoff 10    
FAL20 DEFAULT 1 2 Accelerate MaxTakeoff 10  1 388 152 
FAL20 DEFAULT 1 3 Climb MaxTakeoff 10 1 500   
FAL20 DEFAULT 1 4 Accelerate MaxTakeoff 10  1 388 162 
FAL20 DEFAULT 1 5 Accelerate MaxClimb INTR  1 041 177 
FAL20 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
FAL20 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 432 250 
FAL20 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
FAL20 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
FAL20 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
GII DEFAULT 1 1 Takeoff ReduceTakeoff T-20-D    
GII DEFAULT 1 2 Climb ReduceTakeoff T-20-D 35   
GII DEFAULT 1 3 Accelerate ReduceTakeoff T-20-D  1 500 162 
GII DEFAULT 1 4 Climb ReduceTakeoff T-20-D 400   
GII DEFAULT 1 5 Climb ReduceClimb T-10-U 520   
GII DEFAULT 1 6 Climb ReduceClimb T-10-U 1 500   
GII DEFAULT 1 7 Climb ReduceClimb T-10-U 3 000   
GII DEFAULT 1 8 Accelerate MaxClimb T-0-U  1 675 192 
GII DEFAULT 1 9 Accelerate MaxClimb T-0-U  1 775 250 
GII DEFAULT 1 10 Climb MaxClimb T-0-U 5 500   
GII DEFAULT 1 11 Climb MaxClimb T-0-U 7 500   
GII DEFAULT 1 12 Climb MaxClimb T-0-U 10 000   
GII QF_FULL 1 1 Takeoff MaxTakeoff T-20-D    
GII QF_FULL 1 2 Climb MaxTakeoff T-20-D 35   
GII QF_FULL 1 3 Accelerate MaxTakeoff T-20-D  1 500 162 
GII QF_FULL 1 4 Climb MaxTakeoff T-20-D 400   
GII QF_FULL 1 5 Climb ReduceClimb T-10-U 520   
GII QF_FULL 1 6 Climb ReduceClimb T-10-U 1 500   
GII QF_FULL 1 7 Climb ReduceClimb T-10-U 3 000   
GII QF_FULL 1 8 Accelerate MaxClimb T-0-U  1 675 192 
GII QF_FULL 1 9 Accelerate MaxClimb T-0-U  1 775 250 
GII QF_FULL 1 10 Climb MaxClimb T-0-U 5 500   
GII QF_FULL 1 11 Climb MaxClimb T-0-U 7 500   
GII QF_FULL 1 12 Climb MaxClimb T-0-U 10 000   
GIIB DEFAULT 1 1 Takeoff ReduceTakeoff T-20-D    
GIIB DEFAULT 1 2 Climb ReduceTakeoff T-20-D 35   
GIIB DEFAULT 1 3 Accelerate ReduceTakeoff T-20-D  1 500 156 
GIIB DEFAULT 1 4 Climb ReduceTakeoff T-20-D 400   
GIIB DEFAULT 1 5 Climb ReduceClimb T-10-U 520   
GIIB DEFAULT 1 6 Climb ReduceClimb T-10-U 1 500   
GIIB DEFAULT 1 7 Climb ReduceClimb T-10-U 3 000   
GIIB DEFAULT 1 8 Accelerate MaxClimb T-0-U  1 675 192 
GIIB DEFAULT 1 9 Accelerate MaxClimb T-0-U  1 775 250 
GIIB DEFAULT 1 10 Climb MaxClimb T-0-U 5 500   
GIIB DEFAULT 1 11 Climb MaxClimb T-0-U 7 500   
GIIB DEFAULT 1 12 Climb MaxClimb T-0-U 10 000   
GIIB QF_FULL 1 1 Takeoff MaxTakeoff T-20-D    
GIIB QF_FULL 1 2 Climb MaxTakeoff T-20-D 35   
GIIB QF_FULL 1 3 Accelerate MaxTakeoff T-20-D  1 500 156 
GIIB QF_FULL 1 4 Climb MaxTakeoff T-20-D 400   
GIIB QF_FULL 1 5 Climb ReduceClimb T-10-U 520   
GIIB QF_FULL 1 6 Climb ReduceClimb T-10-U 1 500   
GIIB QF_FULL 1 7 Climb ReduceClimb T-10-U 3 000   
GIIB QF_FULL 1 8 Accelerate MaxClimb T-0-U  1 675 192 
GIIB QF_FULL 1 9 Accelerate MaxClimb T-0-U  1 775 250 
GIIB QF_FULL 1 10 Climb MaxClimb T-0-U 5 500   
GIIB QF_FULL 1 11 Climb MaxClimb T-0-U 7 500   
GIIB QF_FULL 1 12 Climb MaxClimb T-0-U 10 000   
GIV DEFAULT 1 1 Takeoff MaxTakeoff T-20-D    
GIV DEFAULT 1 2 Climb MaxTakeoff T-20-D 35   
GIV DEFAULT 1 3 Accelerate MaxTakeoff T-20-D  1 800 159,2 
GIV DEFAULT 1 4 Climb MaxTakeoff T-20-U 400   
GIV DEFAULT 1 5 Climb MaxClimb T-20-U 600   
GIV DEFAULT 1 6 Climb MaxClimb T-20-U 750   
GIV DEFAULT 1 7 Climb MaxClimb T-10-U 1 850   
GIV DEFAULT 1 8 Climb MaxClimb T-10-U 3 000   
GIV DEFAULT 1 9 Accelerate MaxClimb T-0-U  1 750 250 
GIV DEFAULT 1 10 Climb MaxClimb T-0-U 5 000   
GIV DEFAULT 1 11 Climb MaxClimb T-0-U 6 000   
GIV DEFAULT 1 12 Climb MaxClimb T-0-U 7 000   
GIV DEFAULT 1 13 Climb MaxClimb T-0-U 8 000   
GIV DEFAULT 1 14 Climb MaxClimb T-0-U 9 000   
GIV DEFAULT 1 15 Climb MaxClimb T-0-U 10 000   
GV DEFAULT 1 1 Takeoff MaxTakeoff T-20-D    
GV DEFAULT 1 2 Climb MaxTakeoff T-20-D 35   
GV DEFAULT 1 3 Accelerate MaxTakeoff T-20-D  1 500 165,7 
GV DEFAULT 1 4 Climb MaxTakeoff T-20-U 400   
GV DEFAULT 1 5 Climb MaxClimb T-20-U 600   
GV DEFAULT 1 6 Climb MaxClimb T-20-U 750   
GV DEFAULT 1 7 Climb MaxClimb T-10-U 1 800   
GV DEFAULT 1 8 Climb MaxClimb T-10-U 3 000   
GV DEFAULT 1 9 Accelerate MaxClimb T-0-U  1 750 250 
GV DEFAULT 1 10 Climb MaxClimb T-0-U 5 000   
GV DEFAULT 1 11 Climb MaxClimb T-0-U 6 000   
GV DEFAULT 1 12 Climb MaxClimb T-0-U 7 000   
GV DEFAULT 1 13 Climb MaxClimb T-0-U 8 000   
GV DEFAULT 1 14 Climb MaxClimb T-0-U 9 000   
GV DEFAULT 1 15 Climb MaxClimb T-0-U 10 000   
HS748A DEFAULT 1 1 Takeoff MaxTakeoff TO    
HS748A DEFAULT 1 2 Climb MaxTakeoff TO 1 000   
HS748A DEFAULT 1 3 Accelerate MaxTakeoff TO  917 127 
HS748A DEFAULT 1 4 Accelerate MaxClimb INTR  688 147 
HS748A DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
HS748A DEFAULT 1 6 Climb MaxClimb ZERO 5 500   
HS748A DEFAULT 1 7 Climb MaxClimb ZERO 7 500   
HS748A DEFAULT 1 8 Climb MaxClimb ZERO 10 000   
IA1125 DEFAULT 1 1 Takeoff MaxTakeoff 12    
IA1125 DEFAULT 1 2 Accelerate MaxTakeoff 12  1 094 163 
IA1125 DEFAULT 1 3 Climb MaxTakeoff 12 1 500   
IA1125 DEFAULT 1 4 Accelerate MaxTakeoff INTR  1 094 188 
IA1125 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
IA1125 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 286 250 
IA1125 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
IA1125 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
IA1125 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
L1011 DEFAULT 1 1 Takeoff MaxTakeoff 10    
L1011 DEFAULT 1 2 Climb MaxTakeoff 10 1 000   
L1011 DEFAULT 1 3 Accelerate MaxTakeoff 10  2 145 162 
L1011 DEFAULT 1 4 Accelerate MaxTakeoff INTR  1 609 182 
L1011 DEFAULT 1 5 Accelerate MaxClimb INTR  1 000 202 
L1011 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
L1011 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
L1011 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
L1011 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
L1011 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
L1011 DEFAULT 2 1 Takeoff MaxTakeoff 10    
L1011 DEFAULT 2 2 Climb MaxTakeoff 10 1 000   
L1011 DEFAULT 2 3 Accelerate MaxTakeoff 10  2 068 165 
L1011 DEFAULT 2 4 Accelerate MaxTakeoff INTR  1 551 185 
L1011 DEFAULT 2 5 Accelerate MaxClimb INTR  1 000 205 
L1011 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
L1011 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
L1011 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
L1011 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
L1011 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
L1011 DEFAULT 3 1 Takeoff MaxTakeoff 10    
L1011 DEFAULT 3 2 Climb MaxTakeoff 10 1 000   
L1011 DEFAULT 3 3 Accelerate MaxTakeoff 10  1 959 168 
L1011 DEFAULT 3 4 Accelerate MaxTakeoff INTR  1 469 188 
L1011 DEFAULT 3 5 Accelerate MaxClimb INTR  1 000 208 
L1011 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
L1011 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
L1011 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
L1011 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
L1011 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
L1011 DEFAULT 4 1 Takeoff MaxTakeoff 10    
L1011 DEFAULT 4 2 Climb MaxTakeoff 10 1 000   
L1011 DEFAULT 4 3 Accelerate MaxTakeoff 10  1 857 171 
L1011 DEFAULT 4 4 Accelerate MaxTakeoff INTR  1 393 191 
L1011 DEFAULT 4 5 Accelerate MaxClimb INTR  1 000 211 
L1011 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
L1011 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
L1011 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
L1011 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
L1011 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
L1011 DEFAULT 5 1 Takeoff MaxTakeoff 10    
L1011 DEFAULT 5 2 Climb MaxTakeoff 10 1 000   
L1011 DEFAULT 5 3 Accelerate MaxTakeoff 10  1 669 178 
L1011 DEFAULT 5 4 Accelerate MaxTakeoff INTR  1 252 198 
L1011 DEFAULT 5 5 Accelerate MaxClimb INTR  1 000 218 
L1011 DEFAULT 5 6 Climb MaxClimb ZERO 3 000   
L1011 DEFAULT 5 7 Accelerate MaxClimb ZERO  1 000 250 
L1011 DEFAULT 5 8 Climb MaxClimb ZERO 5 500   
L1011 DEFAULT 5 9 Climb MaxClimb ZERO 7 500   
L1011 DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
L1011 DEFAULT 6 1 Takeoff MaxTakeoff 10    
L1011 DEFAULT 6 2 Climb MaxTakeoff 10 1 000   
L1011 DEFAULT 6 3 Accelerate MaxTakeoff 10  1 501 184 
L1011 DEFAULT 6 4 Accelerate MaxTakeoff INTR  1 126 204 
L1011 DEFAULT 6 5 Accelerate MaxClimb INTR  1 000 224 
L1011 DEFAULT 6 6 Climb MaxClimb ZERO 3 000   
L1011 DEFAULT 6 7 Accelerate MaxClimb ZERO  1 000 250 
L1011 DEFAULT 6 8 Climb MaxClimb ZERO 5 500   
L1011 DEFAULT 6 9 Climb MaxClimb ZERO 7 500   
L1011 DEFAULT 6 10 Climb MaxClimb ZERO 10 000   
L10115 DEFAULT 1 1 Takeoff MaxTakeoff 10    
L10115 DEFAULT 1 2 Climb MaxTakeoff 10 1 000   
L10115 DEFAULT 1 3 Accelerate MaxTakeoff 10  2 632 166 
L10115 DEFAULT 1 4 Accelerate MaxTakeoff INTR  1 974 186 
L10115 DEFAULT 1 5 Accelerate MaxClimb INTR  1 000 206 
L10115 DEFAULT 1 6 Climb MaxClimb ZERO 3 000   
L10115 DEFAULT 1 7 Accelerate MaxClimb ZERO  1 000 250 
L10115 DEFAULT 1 8 Climb MaxClimb ZERO 5 500   
L10115 DEFAULT 1 9 Climb MaxClimb ZERO 7 500   
L10115 DEFAULT 1 10 Climb MaxClimb ZERO 10 000   
L10115 DEFAULT 2 1 Takeoff MaxTakeoff 10    
L10115 DEFAULT 2 2 Climb MaxTakeoff 10 1 000   
L10115 DEFAULT 2 3 Accelerate MaxTakeoff 10  2 547 168 
L10115 DEFAULT 2 4 Accelerate MaxTakeoff INTR  1 911 188 
L10115 DEFAULT 2 5 Accelerate MaxClimb INTR  1 000 208 
L10115 DEFAULT 2 6 Climb MaxClimb ZERO 3 000   
L10115 DEFAULT 2 7 Accelerate MaxClimb ZERO  1 000 250 
L10115 DEFAULT 2 8 Climb MaxClimb ZERO 5 500   
L10115 DEFAULT 2 9 Climb MaxClimb ZERO 7 500   
L10115 DEFAULT 2 10 Climb MaxClimb ZERO 10 000   
L10115 DEFAULT 3 1 Takeoff MaxTakeoff 10    
L10115 DEFAULT 3 2 Climb MaxTakeoff 10 1 000   
L10115 DEFAULT 3 3 Accelerate MaxTakeoff 10  2 428 171 
L10115 DEFAULT 3 4 Accelerate MaxTakeoff INTR  1 821 191 
L10115 DEFAULT 3 5 Accelerate MaxClimb INTR  1 000 211 
L10115 DEFAULT 3 6 Climb MaxClimb ZERO 3 000   
L10115 DEFAULT 3 7 Accelerate MaxClimb ZERO  1 000 250 
L10115 DEFAULT 3 8 Climb MaxClimb ZERO 5 500   
L10115 DEFAULT 3 9 Climb MaxClimb ZERO 7 500   
L10115 DEFAULT 3 10 Climb MaxClimb ZERO 10 000   
L10115 DEFAULT 4 1 Takeoff MaxTakeoff 10    
L10115 DEFAULT 4 2 Climb MaxTakeoff 10 1 000   
L10115 DEFAULT 4 3 Accelerate MaxTakeoff 10  2 317 175 
L10115 DEFAULT 4 4 Accelerate MaxTakeoff INTR  1 738 195 
L10115 DEFAULT 4 5 Accelerate MaxClimb INTR  1 000 215 
L10115 DEFAULT 4 6 Climb MaxClimb ZERO 3 000   
L10115 DEFAULT 4 7 Accelerate MaxClimb ZERO  1 000 250 
L10115 DEFAULT 4 8 Climb MaxClimb ZERO 5 500   
L10115 DEFAULT 4 9 Climb MaxClimb ZERO 7 500   
L10115 DEFAULT 4 10 Climb MaxClimb ZERO 10 000   
L10115 DEFAULT 5 1 Takeoff MaxTakeoff 10    
L10115 DEFAULT 5 2 Climb MaxTakeoff 10 1 000   
L10115 DEFAULT 5 3 Accelerate MaxTakeoff 10  2 125 181 
L10115 DEFAULT 5 4 Accelerate MaxTakeoff INTR  1 594 201 
L10115 DEFAULT 5 5 Accelerate MaxClimb INTR  1 000 221 
L10115 DEFAULT 5 6 Climb MaxClimb ZERO 3 000   
L10115 DEFAULT 5 7 Accelerate MaxClimb ZERO  1 000 250 
L10115 DEFAULT 5 8 Climb MaxClimb ZERO 5 500   
L10115 DEFAULT 5 9 Climb MaxClimb ZERO 7 500   
L10115 DEFAULT 5 10 Climb MaxClimb ZERO 10 000   
L10115 DEFAULT 6 1 Takeoff MaxTakeoff 10    
L10115 DEFAULT 6 2 Climb MaxTakeoff 10 1 000   
L10115 DEFAULT 6 3 Accelerate MaxTakeoff 10  1 953 186 
L10115 DEFAULT 6 4 Accelerate MaxTakeoff INTR  1 465 206 
L10115 DEFAULT 6 5 Accelerate MaxClimb INTR  1 000 226 
L10115 DEFAULT 6 6 Climb MaxClimb ZERO 3 000   
L10115 DEFAULT 6 7 Accelerate MaxClimb ZERO  1 000 250 
L10115 DEFAULT 6 8 Climb MaxClimb ZERO 5 500   
L10115 DEFAULT 6 9 Climb MaxClimb ZERO 7 500   
L10115 DEFAULT 6 10 Climb MaxClimb ZERO 10 000   
L10115 DEFAULT 7 1 Takeoff MaxTakeoff 10    
L10115 DEFAULT 7 2 Climb MaxTakeoff 10 1 000   
L10115 DEFAULT 7 3 Accelerate MaxTakeoff 10  1 790 192 
L10115 DEFAULT 7 4 Accelerate MaxTakeoff INTR  1 343 212 
L10115 DEFAULT 7 5 Accelerate MaxClimb INTR  1 000 232 
L10115 DEFAULT 7 6 Climb MaxClimb ZERO 3 000   
L10115 DEFAULT 7 7 Accelerate MaxClimb ZERO  1 000 250 
L10115 DEFAULT 7 8 Climb MaxClimb ZERO 5 500   
L10115 DEFAULT 7 9 Climb MaxClimb ZERO 7 500   
L10115 DEFAULT 7 10 Climb MaxClimb ZERO 10 000   
L188 DEFAULT 1 1 Takeoff MaxTakeoff 78-%    
L188 DEFAULT 1 2 Climb MaxTakeoff 78-% 1 000   
L188 DEFAULT 1 3 Accelerate MaxTakeoff 78-%  1 653 133 
L188 DEFAULT 1 4 Accelerate MaxClimb INTR  1 240 153 
L188 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
L188 DEFAULT 1 6 Climb MaxClimb ZERO 5 500   
L188 DEFAULT 1 7 Climb MaxClimb ZERO 7 500   
L188 DEFAULT 1 8 Climb MaxClimb ZERO 10 000   
L188 DEFAULT 2 1 Takeoff MaxTakeoff 78-%    
L188 DEFAULT 2 2 Climb MaxTakeoff 78-% 1 000   
L188 DEFAULT 2 3 Accelerate MaxTakeoff 78-%  1 309 139 
L188 DEFAULT 2 4 Accelerate MaxClimb INTR  982 159 
L188 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
L188 DEFAULT 2 6 Climb MaxClimb ZERO 5 500   
L188 DEFAULT 2 7 Climb MaxClimb ZERO 7 500   
L188 DEFAULT 2 8 Climb MaxClimb ZERO 10 000   
L188 DEFAULT 3 1 Takeoff MaxTakeoff 78-%    
L188 DEFAULT 3 2 Climb MaxTakeoff 78-% 1 000   
L188 DEFAULT 3 3 Accelerate MaxTakeoff 78-%  905 147 
L188 DEFAULT 3 4 Accelerate MaxClimb INTR  679 167 
L188 DEFAULT 3 5 Climb MaxClimb ZERO 3 000   
L188 DEFAULT 3 6 Climb MaxClimb ZERO 5 500   
L188 DEFAULT 3 7 Climb MaxClimb ZERO 7 500   
L188 DEFAULT 3 8 Climb MaxClimb ZERO 10 000   
LEAR25 DEFAULT 1 1 Takeoff MaxTakeoff 20    
LEAR25 DEFAULT 1 2 Accelerate MaxTakeoff 20  1 698 171 
LEAR25 DEFAULT 1 3 Climb MaxTakeoff 20 1 500   
LEAR25 DEFAULT 1 4 Accelerate MaxTakeoff 10  1 698 196 
LEAR25 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
LEAR25 DEFAULT 1 6 Accelerate MaxClimb ZERO  2 075 250 
LEAR25 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
LEAR25 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
LEAR25 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
LEAR35 DEFAULT 1 1 Takeoff MaxTakeoff 20    
LEAR35 DEFAULT 1 2 Accelerate MaxTakeoff 20  1 493 158 
LEAR35 DEFAULT 1 3 Climb MaxTakeoff 20 1 500   
LEAR35 DEFAULT 1 4 Accelerate MaxTakeoff 10  1 493 183 
LEAR35 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
LEAR35 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 706 250 
LEAR35 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
LEAR35 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
LEAR35 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
MD11GE DEFAULT 1 1 Takeoff MaxTakeoff 25    
MD11GE DEFAULT 1 2 Climb MaxTakeoff 25 1 000   
MD11GE DEFAULT 1 3 Accelerate MaxTakeoff 0/EXT  1 500 211 
MD11GE DEFAULT 1 4 Climb MaxClimb 0/EXT 2 000   
MD11GE DEFAULT 1 5 Climb MaxClimb 0/EXT 3 000   
MD11GE DEFAULT 1 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11GE DEFAULT 1 7 Climb MaxClimb 0/RET 10 000   
MD11GE DEFAULT 2 1 Takeoff MaxTakeoff 25    
MD11GE DEFAULT 2 2 Climb MaxTakeoff 25 1 000   
MD11GE DEFAULT 2 3 Accelerate MaxTakeoff 0/EXT  1 500 210 
MD11GE DEFAULT 2 4 Climb MaxClimb 0/EXT 2 000   
MD11GE DEFAULT 2 5 Climb MaxClimb 0/EXT 3 000   
MD11GE DEFAULT 2 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11GE DEFAULT 2 7 Climb MaxClimb 0/RET 10 000   
MD11GE DEFAULT 3 1 Takeoff MaxTakeoff 25    
MD11GE DEFAULT 3 2 Climb MaxTakeoff 25 1 000   
MD11GE DEFAULT 3 3 Accelerate MaxTakeoff 0/EXT  1 500 210 
MD11GE DEFAULT 3 4 Climb MaxClimb 0/EXT 2 000   
MD11GE DEFAULT 3 5 Climb MaxClimb 0/EXT 3 000   
MD11GE DEFAULT 3 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11GE DEFAULT 3 7 Climb MaxClimb 0/RET 10 000   
MD11GE DEFAULT 4 1 Takeoff MaxTakeoff 25    
MD11GE DEFAULT 4 2 Climb MaxTakeoff 25 1 000   
MD11GE DEFAULT 4 3 Accelerate MaxTakeoff 0/EXT  1 500 209 
MD11GE DEFAULT 4 4 Climb MaxClimb 0/EXT 2 000   
MD11GE DEFAULT 4 5 Climb MaxClimb 0/EXT 3 000   
MD11GE DEFAULT 4 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11GE DEFAULT 4 7 Climb MaxClimb 0/RET 10 000   
MD11GE DEFAULT 5 1 Takeoff MaxTakeoff 25    
MD11GE DEFAULT 5 2 Climb MaxTakeoff 25 1 000   
MD11GE DEFAULT 5 3 Accelerate MaxTakeoff 0/EXT  1 500 208 
MD11GE DEFAULT 5 4 Climb MaxClimb 0/EXT 2 000   
MD11GE DEFAULT 5 5 Climb MaxClimb 0/EXT 3 000   
MD11GE DEFAULT 5 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11GE DEFAULT 5 7 Climb MaxClimb 0/RET 10 000   
MD11GE DEFAULT 6 1 Takeoff MaxTakeoff 25    
MD11GE DEFAULT 6 2 Climb MaxTakeoff 25 1 000   
MD11GE DEFAULT 6 3 Accelerate MaxTakeoff 0/EXT  1 500 208 
MD11GE DEFAULT 6 4 Climb MaxClimb 0/EXT 2 000   
MD11GE DEFAULT 6 5 Climb MaxClimb 0/EXT 3 000   
MD11GE DEFAULT 6 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11GE DEFAULT 6 7 Climb MaxClimb 0/RET 10 000   
MD11GE DEFAULT 7 1 Takeoff MaxTakeoff 25    
MD11GE DEFAULT 7 2 Climb MaxTakeoff 25 1 000   
MD11GE DEFAULT 7 3 Accelerate MaxTakeoff 0/EXT  1 500 207 
MD11GE DEFAULT 7 4 Climb MaxClimb 0/EXT 2 000   
MD11GE DEFAULT 7 5 Climb MaxClimb 0/EXT 3 000   
MD11GE DEFAULT 7 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11GE DEFAULT 7 7 Climb MaxClimb 0/RET 10 000   
MD11PW DEFAULT 1 1 Takeoff MaxTakeoff 25    
MD11PW DEFAULT 1 2 Climb MaxTakeoff 25 1 000   
MD11PW DEFAULT 1 3 Accelerate MaxTakeoff 0/EXT  1 500 206 
MD11PW DEFAULT 1 4 Climb MaxClimb 0/EXT 2 000   
MD11PW DEFAULT 1 5 Climb MaxClimb 0/EXT 3 000   
MD11PW DEFAULT 1 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11PW DEFAULT 1 7 Climb MaxClimb 0/RET 10 000   
MD11PW DEFAULT 2 1 Takeoff MaxTakeoff 25    
MD11PW DEFAULT 2 2 Climb MaxTakeoff 25 1 000   
MD11PW DEFAULT 2 3 Accelerate MaxTakeoff 0/EXT  1 500 206 
MD11PW DEFAULT 2 4 Climb MaxClimb 0/EXT 2 000   
MD11PW DEFAULT 2 5 Climb MaxClimb 0/EXT 3 000   
MD11PW DEFAULT 2 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11PW DEFAULT 2 7 Climb MaxClimb 0/RET 10 000   
MD11PW DEFAULT 3 1 Takeoff MaxTakeoff 25    
MD11PW DEFAULT 3 2 Climb MaxTakeoff 25 1 000   
MD11PW DEFAULT 3 3 Accelerate MaxTakeoff 0/EXT  1 500 205 
MD11PW DEFAULT 3 4 Climb MaxClimb 0/EXT 2 000   
MD11PW DEFAULT 3 5 Climb MaxClimb 0/EXT 3 000   
MD11PW DEFAULT 3 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11PW DEFAULT 3 7 Climb MaxClimb 0/RET 10 000   
MD11PW DEFAULT 4 1 Takeoff MaxTakeoff 25    
MD11PW DEFAULT 4 2 Climb MaxTakeoff 25 1 000   
MD11PW DEFAULT 4 3 Accelerate MaxTakeoff 0/EXT  1 500 205 
MD11PW DEFAULT 4 4 Climb MaxClimb 0/EXT 2 000   
MD11PW DEFAULT 4 5 Climb MaxClimb 0/EXT 3 000   
MD11PW DEFAULT 4 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11PW DEFAULT 4 7 Climb MaxClimb 0/RET 10 000   
MD11PW DEFAULT 5 1 Takeoff MaxTakeoff 25    
MD11PW DEFAULT 5 2 Climb MaxTakeoff 25 1 000   
MD11PW DEFAULT 5 3 Accelerate MaxTakeoff 0/EXT  1 500 205 
MD11PW DEFAULT 5 4 Climb MaxClimb 0/EXT 2 000   
MD11PW DEFAULT 5 5 Climb MaxClimb 0/EXT 3 000   
MD11PW DEFAULT 5 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11PW DEFAULT 5 7 Climb MaxClimb 0/RET 10 000   
MD11PW DEFAULT 6 1 Takeoff MaxTakeoff 25    
MD11PW DEFAULT 6 2 Climb MaxTakeoff 25 1 000   
MD11PW DEFAULT 6 3 Accelerate MaxTakeoff 0/EXT  1 500 206 
MD11PW DEFAULT 6 4 Climb MaxClimb 0/EXT 2 000   
MD11PW DEFAULT 6 5 Climb MaxClimb 0/EXT 3 000   
MD11PW DEFAULT 6 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11PW DEFAULT 6 7 Climb MaxClimb 0/RET 10 000   
MD11PW DEFAULT 7 1 Takeoff MaxTakeoff 25    
MD11PW DEFAULT 7 2 Climb MaxTakeoff 25 1 000   
MD11PW DEFAULT 7 3 Accelerate MaxTakeoff 0/EXT  1 500 207 
MD11PW DEFAULT 7 4 Climb MaxClimb 0/EXT 2 000   
MD11PW DEFAULT 7 5 Climb MaxClimb 0/EXT 3 000   
MD11PW DEFAULT 7 6 Accelerate MaxClimb 0/RET  1 500 250 
MD11PW DEFAULT 7 7 Climb MaxClimb 0/RET 10 000   
MD81 DEFAULT 1 1 Takeoff MaxTakeoff T_15    
MD81 DEFAULT 1 2 Climb MaxTakeoff T_15 1 000   
MD81 DEFAULT 1 3 Accelerate MaxClimb T_INT  1 434,2 214,1 
MD81 DEFAULT 1 4 Climb MaxClimb T_ZERO 3 000   
MD81 DEFAULT 1 5 Accelerate MaxClimb T_ZERO  1 866,9 250 
MD81 DEFAULT 1 6 Climb MaxClimb T_ZERO 5 500   
MD81 DEFAULT 1 7 Climb MaxClimb T_ZERO 7 500   
MD81 DEFAULT 1 8 Climb MaxClimb T_ZERO 10 000   
MD81 DEFAULT 2 1 Takeoff MaxTakeoff T_15    
MD81 DEFAULT 2 2 Climb MaxTakeoff T_15 1 000   
MD81 DEFAULT 2 3 Accelerate MaxClimb T_INT  1 346,9 218,7 
MD81 DEFAULT 2 4 Climb MaxClimb T_ZERO 3 000   
MD81 DEFAULT 2 5 Accelerate MaxClimb T_ZERO  1 745 250 
MD81 DEFAULT 2 6 Climb MaxClimb T_ZERO 5 500   
MD81 DEFAULT 2 7 Climb MaxClimb T_ZERO 7 500   
MD81 DEFAULT 2 8 Climb MaxClimb T_ZERO 10 000   
MD81 DEFAULT 3 1 Takeoff MaxTakeoff T_15    
MD81 DEFAULT 3 2 Climb MaxTakeoff T_15 1 000   
MD81 DEFAULT 3 3 Accelerate MaxClimb T_INT  1 266 223,2 
MD81 DEFAULT 3 4 Climb MaxClimb T_ZERO 3 000   
MD81 DEFAULT 3 5 Accelerate MaxClimb T_ZERO  1 643,2 250 
MD81 DEFAULT 3 6 Climb MaxClimb T_ZERO 5 500   
MD81 DEFAULT 3 7 Climb MaxClimb T_ZERO 7 500   
MD81 DEFAULT 3 8 Climb MaxClimb T_ZERO 10 000   
MD81 DEFAULT 4 1 Takeoff MaxTakeoff T_15    
MD81 DEFAULT 4 2 Climb MaxTakeoff T_15 1 000   
MD81 DEFAULT 4 3 Accelerate MaxClimb T_INT  1 211,7 226,3 
MD81 DEFAULT 4 4 Climb MaxClimb T_ZERO 3 000   
MD81 DEFAULT 4 5 Accelerate MaxClimb T_ZERO  1 577,9 250 
MD81 DEFAULT 4 6 Climb MaxClimb T_ZERO 5 500   
MD81 DEFAULT 4 7 Climb MaxClimb T_ZERO 7 500   
MD81 DEFAULT 4 8 Climb MaxClimb T_ZERO 10 000   
MD81 ICAO_A 1 1 Takeoff MaxTakeoff T_15    
MD81 ICAO_A 1 2 Climb MaxTakeoff T_15 1 500   
MD81 ICAO_A 1 3 Climb MaxClimb T_15 3 000   
MD81 ICAO_A 1 4 Accelerate MaxClimb T_ZERO  1 169,8 250 
MD81 ICAO_A 1 5 Climb MaxClimb T_ZERO 5 500   
MD81 ICAO_A 1 6 Climb MaxClimb T_ZERO 7 500   
MD81 ICAO_A 1 7 Climb MaxClimb T_ZERO 10 000   
MD81 ICAO_A 2 1 Takeoff MaxTakeoff T_15    
MD81 ICAO_A 2 2 Climb MaxTakeoff T_15 1 500   
MD81 ICAO_A 2 3 Climb MaxClimb T_15 3 000   
MD81 ICAO_A 2 4 Accelerate MaxClimb T_ZERO  1 089,3 250 
MD81 ICAO_A 2 5 Climb MaxClimb T_ZERO 5 500   
MD81 ICAO_A 2 6 Climb MaxClimb T_ZERO 7 500   
MD81 ICAO_A 2 7 Climb MaxClimb T_ZERO 10 000   
MD81 ICAO_A 3 1 Takeoff MaxTakeoff T_15    
MD81 ICAO_A 3 2 Climb MaxTakeoff T_15 1 500   
MD81 ICAO_A 3 3 Climb MaxClimb T_15 3 000   
MD81 ICAO_A 3 4 Accelerate MaxClimb T_ZERO  1 049,8 250 
MD81 ICAO_A 3 5 Climb MaxClimb T_ZERO 5 500   
MD81 ICAO_A 3 6 Climb MaxClimb T_ZERO 7 500   
MD81 ICAO_A 3 7 Climb MaxClimb T_ZERO 10 000   
MD81 ICAO_A 4 1 Takeoff MaxTakeoff T_15    
MD81 ICAO_A 4 2 Climb MaxTakeoff T_15 1 500   
MD81 ICAO_A 4 3 Climb MaxClimb T_15 3 000   
MD81 ICAO_A 4 4 Accelerate MaxClimb T_ZERO  998,8 250 
MD81 ICAO_A 4 5 Climb MaxClimb T_ZERO 5 500   
MD81 ICAO_A 4 6 Climb MaxClimb T_ZERO 7 500   
MD81 ICAO_A 4 7 Climb MaxClimb T_ZERO 10 000   
MD81 ICAO_B 1 1 Takeoff MaxTakeoff T_15    
MD81 ICAO_B 1 2 Climb MaxTakeoff T_15 1 000   
MD81 ICAO_B 1 3 Accelerate MaxTakeoff T_INT  1 434,8 218,8 
MD81 ICAO_B 1 4 Climb MaxClimb T_ZERO 3 000   
MD81 ICAO_B 1 5 Accelerate MaxClimb T_ZERO  1 900,5 250 
MD81 ICAO_B 1 6 Climb MaxClimb T_ZERO 5 500   
MD81 ICAO_B 1 7 Climb MaxClimb T_ZERO 7 500   
MD81 ICAO_B 1 8 Climb MaxClimb T_ZERO 10 000   
MD81 ICAO_B 2 1 Takeoff MaxTakeoff T_15    
MD81 ICAO_B 2 2 Climb MaxTakeoff T_15 1 000   
MD81 ICAO_B 2 3 Accelerate MaxTakeoff T_INT  1 345,2 223 
MD81 ICAO_B 2 4 Climb MaxClimb T_ZERO 3 000   
MD81 ICAO_B 2 5 Accelerate MaxClimb T_ZERO  1 779,8 250 
MD81 ICAO_B 2 6 Climb MaxClimb T_ZERO 5 500   
MD81 ICAO_B 2 7 Climb MaxClimb T_ZERO 7 500   
MD81 ICAO_B 2 8 Climb MaxClimb T_ZERO 10 000   
MD81 ICAO_B 3 1 Takeoff MaxTakeoff T_15    
MD81 ICAO_B 3 2 Climb MaxTakeoff T_15 1 000   
MD81 ICAO_B 3 3 Accelerate MaxTakeoff T_INT  1 264,5 227,4 
MD81 ICAO_B 3 4 Climb MaxClimb T_ZERO 3 000   
MD81 ICAO_B 3 5 Accelerate MaxClimb T_ZERO  1 664,2 250 
MD81 ICAO_B 3 6 Climb MaxClimb T_ZERO 5 500   
MD81 ICAO_B 3 7 Climb MaxClimb T_ZERO 7 500   
MD81 ICAO_B 3 8 Climb MaxClimb T_ZERO 10 000   
MD81 ICAO_B 4 1 Takeoff MaxTakeoff T_15    
MD81 ICAO_B 4 2 Climb MaxTakeoff T_15 1 000   
MD81 ICAO_B 4 3 Accelerate MaxTakeoff T_INT  1 211,1 230,2 
MD81 ICAO_B 4 4 Climb MaxClimb T_ZERO 3 000   
MD81 ICAO_B 4 5 Accelerate MaxClimb T_ZERO  1 594,3 250 
MD81 ICAO_B 4 6 Climb MaxClimb T_ZERO 5 500   
MD81 ICAO_B 4 7 Climb MaxClimb T_ZERO 7 500   
MD81 ICAO_B 4 8 Climb MaxClimb T_ZERO 10 000   
MD82 DEFAULT 1 1 Takeoff MaxTakeoff T_15    
MD82 DEFAULT 1 2 Climb MaxTakeoff T_15 1 000   
MD82 DEFAULT 1 3 Accelerate MaxClimb INT4  1 247,7 216,4 
MD82 DEFAULT 1 4 Climb MaxClimb INT3 3 000   
MD82 DEFAULT 1 5 Accelerate MaxClimb T_ZERO  1 933 250 
MD82 DEFAULT 1 6 Climb MaxClimb T_ZERO 5 500   
MD82 DEFAULT 1 7 Climb MaxClimb T_ZERO 7 500   
MD82 DEFAULT 1 8 Climb MaxClimb T_ZERO 10 000   
MD82 DEFAULT 2 1 Takeoff MaxTakeoff T_15    
MD82 DEFAULT 2 2 Climb MaxTakeoff T_15 1 000   
MD82 DEFAULT 2 3 Accelerate MaxClimb INT4  1 169,5 220,7 
MD82 DEFAULT 2 4 Climb MaxClimb INT3 3 000   
MD82 DEFAULT 2 5 Accelerate MaxClimb T_ZERO  1 805,5 250 
MD82 DEFAULT 2 6 Climb MaxClimb T_ZERO 5 500   
MD82 DEFAULT 2 7 Climb MaxClimb T_ZERO 7 500   
MD82 DEFAULT 2 8 Climb MaxClimb T_ZERO 10 000   
MD82 DEFAULT 3 1 Takeoff MaxTakeoff T_15    
MD82 DEFAULT 3 2 Climb MaxTakeoff T_15 1 000   
MD82 DEFAULT 3 3 Accelerate MaxClimb INT4  1 099,1 225,1 
MD82 DEFAULT 3 4 Climb MaxClimb INT3 3 000   
MD82 DEFAULT 3 5 Accelerate MaxClimb T_ZERO  1 710,9 250 
MD82 DEFAULT 3 6 Climb MaxClimb T_ZERO 5 500   
MD82 DEFAULT 3 7 Climb MaxClimb T_ZERO 7 500   
MD82 DEFAULT 3 8 Climb MaxClimb T_ZERO 10 000   
MD82 DEFAULT 4 1 Takeoff MaxTakeoff T_15    
MD82 DEFAULT 4 2 Climb MaxTakeoff T_15 1 000   
MD82 DEFAULT 4 3 Accelerate MaxClimb INT4  989,5 231,9 
MD82 DEFAULT 4 4 Climb MaxClimb INT3 3 000   
MD82 DEFAULT 4 5 Accelerate MaxClimb T_ZERO  1 563,6 250 
MD82 DEFAULT 4 6 Climb MaxClimb T_ZERO 5 500   
MD82 DEFAULT 4 7 Climb MaxClimb T_ZERO 7 500   
MD82 DEFAULT 4 8 Climb MaxClimb T_ZERO 10 000   
MD82 DEFAULT 5 1 Takeoff MaxTakeoff T_15    
MD82 DEFAULT 5 2 Climb MaxTakeoff T_15 1 000   
MD82 DEFAULT 5 3 Accelerate MaxClimb INT4  950,4 234,2 
MD82 DEFAULT 5 4 Climb MaxClimb INT3 3 000   
MD82 DEFAULT 5 5 Accelerate MaxClimb T_ZERO  1 518,1 250 
MD82 DEFAULT 5 6 Climb MaxClimb T_ZERO 5 500   
MD82 DEFAULT 5 7 Climb MaxClimb T_ZERO 7 500   
MD82 DEFAULT 5 8 Climb MaxClimb T_ZERO 10 000   
MD82 ICAO_A 1 1 Takeoff MaxTakeoff T_15    
MD82 ICAO_A 1 2 Climb MaxTakeoff T_15 1 500   
MD82 ICAO_A 1 3 Climb MaxClimb T_INT 3 000   
MD82 ICAO_A 1 4 Accelerate MaxClimb T_ZERO  1 200 250 
MD82 ICAO_A 1 5 Climb MaxClimb T_ZERO 5 500   
MD82 ICAO_A 1 6 Climb MaxClimb T_ZERO 7 500   
MD82 ICAO_A 1 7 Climb MaxClimb T_ZERO 10 000   
MD82 ICAO_A 2 1 Takeoff MaxTakeoff T_15    
MD82 ICAO_A 2 2 Climb MaxTakeoff T_15 1 500   
MD82 ICAO_A 2 3 Climb MaxClimb T_15 3 000   
MD82 ICAO_A 2 4 Accelerate MaxClimb T_ZERO  1 120,6 250 
MD82 ICAO_A 2 5 Climb MaxClimb T_ZERO 5 500   
MD82 ICAO_A 2 6 Climb MaxClimb T_ZERO 7 500   
MD82 ICAO_A 2 7 Climb MaxClimb T_ZERO 10 000   
MD82 ICAO_A 3 1 Takeoff MaxTakeoff T_15    
MD82 ICAO_A 3 2 Climb MaxTakeoff T_15 1 500   
MD82 ICAO_A 3 3 Climb MaxClimb T_15 3 000   
MD82 ICAO_A 3 4 Accelerate MaxClimb T_ZERO  1 051,4 250 
MD82 ICAO_A 3 5 Climb MaxClimb T_ZERO 5 500   
MD82 ICAO_A 3 6 Climb MaxClimb T_ZERO 7 500   
MD82 ICAO_A 3 7 Climb MaxClimb T_ZERO 10 000   
MD82 ICAO_A 4 1 Takeoff MaxTakeoff T_15    
MD82 ICAO_A 4 2 Climb MaxTakeoff T_15 1 500   
MD82 ICAO_A 4 3 Climb MaxClimb T_15 3 000   
MD82 ICAO_A 4 4 Accelerate MaxClimb T_ZERO  939,4 250 
MD82 ICAO_A 4 5 Climb MaxClimb T_ZERO 5 500   
MD82 ICAO_A 4 6 Climb MaxClimb T_ZERO 7 500   
MD82 ICAO_A 4 7 Climb MaxClimb T_ZERO 10 000   
MD82 ICAO_A 5 1 Takeoff MaxTakeoff T_15    
MD82 ICAO_A 5 2 Climb MaxTakeoff T_15 1 500   
MD82 ICAO_A 5 3 Climb MaxClimb T_15 3 000   
MD82 ICAO_A 5 4 Accelerate MaxClimb T_ZERO  900 250 
MD82 ICAO_A 5 5 Climb MaxClimb T_ZERO 5 500   
MD82 ICAO_A 5 6 Climb MaxClimb T_ZERO 7 500   
MD82 ICAO_A 5 7 Climb MaxClimb T_ZERO 10 000   
MD82 ICAO_B 1 1 Takeoff MaxTakeoff T_15    
MD82 ICAO_B 1 2 Climb MaxTakeoff T_15 1 000   
MD82 ICAO_B 1 3 Accelerate MaxTakeoff T_INT  1 447,7 218,7 
MD82 ICAO_B 1 4 Climb MaxClimb T_ZERO 3 000   
MD82 ICAO_B 1 5 Accelerate MaxClimb T_ZERO  1 952,8 250 
MD82 ICAO_B 1 6 Climb MaxClimb T_ZERO 5 500   
MD82 ICAO_B 1 7 Climb MaxClimb T_ZERO 7 500   
MD82 ICAO_B 1 8 Climb MaxClimb T_ZERO 10 000   
MD82 ICAO_B 2 1 Takeoff MaxTakeoff T_15    
MD82 ICAO_B 2 2 Climb MaxTakeoff T_15 1 000   
MD82 ICAO_B 2 3 Accelerate MaxTakeoff T_INT  1 360,4 222,9 
MD82 ICAO_B 2 4 Climb MaxClimb T_ZERO 3 000   
MD82 ICAO_B 2 5 Accelerate MaxClimb T_ZERO  1 838,2 250 
MD82 ICAO_B 2 6 Climb MaxClimb T_ZERO 5 500   
MD82 ICAO_B 2 7 Climb MaxClimb T_ZERO 7 500   
MD82 ICAO_B 2 8 Climb MaxClimb T_ZERO 10 000   
MD82 ICAO_B 3 1 Takeoff MaxTakeoff T_15    
MD82 ICAO_B 3 2 Climb MaxTakeoff T_15 1 000   
MD82 ICAO_B 3 3 Accelerate MaxTakeoff T_INT  1 279,8 227,2 
MD82 ICAO_B 3 4 Climb MaxClimb T_ZERO 3 000   
MD82 ICAO_B 3 5 Accelerate MaxClimb T_ZERO  1 732,3 250 
MD82 ICAO_B 3 6 Climb MaxClimb T_ZERO 5 500   
MD82 ICAO_B 3 7 Climb MaxClimb T_ZERO 7 500   
MD82 ICAO_B 3 8 Climb MaxClimb T_ZERO 10 000   
MD82 ICAO_B 4 1 Takeoff MaxTakeoff T_15    
MD82 ICAO_B 4 2 Climb MaxTakeoff T_15 1 000   
MD82 ICAO_B 4 3 Accelerate MaxTakeoff T_INT  1 160,8 233,9 
MD82 ICAO_B 4 4 Climb MaxClimb T_ZERO 3 000   
MD82 ICAO_B 4 5 Accelerate MaxClimb T_ZERO  1 564,9 250 
MD82 ICAO_B 4 6 Climb MaxClimb T_ZERO 5 500   
MD82 ICAO_B 4 7 Climb MaxClimb T_ZERO 7 500   
MD82 ICAO_B 4 8 Climb MaxClimb T_ZERO 10 000   
MD82 ICAO_B 5 1 Takeoff MaxTakeoff T_15    
MD82 ICAO_B 5 2 Climb MaxTakeoff T_15 1 000   
MD82 ICAO_B 5 3 Accelerate MaxTakeoff T_INT  1 131,1 236,1 
MD82 ICAO_B 5 4 Climb MaxClimb T_ZERO 3 000   
MD82 ICAO_B 5 5 Accelerate MaxClimb T_ZERO  1 522,4 250 
MD82 ICAO_B 5 6 Climb MaxClimb T_ZERO 5 500   
MD82 ICAO_B 5 7 Climb MaxClimb T_ZERO 7 500   
MD82 ICAO_B 5 8 Climb MaxClimb T_ZERO 10 000   
MD83 DEFAULT 1 1 Takeoff MaxTakeoff T_15    
MD83 DEFAULT 1 2 Climb MaxTakeoff T_15 1 000   
MD83 DEFAULT 1 3 Accelerate MaxClimb T_INT  1 319 218,1 
MD83 DEFAULT 1 4 Climb MaxClimb T_ZERO 3 000   
MD83 DEFAULT 1 5 Accelerate MaxClimb T_ZERO  2 033,2 250 
MD83 DEFAULT 1 6 Climb MaxClimb T_ZERO 5 500   
MD83 DEFAULT 1 7 Climb MaxClimb T_ZERO 7 500   
MD83 DEFAULT 1 8 Climb MaxClimb T_ZERO 10 000   
MD83 DEFAULT 2 1 Takeoff MaxTakeoff T_15    
MD83 DEFAULT 2 2 Climb MaxTakeoff T_15 1 000   
MD83 DEFAULT 2 3 Accelerate MaxClimb T_INT  1 239,2 222,2 
MD83 DEFAULT 2 4 Climb MaxClimb T_ZERO 3 000   
MD83 DEFAULT 2 5 Accelerate MaxClimb T_ZERO  1 921,8 250 
MD83 DEFAULT 2 6 Climb MaxClimb T_ZERO 5 500   
MD83 DEFAULT 2 7 Climb MaxClimb T_ZERO 7 500   
MD83 DEFAULT 2 8 Climb MaxClimb T_ZERO 10 000   
MD83 DEFAULT 3 1 Takeoff MaxTakeoff T_15    
MD83 DEFAULT 3 2 Climb MaxTakeoff T_15 1 000   
MD83 DEFAULT 3 3 Accelerate MaxClimb T_INT  1 158,7 226,6 
MD83 DEFAULT 3 4 Climb MaxClimb T_ZERO 3 000   
MD83 DEFAULT 3 5 Accelerate MaxClimb T_ZERO  1 810 250 
MD83 DEFAULT 3 6 Climb MaxClimb T_ZERO 5 500   
MD83 DEFAULT 3 7 Climb MaxClimb T_ZERO 7 500   
MD83 DEFAULT 3 8 Climb MaxClimb T_ZERO 10 000   
MD83 DEFAULT 4 1 Takeoff MaxTakeoff T_15    
MD83 DEFAULT 4 2 Climb MaxTakeoff T_15 1 000   
MD83 DEFAULT 4 3 Accelerate MaxClimb T_INT  1 049,7 233,6 
MD83 DEFAULT 4 4 Climb MaxClimb T_ZERO 3 000   
MD83 DEFAULT 4 5 Accelerate MaxClimb T_ZERO  1 649 250 
MD83 DEFAULT 4 6 Climb MaxClimb T_ZERO 5 500   
MD83 DEFAULT 4 7 Climb MaxClimb T_ZERO 7 500   
MD83 DEFAULT 4 8 Climb MaxClimb T_ZERO 10 000   
MD83 DEFAULT 5 1 Takeoff MaxTakeoff T_15    
MD83 DEFAULT 5 2 Climb MaxTakeoff T_15 1 000   
MD83 DEFAULT 5 3 Accelerate MaxClimb T_INT  929,7 241,3 
MD83 DEFAULT 5 4 Climb MaxClimb T_ZERO 3 000   
MD83 DEFAULT 5 5 Accelerate MaxClimb T_ZERO  1 482,4 250 
MD83 DEFAULT 5 6 Climb MaxClimb T_ZERO 5 500   
MD83 DEFAULT 5 7 Climb MaxClimb T_ZERO 7 500   
MD83 DEFAULT 5 8 Climb MaxClimb T_ZERO 10 000   
MD83 ICAO_A 1 1 Takeoff MaxTakeoff T_15    
MD83 ICAO_A 1 2 Climb MaxTakeoff T_15 1 500   
MD83 ICAO_A 1 3 Climb MaxClimb T_15 3 000   
MD83 ICAO_A 1 4 Accelerate MaxClimb T_INT  1 269,6 250 
MD83 ICAO_A 1 5 Climb MaxClimb T_ZERO 5 500   
MD83 ICAO_A 1 6 Climb MaxClimb T_ZERO 7 500   
MD83 ICAO_A 1 7 Climb MaxClimb T_ZERO 10 000   
MD83 ICAO_A 2 1 Takeoff MaxTakeoff T_15    
MD83 ICAO_A 2 2 Climb MaxTakeoff T_15 1 500   
MD83 ICAO_A 2 3 Climb MaxClimb T_15 3 000   
MD83 ICAO_A 2 4 Accelerate MaxClimb T_INT  1 188,7 250 
MD83 ICAO_A 2 5 Climb MaxClimb T_ZERO 5 500   
MD83 ICAO_A 2 6 Climb MaxClimb T_ZERO 7 500   
MD83 ICAO_A 2 7 Climb MaxClimb T_ZERO 10 000   
MD83 ICAO_A 3 1 Takeoff MaxTakeoff T_15    
MD83 ICAO_A 3 2 Climb MaxTakeoff T_15 1 500   
MD83 ICAO_A 3 3 Climb MaxClimb T_15 3 000   
MD83 ICAO_A 3 4 Accelerate MaxClimb T_INT  1 109,5 250 
MD83 ICAO_A 3 5 Climb MaxClimb T_ZERO 5 500   
MD83 ICAO_A 3 6 Climb MaxClimb T_ZERO 7 500   
MD83 ICAO_A 3 7 Climb MaxClimb T_ZERO 10 000   
MD83 ICAO_A 4 1 Takeoff MaxTakeoff T_15    
MD83 ICAO_A 4 2 Climb MaxTakeoff T_15 1 500   
MD83 ICAO_A 4 3 Climb MaxClimb T_15 3 000   
MD83 ICAO_A 4 4 Accelerate MaxClimb T_INT  989,8 250 
MD83 ICAO_A 4 5 Climb MaxClimb T_ZERO 5 500   
MD83 ICAO_A 4 6 Climb MaxClimb T_ZERO 7 500   
MD83 ICAO_A 4 7 Climb MaxClimb T_ZERO 10 000   
MD83 ICAO_A 5 1 Takeoff MaxTakeoff T_15    
MD83 ICAO_A 5 2 Climb MaxTakeoff T_15 1 500   
MD83 ICAO_A 5 3 Climb MaxClimb T_15 3 000   
MD83 ICAO_A 5 4 Accelerate MaxClimb T_INT  880,1 250 
MD83 ICAO_A 5 5 Climb MaxClimb T_ZERO 5 500   
MD83 ICAO_A 5 6 Climb MaxClimb T_ZERO 7 500   
MD83 ICAO_A 5 7 Climb MaxClimb T_ZERO 10 000   
MD83 ICAO_B 1 1 Takeoff MaxTakeoff T_15    
MD83 ICAO_B 1 2 Climb MaxTakeoff T_15 1 000   
MD83 ICAO_B 1 3 Accelerate MaxTakeoff T_INT  1 546,8 221,1 
MD83 ICAO_B 1 4 Climb MaxClimb T_ZERO 3 000   
MD83 ICAO_B 1 5 Accelerate MaxClimb T_ZERO  2 056,2 250 
MD83 ICAO_B 1 6 Climb MaxClimb T_ZERO 5 500   
MD83 ICAO_B 1 7 Climb MaxClimb T_ZERO 7 500   
MD83 ICAO_B 1 8 Climb MaxClimb T_ZERO 10 000   
MD83 ICAO_B 2 1 Takeoff MaxTakeoff T_15    
MD83 ICAO_B 2 2 Climb MaxTakeoff T_15 1 000   
MD83 ICAO_B 2 3 Accelerate MaxTakeoff T_INT  1 462 225,1 
MD83 ICAO_B 2 4 Climb MaxClimb T_ZERO 3 000   
MD83 ICAO_B 2 5 Accelerate MaxClimb T_ZERO  1 941,6 250 
MD83 ICAO_B 2 6 Climb MaxClimb T_ZERO 5 500   
MD83 ICAO_B 2 7 Climb MaxClimb T_ZERO 7 500   
MD83 ICAO_B 2 8 Climb MaxClimb T_ZERO 10 000   
MD83 ICAO_B 3 1 Takeoff MaxTakeoff T_15    
MD83 ICAO_B 3 2 Climb MaxTakeoff T_15 1 000   
MD83 ICAO_B 3 3 Accelerate MaxTakeoff T_INT  1 376,3 229,2 
MD83 ICAO_B 3 4 Climb MaxClimb T_ZERO 3 000   
MD83 ICAO_B 3 5 Accelerate MaxClimb T_ZERO  1 837,5 250 
MD83 ICAO_B 3 6 Climb MaxClimb T_ZERO 5 500   
MD83 ICAO_B 3 7 Climb MaxClimb T_ZERO 7 500   
MD83 ICAO_B 3 8 Climb MaxClimb T_ZERO 10 000   
MD83 ICAO_B 4 1 Takeoff MaxTakeoff T_15    
MD83 ICAO_B 4 2 Climb MaxTakeoff T_15 1 000   
MD83 ICAO_B 4 3 Accelerate MaxTakeoff T_INT  1 249,5 236,1 
MD83 ICAO_B 4 4 Climb MaxClimb T_ZERO 3 000   
MD83 ICAO_B 4 5 Accelerate MaxClimb T_ZERO  1 671,1 250 
MD83 ICAO_B 4 6 Climb MaxClimb T_ZERO 5 500   
MD83 ICAO_B 4 7 Climb MaxClimb T_ZERO 7 500   
MD83 ICAO_B 4 8 Climb MaxClimb T_ZERO 10 000   
MD83 ICAO_B 5 1 Takeoff MaxTakeoff T_15    
MD83 ICAO_B 5 2 Climb MaxTakeoff T_15 1 000   
MD83 ICAO_B 5 3 Accelerate MaxTakeoff T_INT  1 130,3 243,6 
MD83 ICAO_B 5 4 Climb MaxClimb T_ZERO 3 000   
MD83 ICAO_B 5 5 Accelerate MaxClimb T_ZERO  1 504,9 250 
MD83 ICAO_B 5 6 Climb MaxClimb T_ZERO 5 500   
MD83 ICAO_B 5 7 Climb MaxClimb T_ZERO 7 500   
MD83 ICAO_B 5 8 Climb MaxClimb T_ZERO 10 000   
MD9025 DEFAULT 1 1 Takeoff MaxTakeoff EXT/11    
MD9025 DEFAULT 1 2 Climb MaxTakeoff EXT/11 1 000   
MD9025 DEFAULT 1 3 Accelerate MaxTakeoff RET/0  2 280 194 
MD9025 DEFAULT 1 4 Climb MaxClimb RET/0 3 000   
MD9025 DEFAULT 1 5 Accelerate MaxClimb RET/0  1 000 250 
MD9025 DEFAULT 1 6 Climb MaxClimb RET/0 10 000   
MD9025 DEFAULT 2 1 Takeoff MaxTakeoff EXT/11    
MD9025 DEFAULT 2 2 Climb MaxTakeoff EXT/11 1 000   
MD9025 DEFAULT 2 3 Accelerate MaxTakeoff RET/0  2 150 193 
MD9025 DEFAULT 2 4 Climb MaxClimb RET/0 3 000   
MD9025 DEFAULT 2 5 Accelerate MaxClimb RET/0  1 000 250 
MD9025 DEFAULT 2 6 Climb MaxClimb RET/0 10 000   
MD9025 DEFAULT 3 1 Takeoff MaxTakeoff EXT/11    
MD9025 DEFAULT 3 2 Climb MaxTakeoff EXT/11 1 000   
MD9025 DEFAULT 3 3 Accelerate MaxTakeoff RET/0  2 031 192 
MD9025 DEFAULT 3 4 Climb MaxClimb RET/0 3 000   
MD9025 DEFAULT 3 5 Accelerate MaxClimb RET/0  1 000 250 
MD9025 DEFAULT 3 6 Climb MaxClimb RET/0 10 000   
MD9025 DEFAULT 4 1 Takeoff MaxTakeoff EXT/11    
MD9025 DEFAULT 4 2 Climb MaxTakeoff EXT/11 1 000   
MD9025 DEFAULT 4 3 Accelerate MaxTakeoff RET/0  1 916 191 
MD9025 DEFAULT 4 4 Climb MaxClimb RET/0 3 000   
MD9025 DEFAULT 4 5 Accelerate MaxClimb RET/0  1 000 250 
MD9025 DEFAULT 4 6 Climb MaxClimb RET/0 10 000   
MD9025 DEFAULT 5 1 Takeoff MaxTakeoff EXT/11    
MD9025 DEFAULT 5 2 Climb MaxTakeoff EXT/11 1 000   
MD9025 DEFAULT 5 3 Accelerate MaxTakeoff RET/0  1 840 190 
MD9025 DEFAULT 5 4 Climb MaxClimb RET/0 3 000   
MD9025 DEFAULT 5 5 Accelerate MaxClimb RET/0  1 000 250 
MD9025 DEFAULT 5 6 Climb MaxClimb RET/0 10 000   
MD9028 DEFAULT 1 1 Takeoff MaxTakeoff EXT/11    
MD9028 DEFAULT 1 2 Climb MaxTakeoff EXT/11 1 000   
MD9028 DEFAULT 1 3 Accelerate MaxTakeoff RET/0  2 666 196 
MD9028 DEFAULT 1 4 Climb MaxClimb RET/0 3 000   
MD9028 DEFAULT 1 5 Accelerate MaxClimb RET/0  1 000 250 
MD9028 DEFAULT 1 6 Climb MaxClimb RET/0 10 000   
MD9028 DEFAULT 2 1 Takeoff MaxTakeoff EXT/11    
MD9028 DEFAULT 2 2 Climb MaxTakeoff EXT/11 1 000   
MD9028 DEFAULT 2 3 Accelerate MaxTakeoff RET/0  2 525 194 
MD9028 DEFAULT 2 4 Climb MaxClimb RET/0 3 000   
MD9028 DEFAULT 2 5 Accelerate MaxClimb RET/0  1 000 250 
MD9028 DEFAULT 2 6 Climb MaxClimb RET/0 10 000   
MD9028 DEFAULT 3 1 Takeoff MaxTakeoff EXT/11    
MD9028 DEFAULT 3 2 Climb MaxTakeoff EXT/11 1 000   
MD9028 DEFAULT 3 3 Accelerate MaxTakeoff RET/0  2 391 193 
MD9028 DEFAULT 3 4 Climb MaxClimb RET/0 3 000   
MD9028 DEFAULT 3 5 Accelerate MaxClimb RET/0  1 000 250 
MD9028 DEFAULT 3 6 Climb MaxClimb RET/0 10 000   
MD9028 DEFAULT 4 1 Takeoff MaxTakeoff EXT/11    
MD9028 DEFAULT 4 2 Climb MaxTakeoff EXT/11 1 000   
MD9028 DEFAULT 4 3 Accelerate MaxTakeoff RET/0  2 263 192 
MD9028 DEFAULT 4 4 Climb MaxClimb RET/0 3 000   
MD9028 DEFAULT 4 5 Accelerate MaxClimb RET/0  1 000 250 
MD9028 DEFAULT 4 6 Climb MaxClimb RET/0 10 000   
MD9028 DEFAULT 5 1 Takeoff MaxTakeoff EXT/11    
MD9028 DEFAULT 5 2 Climb MaxTakeoff EXT/11 1 000   
MD9028 DEFAULT 5 3 Accelerate MaxTakeoff RET/0  2 180 189 
MD9028 DEFAULT 5 4 Climb MaxClimb RET/0 3 000   
MD9028 DEFAULT 5 5 Accelerate MaxClimb RET/0  1 000 250 
MD9028 DEFAULT 5 6 Climb MaxClimb RET/0 10 000   
MU3001 DEFAULT 1 1 Takeoff MaxTakeoff 10    
MU3001 DEFAULT 1 2 Accelerate MaxTakeoff 10  1 130 142 
MU3001 DEFAULT 1 3 Climb MaxTakeoff 1 1 500   
MU3001 DEFAULT 1 4 Accelerate MaxTakeoff 1  1 130 200 
MU3001 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
MU3001 DEFAULT 1 6 Accelerate MaxClimb ZERO  1 555 250 
MU3001 DEFAULT 1 7 Climb MaxClimb ZERO 5 500   
MU3001 DEFAULT 1 8 Climb MaxClimb ZERO 7 500   
MU3001 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
PA30 DEFAULT 1 1 Takeoff MaxTakeoff 15-D    
PA30 DEFAULT 1 2 Accelerate MaxTakeoff 15-D  415 79 
PA30 DEFAULT 1 3 Accelerate MaxTakeoff 15-D  500 113 
PA30 DEFAULT 1 4 Climb MaxTakeoff ZERO-D 1 500   
PA30 DEFAULT 1 5 Climb MaxTakeoff ZERO-D 3 000   
PA30 DEFAULT 1 6 Climb MaxClimb ZERO-D 5 500   
PA30 DEFAULT 1 7 Climb MaxClimb ZERO-D 7 500   
PA30 DEFAULT 1 8 Climb MaxClimb ZERO-D 10 000   
PA42 DEFAULT 1 1 Takeoff MaxTakeoff ZER-DN    
PA42 DEFAULT 1 2 Accelerate MaxTakeoff ZER-DN  1 000 118 
PA42 DEFAULT 1 3 Climb MaxTakeoff ZER-DN 1 000   
PA42 DEFAULT 1 4 Accelerate MaxClimb ZERO  1 000 154 
PA42 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
PA42 DEFAULT 1 6 Climb MaxClimb ZERO 4 000   
PA42 DEFAULT 1 7 Climb MaxClimb ZERO 6 000   
PA42 DEFAULT 1 8 Climb MaxClimb ZERO 8 000   
PA42 DEFAULT 1 9 Climb MaxClimb ZERO 10 000   
SD330 DEFAULT 1 1 Takeoff MaxTakeoff 10    
SD330 DEFAULT 1 2 Climb MaxTakeoff 10 1 000   
SD330 DEFAULT 1 3 Accelerate MaxTakeoff 10  971 117 
SD330 DEFAULT 1 4 Accelerate MaxClimb INTR  728 137 
SD330 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
SD330 DEFAULT 1 6 Climb MaxClimb ZERO 5 500   
SD330 DEFAULT 1 7 Climb MaxClimb ZERO 7 500   
SD330 DEFAULT 1 8 Climb MaxClimb ZERO 10 000   
SF340 DEFAULT 1 1 Takeoff MaxTakeoff 15    
SF340 DEFAULT 1 2 Climb MaxTakeoff 15 1 000   
SF340 DEFAULT 1 3 Accelerate MaxTakeoff 15  1 821 127 
SF340 DEFAULT 1 4 Accelerate MaxClimb 5  1 366 147 
SF340 DEFAULT 1 5 Climb MaxClimb ZERO 3 000   
SF340 DEFAULT 1 6 Climb MaxClimb ZERO 5 500   
SF340 DEFAULT 1 7 Climb MaxClimb ZERO 7 500   
SF340 DEFAULT 1 8 Climb MaxClimb ZERO 10 000   
SF340 DEFAULT 2 1 Takeoff MaxTakeoff 15    
SF340 DEFAULT 2 2 Climb MaxTakeoff 15 1 000   
SF340 DEFAULT 2 3 Accelerate MaxTakeoff 15  1 450 133 
SF340 DEFAULT 2 4 Accelerate MaxClimb 5  1 088 153 
SF340 DEFAULT 2 5 Climb MaxClimb ZERO 3 000   
SF340 DEFAULT 2 6 Climb MaxClimb ZERO 5 500   
SF340 DEFAULT 2 7 Climb MaxClimb ZERO 7 500   
SF340 DEFAULT 2 8 Climb MaxClimb ZERO 10 000   
ACFTID Description Engine Type Numb of Engines Weight Class Owner Category MGTOW (lb) MGLW (lb) Max Landing Dist (ft) Max Sea Level Static Thrust (lb) Noise Chapter NPD_ID Power Parameter Approach Spectral Class ID Departure Spectral Class ID Lateral Directivity Identifier
1900D Beech 1900D/PT6A67 Turboprop 2 Large Commercial 16 950 14 940 1 696 3 367 1 PT6A67 CNT (lb) 213 109 Prop
707 Boeing 707-120/JT3C Jet 4 Heavy Commercial 302 400 188 900 6 682 10 120 1 JT4A CNT (lb) 208 107 Wing
707120 Boeing 707-120B/JT3D-3 Jet 4 Heavy Commercial 302 400 188 900 6 893 14 850 1 JT3D CNT (lb) 208 107 Wing
707320 Boeing 707-320B/JT3D-7 Jet 4 Heavy Commercial 334 000 247 000 5 622 19 000 1 JT3D CNT (lb) 208 107 Wing
707QN Boeing 707-320B/JT3D-7QN Jet 4 Heavy Commercial 334 000 247 000 5 622 19 000 2 JT3DQ CNT (lb) 208 106 Wing
717200 Boeing 717-200/BR 715 Jet 2 Large Commercial 121 000 110 000 4 600 18 000 3 BR715 CNT (lb) 203 105 Fuselage
720 Boeing 720/JT3C Jet 4 Large Commercial 223 500 155 600 4 871 10 120 1 JT4A CNT (lb) 208 107 Wing
720B Boeing 720B/JT3D-3 Jet 4 Large Commercial 234 000 175 000 5 717 18 000 1 JT3D CNT (lb) 208 107 Wing
727100 Boeing 727-100/JT8D-7 Jet 3 Large Commercial 169 500 142 500 4 867 14 000 1 3JT8D CNT (lb) 201 101 Fuselage
727200 Boeing 727-200/JT8D-7 Jet 3 Large Commercial 217 600 163 300 5 571 11 895 1 3JT8D CNT (lb) 201 101 Fuselage
727D15 Boeing 727-200/JT8D-15 Jet 3 Large Commercial 208 000 169 000 4 922 15 500 1 3JT8D CNT (lb) 201 101 Fuselage
727D17 Boeing 727-200/JT8D-17 Jet 3 Large Commercial 208 000 169 000 5 444 16 000 2 3JT8DQ CNT (lb) 201 101 Fuselage
727EM1 FEDX 727-100/JT8D-7 Jet 3 Large Commercial 169 500 142 500 4 867 14 000 3 3JT8E7 CNT (lb) 201 101 Fuselage
727EM2 FEDX 727-200/JT8D-15 Jet 3 Large Commercial 208 000 169 000 4 922 15 500 3 3JT8E5 CNT (lb) 201 101 Fuselage
727Q15 Boeing 727-200/JT8D-15QN Jet 3 Large Commercial 208 000 169 000 4 922 15 500 2 3JT8DQ CNT (lb) 201 101 Fuselage
727Q7 Boeing 727-100/JT8D-7QN Jet 3 Large Commercial 169 500 142 500 4 867 14 000 2 3JT8DQ CNT (lb) 201 101 Fuselage
727Q9 Boeing 727-200/JT8D-9 Jet 3 Large Commercial 191 000 160 000 5 444 14 500 2 3JT8DQ CNT (lb) 201 101 Fuselage
727QF UPS 727-100 22C 25C Jet 3 Large Commercial 169 000 142 500 4 448 15 380 3 TAY651 CNT (lb) 201 101 Fuselage
737 Boeing 737/JT8D-9 Jet 2 Large Commercial 109 000 98 000 3 900 14 500 1 2JT8DW CNT (lb) 201 101 Wing
737300 Boeing 737-300/CFM56-3B-1 Jet 2 Large Commercial 135 000 114 000 4 580 20 000 3 CFM563 CNT (lb) 202 102 Wing
7373B2 Boeing 737-300/CFM56-3B-2 Jet 2 Large Commercial 139 500 114 000 4 580 22 000 3 CFM563 CNT (lb) 202 102 Wing
737400 Boeing 737-400/CFM56-3C-1 Jet 2 Large Commercial 150 000 124 000 5 062 23 500 3 CFM563 CNT (lb) 202 102 Wing
737500 Boeing 737-500/CFM56-3C-1 Jet 2 Large Commercial 133 500 111 000 4 551 20 000 3 CFM563 CNT (lb) 202 102 Wing
737700 Boeing 737-700/CFM56-7B24 Jet 2 Large Commercial 154 500 129 200 4 445 24 000 3 CF567B CNT (lb) 203 104 Wing
737800 Boeing 737-800/CFM56-7B26 Jet 2 Large Commercial 174 200 146 300 5 435 26 300 3 CF567B CNT (lb) 203 104 Wing
737D17 Boeing 737-200/JT8D-17 Jet 2 Large Commercial 124 000 107 000 4 244 16 000 2 2JT8QW CNT (lb) 201 101 Wing
737N17 Boeing 737-200/JT8D-17 Nordam B737 LGW Hushkit Jet 2 Large Commercial 124 000 107 000 4 244 16 000 3 2JT8DN CNT (lb) 202 104 Wing
737N9 Boeing 737/JT8D-9 Nordam B737 LGW Hushkit Jet 2 Large Commercial 109 000 98 000 3 900 14 500 3 2JT8DN CNT (lb) 202 104 Wing
737QN Boeing 737/JT8D-9QN Jet 2 Large Commercial 109 000 98 000 3 900 14 500 2 2JT8QW CNT (lb) 201 101 Wing
747100 Boeing 747-100/JT9DBD Jet 4 Heavy Commercial 733 000 516 600 5 727 33 042 2 JT9DBD CNT (lb) 209 107 Wing
74710Q Boeing 747-100/JT9D-7QN Jet 4 Heavy Commercial 733 000 564 000 6 200 45 500 3 JT9DFL CNT (lb) 207 107 Wing
747200 Boeing 747-200/JT9D-7 Jet 4 Heavy Commercial 775 000 564 000 6 200 45 500 3 JT9DFL CNT (lb) 207 107 Wing
74720A Boeing 747-200/JT9D-7A Jet 4 Heavy Commercial 785 000 564 000 6 200 46 300 3 JT9D7Q CNT (lb) 207 107 Wing
74720B Boeing 747-200/JT9D-7Q Jet 4 Heavy Commercial 800 000 630 000 6 200 53 000 3 JT9D7Q CNT (lb) 207 107 Wing
747400 Boeing 747-400/PW4056 Jet 4 Heavy Commercial 875 000 652 000 6 989 56 800 3 PW4056 CNT (lb) 207 107 Wing
7478 Boeing 747-8F/GEnx-2B67 Jet 4 Heavy Commercial 987 000 757 000 7 900 68 000 4 GENX67 CNT (lb) 205 107 Wing
747SP Boeing 747SP/JT9D-7 Jet 4 Heavy Commercial 702 000 475 000 5 911 45 500 3 JT9DFL CNT (lb) 207 107 Wing
757300 Boeing 757-300/RB211-535E4B Jet 2 Large Commercial 275 000 224 000 5 651 43 100 3 RR535E CNT (lb) 203 103 Wing
757PW Boeing 757-200/PW2037 Jet 2 Large Commercial 255 000 210 000 4 790 38 300 3 PW2037 CNT (lb) 203 103 Wing
757RR Boeing 757-200/RB211-535E4 Jet 2 Large Commercial 255 000 210 000 4 640 40 100 3 RR535E CNT (lb) 203 103 Wing
767300 Boeing 767-300/PW4060 Jet 2 Heavy Commercial 407 000 320 000 4 710 60 000 3 2CF680 CNT (lb) 203 103 Wing
767400 Boeing 767-400ER/CF6-80C2B(F) Jet 2 Heavy Commercial 450 000 340 000 6 000 58 685 3 CF680C CNT (lb) 205 102 Wing
767CF6 Boeing 767-200/CF6-80A Jet 2 Heavy Commercial 315 500 270 000 4 700 48 000 3 2CF680 CNT (lb) 203 103 Wing
767JT9 Boeing 767-200/JT9D-7R4D Jet 2 Heavy Commercial 351 000 270 000 4 744 48 000 3 2CF680 CNT (lb) 203 103 Wing
777200 Boeing 777-200/GE90-76B Jet 2 Heavy Commercial 656 000 470 000 4 450 90 000 3 GE90 CNT (lb) 205 105 Wing
777300 Boeing 777-300/Trent 892 Jet 2 Heavy Commercial 660 000 524 000 6 012 77 000 0 TRENT8 CNT (lb) 203 105 Wing
7773ER Boeing 777-300ER/GE90-115B-EIS Jet 2 Heavy Commercial 775 000 554 000 5 805 115 000 3 GE9015 CNT (lb) 204 107 Wing
7878R Boeing 787-8/T1000-C/01 Family Plan Cert Jet 2 Heavy Commercial 502 500 380 000 5 090 70 000 4 T1KBFP CNT (lb) 205 103 Wing
A300-622R Airbus A300-622R/PW4158 Jet 2 Heavy Commercial 378 533 308 647 4 735 58 000 3 PW4158 CNT (lb) 202 103 Wing
A300B4-203 Airbus A300B4-200/CF6-50C2 Jet 2 Heavy Commercial 364 000 295 000 5 367 52 500 3 2CF650 CNT (lb) 203 103 Wing
A310-304 Airbus A310-304/GE CF6-80C2A2 Jet 2 Heavy Commercial 346 126 273 373 4 682 53 500 3 A310 CNT (lb) 204 103 Wing
A319-131 Airbus A319-131/V2522-A5 Jet 2 Large Commercial 166 449 137 789 4 364 22 000 3 V2522A CNT (lb) 205 103 Wing
A320-211 Airbus A320-211/CFM56-5A1 Jet 2 Large Commercial 169 756 142 198 4 753 25 000 3 CFM565 CNT (lb) 202 103 Wing
A320-232 Airbus A320-232/V2527-A5 Jet 2 Large Commercial 169 756 145 505 4 917 26 500 3 V2527A CNT (lb) 205 103 Wing
A321-232 Airbus A321-232/IAE V2530-A5 Jet 2 Large Commercial 196 211 166 449 5 587 30 000 3 V2530 CNT (lb) 202 103 Wing
A330-301 Airbus A330-301/GE CF6-80 E1A2 Jet 2 Heavy Commercial 478 400 383 604 5 966 67 500 3 CF680E CNT (lb) 202 102 Wing
A330-343 Airbus A330-343/RR Trent 772B Jet 2 Heavy Commercial 513 677 412 264 5 512 71 100 3 TRENT7 CNT (lb) 205 102 Wing
A340-211 Airbus A340-211/CFM56-5C2 Jet 4 Heavy Commercial 573 200 399 036 5 900 31 200 3 CF565C CNT (lb) 206 107 Wing
A340-642 Airbus A340-642/RR Trent 556 Jet 4 Heavy Commercial 804 687 564 383 6 919 56 000 4 TRENT5 CNT (lb) 205 102 Wing
A380-841 Airbus A380-841/RR Trent 970 Jet 4 Heavy Commercial 1 254 430 862 007 6 752 70 000 4 TRENT9 CNT (lb) 205 105 Wing
A380-861 Airbus A380-861/EA GP7270 Jet 4 Heavy Commercial 1 254 430 862 007 6 837 70 000 4 GP7270 CNT (lb) 206 105 Wing
BAC111 BAC 111/SPEY MK511-14 Jet 2 Large Commercial 89 600 82 000 4 449 11 400 2 2JT8D CNT (lb) 201 101 Fuselage
BAE146 BAe 146-200/ALF502R-5 Jet 4 Large Commercial 93 000 81 000 3 770 6 970 3 AL502R CNT (lb) 206 108 Wing
BAE300 BAe 146-300/ALF502R-5 Jet 4 Large Commercial 97 500 84 500 3 960 6 970 3 AL502R CNT (lb) 206 108 Wing
BEC58P Raytheon BARON 58P/TS10-520-L Piston 2 Small General Aviation 6 100 6 100 2 733 779 0 TSIO52 CNT (% of Max Static Thrust) 215 109 Prop
CIT3 Cessna Citation III/TFE731-3-100S Jet 2 Large General Aviation 20 000 17 000 2 770 3 650 3 TF7313 CNT (lb) 216 113 Fuselage
CL600 Canadair CL-600/ALF502L Jet 2 Large General Aviation 36 000 33 000 3 300 7 500 3 AL502L CNT (lb) 216 113 Fuselage
CL601 Canadair CL-601/CF34-3A Jet 2 Large General Aviation 43 100 36 000 3 550 9 220 3 CF34 CNT (lb) 216 113 Fuselage
CNA172 Cessna 172R/Lycoming IO-360-L2A Piston 1 Small General Aviation 2 450 2 450 1 695 436 0 IO360L CNT (% of Max Static Thrust) 215 109 Prop
CNA182 Cessna 182H/Continental O-470-R Piston 1 Small General Aviation 2 800 2 800 1 544 965 2 O470R CNT (lb) 215 113 Prop
CNA206 Cessna 206H/Lycoming IO-540-AC Piston 1 Small General Aviation 3 600 3 600 1 880 798 0 IO540 Other (RPM) 215 109 Prop
CNA208 Cessna 208/PT6A-114 Turboprop 1 Small General Aviation 8 750 8 500 1 740 2 300 3 PT6A114 CNT (lb) 210 109 Prop
CNA20T Cessna T206H/Lycoming TIO-540-AJ1A Piston 1 Small General Aviation 3 600 3 600 1 880 825 0 TIO540 Other (RPM) 215 109 Prop
CNA441 Cessna CONQUEST II /TPE331-8 Turboprop 2 Small Commercial 9 900 9 400 1 939 1 535 0 TPE331 CNT (% of Max Static Thrust) 210 111 Prop
CNA500 Cessna Citation II/JT15D-4 Jet 2 Large General Aviation 14 700 14 000 3 050 2 500 3 JT15D1 CNT (lb) 216 113 Fuselage
CNA510 Cessna Mustang Model 510/PW615F Jet 2 Small Commercial 8 645 7 200 3 010 1 466 0 PW615F CNT (lb) 203 113 Fuselage
CNA525C Cessna Citation CJ4 525C /FJ44-4A Jet 2 Small Commercial 16 950 15 500 3 010 3 600 4 FJ44-4 CNT (lb) 235 136 Fuselage
CNA55B Cessna 550 Citation Bravo/PW530A Jet 2 Large General Aviation 14 800 13 500 3 010 2 863 0 PW530A CNT (lb) 203 113 Fuselage
CNA560E Cessna Citation Encore 560/PW535A Jet 2 Small Commercial 16 300 13 680 3 000 3 313 3 2PW535 CNT (lb) 238 138 Fuselage
CNA560U Cessna Citation Ultra 560/JT15D-5D Jet 2 Small Commercial 16 300 13 680 2 700 3 029 3 2J155D CNT (lb) 237 113 Fuselage
CNA560XL Cessna Citation Excel 560/PW545A Jet 2 Small Commercial 20 000 16 830 3 000 3 824 3 PW545A CNT (lb) 238 137 Fuselage
CNA680 Cessna Citation Sovereign 680/PW306C Jet 2 Small Commercial 30 000 24 390 3 010 5 749 3 PW306C CNT (lb) 236 136 Fuselage
CNA750 Cessna Citation X/Rolls Royce Allison AE3007C Jet 2 Large General Aviation 35 700 31 800 3 500 6 407 3 AE300C CNT (lb) 202 105 Fuselage
CONCRD Concorde/OLY593 Jet 4 Heavy Commercial 400 000 245 000 10 600 38 100 0 OLY593 CNT (lb) 206 106 Wing
CRJ9-ER Bombardier CL-600-2D15/CL-600-2D24/CF34-8C5 Jet 2 Large Commercial 82 500 73 500 5 779 13 525 3 CF348C5 CNT (lb) 216 113 Fuselage
CRJ9-LR Bombardier CL-600-2D15/CL-600-2D24/CF34-8C5 Jet 2 Large Commercial 84 500 75 100 5 680 13 525 3 CF348C5 CNT (lb) 216 113 Fuselage
CVR580 Convair CV-580/ALL 501-D15 Turboprop 2 Large Commercial 58 000 52 000 4 256 8 100 0 501D13 CNT (% of Max Static Thrust) 214 112 Prop
DC1010 McDonnell Douglas DC10-10/CF6-6D Jet 3 Heavy Commercial 455 000 363 000 5 820 40 000 3 CF66D CNT (lb) 203 101 Wing
DC1030 McDonnell Douglas DC10-30/CF6-50C2 Jet 3 Heavy Commercial 572 000 403 000 5 418 53 200 3 CF66D CNT (lb) 203 101 Wing
DC1040 McDonnell Douglas DC10-40/JT9D-20 Jet 3 Heavy Commercial 555 000 403 000 6 020 49 400 3 CF66D CNT (lb) 203 101 Wing
DC3 Douglas DC-3/R1820-86 Piston 2 Large Commercial 28 000 24 500 2 222 3 120 0 2R2800 CNT (% of Max Static Thrust) 213 110 Prop
DC6 Douglas DC-6/R2800-CB17 Piston 4 Large Commercial 106 000 95 000 3 010 4 180 0 4R2800 CNT (% of Max Static Thrust) 213 110 Prop
DC820 Douglas DC-8-20/JT4A Jet 4 Heavy Commercial 317 600 194 400 6 527 11 850 1 JT4A CNT (lb) 208 107 Wing
DC850 Douglas DC-8-50/JT3D-3B Jet 4 Heavy Commercial 325 000 240 000 5 400 18 000 1 JT3D CNT (lb) 208 107 Wing
DC860 Douglas DC-8-60/JT3D-7 Jet 4 Heavy Commercial 355 000 275 000 5 310 19 000 1 JT3D CNT (lb) 208 107 Wing
DC870 Douglas DC-8-70/CFM56-2C-5 Jet 4 Heavy Commercial 355 000 258 000 6 500 22 000 3 CFM562 CNT (lb) 206 106 Wing
DC8QN Douglas DC-8-60/JT8D-7QN Jet 4 Heavy Commercial 355 000 275 000 5 310 19 000 2 JT3DQ CNT (lb) 208 106 Wing
DC910 McDonnell Douglas DC-9-10/JT8D-7 Jet 2 Large Commercial 90 700 81 700 5 030 14 000 1 2JT8D CNT (lb) 201 101 Fuselage
DC930 McDonnell Douglas DC-9-30/JT8D-9 Jet 2 Large Commercial 114 000 102 000 4 680 14 500 1 2JT8D CNT (lb) 201 101 Fuselage
DC93LW McDonnell Douglas DC-9-30/JT8D-9 w/ ABS Lightweight hushkit Jet 2 Large Commercial 114 000 102 000 4 680 14 500 3 2JT8DL CNT (lb) 201 101 Fuselage
DC950 McDonnell Douglas DC-9-50/JT8D-17 Jet 2 Large Commercial 121 000 110 000 4 880 16 000 2 2JT8DQ CNT (lb) 201 101 Fuselage
DC95HW McDonnell Douglas DC-9-50/JT8D17 w/ ABS Heavyweight hushkit Jet 2 Large Commercial 121 000 110 000 4 880 16 000 3 2JT8DH CNT (lb) 201 101 Fuselage
DC9Q7 McDonnell Douglas DC-9-10/JT8D-7QN Jet 2 Large Commercial 90 700 81 700 5 030 14 000 2 2JT8DQ CNT (lb) 201 101 Fuselage
DC9Q9 McDonnell Douglas DC-9-30/JT8D-9QN Jet 2 Large Commercial 114 000 102 000 4 680 14 500 2 2JT8DQ CNT (lb) 201 101 Fuselage
DHC6 De Havilland DASH 6/PT6A-27 Turboprop 2 Small Commercial 12 500 12 300 1 500 2 000 0 PT6A27 CNT (% of Max Static Thrust) 210 109 Prop
DHC6QP De Havilland DASH 6/PT6A-27 Raisbeck Quiet PropMod Turboprop 2 Small Commercial 12 500 12 300 1 500 2 000 0 RAISQP CNT (% of Max Static Thrust) 210 109 Prop
DHC7 De Havilland DASH 7/PT6A-50 Turboprop 4 Large Commercial 41 000 39 000 2 150 2 850 3 PT6A50 CNT (% of Max Static Thrust) 213 112 Prop
DHC8 Bombardier de Havilland DASH 8-100/PW121 Turboprop 2 Large Commercial 34 500 33 900 3 000 4 750 3 PW120 CNT (% of Max Static Thrust) 213 112 Prop
DHC830 Bombardier de Havilland DASH 8-300/PW123 Turboprop 2 Large Commercial 43 000 42 000 3 500 4 918 3 PW120 CNT (% of Max Static Thrust) 213 112 Prop
DO228 Dornier 228-202/TPE 311-5 Turboprop 2 Large Commercial 13 669 13 448 2 375 2 240 3 TPE331-5 CNT (lb) 216 110 Prop
DO328 Dornier 328-100/PW119C Turboprop 2 Large Commercial 30 843 29 167 3 825 6 745 3 PW119C CNT (lb) 214 109 Prop
ECLIPSE500 Eclipse 500/PW610F Jet 2 Small General Aviation 6 000 5 600 2 389 1 031 3 PW610F CNT (lb) 201 103 Fuselage
EMB120 Embraer 120 ER/Pratt & Whitney PW118 Turboprop 2 Large Commercial 26 433 25 794 5 571 4 000 3 EPW118 CNT (lb) 213 109 Prop
EMB145 Embraer 145 ER/Allison AE3007 Jet 2 Large Commercial 45 420 41 230 4 232 7 500 3 AE3007 CNT (lb) 216 113 Fuselage
EMB14L Embraer 145 LR/Allison AE3007A1 Jet 2 Large Commercial 48 500 42 550 4 232 7 500 3 AE3007 CNT (lb) 216 113 Fuselage
EMB170 Embraer ERJ170-100 Jet 2 Large Commercial 82 012 72 312 4 029 13 800 3 CF348E CNT (lb) 216 113 Wing
EMB175 Embraer ERJ170-200 Jet 2 Large Commercial 85 517 74 957 4 130 13 800 3 CF348E CNT (lb) 216 113 Wing
EMB190 Embraer ERJ190-100 Jet 2 Large Commercial 114 199 97 003 4 081 18 500 3 CF3410E CNT (lb) 205 105 Wing
EMB195 Embraer ERJ190-200 Jet 2 Large Commercial 115 280 100 972 4 183 18 500 3 CF3410E CNT (lb) 205 105 Wing
F10062 Fokker 100/TAY 620-15 Jet 2 Large Commercial 95 000 85 500 4 560 13 900 3 TAY620 CNT (lb) 201 101 Fuselage
F10065 Fokker 100/TAY 650-15 Jet 2 Large Commercial 98 000 88 000 4 704 15 100 3 TAY650 CNT (lb) 201 101 Fuselage
F28MK2 Fokker F-28-2000/RB183MK555 Jet 2 Large Commercial 65 000 59 000 3 540 9 850 2 RB183 CNT (lb) 216 104 Fuselage
F28MK4 Fokker F-28-4000/RB183MK555 Jet 2 Large Commercial 73 000 64 000 3 546 9 900 2 RB183P CNT (lb) 216 104 Fuselage
FAL20 Dassault FALCON 20/CF700-2D-2 Jet 2 Large General Aviation 28 700 27 300 2 490 4 500 2 CF700 CNT (lb) 203 113 Fuselage
GII Gulfstream GII/SPEY 511-8 Jet 2 Large General Aviation 64 800 58 500 3 200 11 400 2 SPEYHK CNT (lb) 216 104 Fuselage
GIIB Gulfstream GIIB/GIII — SPEY 511-8 Jet 2 Large General Aviation 69 700 58 500 3 250 11 400 2 SPEYHK CNT (lb) 216 104 Fuselage
GIV Gulfstream GIV-SP/TAY 611-8 Jet 2 Large General Aviation 74 600 66 000 3 190 13 850 3 TAYGIV CNT (lb) 203 113 Fuselage
GV Gulfstream GV/BR 710 Jet 2 Large General Aviation 90 500 75 300 2 760 14 750 3 BR710 CNT (lb) 205 105 Fuselage
HS748A Hawker Siddeley HS-748/DART MK532-2 Turboprop 2 Large Commercial 46 500 43 000 3 360 5 150 2 RDA532 CNT (% of Max Static Thrust) 212 110 Prop
IA1125 IAI-1125 ASTRA/TFE731-3A Jet 2 Large General Aviation 23 500 20 700 3 689 3 700 3 TF7313 CNT (lb) 216 113 Fuselage
L1011 Lockheed Martin L-1011/RB211-22B Jet 3 Heavy Commercial 430 000 358 000 5 693 42 000 3 RB2112 CNT (lb) 203 101 Wing
L10115 Lockheed Martin L-1011-500/RB211-224B Jet 3 Heavy Commercial 510 000 368 000 6 800 50 000 3 RB2112 CNT (lb) 203 101 Wing
L188 Lockheed L-188C/ALL 501-D13 Turboprop 4 Large Commercial 116 000 98 100 4 960 8 000 0 T56A7 CNT (% of Max Static Thrust) 214 112 Prop
LEAR25 Learjet 25/CJ610-8 Jet 2 Large General Aviation 15 000 13 500 2 620 2 950 2 CJ610 CNT (lb) 202 113 Fuselage
LEAR35 Learjet 36/TFE731-2 Jet 2 Large General Aviation 18 300 15 300 3 076 3 500 3 TF7312 CNT (lb) 216 113 Fuselage
MD11GE McDonnell Douglas MD-11/CF6-80C2D1F Jet 3 Heavy Commercial 682 400 433 300 5 131 61 500 3 2CF68D CNT (lb) 203 103 Wing
MD11PW McDonnell Douglas MD-11/PW 4460 Jet 3 Heavy Commercial 682 400 433 300 4 681 60 000 3 PW4460 CNT (lb) 203 103 Wing
MD81 McDonnell Douglas MD-81/JT8D-209 Jet 2 Large Commercial 140 000 128 000 4 860 19 300 3 2JT8D2 CNT (lb) 204 104 Fuselage
MD82 McDonnell Douglas MD-82/JT8D-217A Jet 2 Large Commercial 149 500 130 000 4 920 20 900 3 2JT8D2 CNT (lb) 204 104 Fuselage
MD83 McDonnell Douglas MD-83/JT8D-219 Jet 2 Large Commercial 160 000 139 500 5 200 21 700 3 2JT8D2 CNT (lb) 204 104 Fuselage
MD9025 McDonnell Douglas MD-90/V2525-D5 Jet 2 Large Commercial 156 000 142 000 3 000 25 000 3 V2525 CNT (lb) 205 105 Fuselage
MD9028 McDonnell Douglas MD-90/V2528-D5 Jet 2 Large Commercial 156 000 142 000 3 000 28 000 3 V2525 CNT (lb) 205 105 Fuselage
MU3001 Mitsubishi MU300-10 Diamond II/JT15D-5 Jet 2 Large General Aviation 14 100 13 200 2 800 2 500 3 JT15D5 CNT (lb) 203 113 Fuselage
PA28 Piper Warrior PA-28-161/O-320-D3G Piston 1 Small General Aviation 2 325 2 325 1 695 400 0 O320D3 Other (RPM) 213 113 Prop
PA30 Piper Twin Comanche PA-30/IO-320-B1A Piston 2 Small General Aviation 3 600 3 600 1 654 777 0 IO320B CNT (lb) 213 113 Prop
PA31 Piper Navajo Chieftain PA-31-350/TIO-5 Piston 2 Small General Aviation 7 000 7 000 1 850 1 481 0 TIO542 Other (RPM) 213 109 Prop
PA42 Piper PA-42/PT6A-41 Turboprop 2 Small General Aviation 11 200 10 330 3 300 1 800 3 PT6A41 CNT (lb) 213 109 Prop
SABR80 NA Sabreliner 80 Jet 2 Large General Aviation 33 720 27 290 2 490 3 962 2 CF700 CNT (lb) 203 113 Fuselage
SD330 Short SD3-30/PT6A-45AR Turboprop 2 Large Commercial 22 900 22 600 3 650 2 670 3 PT6A45 CNT (% of Max Static Thrust) 211 109 Prop
SF340 Saab SF340B/CT7-9B Turboprop 2 Large Commercial 27 300 26 500 3 470 4 067 3 CT75 CNT (% of Max Static Thrust) 211 110 Prop
ACFTID Stage Length Weight (lb)
1900D 1 15 500
1900D 2 16 950
707 1 175 000
707 2 185 000
707 3 200 000
707 4 220 000
707 5 245 000
707 6 257 000
707120 1 175 000
707120 2 185 000
707120 3 200 000
707120 4 220 000
707120 5 245 000
707120 6 257 000
707320 1 214 000
707320 2 228 000
707320 3 240 000
707320 4 260 000
707320 5 286 000
707320 6 312 000
707320 7 330 000
707QN 1 214 000
707QN 2 228 000
707QN 3 240 000
707QN 4 260 000
707QN 5 286 000
707QN 6 312 000
707QN 7 330 000
717200 1 94 900
717200 2 99 700
717200 3 104 900
717200 4 110 400
717200 5 112 700
717200 6 121 000
720 1 145 000
720 2 155 000
720 3 165 000
720 4 180 000
720 5 190 000
720B 1 165 000
720B 2 175 000
720B 3 185 000
720B 4 200 000
720B 5 210 000
727100 1 136 000
727100 2 143 000
727100 3 150 000
727100 4 158 000
727200 1 152 000
727200 2 163 000
727200 3 174 000
727200 4 185 000
727D15 1 156 000
727D15 2 164 000
727D15 3 175 000
727D15 4 189 000
727D15 5 204 000
727D17 1 157 000
727D17 2 169 000
727D17 3 180 000
727D17 4 189 000
727EM1 1 136 000
727EM1 2 143 000
727EM1 3 150 000
727EM1 4 158 000
727EM2 1 156 000
727EM2 2 164 000
727EM2 3 175 000
727EM2 4 189 000
727EM2 5 204 000
727Q15 1 156 000
727Q15 2 164 000
727Q15 3 175 000
727Q15 4 189 000
727Q15 5 204 000
727Q7 1 136 000
727Q7 2 143 000
727Q7 3 150 000
727Q7 4 158 000
727Q9 1 156 000
727Q9 2 168 000
727Q9 3 180 000
727Q9 4 191 000
727QF 1 136 000
727QF 2 143 000
727QF 3 150 000
727QF 4 158 000
737 1 82 000
737 2 85 000
737 3 92 000
737 4 100 000
737300 1 108 800
737300 2 114 100
737300 3 119 900
737300 4 131 800
7373B2 1 108 800
7373B2 2 114 100
7373B2 3 119 900
7373B2 4 131 800
7373B2 M 139 500
737400 1 115 800
737400 2 121 400
737400 3 127 700
737400 4 138 200
737400 M 150 000
737500 1 103 400
737500 2 108 500
737500 3 114 100
737500 4 125 700
737500 5 126 900
737500 M 128 500
737700 1 120 000
737700 2 125 000
737700 3 130 300
737700 4 141 100
737700 5 154 400
737700 6 154 500
737800 1 133 300
737800 2 139 200
737800 3 145 500
737800 4 156 700
737800 5 167 600
737800 6 172 300
737D17 1 90 000
737D17 2 95 000
737D17 3 100 000
737D17 4 105 000
737N17 1 90 000
737N17 2 95 000
737N17 3 100 000
737N17 4 105 000
737N9 1 82 000
737N9 2 85 000
737N9 3 92 000
737N9 4 100 000
737QN 1 82 000
737QN 2 85 000
737QN 3 92 000
737QN 4 100 000
747100 1 475 000
747100 2 495 000
747100 3 520 000
747100 4 550 000
747100 5 625 000
747100 6 635 000
74710Q 1 475 000
74710Q 2 495 000
74710Q 3 520 000
74710Q 4 550 000
74710Q 5 625 000
74710Q 6 635 000
747200 1 525 000
747200 2 545 000
747200 3 565 000
747200 4 610 000
747200 5 665 000
747200 6 725 000
747200 7 775 000
74720A 1 475 000
74720A 2 500 000
74720A 3 520 000
74720A 4 560 000
74720A 5 610 000
74720A 6 675 000
74720A 7 725 000
74720B 1 525 000
74720B 2 545 000
74720B 3 565 000
74720B 4 610 000
74720B 5 665 000
74720B 6 725 000
74720B 7 775 000
747400 1 545 000
747400 2 563 800
747400 3 583 100
747400 4 621 500
747400 5 669 500
747400 6 720 900
747400 7 776 600
747400 8 836 200
747400 9 875 000
7478 1 671 100
7478 2 691 200
7478 3 713 300
7478 4 752 400
7478 5 801 000
7478 6 853 400
7478 7 909 300
7478 8 969 000
7478 9 987 000
747SP 1 400 000
747SP 2 422 000
747SP 3 443 000
747SP 4 475 000
747SP 5 518 000
747SP 6 560 000
747SP 7 625 000
757300 1 203 900
757300 2 212 700
757300 3 222 100
757300 4 239 100
757300 5 260 700
757300 6 269 400
757PW 1 183 200
757PW 2 190 000
757PW 3 197 500
757PW 4 212 600
757PW 5 230 900
757PW 6 243 200
757PW 7 255 000
757RR 1 183 900
757RR 2 191 200
757RR 3 199 100
757RR 4 215 200
757RR 5 234 800
757RR 6 243 200
757RR 7 255 000
767300 1 265 000
767300 2 275 500
767300 3 286 400
767300 4 305 700
767300 5 330 000
767300 6 355 900
767300 7 367 700
767400 1 288 818
767400 2 299 037
767400 3 310 125
767400 4 329 861
767400 5 354 427
767400 6 380 906
767400 7 422 420
767CF6 1 227 000
767CF6 2 236 000
767CF6 3 245 300
767CF6 4 261 400
767CF6 5 281 600
767CF6 6 303 300
767CF6 7 315 500
767JT9 1 228 500
767JT9 2 237 600
767JT9 3 247 000
767JT9 4 263 600
767JT9 5 284 600
767JT9 6 306 900
767JT9 7 317 100
777200 1 429 900
777200 2 442 400
777200 3 456 100
777200 4 483 100
777200 5 516 400
777200 6 551 700
777200 7 589 400
777200 8 629 500
777200 9 656 000
777300 1 435 100
777300 2 449 700
777300 3 465 300
777300 4 493 100
777300 5 527 700
777300 6 564 500
777300 7 636 100
7773ER 1 503 600
7773ER 2 519 100
7773ER 3 536 100
7773ER 4 565 800
7773ER 5 602 700
7773ER 6 642 600
7773ER 7 684 500
7773ER 8 728 900
7773ER 9 775 000
7878R 1 343 400
7878R 2 353 200
7878R 3 363 900
7878R 4 382 600
7878R 5 405 700
7878R 6 430 100
7878R 7 455 900
7878R 8 483 600
7878R 9 502 500
A300-622R 1 278 700
A300-622R 2 290 300
A300-622R 3 302 400
A300-622R 4 324 100
A300-622R 5 353 300
A300-622R 6 378 500
A300B4-203 1 262 000
A300B4-203 2 280 000
A300B4-203 3 295 000
A300B4-203 4 324 000
A300B4-203 5 357 000
A310-304 1 243 300
A310-304 2 253 000
A310-304 3 262 900
A310-304 4 280 700
A310-304 5 304 400
A310-304 6 346 100
A319-131 1 125 900
A319-131 2 131 000
A319-131 3 136 500
A319-131 4 146 100
A319-131 5 166 400
A320-211 1 133 400
A320-211 2 139 200
A320-211 3 145 200
A320-211 4 155 900
A320-211 5 169 800
A320-232 1 132 900
A320-232 2 138 500
A320-232 3 144 200
A320-232 4 154 300
A320-232 5 172 000
A321-232 1 156 800
A321-232 2 163 300
A321-232 3 170 000
A321-232 4 182 100
A321-232 5 206 100
A330-301 1 367 000
A330-301 2 378 500
A330-301 3 390 500
A330-301 4 411 700
A330-301 5 439 200
A330-301 6 469 100
A330-301 7 478 400
A330-343 1 369 200
A330-343 2 380 800
A330-343 3 392 900
A330-343 4 414 300
A330-343 5 441 900
A330-343 6 472 000
A330-343 7 513 700
A340-211 1 369 500
A340-211 2 381 600
A340-211 3 394 100
A340-211 4 416 600
A340-211 5 446 000
A340-211 6 477 600
A340-211 7 573 200
A340-642 1 524 100
A340-642 2 540 700
A340-642 3 557 800
A340-642 4 588 000
A340-642 5 628 600
A340-642 6 671 300
A340-642 7 811 300
A380-841 1 799 160
A380-841 2 822 921
A380-841 3 847 265
A380-841 4 890 164
A380-841 5 945 893
A380-841 6 1 006 106
A380-841 7 1 066 266
A380-841 8 1 254 430
A380-861 1 798 928
A380-861 2 822 613
A380-861 3 846 941
A380-861 4 889 750
A380-861 5 943 737
A380-861 6 1 003 582
A380-861 7 1 066 266
A380-861 8 1 254 430
BAC111 1 74 000
BAC111 2 79 000
BAC111 3 85 000
BAE146 1 76 000
BAE146 2 84 000
BAE146 3 91 000
BAE300 1 80 000
BAE300 2 88 000
BAE300 3 96 000
BEC58P 1 5 500
CIT3 1 20 000
CL600 1 36 000
CL601 1 43 100
CNA172 1 2 450
CNA182 1 2 800
CNA206 1 3 000
CNA206 2 3 300
CNA206 3 3 600
CNA208 1 8 750
CNA20T 1 3 000
CNA20T 2 3 300
CNA20T 3 3 600
CNA441 1 9 850
CNA500 1 14 700
CNA510 1 8 645
CNA525C 1 16 950
CNA55B 1 14 800
CNA560E 1 16 300
CNA560U 1 16 300
CNA560XL 1 20 000
CNA680 1 30 000
CNA750 1 35 700
CONCRD 1 340 000
CONCRD 2 340 000
CONCRD 3 375 000
CONCRD 4 375 000
CONCRD 5 400 000
CONCRD 6 400 000
CRJ9-ER 1 67 500
CRJ9-ER 2 71 000
CRJ9-ER 3 75 000
CRJ9-ER 4 80 000
CRJ9-ER 5 82 500
CRJ9-LR 1 65 500
CRJ9-LR 2 69 000
CRJ9-LR 3 73 000
CRJ9-LR 4 78 000
CRJ9-LR 5 84 500
CVR580 1 49 000
CVR580 2 54 000
CVR580 3 58 000
DC1010 1 325 000
DC1010 2 340 000
DC1010 3 360 000
DC1010 4 390 000
DC1010 5 420 000
DC1010 6 450 000
DC1030 1 375 000
DC1030 2 390 000
DC1030 3 405 000
DC1030 4 436 000
DC1030 5 476 000
DC1030 6 517 000
DC1030 7 561 000
DC1040 1 364 000
DC1040 2 379 000
DC1040 3 393 000
DC1040 4 423 000
DC1040 5 462 000
DC1040 6 502 000
DC1040 7 544 000
DC3 1 24 000
DC3 2 26 000
DC3 3 28 000
DC6 1 85 000
DC6 2 95 000
DC6 3 105 000
DC820 1 180 000
DC820 2 190 000
DC820 3 205 000
DC820 4 225 000
DC820 5 250 000
DC820 6 270 000
DC850 1 185 000
DC850 2 195 000
DC850 3 210 000
DC850 4 230 000
DC850 5 255 000
DC850 6 275 000
DC860 1 220 000
DC860 2 230 000
DC860 3 245 000
DC860 4 265 000
DC860 5 290 000
DC860 6 305 000
DC860 7 325 000
DC870 1 220 000
DC870 2 230 000
DC870 3 245 000
DC870 4 265 000
DC870 5 290 000
DC870 6 305 000
DC870 7 325 000
DC8QN 1 220 000
DC8QN 2 230 000
DC8QN 3 245 000
DC8QN 4 265 000
DC8QN 5 290 000
DC8QN 6 305 000
DC8QN 7 325 000
DC910 1 70 000
DC910 2 78 000
DC910 3 85 000
DC930 1 93 500
DC930 2 103 000
DC930 3 112 000
DC93LW 1 93 500
DC93LW 2 103 000
DC93LW 3 112 000
DC950 1 100 000
DC950 2 107 000
DC950 3 115 000
DC95HW 1 100 000
DC95HW 2 107 000
DC95HW 3 115 000
DC9Q7 1 70 000
DC9Q7 2 78 000
DC9Q7 3 85 000
DC9Q9 1 93 500
DC9Q9 2 103 000
DC9Q9 3 112 000
DHC6 1 12 500
DHC6QP 1 12 500
DHC7 1 38 950
DHC8 1 31 000
DHC830 1 38 700
DO228 1 13 669
DO328 1 30 843
ECLIPSE500 1 5 500
ECLIPSE500 2 5 891
ECLIPSE500 3 6 000
EMB120 1 22 475
EMB145 1 35 500
EMB145 2 39 500
EMB145 3 41 800
EMB145 4 44 000
EMB14L 1 35 275
EMB14L 2 39 675
EMB14L 3 41 900
EMB14L 4 44 100
EMB14L 5 46 300
EMB14L 6 48 500
EMB170 1 63 070
EMB170 2 66 599
EMB170 3 70 484
EMB175 1 65 698
EMB175 2 69 459
EMB175 3 73 518
EMB190 1 83 520
EMB190 2 87 757
EMB190 3 92 363
EMB190 4 100 656
EMB195 1 87 096
EMB195 2 91 558
EMB195 3 96 388
EMB195 4 105 138
F10062 1 78 000
F10062 2 86 000
F10062 3 93 000
F10065 1 80 000
F10065 2 88 000
F10065 3 96 000
F28MK2 1 58 000
F28MK2 2 64 000
F28MK4 1 61 000
F28MK4 2 66 000
F28MK4 3 73 000
FAL20 1 28 660
GII 1 56 000
GIIB 1 59 245
GIV 1 63 410
GV 1 76 925
HS748A 1 46 500
IA1125 1 23 500
L1011 1 330 000
L1011 2 340 000
L1011 3 355 000
L1011 4 370 000
L1011 5 400 000
L1011 6 430 000
L10115 1 345 000
L10115 2 355 000
L10115 3 370 000
L10115 4 385 000
L10115 5 413 000
L10115 6 441 000
L10115 7 470 000
L188 1 93 000
L188 2 102 000
L188 3 115 000
LEAR25 1 15 000
LEAR35 1 18 300
MD11GE 1 395 000
MD11GE 2 410 000
MD11GE 3 425 000
MD11GE 4 460 000
MD11GE 5 495 000
MD11GE 6 535 000
MD11GE 7 580 000
MD11PW 1 395 000
MD11PW 2 410 000
MD11PW 3 425 000
MD11PW 4 460 000
MD11PW 5 495 000
MD11PW 6 535 000
MD11PW 7 580 000
MD81 1 120 680
MD81 2 127 804
MD81 3 135 134
MD81 4 140 000
MD82 1 120 383
MD82 2 127 379
MD82 3 134 584
MD82 4 145 838
MD82 5 149 500
MD83 1 121 555
MD83 2 128 361
MD83 3 135 456
MD83 4 147 079
MD83 5 160 000
MD9025 1 131 021
MD9025 2 137 490
MD9025 3 144 181
MD9025 4 151 107
MD9025 5 156 000
MD9028 1 131 021
MD9028 2 137 490
MD9028 3 144 181
MD9028 4 151 107
MD9028 5 156 000
MU3001 1 14 100
PA28 1 2 325
PA30 1 3 600
PA31 1 7 000
PA42 1 11 200
SABR80 1 28 660
SD330 1 21 800
SF340 1 24 548
SF340 2 27 275
ACFTID Thrust rating E (lb) F (lb/kt) Ga (lb/ft) Gb (lb/ft2) H (lb/ °C) K1 (lb/EPR) K2 (lb/EPR2) K3 (lb/(N1/√θ)) K4 (lb/(N1/√θ)2)
1900D MaxClimb 2 548,8 – 6,7075 – 0,014 0 – 0,72    
1900D MaxTakeoff 3 374,6 – 9,6869 – 0,0046 0 – 0,504    
707320 General – 25 447,4 – 6,79039 – 0,01775 0 0 33 299,8 – 5 817  
707320 MaxClimb 15 943,8 – 13,9584 0,1672 5,7074E-06 0    
707320 MaxTakeoff 18 044,7 – 15,7976 0,1893 6,4595E-06 0    
707QN General – 25 447,4 – 6,79039 – 0,01775 0 0 33 299,8 – 5 817  
707QN MaxClimb 15 943,8 – 13,9584 0,1672 5,7074E-06 0    
707QN MaxTakeoff 18 044,7 – 15,7976 0,1893 6,4595E-06 0    
717200 MaxClimb 15 541,5 – 17,8282 0,253495 0 0    
717200 MaxClimbHiTemp 22 232 – 18,025 – 0,201 0 – 218    
717200 MaxTakeoff 17 542,7 – 19,588 0,234981 0 0    
717200 MaxTkoffHiTemp 22 280,7 – 19,819 – 0,097 0 – 154,5    
720B General – 27 419,9 – 5,81791 – 0,01175 0 0 35 654,5 – 6 560,9  
720B MaxClimb 14 540,1 – 13,4149 0,121548 1,78264E-06 0    
720B MaxTakeoff 16 768,6 – 15,471 0,140178 2,0559E-06 0    
727100 General – 14 205,5 – 4,53212 0 0 0 16 602,8 – 1 403,02  
727100 MaxClimb 12 029,2 – 7,99864 – 0,05203 5,44617E-06 0    
727100 MaxTakeoff 13 218,9 – 8,78972 – 0,05717 5,9848E-06 0    
727D15 General – 14 773,7 – 5,09534 0 0 0 17 717,3 – 1 845,07  
727D15 MaxClimb 14 249,6 – 8,103 – 0,0436 0 – 103    
727D15 MaxTakeoff 14 935,3 – 7,459 0,3337 0 – 14,78    
727D15 MaxTkoffHiTemp 15 524,3 – 7,066 0 0 – 32,38    
727D17 General – 14 773,7 – 5,09534 0 0 0 17 717,3 – 1 845,07  
727D17 MaxClimb 13 812,7 – 7,52948 0,207702 – 0,000025939 0    
727D17 MaxTakeoff 15 519,8 – 8,46009 0,233373 – 0,000029145 0    
727EM1 MaxClimb 12 029,2 – 7,99864 – 0,05203 5,44617E-06 0    
727EM1 MaxTakeoff 13 218,9 – 8,78972 – 0,05717 5,9848E-06 0    
727EM2 General – 14 773,7 – 5,09534 0 0 0 17 717,3 – 1 845,07  
727EM2 MaxClimb 14 249,6 – 8,103 – 0,0436 0 – 103    
727EM2 MaxTakeoff 14 935,3 – 7,459 0,3337 0 – 14,78    
727EM2 MaxTkoffHiTemp 15 524,3 – 7,066 0 0 – 32,38    
727Q15 General – 14 773,7 – 5,09534 0 0 0 17 717,3 – 1 845,07  
727Q15 MaxClimb 14 249,6 – 8,103 – 0,0436 0 – 103    
727Q15 MaxTakeoff 14 935,3 – 7,459 0,3337 0 – 14,78    
727Q15 MaxTkoffHiTemp 15 524,3 – 7,066 0 0 – 32,38    
727Q7 General – 14 205,5 – 4,53212 0 0 0 16 602,8 – 1 403,02  
727Q7 MaxClimb 12 029,2 – 7,99864 – 0,05203 5,44617E-06 0    
727Q7 MaxTakeoff 13 218,9 – 8,78972 – 0,05717 5,9848E-06 0    
727Q9 General – 14 095,4 – 4,77532 0 0 0 16 666,2 – 1 490,42  
727Q9 MaxClimb 12 746,2 – 8,11613 – 0,00049 – 4,53384E-06 0    
727Q9 MaxTakeoff 13 705,6 – 8,72702 – 0,00053 – 4,8751E-06 0    
727QF General – 10 908 – 23,3571 – 0,0723 – 0,00000138 0 10 929,8 2 380,86  
727QF MaxClimb 11 266 – 9,335 0,169297 – 4,70391E-06 0    
727QF MaxClimbHiTemp 13 966 – 9,335 0 0 – 90    
727QF MaxContHiTemp 14 687 – 9,335 0 0 – 90    
727QF MaxContinuous 11 987 – 9,335 0,158001 – 4,70391E-06 0    
727QF MaxTakeoff 14 100 – 12,25 0,1495 – 0,00001175 0    
727QF MaxTkoffHiTemp 16 800 – 12,25 0 0 – 90    
737 General – 14 095,4 – 4,77532 0 0 0 16 666,2 – 1 490,42  
737 MaxClimb 12 740,1 – 7,93589 – 0,02662 – 4,2762E-07 0    
737 MaxTakeoff 13 847,9 – 8,62596 – 0,02894 – 4,648E-07 0    
737300 General 11 106 – 10,09 – 0,0409 0 0   – 369,8 4,835
737300 MaxClimb 17 383,1 – 15,6072 0,148043 – 0,000001 – 24,2    
737300 MaxClimbHiTemp 20 363,9 – 17,0452 – 0,06578 – 0,000001 – 119    
737300 MaxTakeoff 19 347 – 25,8689 0,456499 – 0,0000112 – 14,78    
737300 MaxTkoffHiTemp 21 143,7 – 26,2402 0,398451 – 0,000014 – 79,95    
7373B2 General 11 106 – 10,09 – 0,0409 0 0   – 369,8 4,835
7373B2 MaxClimb 18 623,5 – 16,4797 0,169674 0 – 9,126    
7373B2 MaxClimbHiTemp 21 906,6 – 17,4327 – 0,07536 0 – 132,5    
7373B2 MaxTakeoff 21 480,7 – 25,888 0,225791 0 – 8,441    
7373B2 MaxTkoffHiTemp 25 393,2 – 25,7175 – 0,0246 0 – 141,3    
737400 General 21 384 – 13,79 – 0,0435 0 0   – 615,8 6,409
737400 MaxClimb 19 662,2 – 18,221 0,207237 0 0    
737400 MaxClimbHiTemp 22 875,1 – 18,001 – 0,07615 0 – 124,7    
737400 MaxTakeoff 22 116,3 – 26,0175 0,259442 0 0    
737400 MaxTkoffHiTemp 26 883,2 – 26,1707 – 0,04324 0 – 159,7    
737500 General 11 106 – 10,09 0,0409 0 0   – 369,8 4,835
737500 MaxClimb 17 530,9 – 16,3556 0,153997 – 0,0000013 – 23,39    
737500 MaxClimbHiTemp 20 510,5 – 17,1336 – 0,07687 – 0,0000004 – 122,3    
737500 MaxTakeoff 19 629,4 – 26,7504 0,550433 – 0,0000217 – 7,999    
737500 MaxTkoffHiTemp 22 636,2 – 28,0937 0,225263 0,0000409 – 105,6    
737700 MaxClimb 22 106,7 – 23,7147 0,165546 0,0000065 0    
737700 MaxClimbHiTemp 29 618,1 – 24,596 – 0,273 0 – 249,1    
737700 MaxTakeoff 23 534,8 – 29,3547 0,308407 0 0    
737700 MaxTkoffHiTemp 29 335,5 – 28,632 – 0,105 0 – 195,6    
737800 MaxClimb 22 403,5 – 27,2645 0,305603 0 0    
737800 MaxClimbHiTemp 26 593,3 – 26,293 – 0,078 0 – 174,4    
737800 MaxTakeoff 26 089,1 – 29,1098 0,143559 0 0    
737800 MaxTkoffHiTemp 30 143,2 – 29,773 – 0,029 0 – 145,2    
737D17 General – 14 773,7 – 5,09534 0 0 0 17 717,3 – 1 845,07  
737D17 MaxClimb 13 083,2 – 7,13185 0,196733 – 0,000024569 0    
737D17 MaxTakeoff 15 519,8 – 8,46009 0,233373 – 0,000029145 0    
737N17 General – 14 773,7 – 5,09534 0 0 0 17 717,3 – 1 845,07  
737N17 MaxClimb 13 083,2 – 7,13185 0,196733 – 0,000024569 0    
737N17 MaxTakeoff 15 519,8 – 8,46009 0,233373 – 0,000029145 0    
737N9 General – 14 095,4 – 4,77532 0 0 0 16 666,2 – 1 490,42  
737N9 MaxClimb 12 740,1 – 7,93589 – 0,02662 – 4,2762E-07 0    
737N9 MaxTakeoff 13 847,9 – 8,62596 – 0,02894 – 4,648E-07 0    
737QN General – 14 095,4 – 4,77532 0 0 0 16 666,2 – 1 490,42  
737QN MaxClimb 12 740,1 – 7,93589 – 0,02662 – 4,2762E-07 0    
737QN MaxTakeoff 13 847,9 – 8,62596 – 0,02894 – 4,648E-07 0    
74710Q General – 141 079 – 11,7298 – 0,02833 0 0 201 105 – 53 843  
74710Q MaxClimb 36 791,4 – 43,5074 0,3004 – 0,0000092 0    
74710Q MaxTakeoff 42 780,7 – 50,59 0,349279 – 0,000010697 0    
747200 General – 141 079 – 11,7298 – 0,02833 0 0 201 105 – 53 843  
747200 MaxClimb 36 791,4 – 43,5074 0,3004 – 0,0000092 0    
747200 MaxTakeoff 42 780,7 – 50,59 0,349279 – 0,000010697 0    
74720A General – 32 370 – 7,83 – 0,02105 0 0 47 590 0  
74720A MaxClimb 34 860 – 35 0,4962 0 0    
74720A MaxTakeoff 40 870 – 40,11 0,4435 0 0    
74720B General – 28 110 – 10,05 – 0,03543 0 0 46 375 0  
74720B MaxClimb 39 594 – 38,08 0,5262 0 0    
74720B MaxTakeoff 48 866 – 43,68 0,6641 0 0    
747400 General – 49 250 0 0 0 0 62 210 0  
747400 MaxClimb 44 157,4 – 42,6142 0,635772 0 0    
747400 MaxClimbHiTemp 56 826,2 – 45,4912 – 0,20856 0 – 392,3    
747400 MaxTakeoff 53 290,5 – 53,434 0,606283 0 0    
747400 MaxTkoffHiTemp 66 921,4 – 54,5627 – 0,1278 0 – 410,2    
7478 IdleApproach 5 920 – 19,02 0,225 0 0    
7478 MaxClimb 50 523 – 39,8663 0,842437 – 0,000015 0    
7478 MaxClimbHiTemp 56 739,2 – 27,469 – 0,1411 – 0,000015 – 343,137    
7478 MaxTakeoff 64 247,2 – 66,0662 0,481932 0,000004 0    
7478 MaxTkoffHiTemp 80 923,7 – 71,3162 – 0,30655 – 0,00001 – 520,464    
747SP General – 141 079 – 11,7298 – 0,02833 0 0 201 105 – 53 843  
747SP MaxClimb 36 791,4 – 43,5074 0,3004 – 0,0000092 0    
747SP MaxTakeoff 42 780,7 – 50,59 0,349279 – 0,000010697 0    
757300 MaxClimb 29 549,2 – 30,6086 0,398179 0 0    
757300 MaxClimbHiTemp 36 157 – 30,9643 – 0,16465 0 – 250,7    
757300 MaxTakeoff 40 175,5 – 35,323 – 0,11328 0 0    
757300 MaxTkoffHiTemp 46 892,4 – 35,6127 – 0,53031 0 – 241,7    
757PW General – 44 951 – 0,83 0,0198 0 0 52 972 0  
757PW MaxClimb 27 775,1 – 27,6876 0,381725 0 0    
757PW MaxClimbHiTemp 34 748,3 – 29,9467 – 0,16641 0 – 250,7    
757PW MaxTakeoff 36 214,8 – 48,2704 0,908044 0 0    
757PW MaxTkoffHiTemp 45 592,5 – 49,7383 0,213208 0 – 290,6    
757RR General – 44 907 – 21,97 – 0,0589 0 0 46 999 0  
757RR MaxClimb 30 065,2 – 32,4779 0,397321 0 0    
757RR MaxClimbHiTemp 36 735,1 – 32,445 – 0,16871 0 – 258,4    
757RR MaxTakeoff 37 802,1 – 38,2839 0,527181 0 0    
757RR MaxTkoffHiTemp 45 336,5 – 39,1302 – 0,00514 0 – 257,4    
767300 General – 49 250 0 0 0 0 62 210 0  
767300 MaxClimb 45 480 – 41,9 0,559 0 0    
767300 MaxTakeoff 56 370 – 53 0,251 0 0    
767400 MaxClimb 45 902,7 – 39,5895 0,633446 0 0    
767400 MaxClimbHiTemp 63 647,5 – 41,082 – 0,55 0 – 562,3    
767400 MaxTakeoff 60 475,4 – 56,8041 0,478788 0 0    
767400 MaxTkoffHiTemp 72 425,5 – 55,569 – 0,236 0 – 416,2    
767CF6 General 62 790 – 35,03 – 0,1177 0 0   – 1 610,37 14
767CF6 MaxClimb 38 057 – 43,24 0,705 0 0    
767CF6 MaxTakeoff 44 769 – 48,34 0,5 0 0    
767JT9 General – 39 777 – 17,367 – 0,0467 0 0 56 550 0  
767JT9 MaxClimb 38 700 – 34,5 0,49 0 0    
767JT9 MaxTakeoff 43 190 – 38,3 0,876 0 0    
777200 General 32 710 0 0 0 0   – 1 258 16,16
777200 MaxClimb 67 093,7 – 85,7553 1,8498 – 0,000076 0    
777200 MaxClimbHiTemp 82 096,7 – 72,2859 – 0,32818 – 0,0000179 – 637    
777200 MaxTakeoff 93 672,6 – 122,251 1,1818 – 0,0000806 0    
777200 MaxTkoffHiTemp 114 758,6 – 125,38 – 0,159 – 0,0000261 – 702,4    
777300 MaxClimb 64 636,2 – 70,833 0,880073 0 0    
777300 MaxClimbHiTemp 90 015,1 – 70,745 – 0,852 0 – 823    
777300 MaxTakeoff 87 833,8 – 97,7894 0,27543 0 0    
777300 MaxTkoffHiTemp 103 835,2 – 97,831 – 0,632 0 – 549,1    
7773ER IdleApproach 8 950 – 27,25 0,131 0 0    
7773ER MaxClimb 92 110 – 119 1,14 – 0,000007 0    
7773ER MaxClimbHiTemp 96 550 – 69,4 – 0,542 – 0,00005 – 533    
7773ER MaxTakeoff 112 250 – 120 0,713 – 0,00011 0    
7878R IdleApproach 3 425 – 12,03 0,0955 0 0    
7878R MaxClimb 61 142,6 – 78,8116 1,219801 – 0,000039 0    
7878R MaxClimbHiTemp 65 000 – 55 0,1 – 0,00002 – 404,274    
7878R MaxTakeoff 71 214,6 – 93,4796 0,652462 0,000002 0    
7878R MaxTkoffHiTemp 86 784,2 – 92 – 0,27021 – 0,00001 – 520,488    
A300-622R General – 148 952 – 6,71 – 0,03 0 0 203 740 – 50 104,7  
A300-622R IdleApproach 8 432,8 – 47,7662 0,750523 – 0,000059071 0    
A300-622R IdleApproachHiTemp 8 432,8 – 47,7662 0,750523 – 0,000059071 0    
A300-622R MaxClimb 44 457,2 – 45,778 0,735506 – 0,000015775 0    
A300-622R MaxClimbHiTemp 52 183,7 – 44,1929 0 0 – 271    
A300-622R MaxTakeoff 56 307,1 – 50,9157 0,405632 – 2,0986E-06 0    
A300-622R MaxTkoffHiTemp 61 250,3 – 51,5373 0 0 – 192    
A300B4-203 General – 132 687 – 30,4092 – 0,10796 4,02686E-07 0   2 535,75 – 8,23842
A300B4-203 MaxClimb 43 416,5 – 35 – 0,12523 6,27209E-07 0    
A300B4-203 MaxTakeoff 49 336,9 – 39,8243 – 0,14231 7,12738E-07 0    
A310-304 General 41 317 – 32,9 – 0,0857 – 0,0000016 0 – 1 131,6 11,8  
A310-304 IdleApproach 4 613,2 – 22,0136 0,082133 – 2,7376E-06 0    
A310-304 IdleApproachHiTemp 4 613,2 – 22,0136 0,082133 – 2,7376E-06 0    
A310-304 MaxClimb 42 008 – 49,5706 1,64076 – 0,000043059 0    
A310-304 MaxClimbHiTemp 55 143,3 – 37,4839 0 0 – 505    
A310-304 MaxTakeoff 50 530,5 – 51,1538 1,26398 – 0,000012839 0    
A310-304 MaxTkoffHiTemp 71 457,7 – 50,7768 0 0 – 608    
A319-131 General – 105 513 – 6,58 0,006828 – 8,055E-07 0 149 900 – 42 300  
A319-131 IdleApproach 1 219,5 – 7,22737 0,154266 – 0,000007955 0    
A319-131 IdleApproachHiTemp 1 219,5 – 7,22737 0,154266 – 0,000007955 0    
A319-131 MaxClimb 14 957,2 1,71654 0,442593 – 0,000013824 0    
A319-131 MaxClimbHiTemp 12 977,6 18,59062 0 0 – 78,7    
A319-131 MaxTakeoff 21 435,4 – 21,3236 0,309465 1,26125E-05 0    
A319-131 MaxTkoffHiTemp 23 853,8 – 18,7311 0 0 – 76,8    
A320-211 General 24 380 – 18,534 – 0,07842 – 2,509E-07 0   – 669,457 6,9451
A320-211 IdleApproach 2 858,8 – 14,7325 0,096537 – 6,7861E-06 0    
A320-211 IdleApproachHiTemp 2 858,8 – 14,7325 0,096537 – 6,7861E-06 0    
A320-211 MaxClimb 16 859,1 – 4,3786 0,183576 2,9851E-06 0    
A320-211 MaxClimbHiTemp 19 148,5 – 6,50173 0 0 – 95    
A320-211 MaxTakeoff 23 652,9 – 22,9338 0,295879 – 5,4631E-06 0    
A320-211 MaxTkoffHiTemp 27 385 – 23,3 0 0 – 132    
A320-232 General – 65 083,3 – 7,25 – 0,01918 2,575E-08 0 87 817,6 – 18 693,1  
A320-232 IdleApproach 1 138,9 – 6,52566 0,1667 – 9,2579E-06 0    
A320-232 IdleApproachHiTemp 1 138,9 – 6,52566 0,1667 – 9,2579E-06 0    
A320-232 MaxClimb 15 539,2 – 4,08932 0,438331 – 0,00001439 0    
A320-232 MaxClimbHiTemp 14 111,4 10,67953 0 0 – 82,2    
A320-232 MaxTakeoff 24 746,2 – 25,2473 0,304165 9,2451E-06 0    
A320-232 MaxTkoffHiTemp 29 506,5 – 24,4165 0 0 – 139    
A321-232 General – 26 190,2 – 6,6 – 0,0197 – 3,408E-07 0 33 032,2 0  
A321-232 IdleApproach 1 274,1 – 7,34054 0,175187 – 0,000011478 0    
A321-232 IdleApproachHiTemp 1 274,1 – 7,34054 0,175187 – 0,000011478 0    
A321-232 MaxClimb 21 870,8 – 21,4867 0,380647 – 5,5566E-06 0    
A321-232 MaxClimbHiTemp 24 158,5 – 16,8504 0 0 – 147    
A321-232 MaxTakeoff 28 636,4 – 26,7318 0,249782 – 3,9163E-06 0    
A321-232 MaxTkoffHiTemp 31 608,2 – 25,9736 0 0 – 114    
A330-301 General – 36 339,3 – 31,32 – 0,1297 0 0   484,645 4,0056
A330-301 IdleApproach 4 572,4 – 26,0005 0,013461 2,8669E-06 0    
A330-301 IdleApproachHiTemp 4 572,4 – 26,0005 0,013461 2,8669E-06 0    
A330-301 MaxClimb 34 249,9 25,9859 0,764157 – 8,1437E-07 0    
A330-301 MaxClimbHiTemp 46 667,8 10,51272 0 0 – 346    
A330-301 MaxTakeoff 61 384,5 – 48,4678 0,582821 – 6,2628E-06 0    
A330-301 MaxTkoffHiTemp 69 058 – 46,465 0 0 – 288    
A330-343 General – 127 410 – 9,31 – 0,0386 0,000000569 0 162 922 – 29 498,6  
A330-343 IdleApproach 3 134,3 – 13,0338 0,085938 1,7155E-06 0    
A330-343 IdleApproachHiTemp 3 134,3 – 13,0338 0,085938 1,7155E-06 0    
A330-343 MaxClimb 44 462 – 12,031 0,711026 5,12762E-06 0    
A330-343 MaxClimbHiTemp 63 522,4 – 50,7504 0 0 – 411    
A330-343 MaxTakeoff 69 831 – 77,9676 0,882955 – 0,000026894 0    
A330-343 MaxTkoffHiTemp 85 732,2 – 78,8957 0 0 – 451    
A340-211 General 19 716 – 17,65 – 0,0878 0 0   – 590,77 7,341
A340-211 IdleApproach 4 019,5 – 20,508 – 0,02271 1,16972E-05 0    
A340-211 IdleApproachHiTemp 4 019,5 – 20,508 – 0,02271 1,16972E-05 0    
A340-211 MaxClimb 26 802,9 – 28,8264 0,31673 3,50144E-06 0    
A340-211 MaxClimbHiTemp 31 091,8 – 31,4492 0 0 – 160    
A340-211 MaxTakeoff 29 929,8 – 30,7732 0,29922 – 4,1757E-06 0    
A340-211 MaxTkoffHiTemp 34 594,4 – 30,094 0 0 – 175    
A340-642 IdleApproach 6 529,4 – 29,9521 0,272155 – 0,000020281 0    
A340-642 IdleApproachHiTemp 6 529,4 – 29,9521 0,272155 – 0,000020281 0    
A340-642 MaxClimb 42 621,6 – 44,2784 0,484124 2,668E-07 0    
A340-642 MaxClimbHiTemp 50 112 – 60,5262 0 0 – 212    
A340-642 MaxTakeoff 55 248,1 – 61,4744 0,506968 – 9,6324E-06 0    
A340-642 MaxTkoffHiTemp 63 276,8 – 59,6458 0 0 – 300    
A380-841 IdleApproach 10 914,8 – 31,2899 – 2,1424 0,000260636 0    
A380-841 IdleApproachHiTemp 10 914,8 – 31,2899 – 2,1424 0,000260636 0    
A380-841 MaxClimb 63 586,2 – 53,9292 1,23082 – 0,00003343 0    
A380-841 MaxClimbHiTemp 72 974,3 – 52,6993 0 0 – 420    
A380-841 MaxTakeoff 71 176,1 – 84,4052 0,220679 0,000428339 0    
A380-841 MaxTkoffHiTemp 90 820,8 – 94,5354 0 0 – 610    
A380-861 IdleApproach 8 921,7 – 30,2153 – 0,87777 0,000104691 0    
A380-861 IdleApproachHiTemp 8 921,7 – 30,2153 – 0,87777 0,000104691 0    
A380-861 MaxClimb 66 053,2 – 61,754 0,977183 – 0,000025178 0    
A380-861 MaxClimbHiTemp 73 729,7 – 65,1895 0 0 – 324    
A380-861 MaxTakeoff 70 053,6 – 76,0931 0,838794 – 0,000010766 0    
A380-861 MaxTkoffHiTemp 83 320,5 – 82,3362 0 0 – 432    
BAC111 MaxClimb 9 827,9 – 5,89674 – 0,01966 0 0    
BAC111 MaxTakeoff 11 168,1 – 6,70084 – 0,02234 0 0    
BAE146 General – 13 783 – 9,9585 0,056057 – 1,23124E-05 0   304,295 – 0,84327
BAE146 MaxClimb 6 339,4 – 9,9585 0,056057 – 0,0000035 0    
BAE146 MaxTakeoff 6 542,4 – 9,9585 0,056057 – 0,0000035 0    
BAE300 General – 13 783 – 9,9585 0,056057 – 1,23124E-05 0   304,295 – 0,84327
BAE300 MaxClimb 6 339,4 – 9,9585 0,056057 – 0,0000035 0    
BAE300 MaxTakeoff 6 542,4 – 9,9585 0,056057 – 0,0000035 0    
CIT3 MaxClimb 2 987,4 – 3,4992 0,06123 – 1,1664E-06 0    
CIT3 MaxTakeoff 3 319,3 – 3,888 0,068032 – 0,000001296 0    
CL600 MaxClimb 5 543,3 – 5,6542 0,08442 0 0    
CL600 MaxTakeoff 6 159,2 – 6,2824 0,0938 0 0    
CL601 MaxClimb 6 517,3 – 6,6476 0,09776 0 0    
CL601 MaxTakeoff 7 241,4 – 7,3862 0,10862 0 0    
CNA208 MaxClimb 2 953,9 – 8,581 – 0,00453 – 7,2035E-07 – 1,44    
CNA208 MaxTakeoff 3 245,2 – 11,69 – 0,01053 – 6,777E-07 – 1,62    
CNA500 General 1 743,1 – 1,64678 – 0,00201 – 1,5642E-07 0   – 49,6794 0,545
CNA500 MaxClimb 1 919,5 – 1,99614 0,0615 – 2,40502E-06 0    
CNA500 MaxTakeoff 2 132,8 – 2,21793 0,068333 – 2,67224E-06 0    
CNA510 General 4 234,6 – 1,68388 0,001047 – 5,78019E-08 0   – 103,817 0,811333
CNA510 MaxClimb 1 486 – 1,60533 0 – 1,04748E-07 0    
CNA510 MaxTakeoff 1 492,8 – 1,87734 0 – 2,55208E-06 0    
CNA525C General 1 528,4 – 2,83667 – 0,00013 2,55648E-07 0   – 51,50512788 0,724013467
CNA525C MaxClimb 3 001,7 – 2,38854 0,004585 – 1,4045E-07 0    
CNA525C MaxTakeoff 3 464,1 – 2,5254 0,001981 – 1,46353E-06 0    
CNA55B General 1 373,8 – 2,2903 – 8,9E-05 3,2273E-08 0   – 44,861 0,66327
CNA55B MaxClimb 2 323,1 – 2,4386 0,002159 – 2,1456E-07 0    
CNA55B MaxTakeoff 2 658,7 – 2,6269 – 0,00359 1,7262E-07 0    
CNA560E General 1 533,4 – 2,49247 0,011973 – 6,90894E-07 0   – 53,9835 0,839574
CNA560E MaxClimb 3 194,3 – 2,53358 0,028038 2,70832E-07 0    
CNA560E MaxTakeoff 3 316,5 – 2,7005 0,04349 – 6,52616E-07 0    
CNA560U MaxClimb 2 597,5 – 2,22178 0,023781 6,12239E-08 0    
CNA560U MaxTakeoff 2 920 – 2,0264 0,025133 2,95314E-07 0    
CNA560XL MaxClimb 3 454,5 – 3,98132 – 0,0704 0 0    
CNA560XL MaxTakeoff 3 838,3 – 4,42368 – 0,07823 0 0    
CNA680 General 2 904,8 – 4,80092 – 0,00174 5,62892E-07 0   – 101,327 1,3401
CNA680 MaxClimb 5 520,2 – 5,32711 – 0,02377 1,89918E-06 0    
CNA680 MaxTakeoff 5 683 – 6,55907 – 0,00159 8,72971E-07 0    
CNA750 General 4 778,6 – 6,56521 0,000671 – 4,11321E-07 0   – 146,712 1,9748
CNA750 MaxClimb 6 097,8 – 7,0102 – 0,00528 3,74689E-08 0    
CNA750 MaxTakeoff 6 127,8 – 7,07624 – 0,00394 3,95764E-08 0    
CONCRD MaxClimb 33 252,1 – 26,6 0,2328 0 0    
CONCRD MaxTakeoff 39 653 – 31,722 0,2776 0 0    
CRJ9-ER General 6 087,3 – 9,35507 – 0,04736 1,55476E-07 – 1,4767   – 183,9266 2,785981
CRJ9-ER IdleApproach 1 163,1 – 4,5855 – 0,0238 1,63611E-06 – 0,0249    
CRJ9-ER MaxClimb 10 438,3 – 9,64192 0,15855 – 3,00077E-07 – 1,3095    
CRJ9-ER MaxClimbHiTemp 12 973,4 – 9,57675 – 0,05589 3,05523E-07 – 100,415    
CRJ9-ER MaxTakeoff 13 260,6 – 16,6244 0,19849 – 7,00045E-06 – 1,6224    
CRJ9-ER MaxTkoffHiTemp 16 247,3 – 17,4575 0,077341 – 1,06353E-05 – 109,219    
CRJ9-LR General 6 087,3 – 9,35507 – 0,04736 1,55476E-07 – 1,4767   – 183,9266 2,785981
CRJ9-LR IdleApproach 1 163,1 – 4,5855 – 0,0238 1,63611E-06 – 0,0249    
CRJ9-LR MaxClimb 10 438,3 – 9,64192 0,15855 – 3,00077E-07 – 1,3095    
CRJ9-LR MaxClimbHiTemp 12 973,4 – 9,57675 – 0,05589 3,05523E-07 – 100,415    
CRJ9-LR MaxTakeoff 13 260,6 – 16,6244 0,19849 – 7,00045E-06 – 1,6224    
CRJ9-LR MaxTkoffHiTemp 16 247,3 – 17,4575 0,077341 – 1,06353E-05 – 109,219    
DC1010 General 25 027,6 – 27,4313 – 0,07828 0 0   – 694,556 8,02362
DC1010 MaxClimb 30 596 – 28,4416 – 0,10164 5,0902E-07 0    
DC1010 MaxTakeoff 35 985,4 – 30,9909 – 0,11075 5,5465E-07 0    
DC1030 MaxClimb 38 520 – 29,38 0,49 0 0    
DC1030 MaxTakeoff 49 310 – 42,42 0,61 0 0    
DC1040 General – 143 602 – 14,4996 – 0,05026 0 0 204 567 – 54 761,9  
DC1040 MaxClimb 34 087,9 – 12,9859 – 0,04641 2,3241E-07 0    
DC1040 MaxTakeoff 41 594,9 – 22,3071 – 0,07971 3,9923E-07 0    
DC850 General – 22 582,8 – 6,58409 – 0,02081 0 0 29 070,9 – 4 341,84  
DC850 MaxClimb 14 243,5 – 5,6565 – 0,02021 1,0123E-07 0    
DC850 MaxTakeoff 15 670,3 – 5,8955 – 0,02107 1,0551E-07 0    
DC860 General – 27 959,5 – 6,35297 – 0,01835 0 0 35 850,3 – 6 157,74  
DC860 MaxClimb 15 558,7 – 7,2339 – 0,02585 1,2947E-07 0    
DC860 MaxTakeoff 16 740,5 – 4,9394 – 0,01765 8,8401E-08 0    
DC870 General 11 106 – 10,09 – 0,0409 0 0   – 369,8 4,835
DC870 MaxClimb 18 859 – 17,91 0,1953 0 – 2,034    
DC870 MaxTakeoff 20 758 – 20,65 0,2173 0 0    
DC8QN General – 27 959,5 – 6,35297 – 0,01835 0 0 35 850,3 – 6 157,74  
DC8QN MaxClimb 15 558,7 – 7,2339 – 0,02585 1,2947E-07 0    
DC8QN MaxTakeoff 16 740,5 – 4,9394 – 0,01765 8,8401E-08 0    
DC910 General – 10 596,5 – 1,51369 – 0,00525 0 0 11 541,7 162,698  
DC910 MaxClimb 11 194,3 – 3,0274 – 0,01082 5,4181E-08 0    
DC910 MaxTakeoff 12 308,2 – 0,478 0,001708 8,55E-09 0    
DC930 General – 13 523,2 – 2,66888 – 0,00925 0 0 15 803,6 – 1 257,94  
DC930 MaxClimb 11 561,8 – 2,94773 – 0,01053 5,2756E-08 0    
DC930 MaxTakeoff 12 972 – 2,31038 – 0,00826 4,1349E-08 0    
DC93LW General – 13 523,2 – 2,66888 – 0,00925 0 0 15 803,6 – 1 257,94  
DC93LW MaxClimb 11 561,8 – 2,94773 – 0,01053 5,2756E-08 0    
DC93LW MaxTakeoff 12 972 – 2,31038 – 0,00826 4,1349E-08 0    
DC950 General – 13 523,2 – 2,66888 – 0,00925 0 0 15 803,6 – 1 257,94  
DC950 MaxClimb 12 365,4 – 2,54939 – 0,00911 4,5627E-08 0    
DC950 MaxTakeoff 14 698,5 – 2,13511 – 0,00763 3,8212E-08 0    
DC95HW General – 13 523,2 – 2,66888 – 0,00925 0 0 15 803,6 – 1 257,94  
DC95HW MaxClimb 12 365,4 – 2,54939 – 0,00911 4,5627E-08 0    
DC95HW MaxTakeoff 14 698,5 – 2,13511 – 0,00763 3,8212E-08 0    
DC9Q7 General – 10 596,5 – 1,51369 – 0,00525 0 0 11 541,7 162,698  
DC9Q7 MaxClimb 11 194,3 – 3,0274 – 0,01082 5,4181E-08 0    
DC9Q7 MaxTakeoff 12 308,2 – 0,478 0,001708 8,55E-09 0    
DC9Q9 General – 13 523,2 – 2,66888 – 0,00925 0 0 15 803,6 – 1 257,94  
DC9Q9 MaxClimb 11 561,8 – 2,94773 – 0,01053 5,2756E-08 0    
DC9Q9 MaxTakeoff 12 972 – 2,31038 – 0,00826 4,1349E-08 0    
DHC8 General 2 010,7 – 19,409 0,07743 0 0   54,6666 – 0,0828
DHC8 MaxClimb 6 323,6 – 21,4445 0,088232 0 0    
DHC8 MaxTakeoff 7 026,2 – 23,8272 0,098036 0 0    
DHC830 General 1 623,1 – 18,411 0,075104 0 0   72,6356 – 0,17951
DHC830 MaxClimb 6 679 – 21,9919 0,090305 0 0    
DHC830 MaxTakeoff 7 421,1 – 24,4354 0,100339 0 0    
DO228 MaxClimb 2 571 – 7,9721 0,07004 – 4,9292E-06 0    
DO228 MaxTakeoff 2 524,3 – 8,067 0,06042 – 6,8678E-06 0    
DO328 MaxClimb 7 752,5 – 23,2 0,225 – 0,0000158 0    
DO328 MaxTakeoff 8 138,2 – 28,1 0,199 – 0,000021 0    
ECLIPSE500 MaxClimb 947,7 – 0,73662 0,018307 2,63346E-07 – 0,0571    
ECLIPSE500 MaxClimbHiTemp 1 077,4 – 1,20966 – 0,00912 1,28125E-07 – 9,84248    
ECLIPSE500 MaxTakeoff 1 039,2 – 1,57439 0,034769 – 0,000002274 – 0,0323    
ECLIPSE500 MaxTkoffHiTemp 1 258,9 – 1,6144 – 0,00748 3,13285E-08 – 10,7499    
ECLIPSE500 ReduceClimb 1 084,2 – 1,38862 0,009974 7,08687E-08 0,048579    
ECLIPSE500 ReduceClimbHiTemp 1 168,6 – 1,50732 – 0,01586 3,07776E-07 – 11,2558    
EMB120 MaxClimb 4 668 – 11,932 0,0664 0 – 5,663    
EMB120 MaxTakeoff 5 212 – 12,45 0,0728 0 – 6,87    
EMB145 MaxClimb 5 554,3 – 6,86092 0,065416 0 – 4,036    
EMB145 MaxTakeoff 7 499,5 – 9,12812 0,045563 0 – 22,89    
EMB14L MaxClimb 6 432,5 – 7,56929 0,069004 0 – 5,419    
EMB14L MaxTakeoff 7 246,1 – 8,61031 0,232825 0 – 0,9689    
EMB170 IdleApproach 945 – 3,5 – 0,01 0 0    
EMB170 MaxClimb 11 716 – 13,423 0,25 – 0,000019 0    
EMB170 MaxTakeoff 13 350 – 17,43 0,1875 – 0,000013 – 4,47    
EMB175 IdleApproach 945 – 3,5 – 0,01 0 0    
EMB175 MaxClimb 11 716 – 13,423 0,25 – 0,000019 0    
EMB175 MaxTakeoff 13 350 – 17,43 0,1875 – 0,000013 – 4,47    
EMB190 IdleApproach 1 080 – 3,65 0,011 0 0    
EMB190 MaxClimb 15 137 – 14,3 0,239 – 0,0000187 0    
EMB190 MaxTakeoff 17 499 – 18,99 0,3207 – 0,000021 – 4,29    
EMB195 IdleApproach 1 080 – 3,65 0,011 0 0    
EMB195 MaxClimb 15 137 – 14,3 0,239 – 0,0000187 0    
EMB195 MaxTakeoff 17 499 – 18,99 0,3207 – 0,000021 – 4,29    
F10062 MaxClimb 10 472 – 9,57 0,137 0 0    
F10062 MaxTakeoff 13 551 – 16,56 0,2804 0 0    
F10065 MaxClimb 10 970 – 10,52 0,1238 0 0    
F10065 MaxTakeoff 14 814 – 16,72 0,065 0 0    
F28MK2 MaxClimb 8 408 – 4,72 0,1048 0 0    
F28MK2 MaxTakeoff 9 851 – 7,68 0,0889 0 0    
F28MK4 MaxClimb 8 459 – 4,874 0,0997 0 0    
F28MK4 MaxTakeoff 9 905 – 7,445 0,0765 0 0    
FAL20 MaxClimb 4 102 – 2,3831 – 0,11465 1,02126E-05 0    
FAL20 MaxTakeoff 4 017,4 – 3,4567 0,058024 – 2,49247E-06 0    
GII MaxClimb 9 827,9 – 5,89674 – 0,01966 0 0    
GII MaxTakeoff 11 324 – 9,697 0,1539 – 0,000004 0    
GII MaxTkoffHiTemp 12 833 – 8,35 0,0346 – 0,000004 – 74,58    
GII ReduceClimb 6 030 0 – 0,0081 0,0000002 0    
GII ReduceTakeoff 9 060 – 7,27 0,121 – 0,000003 0    
GII ReduTkoffHiTemp 10 266 – 6,25 0,0277 – 0,0000003 – 59,7    
GIIB MaxClimb 9 827,9 – 5,89674 – 0,01966 0 0    
GIIB MaxTakeoff 11 324 – 9,697 0,1539 – 0,000004 0    
GIIB MaxTkoffHiTemp 12 833 – 8,35 0,0346 – 0,000004 – 74,58    
GIIB ReduceClimb 5 369 0 – 0,0081 0 0    
GIIB ReduceTakeoff 9 060 – 7,27 0,121 – 0,000003 0    
GIIB ReduTkoffHiTemp 10 266 – 6,25 0,0277 – 0,0000003 – 59,7    
GIV MaxClimb 10 770 – 10,96 0,1784 – 0,000001 0    
GIV MaxClimbHiTemp 11 805 – 9,4 – 0,0624 0 – 89    
GIV MaxTakeoff 13 725 – 18,2 0,3189 – 0,00002 0    
GIV MaxTkoffHiTemp 17 129 – 17,6 – 0,0472 0,0000003 – 114    
GV MaxClimb 12 400 – 11,6 0,12 0 0    
GV MaxClimbHiTemp 14 900 – 11,2 – 0,11 0 – 107    
GV MaxTakeoff 14 600 – 18,86 0,1649 0 0    
GV MaxTkoffHiTemp 18 970 – 18,4 – 0,115 0 – 126,5    
IA1125 MaxClimb 3 114,4 – 3,4992 0,04125 – 2,81988E-06 0    
IA1125 MaxTakeoff 3 460,5 – 3,888 0,045834 – 3,1332E-06 0    
L1011 General – 80 222,2 – 25,0263 0 0 0 92 893,5 – 10 186,1  
L1011 MaxClimb 34 204,8 – 43,8172 0,270193 2,0153E-06 0    
L1011 MaxTakeoff 40 720 – 52,1633 0,321659 2,3992E-06 0    
L10115 MaxClimb 39 532,9 – 44,0258 0,27148 2,02494E-06 0    
L10115 MaxTakeoff 46 840 – 52,1633 0,321659 2,3992E-06 0    
LEAR25 MaxClimb 2 560,9 – 1,8352 – 0,01509 1,95912E-06 0    
LEAR25 MaxTakeoff 2 845,4 – 2,03911 – 0,01677 2,1768E-06 0    
LEAR35 MaxClimb 3 071 – 3,4992 – 0,00397 1,38915E-06 0    
LEAR35 MaxTakeoff 3 412,2 – 3,888 – 0,00441 1,5435E-06 0    
MD11GE MaxClimb 47 037 – 45,71 0,854 0 – 368,1    
MD11GE MaxTakeoff 57 156 – 42,73 0,303 0 – 357,5    
MD11PW MaxClimb 51 197 – 59,27 0,416 0 – 357    
MD11PW MaxTakeoff 57 661 – 51,3 0,513 0 – 426,6    
MD81 General – 15 384 – 10 0,019 0 0 17 917 0  
MD81 MaxClimb 18 040,9 – 8,83022 – 0,02993 0 – 114,3    
MD81 MaxClimbHiTemp 21 047,1 – 12,8373 – 0,07163 0 – 151,8    
MD81 MaxTakeoff 18 810,5 – 11,1271 0,092622 0 – 2,101    
MD81 MaxTkoffHiTemp 22 678,5 – 14,546 – 0,05823 0 – 138,4    
MD82 General – 13 488 – 10 0,025 0 0 16 750 0  
MD82 MaxClimb 16 810,1 – 5,36467 0,048334 0 – 60,8    
MD82 MaxClimbHiTemp 22 606,4 – 13,9975 – 0,09177 0 – 168,1    
MD82 MaxTakeoff 19 344,5 – 15,5531 0,333164 0 – 1,031    
MD82 MaxTkoffHiTemp 24 452 – 16,6869 0,005711 0 – 162,5    
MD83 General – 13 845 – 13,33 0,019 0 0 17 500 0  
MD83 MaxClimb 18 075,2 – 7,63873 0,058915 0 – 64,7    
MD83 MaxClimbHiTemp 23 181,6 – 13,4908 – 0,09344 0 – 164    
MD83 MaxTakeoff 20 080,8 – 11,9047 0,191099 0 – 4,078    
MD83 MaxTkoffHiTemp 25 460,4 – 15,5681 – 0,05468 0 – 176,1    
MD9025 General – 31 899 – 8,5718 – 0,0276 0 0 37 206 0  
MD9025 MaxClimb 23 881 – 30,625 0,2551 0 0    
MD9025 MaxClimbHiTemp 27 078,4 – 30,625 0 0 – 213,2    
MD9025 MaxTakeoff 23 066 – 23,5769 0,3147 0 0    
MD9025 MaxTkoffHiTemp 28 697,1 – 23,5769 0 0 – 225,2    
MD9028 General – 31 899 – 8,5718 – 0,0276 0 0 37 206 0  
MD9028 MaxClimb 23 421 – 26,5453 0,2599 0 0    
MD9028 MaxClimbHiTemp 26 678,6 – 26,5453 0 0 – 217,2    
MD9028 MaxTakeoff 25 656 – 25,3418 0,2419 0 0    
MD9028 MaxTkoffHiTemp 30 520 – 25,3418 0 0 – 194,6    
MU3001 General 1 743,1 – 1,64678 – 0,00201 – 1,5642E-07 0   – 49,6794 0,545
MU3001 MaxClimb 1 919,5 – 1,99614 0,0615 – 2,40502E-06 0    
MU3001 MaxTakeoff 2 132,8 – 2,21793 0,068333 – 2,67224E-06 0    
PA42 MaxClimb 2 295,2 – 6,6307 0,041917 5,8567E-07 0    
PA42 MaxTakeoff 2 219,6 – 5,9898 0,044468 2,8008E-07 0    
ACFT_ID Thrust rating Propeller Efficiency Installed Net Propulsive Power (hp)
BEC58P MaxClimb 0,90 261,3
BEC58P MaxTakeoff 0,90 310,0
CNA172 MaxClimb 0,69 140,0
CNA172 MaxTakeoff 0,67 155,0
CNA182 MaxClimb 0,78 189,8
CNA182 MaxTakeoff 0,75 222,4
CNA206 MaxClimb 0,77 234,0
CNA206 MaxTakeoff 0,70 300,0
CNA20T MaxClimb 0,77 238,0
CNA20T MaxTakeoff 0,69 310,0
CNA441 MaxClimb 0,90 620,0
CNA441 MaxTakeoff 0,90 635,5
CVR580 MaxClimb 0,85 3 344,0
CVR580 MaxTakeoff 0,85 3 800,0
DC3 MaxClimb 0,85 1 130,0
DC3 MaxTakeoff 0,85 1 302,0
DC6 MaxClimb 0,90 1 750,0
DC6 MaxTakeoff 0,90 1 900,0
DHC6 MaxClimb 0,90 557,5
DHC6 MaxTakeoff 0,90 587,0
DHC6QP MaxClimb 0,90 557,5
DHC6QP MaxTakeoff 0,90 587,0
DHC7 MaxClimb 0,90 846,0
DHC7 MaxTakeoff 0,90 940,0
HS748A MaxClimb 0,90 1 805,0
HS748A MaxTakeoff 0,90 2 006,0
L188 MaxClimb 0,90 3 180,0
L188 MaxTakeoff 0,90 3 460,0
PA30 MaxClimb 0,80 130,5
PA30 MaxTakeoff 0,80 139,5
SD330 MaxClimb 0,90 972,0
SD330 MaxTakeoff 0,90 1 080,0
SF340 MaxClimb 0,90 1 587,0
SF340 MaxTakeoff 0,90 1 763,0
NPD_ID Noise metric Op type Power setting(the ‘Power Parameter’ field in the ‘Aircraft’table specifies the power setting type and unit) L_200ft L_400ft L_630ft L_1000ft L_2000ft L_4000ft L_6300ft L_10000ft L_16000ft L_25000ft
2CF650 LAmax A 10 000,0 99,2 91,9 86,7 81,0 72,1 63,0 56,7 49,6 41,6 33,1
2CF650 LAmax A 25 000,0 105,3 98,3 93,4 88,0 79,5 70,5 64,3 57,4 49,7 41,5
2CF650 LAmax D 25 000,0 105,3 98,3 93,4 88,0 79,5 70,5 64,3 57,4 49,7 41,5
2CF650 LAmax D 40 000,0 109,1 102,3 97,6 92,5 84,3 75,4 69,3 62,6 55,1 47,2
2CF650 SEL A 10 000,0 99,9 95,0 91,4 87,5 81,3 74,6 69,7 64,2 57,7 50,7
2CF650 SEL A 25 000,0 103,7 99,3 96,1 92,7 87,1 80,6 75,8 70,5 64,3 57,5
2CF650 SEL D 25 000,0 103,7 99,3 96,1 92,7 87,1 80,6 75,8 70,5 64,3 57,5
2CF650 SEL D 40 000,0 106,8 102,9 100,1 97,1 92,0 85,8 81,0 75,9 69,9 63,4
2CF680 LAmax A 7 000,0 96,3 89,8 85,2 80,2 71,9 63,2 56,9 50,8 44,1 37,7
2CF680 LAmax A 12 000,0 97,5 90,9 86,3 81,3 73,0 64,4 58,3 52,3 45,8 39,6
2CF680 LAmax D 17 000,0 98,2 91,5 87,0 82,1 74,2 65,8 59,7 53,6 46,9 40,4
2CF680 LAmax D 25 000,0 98,5 92,6 88,3 83,7 76,4 68,0 62,0 55,6 48,7 41,8
2CF680 LAmax D 33 000,0 101,5 95,8 91,7 87,3 80,2 71,8 65,8 59,4 52,5 45,5
2CF680 LAmax D 41 000,0 104,4 99,0 95,2 91,0 84,1 75,8 69,7 63,2 56,0 48,8
2CF680 SEL A 7 000,0 98,1 93,9 90,8 87,4 81,4 75,0 70,3 65,7 60,6 55,7
2CF680 SEL A 12 000,0 99,3 95,0 91,9 88,5 82,5 76,2 71,7 67,2 62,3 57,6
2CF680 SEL D 17 000,0 100,0 95,6 92,6 89,3 83,7 77,6 73,1 68,5 63,4 58,4
2CF680 SEL D 25 000,0 100,3 96,7 93,9 90,9 85,9 79,8 75,4 70,5 65,2 59,8
2CF680 SEL D 33 000,0 103,3 99,9 97,3 94,5 89,7 83,6 79,2 74,3 69,0 63,5
2CF680 SEL D 41 000,0 106,2 103,1 100,8 98,2 93,6 87,6 83,1 78,1 72,5 66,8
2CF68D LAmax A 10 020,0 97,7 91,0 85,8 81,1 73,0 64,5 58,5 51,7 44,8 38,3
2CF68D LAmax A 23 190,0 103,3 96,5 91,5 86,5 77,5 68,3 61,7 54,6 47,5 40,4
2CF68D LAmax D 25 940,0 101,9 94,6 89,8 85,0 77,5 68,9 62,6 55,3 47,5 37,2
2CF68D LAmax D 39 180,0 104,2 97,6 93,1 89,0 81,7 73,4 66,8 60,1 52,2 42,2
2CF68D LAmax D 51 530,0 108,4 102,1 97,8 93,5 86,7 78,9 72,8 66,3 58,7 49,2
2CF68D LAmax D 55 500,0 111,4 105,1 100,8 96,5 88,7 82,4 76,3 70,3 62,7 54,0
2CF68D SEL A 10 020,0 99,5 95,1 91,4 88,3 82,5 76,3 71,9 66,6 61,3 56,3
2CF68D SEL A 23 190,0 105,1 100,6 97,1 93,7 87,0 80,1 75,1 69,5 64,0 58,4
2CF68D SEL D 25 940,0 103,7 98,7 95,4 92,2 87,0 80,7 76,0 70,2 64,0 55,2
2CF68D SEL D 39 180,0 106,0 101,7 98,7 96,2 91,2 85,2 80,2 75,0 68,7 60,2
2CF68D SEL D 51 530,0 110,2 106,2 103,4 100,7 96,2 90,7 86,2 81,2 75,2 67,2
2CF68D SEL D 55 500,0 113,2 109,2 106,4 103,7 98,2 94,2 89,7 85,2 79,2 72,0
2J155D LAmax A 500,0 87,0 79,3 74,0 68,2 59,0 49,2 42,4 35,2 27,6 20,0
2J155D LAmax A 1 000,0 92,9 85,4 80,2 74,6 65,6 56,0 49,4 42,4 35,0 27,6
2J155D LAmax D 1 500,0 98,3 90,9 85,7 80,1 71,2 61,7 55,1 48,1 40,7 33,4
2J155D LAmax D 2 400,0 103,2 97,1 92,5 87,5 79,2 70,0 63,4 56,3 48,7 41,1
2J155D LAmax D 2 800,0 107,7 101,4 96,9 91,8 83,5 74,2 67,7 60,6 53,0 45,4
2J155D SEL A 500,0 87,3 81,9 78,1 73,8 66,9 59,3 54,0 48,3 42,3 36,2
2J155D SEL A 1 000,0 93,3 88,1 84,4 80,3 73,6 66,3 61,1 55,6 49,7 43,8
2J155D SEL D 1 500,0 99,5 94,3 90,6 86,5 79,9 72,6 67,5 62,0 56,1 50,3
2J155D SEL D 2 400,0 106,2 102,4 99,3 95,8 89,8 82,8 77,8 72,2 66,1 59,9
2J155D SEL D 2 800,0 109,9 106,0 102,9 99,4 93,3 86,4 81,3 75,7 69,6 63,4
2JT8D LAmax A 3 000,0 102,6 94,6 88,6 82,3 73,8 64,5 58,0 51,0 42,8 34,4
2JT8D LAmax A 6 000,0 105,4 97,9 91,5 85,8 77,2 68,5 61,9 55,1 47,1 38,5
2JT8D LAmax D 8 000,0 108,6 100,7 95,6 89,9 81,8 73,2 66,5 59,9 52,0 43,8
2JT8D LAmax D 10 000,0 111,6 104,3 99,5 94,6 86,3 77,7 71,8 64,9 57,2 48,9
2JT8D LAmax D 12 000,0 115,9 108,9 104,3 99,4 91,1 82,8 76,8 70,1 62,8 54,6
2JT8D LAmax D 14 000,0 120,8 113,4 109,4 104,5 96,4 88,2 82,3 75,8 68,6 60,9
2JT8D SEL A 3 000,0 102,3 97,2 92,9 88,5 82,8 75,6 70,9 65,4 58,8 51,8
2JT8D SEL A 6 000,0 106,1 100,5 96,7 93,0 87,2 80,9 76,1 70,7 64,1 56,9
2JT8D SEL D 8 000,0 108,8 103,9 100,5 96,8 91,5 85,7 80,5 75,1 68,9 62,0
2JT8D SEL D 10 000,0 111,4 107,2 104,3 101,1 95,7 89,5 85,0 79,8 73,5 66,7
2JT8D SEL D 12 000,0 115,1 111,1 108,4 105,5 100,2 94,3 89,9 85,0 78,8 72,1
2JT8D SEL D 14 000,0 119,8 115,9 113,3 110,5 105,4 99,7 95,3 90,3 84,5 78,4
2JT8D2 LAmax A 4 000,0 89,8 82,7 78,0 73,2 65,6 57,3 51,1 44,5 37,7 31,3
2JT8D2 LAmax A 4 667,0 90,8 83,6 79,0 74,2 66,6 58,2 52,0 45,4 38,6 32,2
2JT8D2 LAmax A 5 333,0 91,8 84,6 79,9 75,1 67,5 59,1 52,9 46,3 39,4 33,0
2JT8D2 LAmax A 6 000,0 92,9 85,6 80,9 76,1 68,4 60,0 53,8 47,1 40,3 33,9
2JT8D2 LAmax D 9 000,0 100,6 93,9 89,5 84,8 77,3 69,0 62,9 56,1 49,2 42,5
2JT8D2 LAmax D 11 000,0 103,0 96,3 91,9 87,2 79,6 71,2 65,0 58,2 51,2 44,4
2JT8D2 LAmax D 13 000,0 105,4 98,7 94,2 89,5 81,8 73,3 67,1 60,2 53,1 46,3
2JT8D2 LAmax D 15 000,0 107,8 101,1 96,6 91,8 84,1 75,5 69,2 62,2 55,1 48,2
2JT8D2 LAmax D 17 000,0 110,2 103,5 99,0 94,2 86,4 77,6 71,3 64,2 57,0 50,1
2JT8D2 LAmax D 19 000,0 112,6 105,9 101,4 96,5 88,6 79,8 73,4 66,2 59,0 52,0
2JT8D2 SEL A 4 000,0 91,5 87,5 84,7 81,9 77,1 71,6 67,2 62,4 57,5 52,9
2JT8D2 SEL A 4 667,0 92,6 88,5 85,8 82,9 78,1 72,6 68,2 63,4 58,5 53,8
2JT8D2 SEL A 5 333,0 93,7 89,6 86,8 83,9 79,1 73,6 69,2 64,4 59,4 54,8
2JT8D2 SEL A 6 000,0 94,7 90,6 87,8 84,9 80,1 74,6 70,2 65,4 60,4 55,7
2JT8D2 SEL D 9 000,0 100,1 96,3 93,7 91,0 86,3 80,8 76,6 71,6 66,5 61,7
2JT8D2 SEL D 11 000,0 102,4 98,7 96,1 93,3 88,6 83,0 78,7 73,7 68,7 63,8
2JT8D2 SEL D 13 000,0 104,8 101,0 98,5 95,6 90,9 85,2 80,9 75,9 70,8 65,9
2JT8D2 SEL D 15 000,0 107,1 103,4 100,8 98,0 93,1 87,4 83,1 78,0 72,9 68,0
2JT8D2 SEL D 17 000,0 109,5 105,7 103,2 100,3 95,4 89,6 85,2 80,2 75,0 70,1
2JT8D2 SEL D 19 000,0 111,8 108,1 105,5 102,7 97,7 91,8 87,4 82,3 77,2 72,2
2JT8DH LAmax A 3 000,0 88,6 83,0 76,9 71,2 62,7 54,1 48,0 41,2 33,4 25,2
2JT8DH LAmax A 6 000,0 93,9 88,7 84,5 79,9 72,5 64,0 57,8 50,8 42,9 34,3
2JT8DH LAmax D 8 000,0 101,1 94,5 90,0 85,2 77,5 68,8 62,5 55,4 47,3 38,7
2JT8DH LAmax D 10 000,0 103,5 96,9 92,5 87,7 79,9 71,2 64,8 57,6 49,6 41,2
2JT8DH LAmax D 12 000,0 108,0 101,4 97,0 92,2 84,5 75,8 69,4 62,4 54,4 45,9
2JT8DH LAmax D 14 000,0 110,7 104,2 99,8 95,1 87,5 79,0 72,8 65,9 58,2 50,0
2JT8DH SEL A 3 000,0 92,6 88,5 85,0 81,2 75,5 69,0 64,1 58,5 51,9 44,9
2JT8DH SEL A 6 000,0 97,9 93,6 90,8 87,9 83,0 76,7 71,7 65,9 59,2 51,8
2JT8DH SEL D 8 000,0 99,5 95,8 93,2 90,3 85,4 79,0 73,8 67,9 61,1 53,6
2JT8DH SEL D 10 000,0 103,6 99,9 97,3 94,4 89,5 83,0 77,8 71,8 65,0 57,7
2JT8DH SEL D 12 000,0 107,2 103,5 100,9 98,0 93,1 86,7 81,5 75,6 68,9 61,5
2JT8DH SEL D 14 000,0 110,8 107,2 104,6 101,8 97,0 90,6 85,6 79,9 73,4 66,4
2JT8DL LAmax A 3 000,0 92,7 85,7 80,8 75,8 67,8 59,0 52,6 45,4 37,2 28,7
2JT8DL LAmax A 6 000,0 96,7 89,9 85,3 80,4 72,4 63,6 57,2 50,0 41,8 33,2
2JT8DL LAmax D 8 000,0 102,0 95,2 90,7 85,8 77,8 69,0 62,6 55,5 47,3 38,7
2JT8DL LAmax D 10 000,0 105,7 98,5 93,9 89,0 81,0 72,2 65,8 58,6 50,6 42,0
2JT8DL LAmax D 12 000,0 109,3 102,5 98,0 93,2 85,3 76,5 70,0 62,9 54,9 46,4
2JT8DL LAmax D 14 000,0 112,5 105,8 101,3 96,4 88,5 79,5 72,9 65,7 57,6 49,1
2JT8DL SEL A 3 000,0 94,7 90,2 87,0 83,7 78,4 71,7 66,5 60,4 53,5 46,1
2JT8DL SEL A 6 000,0 97,9 94,0 91,2 88,2 83,0 76,5 71,2 65,2 58,3 50,8
2JT8DL SEL D 8 000,0 101,2 97,3 94,5 91,5 86,3 79,7 74,5 68,5 61,6 54,1
2JT8DL SEL D 10 000,0 104,6 101,3 98,4 95,3 90,1 83,6 78,3 72,4 65,5 58,1
2JT8DL SEL D 12 000,0 108,1 104,7 101,9 99,0 94,0 87,4 82,1 76,2 69,4 62,1
2JT8DL SEL D 14 000,0 111,7 108,0 105,3 102,4 97,3 90,6 85,3 79,2 72,3 65,0
2JT8DN LAmax A 3 000,0 90,6 84,2 79,7 74,9 67,3 59,2 53,6 47,7 41,5 35,4
2JT8DN LAmax A 5 000,0 95,8 89,3 84,8 80,0 72,4 64,3 58,8 52,9 46,6 40,5
2JT8DN LAmax D 6 000,0 96,8 90,8 86,5 81,8 74,1 65,8 59,9 53,7 47,0 40,4
2JT8DN LAmax D 8 000,0 101,2 95,2 90,9 86,1 78,5 70,2 64,4 58,2 51,6 45,0
2JT8DN LAmax D 10 000,0 105,1 99,1 94,7 90,0 82,3 73,8 67,9 61,6 54,8 48,0
2JT8DN LAmax D 12 000,0 108,5 102,5 98,1 93,3 85,5 77,0 71,0 64,6 57,8 51,0
2JT8DN LAmax D 14 000,0 111,4 105,4 101,0 96,3 88,5 80,1 74,1 67,8 60,9 54,2
2JT8DN LAmax D 16 000,0 113,8 107,8 103,4 98,7 90,9 82,5 76,5 70,1 63,3 56,6
2JT8DN SEL A 3 000,0 94,0 90,4 87,5 84,2 78,4 71,7 66,7 61,3 55,3 49,3
2JT8DN SEL A 5 000,0 98,5 94,9 92,1 88,8 83,0 76,3 71,4 66,0 60,0 53,9
2JT8DN SEL D 6 000,0 98,6 94,8 92,0 88,8 83,4 77,4 73,0 68,3 63,1 57,9
2JT8DN SEL D 8 000,0 102,7 99,0 96,1 92,9 87,6 81,5 77,2 72,5 67,4 62,3
2JT8DN SEL D 10 000,0 106,6 102,9 100,0 96,8 91,3 85,1 80,7 75,9 70,6 65,3
2JT8DN SEL D 12 000,0 110,2 106,4 103,5 100,2 94,7 88,4 83,9 79,0 73,7 68,3
2JT8DN SEL D 14 000,0 113,1 109,5 106,7 103,5 98,0 91,8 87,3 82,4 77,0 71,6
2JT8DN SEL D 16 000,0 115,9 112,3 109,5 106,3 100,8 94,6 90,1 85,2 79,8 74,4
2JT8DQ LAmax A 3 000,0 94,9 88,2 83,6 78,6 70,8 62,3 56,1 49,2 41,3 32,8
2JT8DQ LAmax A 6 000,0 99,1 92,4 87,8 82,8 75,0 66,5 60,3 53,4 45,5 37,0
2JT8DQ LAmax D 8 000,0 104,1 97,4 92,7 87,8 80,0 71,6 65,5 58,6 50,9 42,6
2JT8DQ LAmax D 10 000,0 109,2 102,5 98,4 92,8 85,2 76,8 70,8 64,1 56,5 48,5
2JT8DQ LAmax D 12 000,0 114,6 107,9 103,3 98,2 90,5 82,3 76,4 69,7 62,4 54,6
2JT8DQ LAmax D 14 000,0 120,1 113,4 108,8 104,0 96,1 87,9 82,1 75,6 68,4 60,9
2JT8DQ SEL A 3 000,0 94,6 90,8 87,9 84,8 79,8 73,4 69,0 63,6 57,2 50,2
2JT8DQ SEL A 6 000,0 99,8 96,0 93,1 90,0 85,0 78,9 74,2 68,8 62,4 55,4
2JT8DQ SEL D 8 000,0 104,3 100,6 97,7 94,7 89,7 83,7 79,1 73,8 67,6 60,8
2JT8DQ SEL D 10 000,0 109,0 105,2 102,5 99,5 94,6 88,6 84,1 79,0 72,9 66,3
2JT8DQ SEL D 12 000,0 113,8 110,1 107,4 104,5 99,6 93,8 89,3 84,2 78,4 72,1
2JT8DQ SEL D 14 000,0 119,1 115,4 112,8 110,0 105,1 99,4 95,0 90,1 84,4 78,4
2JT8DW LAmax A 3 000,0 102,6 94,6 88,6 82,3 73,8 64,5 58,0 51,0 42,8 34,4
2JT8DW LAmax A 6 000,0 105,4 97,9 91,5 85,8 77,2 68,5 61,9 55,1 47,1 38,5
2JT8DW LAmax D 8 000,0 108,6 100,7 95,6 89,9 81,8 73,2 66,5 59,9 52,0 43,8
2JT8DW LAmax D 10 000,0 111,6 104,3 99,5 94,6 86,3 77,7 71,8 64,9 57,2 48,9
2JT8DW LAmax D 12 000,0 115,9 108,9 104,3 99,4 91,1 82,8 76,8 70,1 62,8 54,6
2JT8DW LAmax D 14 000,0 120,8 113,4 109,4 104,5 96,4 88,2 82,3 75,8 68,6 60,9
2JT8DW SEL A 3 000,0 102,3 97,2 92,9 88,5 82,8 75,6 70,9 65,4 58,8 51,8
2JT8DW SEL A 6 000,0 106,1 100,5 96,7 93,0 87,2 80,9 76,1 70,7 64,1 56,9
2JT8DW SEL D 8 000,0 108,8 103,9 100,5 96,8 91,5 85,7 80,5 75,1 68,9 62,0
2JT8DW SEL D 10 000,0 111,4 107,2 104,3 101,1 95,7 89,5 85,0 79,8 73,5 66,7
2JT8DW SEL D 12 000,0 115,1 111,1 108,4 105,5 100,2 94,3 89,9 85,0 78,8 72,1
2JT8DW SEL D 14 000,0 119,8 115,9 113,3 110,5 105,4 99,7 95,3 90,3 84,5 78,4
2JT8QW LAmax A 3 000,0 94,9 88,2 83,6 78,6 70,8 62,3 56,1 49,2 41,3 32,8
2JT8QW LAmax A 6 000,0 99,1 92,4 87,8 82,8 75,0 66,5 60,3 53,4 45,5 37,0
2JT8QW LAmax D 8 000,0 104,1 97,4 92,7 87,8 80,0 71,6 65,5 58,6 50,9 42,6
2JT8QW LAmax D 10 000,0 109,2 102,5 98,4 92,8 85,2 76,8 70,8 64,1 56,5 48,5
2JT8QW LAmax D 12 000,0 114,6 107,9 103,3 98,2 90,5 82,3 76,4 69,7 62,4 54,6
2JT8QW LAmax D 14 000,0 120,1 113,4 108,8 104,0 96,1 87,9 82,1 75,6 68,4 60,9
2JT8QW SEL A 3 000,0 94,6 90,8 87,9 84,8 79,8 73,4 69,0 63,6 57,2 50,2
2JT8QW SEL A 6 000,0 99,8 96,0 93,1 90,0 85,0 78,9 74,2 68,8 62,4 55,4
2JT8QW SEL D 8 000,0 104,3 100,6 97,7 94,7 89,7 83,7 79,1 73,8 67,6 60,8
2JT8QW SEL D 10 000,0 109,0 105,2 102,5 99,5 94,6 88,6 84,1 79,0 72,9 66,3
2JT8QW SEL D 12 000,0 113,8 110,1 107,4 104,5 99,6 93,8 89,3 84,2 78,4 72,1
2JT8QW SEL D 14 000,0 119,1 115,4 112,8 110,0 105,1 99,4 95,0 90,1 84,4 78,4
2PW535 LAmax A 500,0 89,5 81,8 76,3 70,3 60,6 50,0 42,6 34,6 26,2 17,7
2PW535 LAmax A 700,0 89,6 82,2 76,9 71,1 61,6 51,2 43,9 36,1 28,7 19,5
2PW535 LAmax D 1 200,0 96,1 87,5 81,6 75,4 65,6 55,3 48,3 40,9 33,2 25,6
2PW535 LAmax D 1 600,0 99,2 89,9 83,7 77,2 67,2 57,0 50,2 43,1 35,8 28,8
2PW535 LAmax D 2 000,0 100,7 92,2 86,4 80,3 70,9 61,1 54,4 47,4 40,2 33,1
2PW535 LAmax D 3 000,0 103,5 96,4 91,5 86,1 77,3 67,9 61,3 54,3 46,8 39,4
2PW535 SEL A 500,0 89,4 84,8 81,3 77,4 70,8 63,2 57,8 51,9 45,6 39,1
2PW535 SEL A 700,0 89,3 85,1 81,8 78,1 71,7 64,5 59,3 53,5 47,3 41,0
2PW535 SEL D 1 200,0 90,8 87,1 84,1 80,7 74,7 67,8 62,8 57,2 51,1 44,9
2PW535 SEL D 1 600,0 92,6 89,0 86,2 82,9 77,2 70,6 65,8 60,5 54,7 48,8
2PW535 SEL D 2 000,0 96,0 92,3 89,4 86,1 80,4 73,9 69,2 64,0 58,3 52,6
2PW535 SEL D 3 000,0 102,3 98,9 96,2 93,1 87,7 81,5 77,0 72,0 66,6 61,1
2R2800 LAmax A 30,0 92,6 86,1 81,7 77,0 69,5 61,3 55,5 49,6 43,4 36,6
2R2800 LAmax A 100,0 103,5 97,2 92,9 88,4 81,3 73,6 68,0 61,9 55,3 47,9
2R2800 LAmax D 30,0 92,6 86,1 81,7 77,0 69,5 61,3 55,5 49,6 43,4 36,6
2R2800 LAmax D 100,0 103,5 97,2 92,9 88,4 81,3 73,6 68,0 61,9 55,3 47,9
2R2800 SEL A 30,0 96,9 92,7 89,7 86,5 81,3 75,3 71,0 66,6 61,9 56,6
2R2800 SEL A 100,0 107,5 103,0 99,9 96,6 91,3 85,4 81,0 76,2 70,7 64,5
2R2800 SEL D 30,0 96,9 92,7 89,7 86,5 81,3 75,3 71,0 66,6 61,9 56,6
2R2800 SEL D 100,0 107,5 103,0 99,9 96,6 91,3 85,4 81,0 76,2 70,7 64,5
3JT8D LAmax A 3 000,0 104,6 96,6 90,6 84,3 75,8 66,5 60,0 53,0 44,8 36,4
3JT8D LAmax A 6 000,0 107,4 98,9 93,5 87,8 79,2 70,5 63,9 57,1 49,1 40,5
3JT8D LAmax D 8 000,0 110,6 102,7 97,6 91,9 83,8 75,2 68,5 61,9 54,0 45,8
3JT8D LAmax D 10 000,0 113,6 106,3 101,5 96,6 88,3 79,7 73,8 66,9 59,2 50,9
3JT8D LAmax D 12 000,0 117,9 110,9 106,3 101,4 93,1 84,8 78,8 72,1 64,8 56,6
3JT8D LAmax D 14 000,0 122,8 115,4 111,4 106,5 98,4 90,2 84,3 77,8 70,6 62,8
3JT8D SEL A 3 000,0 104,3 99,2 94,9 90,5 84,8 77,6 72,9 67,4 60,8 53,8
3JT8D SEL A 6 000,0 108,1 102,5 98,7 95,0 89,2 82,9 78,1 72,7 66,1 58,9
3JT8D SEL D 8 000,0 110,8 105,9 102,5 98,8 93,5 87,7 82,5 77,1 70,9 64,0
3JT8D SEL D 10 000,0 113,4 109,2 106,3 103,1 97,7 91,5 87,0 81,8 75,5 68,7
3JT8D SEL D 12 000,0 117,1 113,1 110,4 107,5 102,2 96,3 91,9 87,0 80,8 74,1
3JT8D SEL D 14 000,0 121,8 117,9 115,3 112,5 107,4 101,7 97,3 92,3 86,5 80,4
3JT8DQ LAmax A 3 000,0 96,9 90,2 85,6 80,6 72,8 64,3 58,1 51,2 43,3 34,8
3JT8DQ LAmax A 6 000,0 101,1 94,4 89,8 84,8 77,0 68,5 62,3 55,4 47,5 39,0
3JT8DQ LAmax D 8 000,0 106,1 99,4 94,8 89,8 82,0 73,6 67,5 60,6 52,9 44,6
3JT8DQ LAmax D 10 000,0 111,2 104,5 99,9 95,0 87,2 78,8 72,8 66,1 58,5 50,5
3JT8DQ LAmax D 12 000,0 116,6 109,9 105,3 100,4 92,5 84,3 78,4 71,7 64,4 56,6
3JT8DQ LAmax D 14 000,0 122,1 115,4 110,8 106,0 98,1 89,9 84,1 77,6 70,4 62,9
3JT8DQ SEL A 3 000,0 96,6 92,8 89,8 86,8 81,8 75,4 71,0 65,6 59,2 52,2
3JT8DQ SEL A 6 000,0 101,8 98,0 95,1 92,0 87,0 80,9 76,2 70,8 64,4 57,4
3JT8DQ SEL D 8 000,0 106,3 102,6 99,7 96,7 91,7 85,7 81,1 75,8 69,6 62,8
3JT8DQ SEL D 10 000,0 111,0 107,2 104,5 101,5 96,6 90,6 86,1 81,0 74,9 68,3
3JT8DQ SEL D 12 000,0 115,8 112,1 109,4 106,5 101,6 95,8 91,3 86,2 80,4 74,1
3JT8DQ SEL D 14 000,0 121,1 117,4 114,8 112,0 107,1 101,4 97,0 92,1 86,4 80,4
3JT8E5 LAmax A 3 000,0 96,4 89,3 84,5 79,3 71,3 62,6 56,1 49,0 41,0 32,0
3JT8E5 LAmax A 5 000,0 98,0 91,3 86,7 81,8 74,0 65,4 59,1 52,2 44,3 35,6
3JT8E5 LAmax D 7 000,0 104,7 97,8 93,0 87,8 79,5 70,3 63,4 55,8 47,3 38,0
3JT8E5 LAmax D 10 000,0 109,2 102,3 97,5 92,4 84,2 75,1 68,4 61,3 53,3 44,7
3JT8E5 LAmax D 12 000,0 112,1 105,3 100,6 95,6 87,7 79,3 73,2 66,7 59,5 51,5
3JT8E5 LAmax D 14 000,0 115,5 108,7 104,1 99,1 91,4 83,1 77,1 70,9 63,9 56,2
3JT8E5 SEL A 3 000,0 98,2 93,4 90,1 86,5 80,8 74,4 69,5 63,9 57,5 50,0
3JT8E5 SEL A 5 000,0 99,8 95,4 92,3 89,0 83,5 77,2 72,5 67,1 60,8 53,6
3JT8E5 SEL D 7 000,0 106,5 101,9 98,6 95,0 89,0 82,1 76,8 70,7 63,8 56,0
3JT8E5 SEL D 10 000,0 111,0 106,4 103,1 99,6 93,7 86,9 81,8 76,2 69,8 62,7
3JT8E5 SEL D 12 000,0 113,9 109,4 106,2 102,8 97,2 91,1 86,6 81,6 76,0 69,5
3JT8E5 SEL D 14 000,0 117,3 112,8 109,7 106,3 100,9 94,9 90,5 85,8 80,4 74,2
3JT8E7 LAmax A 3 000,0 95,1 88,3 84,0 78,3 70,1 61,1 54,4 47,2 39,2 30,4
3JT8E7 LAmax A 5 000,0 98,1 91,3 86,5 81,3 73,1 64,1 57,4 50,2 42,2 33,4
3JT8E7 LAmax D 7 000,0 103,9 97,0 92,2 87,0 78,7 69,5 62,6 55,0 46,5 37,2
3JT8E7 LAmax D 10 000,0 109,1 102,2 97,4 92,2 83,9 74,7 68,0 60,8 52,9 44,0
3JT8E7 LAmax D 12 000,0 111,9 105,2 100,4 95,4 87,4 78,6 72,1 65,1 57,0 47,9
3JT8E7 LAmax D 14 000,0 114,6 107,9 103,2 98,2 90,3 81,7 75,2 68,3 60,5 51,7
3JT8E7 SEL A 3 000,0 96,9 92,4 89,6 85,5 79,6 72,9 67,8 62,1 55,7 48,4
3JT8E7 SEL A 5 000,0 99,9 95,4 92,1 88,5 82,6 75,9 70,8 65,1 58,7 51,4
3JT8E7 SEL D 7 000,0 105,7 101,1 97,8 94,2 88,2 81,3 76,0 69,9 63,0 55,2
3JT8E7 SEL D 10 000,0 110,9 106,3 103,0 99,4 93,4 86,5 81,4 75,7 69,4 62,0
3JT8E7 SEL D 12 000,0 113,7 109,3 106,0 102,6 96,9 90,4 85,5 80,0 73,5 65,9
3JT8E7 SEL D 14 000,0 116,4 112,0 108,8 105,4 99,8 93,5 88,6 83,2 77,0 69,7
4R2800 LAmax A 30,0 95,6 89,1 84,7 80,0 72,5 64,3 58,5 52,6 46,4 39,6
4R2800 LAmax A 100,0 106,5 100,2 95,9 91,4 84,3 76,6 71,0 64,9 58,3 50,9
4R2800 LAmax D 30,0 95,6 89,1 84,7 80,0 72,5 64,3 58,5 52,6 46,4 39,6
4R2800 LAmax D 100,0 106,5 100,2 95,9 91,4 84,3 76,6 71,0 64,9 58,3 50,9
4R2800 SEL A 30,0 99,9 95,7 92,7 89,5 84,3 78,3 74,0 69,6 64,9 59,6
4R2800 SEL A 100,0 110,5 106,0 102,9 99,6 94,3 88,4 84,0 79,2 73,7 67,5
4R2800 SEL D 30,0 99,9 95,7 92,7 89,5 84,3 78,3 74,0 69,6 64,9 59,6
4R2800 SEL D 100,0 110,5 106,0 102,9 99,6 94,3 88,4 84,0 79,2 73,7 67,5
501D13 LAmax A 30,0 93,0 86,4 81,8 76,9 68,9 59,4 52,0 44,0 36,2 28,6
501D13 LAmax A 100,0 96,8 90,3 85,9 81,3 74,3 67,0 62,1 57,0 51,5 45,4
501D13 LAmax D 30,0 93,0 86,4 81,8 76,9 68,9 59,4 52,0 44,0 36,2 28,6
501D13 LAmax D 100,0 96,8 90,3 85,9 81,3 74,3 67,0 62,1 57,0 51,5 45,4
501D13 SEL A 30,0 95,0 90,7 87,6 84,2 78,4 71,2 65,3 58,8 52,5 46,4
501D13 SEL A 100,0 97,1 92,8 89,9 86,8 82,0 77,0 73,6 69,9 66,0 61,4
501D13 SEL D 30,0 95,0 90,7 87,6 84,2 78,4 71,2 65,3 58,8 52,5 46,4
501D13 SEL D 100,0 97,1 92,8 89,9 86,8 82,0 77,0 73,6 69,9 66,0 61,4
A310 LAmax A 3 000,0 92,2 86,2 81,7 77,0 69,2 60,4 54,0 47,1 39,4 31,4
A310 LAmax A 12 000,0 95,5 89,4 84,4 79,2 70,8 61,9 55,6 48,6 40,8 32,6
A310 LAmax D 20 000,0 101,6 93,8 88,6 82,7 73,0 63,1 56,1 48,3 40,1 31,8
A310 LAmax D 30 000,0 103,4 95,3 89,9 84,2 75,4 66,1 59,6 52,5 44,5 36,1
A310 LAmax D 40 000,0 104,4 96,9 91,9 86,6 78,3 69,2 62,7 55,7 48,0 39,7
A310 LAmax D 50 000,0 108,8 101,6 96,7 91,5 83,0 73,7 67,7 61,0 53,3 44,8
A310 SEL A 3 000,0 97,5 93,3 90,1 87,0 81,6 75,7 71,2 66,4 60,0 51,9
A310 SEL A 12 000,0 98,9 94,5 91,3 88,0 82,6 76,4 71,8 66,4 60,5 52,3
A310 SEL D 20 000,0 102,7 98,3 94,5 90,5 83,8 76,5 71,6 66,1 59,5 52,7
A310 SEL D 30 000,0 103,7 99,2 95,8 92,3 86,7 80,4 75,8 70,4 64,3 57,6
A310 SEL D 40 000,0 104,5 100,4 97,6 94,4 89,2 83,4 79,0 73,9 68,0 61,4
A310 SEL D 50 000,0 108,0 103,9 101,2 98,2 93,3 87,8 83,6 78,6 72,9 66,4
AE3007 LAmax A 2 000,0 85,5 78,7 74,2 69,3 61,5 52,7 46,4 39,3 31,2 22,7
AE3007 LAmax A 3 000,0 90,4 83,5 78,7 73,5 65,5 56,8 50,6 43,6 35,4 26,9
AE3007 LAmax D 4 000,0 90,8 84,3 79,8 75,1 67,5 58,9 52,6 45,5 37,4 28,6
AE3007 LAmax D 5 000,0 93,0 86,6 82,1 77,4 69,8 61,2 54,9 47,8 39,8 31,3
AE3007 LAmax D 6 000,0 96,0 89,5 85,0 80,3 72,6 64,0 57,7 50,6 42,5 34,0
AE3007 SEL A 2 000,0 89,8 85,6 82,7 79,5 74,1 67,8 63,2 57,7 51,4 44,3
AE3007 SEL A 3 000,0 92,7 88,6 85,6 82,3 77,0 70,9 66,3 61,0 54,8 47,9
AE3007 SEL D 4 000,0 91,7 88,1 85,4 82,5 77,7 72,0 67,6 62,4 56,1 49,1
AE3007 SEL D 5 000,0 93,6 90,0 87,4 84,6 79,8 74,2 69,9 64,8 58,7 51,9
AE3007 SEL D 6 000,0 96,7 93,0 90,3 87,5 82,8 77,2 72,8 67,7 61,6 54,9
AE300C LAmax A 1 100,0 88,6 80,4 74,8 69,0 59,9 50,4 44,0 37,0 30,4 23,6
AE300C LAmax A 1 400,0 88,6 80,4 74,8 69,0 59,9 50,4 44,0 37,0 30,4 23,6
AE300C LAmax A 1 900,0 88,6 80,7 75,3 69,5 60,6 51,3 44,9 38,1 31,3 24,5
AE300C LAmax D 3 500,0 90,6 83,5 78,4 73,1 64,4 55,2 48,7 42,0 34,7 27,5
AE300C LAmax D 4 500,0 92,7 85,7 80,7 75,5 67,1 58,1 51,9 45,2 38,3 31,4
AE300C LAmax D 5 500,0 94,7 88,0 83,3 78,2 69,9 60,9 54,7 47,9 40,9 33,9
AE300C SEL A 1 100,0 91,1 86,1 82,6 78,7 72,5 65,8 61,1 56,0 50,8 45,5
AE300C SEL A 1 400,0 91,1 86,1 82,6 78,7 72,5 65,8 61,1 56,0 50,8 45,5
AE300C SEL A 1 900,0 92,5 87,1 83,3 79,4 73,1 66,4 61,8 56,7 51,8 46,8
AE300C SEL D 3 500,0 92,9 88,2 84,7 80,8 74,4 67,2 62,1 56,7 50,6 44,6
AE300C SEL D 4 500,0 95,2 90,4 87,0 83,2 77,1 70,4 65,7 60,6 55,2 49,8
AE300C SEL D 5 500,0 96,6 92,4 89,3 85,7 79,7 72,9 68,0 62,7 57,0 51,2
AL502L LAmax A 1 900,0 88,4 81,5 76,6 71,3 62,7 53,2 46,4 39,1 31,4 23,2
AL502L LAmax A 5 000,0 98,0 91,5 86,9 82,2 74,4 65,8 59,4 52,6 45,1 36,8
AL502L LAmax D 1 900,0 88,4 81,5 76,6 71,3 62,7 53,2 46,4 39,1 31,4 23,2
AL502L LAmax D 5 000,0 98,0 91,5 86,9 82,2 74,4 65,8 59,4 52,6 45,1 36,8
AL502L SEL A 1 900,0 90,2 85,5 82,1 78,3 72,0 64,7 59,4 53,6 47,4 40,7
AL502L SEL A 5 000,0 101,1 96,8 93,8 90,5 85,0 78,6 73,8 68,4 62,5 55,6
AL502L SEL D 1 900,0 90,2 85,5 82,1 78,3 72,0 64,7 59,4 53,6 47,4 40,7
AL502L SEL D 5 000,0 101,1 96,8 93,8 90,5 85,0 78,6 73,8 68,4 62,5 55,6
AL502R LAmax A 1 600,0 91,2 84,5 79,7 74,5 66,3 57,0 50,1 42,3 33,7 25,0
AL502R LAmax A 5 200,0 101,6 94,8 89,8 84,6 76,3 67,5 61,2 54,3 47,0 39,7
AL502R LAmax D 1 600,0 91,2 84,5 79,7 74,5 66,3 57,0 50,1 42,3 33,7 25,0
AL502R LAmax D 5 200,0 101,6 94,8 89,8 84,6 76,3 67,5 61,2 54,3 47,0 39,7
AL502R SEL A 1 600,0 92,9 89,0 86,0 82,7 77,3 70,4 65,0 58,7 51,6 44,3
AL502R SEL A 5 200,0 102,3 98,4 95,4 92,1 86,8 80,4 75,6 70,3 64,4 58,7
AL502R SEL D 1 600,0 92,9 89,0 86,0 82,7 77,3 70,4 65,0 58,7 51,6 44,3
AL502R SEL D 5 200,0 102,3 98,4 95,4 92,1 86,8 80,4 75,6 70,3 64,4 58,7
BR710 LAmax A 1 830,0 87,7 80,6 75,8 70,7 62,6 54,0 47,8 41,1 33,7 26,0
BR710 LAmax A 2 000,0 87,9 80,7 75,9 70,7 62,7 54,0 47,9 41,2 33,7 25,9
BR710 LAmax A 3 000,0 88,9 81,7 76,7 71,5 63,4 54,8 48,6 41,7 34,1 26,1
BR710 LAmax A 4 000,0 90,1 82,9 77,9 72,7 64,6 55,9 49,7 42,8 35,1 27,1
BR710 LAmax A 5 000,0 92,5 85,3 80,4 75,0 66,6 57,6 51,1 44,0 35,9 27,5
BR710 LAmax A 6 000,0 94,7 87,7 82,7 77,3 68,8 59,8 53,3 46,0 37,9 29,3
BR710 LAmax A 7 000,0 96,7 89,7 84,7 79,3 70,9 61,8 55,2 47,9 39,7 31,1
BR710 LAmax A 8 000,0 98,4 91,5 86,5 81,1 72,7 63,6 57,1 49,8 41,6 32,9
BR710 LAmax A 9 000,0 99,9 93,0 88,0 82,7 74,4 65,3 58,8 51,5 43,3 34,7
BR710 LAmax A 10 000,0 101,0 94,1 89,3 84,0 75,8 66,8 60,4 53,2 45,0 36,5
BR710 LAmax A 11 000,0 101,6 95,0 90,2 85,1 77,0 68,2 61,8 54,7 46,7 38,3
BR710 LAmax A 12 000,0 102,6 95,6 90,9 85,9 78,0 69,3 63,1 56,1 48,3 40,1
BR710 LAmax A 12 900,0 102,9 95,9 91,3 86,4 78,7 70,3 64,1 57,3 49,7 41,7
BR710 LAmax D 4 000,0 90,0 82,7 77,7 72,5 64,1 55,2 48,9 41,8 33,9 25,7
BR710 LAmax D 5 000,0 92,5 85,3 80,4 75,0 66,6 57,6 51,1 44,0 35,9 27,5
BR710 LAmax D 6 000,0 94,7 87,7 82,7 77,3 68,8 59,8 53,3 46,0 37,9 29,3
BR710 LAmax D 7 000,0 96,7 89,7 84,7 79,3 70,9 61,8 55,2 47,9 39,7 31,1
BR710 LAmax D 8 000,0 98,4 91,5 86,5 81,1 72,7 63,6 57,1 49,8 41,6 32,9
BR710 LAmax D 9 000,0 99,9 93,0 88,0 82,7 74,4 65,3 58,8 51,5 43,3 34,7
BR710 LAmax D 10 000,0 101,0 94,1 89,3 84,0 75,8 66,8 60,4 53,2 45,0 36,5
BR710 LAmax D 11 000,0 101,6 95,0 90,2 85,1 77,0 68,2 61,8 54,7 46,7 38,3
BR710 LAmax D 12 000,0 102,6 95,6 90,9 85,9 78,0 69,3 63,1 56,1 48,3 40,1
BR710 LAmax D 12 900,0 102,9 95,9 91,3 86,4 78,7 70,3 64,1 57,3 49,7 41,7
BR710 SEL A 1 830,0 90,3 85,8 82,8 79,6 74,3 68,3 63,8 58,7 53,0 46,8
BR710 SEL A 2 000,0 90,3 85,9 82,9 79,7 74,4 68,4 63,9 58,8 53,0 46,8
BR710 SEL A 3 000,0 91,0 86,6 83,6 80,3 75,0 69,1 64,6 59,5 53,6 47,2
BR710 SEL A 4 000,0 92,2 87,6 84,5 81,2 76,0 70,1 65,7 60,6 54,7 48,2
BR710 SEL A 5 000,0 92,7 88,5 85,6 82,3 76,9 70,8 66,3 61,1 54,9 48,1
BR710 SEL A 6 000,0 94,7 90,5 87,6 84,2 78,8 72,7 68,1 62,9 56,7 49,9
BR710 SEL A 7 000,0 96,5 92,4 89,4 86,1 80,6 74,5 69,9 64,7 58,5 51,7
BR710 SEL A 8 000,0 98,1 94,1 91,1 87,8 82,3 76,2 71,7 66,4 60,3 53,5
BR710 SEL A 9 000,0 99,6 95,6 92,6 89,4 83,9 77,9 73,4 68,1 62,0 55,3
BR710 SEL A 10 000,0 100,9 96,9 94,0 90,8 85,5 79,5 75,0 69,8 63,8 57,1
BR710 SEL A 11 000,0 102,1 98,1 95,3 92,2 86,9 81,0 76,6 71,5 65,5 58,9
BR710 SEL A 12 000,0 103,1 99,1 96,4 93,4 88,3 82,5 78,1 73,1 67,2 60,7
BR710 SEL A 12 900,0 103,8 99,9 97,3 94,4 89,5 83,8 79,5 74,5 68,7 62,3
BR710 SEL D 4 000,0 90,5 86,4 83,5 80,2 74,9 68,9 64,4 59,2 53,0 46,2
BR710 SEL D 5 000,0 92,7 88,5 85,6 82,3 76,9 70,8 66,3 61,1 54,9 48,1
BR710 SEL D 6 000,0 94,7 90,5 87,6 84,2 78,8 72,7 68,1 62,9 56,7 49,9
BR710 SEL D 7 000,0 96,5 92,4 89,4 86,1 80,6 74,5 69,9 64,7 58,5 51,7
BR710 SEL D 8 000,0 98,1 94,1 91,1 87,8 82,3 76,2 71,7 66,4 60,3 53,5
BR710 SEL D 9 000,0 99,6 95,6 92,6 89,4 83,9 77,9 73,4 68,1 62,0 55,3
BR710 SEL D 10 000,0 100,9 96,9 94,0 90,8 85,5 79,5 75,0 69,8 63,8 57,1
BR710 SEL D 11 000,0 102,1 98,1 95,3 92,2 86,9 81,0 76,6 71,5 65,5 58,9
BR710 SEL D 12 000,0 103,1 99,1 96,4 93,4 88,3 82,5 78,1 73,1 67,2 60,7
BR710 SEL D 12 900,0 103,8 99,9 97,3 94,4 89,5 83,8 79,5 74,5 68,7 62,3
BR715 LAmax A 4 250,0 89,2 81,6 76,8 71,6 63,4 54,6 48,3 41,6 34,7 28,2
BR715 LAmax A 5 000,0 89,6 82,4 77,5 72,4 64,2 55,4 49,1 42,3 35,5 28,9
BR715 LAmax A 5 750,0 89,9 83,0 78,2 73,0 64,9 56,1 49,7 43,0 36,1 29,6
BR715 LAmax A 9 875,0 93,8 87,0 82,4 77,6 69,8 61,4 55,3 48,6 41,8 35,3
BR715 LAmax D 11 000,0 95,7 88,9 84,3 79,5 71,7 63,1 57,0 50,2 43,4 36,9
BR715 LAmax D 13 000,0 98,6 91,9 87,3 82,5 74,6 66,0 59,8 52,9 46,0 39,4
BR715 LAmax D 15 000,0 101,2 94,5 90,0 85,1 77,2 68,5 62,2 55,3 48,3 41,6
BR715 LAmax D 17 000,0 103,5 97,0 92,4 87,5 79,6 70,7 64,4 57,4 50,4 43,7
BR715 LAmax D 19 000,0 106,4 99,9 95,3 90,4 82,4 73,4 67,0 60,0 52,9 46,2
BR715 LAmax D 19 750,0 107,5 101,0 96,5 91,6 83,5 74,5 68,1 61,1 53,9 47,2
BR715 SEL A 4 250,0 91,9 87,1 84,1 80,7 75,2 69,0 64,4 59,4 54,2 49,4
BR715 SEL A 5 000,0 92,2 88,0 84,9 81,5 76,1 69,9 65,3 60,3 55,2 50,3
BR715 SEL A 5 750,0 92,5 88,6 85,6 82,2 76,8 70,6 66,0 61,0 55,9 51,1
BR715 SEL A 9 875,0 95,7 91,5 88,7 85,6 80,5 74,8 70,5 65,6 60,7 56,0
BR715 SEL D 11 000,0 97,3 93,1 90,3 87,2 82,1 76,4 72,1 67,2 62,3 57,6
BR715 SEL D 13 000,0 99,8 95,7 92,9 89,8 84,7 78,9 74,7 69,8 64,9 60,2
BR715 SEL D 15 000,0 102,1 98,0 95,2 92,1 87,0 81,2 77,0 72,1 67,2 62,5
BR715 SEL D 17 000,0 104,1 100,1 97,3 94,2 89,1 83,3 79,0 74,2 69,2 64,6
BR715 SEL D 19 000,0 106,6 102,7 99,8 96,7 91,6 85,8 81,5 76,7 71,8 67,2
BR715 SEL D 19 750,0 107,6 103,7 100,8 97,7 92,6 86,8 82,5 77,7 72,8 68,2
CF34 LAmax A 2 000,0 87,3 80,7 76,0 71,1 63,0 54,1 47,6 40,6 33,0 24,6
CF34 LAmax A 3 000,0 90,6 83,8 79,0 73,9 65,6 56,5 49,8 42,7 34,9 26,5
CF34 LAmax D 4 000,0 93,1 86,3 81,5 76,5 68,4 59,6 53,1 46,0 38,2 29,6
CF34 LAmax D 5 000,0 95,0 88,2 83,5 78,6 70,6 61,9 55,6 48,7 40,9 32,3
CF34 LAmax D 6 000,0 97,2 90,9 86,1 81,2 73,2 64,5 58,2 51,5 43,5 34,9
CF34 SEL A 2 000,0 90,9 86,7 83,3 79,9 74,1 67,4 62,4 56,9 50,7 43,9
CF34 SEL A 3 000,0 94,3 89,8 86,5 82,9 76,9 70,0 64,8 59,2 52,9 46,0
CF34 SEL D 4 000,0 96,3 91,8 88,5 85,0 79,1 72,5 67,5 61,9 55,6 48,6
CF34 SEL D 5 000,0 97,7 93,2 90,0 86,5 80,8 74,3 69,5 64,1 57,9 50,7
CF34 SEL D 6 000,0 99,7 95,2 92,0 88,5 82,8 76,3 71,5 66,1 59,9 52,7
CF3410E LAmax A 3 000,0 90,1 83,6 79,1 74,4 66,9 58,6 52,6 45,7 37,9 29,5
CF3410E LAmax A 5 000,0 91,9 85,3 80,7 75,9 68,3 59,9 53,9 47,2 39,6 31,4
CF3410E LAmax D 8 000,0 94,9 88,5 84,0 79,3 71,9 63,7 57,7 51,0 43,3 34,8
CF3410E LAmax D 10 000,0 97,6 91,1 86,6 81,9 74,3 66,0 60,2 53,4 45,6 37,1
CF3410E LAmax D 15 000,0 103,3 96,8 92,3 87,5 79,8 71,3 65,1 58,3 50,4 42,0
CF3410E SEL A 3 000,0 92,5 88,8 86,1 83,2 78,4 72,7 68,3 63,3 57,2 50,5
CF3410E SEL A 5 000,0 93,9 90,1 87,4 84,4 79,5 73,9 69,6 64,7 58,9 52,4
CF3410E SEL D 8 000,0 95,9 92,2 89,6 86,7 81,8 76,3 72,1 67,1 61,2 54,5
CF3410E SEL D 10 000,0 98,6 94,9 92,1 89,2 84,4 78,8 74,6 69,9 63,9 57,2
CF3410E SEL D 15 000,0 103,8 100,2 97,5 94,6 89,8 84,1 79,9 74,9 69,1 62,6
CF348C5 LAmax A 2 500,0 89,7 83,1 78,6 73,8 66,2 57,6 51,3 44,1 36,0 27,3
CF348C5 LAmax A 7 250,0 91,3 84,7 80,2 75,4 67,6 58,9 52,6 45,5 37,6 29,2
CF348C5 LAmax D 7 250,0 94,5 87,9 83,5 78,7 71,0 62,3 56,0 48,8 40,5 31,7
CF348C5 LAmax D 16 250,0 103,6 97,1 92,6 87,9 80,2 71,6 65,3 58,3 50,3 42,0
CF348C5 SEL A 2 500,0 93,1 89,2 86,4 83,3 78,2 72,0 67,1 61,5 54,9 47,7
CF348C5 SEL A 7 250,0 95,2 91,0 88,1 85,0 79,8 73,6 68,8 63,2 56,8 49,9
CF348C5 SEL D 7 250,0 96,4 92,3 89,5 86,5 81,5 75,3 70,4 64,7 58,0 50,6
CF348C5 SEL D 16 250,0 104,7 100,9 98,2 95,3 90,4 84,4 79,6 74,0 67,6 60,7
CF348E LAmax A 3 000,0 91,1 84,4 79,8 74,8 66,8 57,8 51,3 44,0 35,9 27,5
CF348E LAmax A 4 000,0 92,0 85,3 80,7 75,8 67,8 59,0 52,5 45,5 37,6 29,6
CF348E LAmax D 7 000,0 95,5 88,9 84,3 79,4 71,5 62,8 56,5 49,5 41,6 33,5
CF348E LAmax D 9 000,0 99,3 92,7 88,2 83,4 75,5 66,8 60,6 53,7 46,0 38,0
CF348E LAmax D 11 000,0 103,3 96,6 92,0 87,1 79,2 70,3 64,0 57,2 49,6 41,8
CF348E SEL A 3 000,0 93,5 89,6 86,7 83,5 78,2 72,0 67,2 61,6 55,3 48,6
CF348E SEL A 4 000,0 94,7 90,7 87,9 84,7 79,4 73,3 68,7 63,3 57,2 50,7
CF348E SEL D 7 000,0 97,3 93,2 90,5 87,4 82,3 76,2 71,7 66,4 60,4 54,0
CF348E SEL D 9 000,0 100,3 96,5 93,9 91,0 86,0 80,3 75,9 70,9 65,0 58,6
CF348E SEL D 11 000,0 103,4 99,7 97,1 94,2 89,4 83,8 79,5 74,6 68,9 62,5
CF565C LAmax A 3 000,0 93,3 86,6 82,1 77,3 69,7 61,5 55,6 48,9 41,5 33,6
CF565C LAmax A 5 000,0 94,2 87,3 82,5 77,6 69,9 61,6 55,6 49,0 41,5 33,6
CF565C LAmax D 12 500,0 98,9 89,4 82,8 76,4 67,3 57,8 51,3 44,2 36,3 27,7
CF565C LAmax D 20 000,0 103,4 95,3 89,8 83,9 75,3 66,2 59,9 53,0 45,0 36,3
CF565C LAmax D 27 500,0 106,9 99,4 94,4 89,3 81,0 71,9 65,4 58,3 50,2 41,5
CF565C SEL A 3 000,0 98,7 92,8 89,9 86,8 81,7 76,0 71,7 66,6 60,8 54,3
CF565C SEL A 5 000,0 99,0 93,3 90,1 86,9 81,9 76,1 71,8 66,7 60,9 54,3
CF565C SEL D 12 500,0 98,8 92,6 88,7 84,8 78,6 71,9 67,1 61,6 55,4 48,5
CF565C SEL D 20 000,0 105,3 99,9 96,4 92,9 87,3 81,0 76,4 70,9 64,7 57,8
CF565C SEL D 27 500,0 108,0 103,5 100,5 97,4 92,1 86,2 81,7 76,2 70,7 64,6
CF567B LAmax A 3 000,0 93,0 85,9 81,1 76,1 68,0 59,2 52,5 45,6 37,5 29,3
CF567B LAmax A 4 000,0 93,6 86,5 81,7 76,6 68,7 59,9 53,4 46,6 37,8 29,7
CF567B LAmax A 5 000,0 94,1 87,0 82,2 77,2 69,2 60,5 54,1 47,4 39,0 31,1
CF567B LAmax A 6 000,0 94,6 87,5 82,7 77,6 69,7 61,1 54,7 48,1 40,4 32,9
CF567B LAmax A 7 000,0 95,0 87,9 83,0 78,0 70,1 61,5 55,2 48,7 41,8 34,5
CF567B LAmax D 10 000,0 95,2 87,9 83,6 78,8 71,3 63,0 57,3 50,4 44,2 36,9
CF567B LAmax D 13 000,0 98,1 91,0 86,7 82,0 74,5 66,3 60,7 53,9 46,9 39,6
CF567B LAmax D 16 000,0 100,5 93,7 89,3 84,6 77,3 69,2 63,5 56,8 49,4 42,1
CF567B LAmax D 19 000,0 102,7 96,0 91,7 87,1 79,7 71,7 66,1 59,5 52,2 44,9
CF567B LAmax D 23 500,0 107,2 100,9 96,5 91,9 84,7 76,8 71,4 64,6 57,7 50,4
CF567B SEL A 3 000,0 95,5 91,3 88,2 84,9 79,5 73,3 68,3 63,2 55,9 49,6
CF567B SEL A 4 000,0 96,2 91,9 88,8 85,6 80,2 74,1 69,4 64,3 56,8 50,7
CF567B SEL A 5 000,0 96,7 92,5 89,4 86,1 80,8 74,8 70,1 65,2 58,0 52,4
CF567B SEL A 6 000,0 97,2 93,0 89,9 86,7 81,4 75,5 70,9 66,0 59,4 54,3
CF567B SEL A 7 000,0 97,7 93,4 90,4 87,1 81,9 76,0 71,5 66,7 60,8 55,6
CF567B SEL D 10 000,0 96,3 92,1 89,4 86,3 81,4 75,9 72,0 67,0 61,3 51,9
CF567B SEL D 13 000,0 99,2 95,2 92,4 89,4 84,7 79,3 75,4 70,5 64,5 56,1
CF567B SEL D 16 000,0 101,7 97,6 95,0 92,1 87,4 82,1 78,3 73,5 67,3 60,0
CF567B SEL D 19 000,0 103,9 99,9 97,3 94,5 89,9 84,7 81,0 76,2 70,3 63,7
CF567B SEL D 23 500,0 108,4 104,5 102,0 99,3 95,0 89,9 86,4 81,5 75,5 69,5
CF66D LAmax A 8 000,0 99,2 92,0 86,6 81,0 72,1 63,0 56,5 49,1 40,8 32,5
CF66D LAmax A 14 000,0 102,1 95,0 89,9 84,5 76,0 67,0 60,6 53,3 45,1 37,1
CF66D LAmax D 20 000,0 104,5 97,6 92,7 87,5 79,3 70,4 64,1 56,9 48,9 41,0
CF66D LAmax D 28 000,0 106,2 99,4 94,6 89,5 81,5 72,6 66,4 59,3 51,3 43,6
CF66D LAmax D 36 000,0 107,8 101,1 96,5 91,5 83,7 74,9 68,7 61,7 53,8 46,2
CF66D SEL A 8 000,0 100,7 95,5 91,7 87,5 81,1 74,0 68,8 63,0 56,3 49,7
CF66D SEL A 14 000,0 104,4 99,5 95,9 92,0 85,9 79,0 73,9 68,3 61,7 55,2
CF66D SEL D 20 000,0 106,8 102,2 98,7 95,0 89,0 82,3 77,3 71,8 65,4 58,9
CF66D SEL D 28 000,0 109,3 104,8 101,4 98,0 92,2 85,6 80,7 75,3 69,0 62,6
CF66D SEL D 36 000,0 110,9 106,6 103,3 100,0 94,3 87,8 83,0 77,6 71,4 65,1
CF680C LAmax A 5 500,0 94,4 87,4 82,8 78,0 70,4 61,9 55,7 48,8 40,9 31,7
CF680C LAmax A 7 000,0 95,3 88,1 83,5 78,5 70,7 62,1 55,8 49,0 40,9 31,4
CF680C LAmax A 12 000,0 95,9 88,8 84,1 79,1 71,3 62,7 56,4 49,6 41,7 32,5
CF680C LAmax A 15 000,0 98,9 91,2 86,2 80,7 72,3 63,4 57,0 50,1 42,0 32,1
CF680C LAmax D 17 000,0 101,6 93,6 87,8 81,4 71,6 62,2 55,8 48,8 40,6 30,5
CF680C LAmax D 21 000,0 100,8 93,1 87,6 81,7 72,6 63,6 57,4 50,7 42,7 33,0
CF680C LAmax D 25 000,0 100,6 93,1 87,8 82,3 73,8 65,0 59,0 52,4 44,7 35,2
CF680C LAmax D 33 000,0 101,3 94,2 89,3 84,2 76,3 67,9 62,1 55,7 48,2 39,2
CF680C LAmax D 41 000,0 103,1 96,3 91,5 86,7 79,1 70,9 65,1 58,9 51,5 42,6
CF680C LAmax D 54 000,0 109,7 103,2 98,8 94,0 86,4 78,2 72,5 66,2 59,0 50,4
CF680C SEL A 5 500,0 95,9 93,2 90,4 87,2 82,1 76,2 71,6 66,4 60,4 53,5
CF680C SEL A 7 000,0 96,6 93,7 90,7 87,5 82,2 76,2 71,5 66,4 60,4 53,4
CF680C SEL A 12 000,0 98,0 94,9 91,8 88,5 83,0 76,9 72,2 67,1 61,0 53,9
CF680C SEL A 15 000,0 99,2 97,1 93,8 90,1 84,2 77,6 72,9 67,7 61,6 54,5
CF680C SEL D 17 000,0 104,5 99,3 95,3 90,7 83,1 75,4 70,6 65,4 59,2 51,4
CF680C SEL D 21 000,0 103,1 98,4 94,7 90,5 83,7 76,8 72,3 67,3 61,4 53,9
CF680C SEL D 25 000,0 102,5 98,0 94,6 90,8 84,6 78,2 73,8 69,1 63,4 56,2
CF680C SEL D 33 000,0 102,6 98,5 95,5 92,1 86,7 80,9 76,9 72,3 66,9 60,1
CF680C SEL D 41 000,0 104,0 100,1 97,3 94,2 89,2 83,8 79,9 75,4 70,1 63,5
CF680C SEL D 54 000,0 109,8 106,1 103,6 100,8 96,1 90,8 86,9 82,6 77,5 71,2
CF680E LAmax A 6 000,0 93,8 86,6 82,0 77,2 69,6 61,4 55,4 48,7 41,1 33,0
CF680E LAmax A 12 000,0 96,7 89,2 84,3 79,1 71,0 62,4 56,2 49,2 41,6 33,5
CF680E LAmax D 34 000,0 105,5 97,4 92,0 86,3 77,7 68,4 61,8 54,3 46,2 37,4
CF680E LAmax D 42 000,0 106,0 98,2 93,2 88,0 79,8 70,7 64,2 56,9 48,8 40,1
CF680E LAmax D 52 000,0 107,5 100,1 95,2 90,2 82,3 73,8 67,6 60,6 52,7 44,0
CF680E LAmax D 62 000,0 111,7 104,4 99,6 94,5 86,6 78,4 72,4 65,6 57,6 48,8
CF680E SEL A 6 000,0 99,1 93,5 90,3 87,1 81,9 76,1 71,7 66,6 60,3 53,7
CF680E SEL A 12 000,0 100,0 94,8 91,5 88,2 82,8 76,9 72,3 67,1 60,8 54,2
CF680E SEL D 34 000,0 106,7 101,4 98,1 94,5 88,6 82,2 77,6 72,2 65,9 58,9
CF680E SEL D 42 000,0 107,2 102,4 99,4 96,0 90,6 84,4 79,9 74,6 68,4 61,5
CF680E SEL D 52 000,0 108,4 104,1 101,2 98,2 93,2 87,4 83,0 77,6 71,6 64,8
CF680E SEL D 62 000,0 112,7 108,3 105,4 102,5 97,6 91,9 87,7 82,5 76,5 70,4
CF700 LAmax A 850,0 98,2 90,6 84,9 78,7 68,7 59,1 52,4 45,3 37,6 29,2
CF700 LAmax A 1 500,0 100,5 93,5 88,6 83,5 74,6 64,9 57,6 49,7 41,7 33,0
CF700 LAmax D 2 500,0 101,0 94,0 89,1 84,0 75,9 66,9 60,2 52,8 44,8 36,1
CF700 LAmax D 3 750,0 108,6 101,4 96,3 91,0 82,4 72,6 65,3 57,2 48,4 38,9
CF700 SEL A 850,0 100,7 95,3 91,2 86,4 78,7 71,4 66,2 60,5 54,4 47,4
CF700 SEL A 1 500,0 102,8 97,8 94,1 90,0 83,4 75,9 70,1 63,7 57,2 50,0
CF700 SEL D 2 500,0 104,2 99,5 96,1 92,5 86,7 79,9 74,7 68,9 62,3 55,1
CF700 SEL D 3 750,0 111,3 106,4 102,8 99,0 92,6 85,1 79,2 72,7 65,4 57,4
CFM562 LAmax A 5 000,0 96,4 89,8 85,2 80,4 72,6 64,0 57,5 50,3 42,1 33,4
CFM562 LAmax A 10 000,0 100,5 94,0 89,2 84,4 76,7 68,7 61,8 54,7 46,5 37,8
CFM562 LAmax D 10 000,0 100,5 94,0 89,2 84,4 76,7 68,7 61,8 54,7 46,5 37,8
CFM562 LAmax D 15 500,0 106,1 99,5 94,8 89,9 82,3 73,9 67,8 60,8 52,6 43,9
CFM562 SEL A 5 000,0 97,9 93,5 90,4 87,1 81,9 75,6 70,7 64,9 58,2 51,0
CFM562 SEL A 10 000,0 101,5 97,2 94,2 91,0 85,9 79,8 75,0 69,3 62,6 55,4
CFM562 SEL D 10 000,0 101,5 97,2 94,2 91,0 85,9 79,8 75,0 69,3 62,6 55,4
CFM562 SEL D 15 500,0 106,5 102,5 99,6 96,5 91,6 85,7 81,0 75,5 68,9 61,6
CFM563 LAmax A 2 500,0 93,4 85,7 80,8 75,6 67,4 58,2 51,5 44,0 36,5 29,1
CFM563 LAmax A 3 500,0 94,5 86,7 81,8 76,5 68,2 59,1 52,5 45,1 37,6 30,4
CFM563 LAmax A 4 500,0 95,8 88,0 83,0 77,7 69,5 60,4 53,9 46,6 39,2 32,1
CFM563 LAmax A 5 500,0 97,2 89,3 84,4 79,1 71,0 62,0 55,6 48,3 41,0 33,9
CFM563 LAmax D 6 500,0 95,8 89,1 84,5 79,6 71,7 63,2 56,9 49,8 42,5 35,7
CFM563 LAmax D 9 000,0 97,0 90,3 85,8 80,9 73,2 64,8 58,6 51,6 44,5 37,8
CFM563 LAmax D 11 500,0 98,6 92,0 87,4 82,7 75,0 66,7 60,6 53,8 46,8 40,2
CFM563 LAmax D 14 000,0 100,4 93,8 89,3 84,5 77,0 68,8 62,8 56,0 49,2 42,7
CFM563 LAmax D 16 500,0 102,2 95,7 91,2 86,5 79,0 70,9 65,0 58,4 51,6 45,3
CFM563 LAmax D 19 000,0 104,4 97,9 93,5 88,9 81,5 73,5 67,6 61,1 54,5 48,3
CFM563 SEL A 2 500,0 94,7 90,2 87,1 83,7 78,1 71,5 66,7 61,1 55,4 49,8
CFM563 SEL A 3 500,0 96,3 91,5 88,3 84,7 79,0 72,5 67,7 62,2 56,6 51,2
CFM563 SEL A 4 500,0 97,6 92,8 89,5 85,8 80,1 73,7 69,0 63,6 58,1 52,8
CFM563 SEL A 5 500,0 98,8 93,9 90,6 86,9 81,4 75,0 70,4 65,1 59,7 54,4
CFM563 SEL D 6 500,0 96,4 92,3 89,3 86,1 80,9 75,2 70,8 65,6 60,3 55,4
CFM563 SEL D 9 000,0 97,9 93,7 90,7 87,5 82,4 76,8 72,5 67,5 62,5 57,7
CFM563 SEL D 11 500,0 99,5 95,4 92,5 89,3 84,3 78,9 74,7 69,9 64,9 60,3
CFM563 SEL D 14 000,0 101,1 97,2 94,4 91,3 86,5 81,2 77,1 72,3 67,5 63,0
CFM563 SEL D 16 500,0 102,8 99,0 96,3 93,5 88,8 83,6 79,6 74,9 70,2 65,8
CFM563 SEL D 19 000,0 104,7 101,2 98,7 96,0 91,5 86,4 82,5 78,0 73,4 69,1
CFM565 LAmax A 2 700,0 91,7 84,4 79,7 74,8 67,0 58,5 52,2 45,3 37,5 29,5
CFM565 LAmax A 6 000,0 93,8 86,1 80,9 75,6 67,4 58,7 52,4 45,5 37,7 29,7
CFM565 LAmax D 12 000,0 100,3 92,0 86,2 80,3 71,1 61,7 55,4 48,6 40,9 33,1
CFM565 LAmax D 15 500,0 102,5 94,9 89,5 83,6 74,0 65,0 58,8 52,1 44,7 36,8
CFM565 LAmax D 19 000,0 104,3 96,6 91,1 85,7 77,2 68,2 62,2 55,5 47,9 40,0
CFM565 LAmax D 22 500,0 105,9 98,9 94,1 88,9 80,9 72,5 66,1 59,4 51,7 43,3
CFM565 SEL A 2 700,0 96,6 90,5 87,5 84,2 78,9 72,8 68,2 62,9 56,8 50,3
CFM565 SEL A 6 000,0 97,4 91,6 88,2 84,8 79,3 73,1 68,5 63,3 57,1 50,6
CFM565 SEL D 12 000,0 100,9 96,2 92,4 88,3 81,9 75,5 71,1 66,0 60,0 53,8
CFM565 SEL D 15 500,0 103,6 99,0 95,3 91,5 85,6 79,3 74,9 69,9 64,2 57,9
CFM565 SEL D 19 000,0 104,7 100,5 97,3 93,9 88,3 82,4 78,1 73,2 67,3 61,0
CFM565 SEL D 22 500,0 106,5 102,4 99,6 96,4 91,4 85,7 81,5 76,5 70,8 64,3
CJ610 LAmax A 700,0 98,5 91,9 87,3 82,4 74,3 65,0 58,0 50,1 41,3 31,6
CJ610 LAmax A 1 800,0 117,1 110,3 105,6 100,5 92,2 82,5 75,1 66,7 57,0 46,0
CJ610 LAmax D 1 800,0 117,1 110,3 105,6 100,5 92,2 82,5 75,1 66,7 57,0 46,0
CJ610 LAmax D 2 600,0 122,2 115,0 109,8 104,3 95,3 85,3 77,6 68,9 59,0 47,9
CJ610 SEL A 700,0 100,8 96,4 93,3 89,9 84,0 77,0 71,5 65,1 57,8 49,6
CJ610 SEL A 1 800,0 119,3 114,8 111,6 108,0 101,9 94,5 88,6 81,6 73,4 63,9
CJ610 SEL D 1 800,0 119,3 114,8 111,6 108,0 101,9 94,5 88,6 81,6 73,4 63,9
CJ610 SEL D 2 600,0 124,7 119,7 116,0 112,0 105,3 97,5 91,3 84,1 75,7 66,1
CT75 LAmax A 30,0 86,9 80,5 76,1 71,6 64,5 57,0 51,6 45,6 38,6 30,9
CT75 LAmax A 75,0 88,1 81,7 77,4 73,0 66,0 58,5 53,3 47,6 41,3 34,5
CT75 LAmax D 75,0 88,1 81,7 77,4 73,0 66,0 58,5 53,3 47,6 41,3 34,5
CT75 LAmax D 100,0 95,2 88,9 84,7 80,3 73,4 66,1 60,8 54,8 47,9 40,1
CT75 SEL A 30,0 87,5 83,4 80,5 77,5 72,7 67,4 63,6 59,1 53,6 47,3
CT75 SEL A 75,0 89,0 85,1 82,5 79,5 75,1 69,9 66,2 62,0 57,2 51,8
CT75 SEL D 75,0 89,0 85,1 82,5 79,5 75,1 69,9 66,2 62,0 57,2 51,8
CT75 SEL D 100,0 97,0 92,8 90,1 87,3 82,9 77,8 74,0 69,5 64,1 57,8
EPW118 LAmax A 700,0 88,9 82,0 77,1 71,9 63,6 55,2 49,3 42,9 34,7 27,0
EPW118 LAmax A 1 000,0 88,3 81,5 76,8 71,8 64,0 55,5 49,4 42,4 33,5 25,1
EPW118 LAmax D 2 000,0 85,8 79,2 74,8 70,2 63,0 55,2 49,6 43,2 35,4 28,1
EPW118 LAmax D 3 000,0 86,4 79,9 75,6 71,1 64,0 56,6 51,3 45,6 38,7 32,1
EPW118 LAmax D 3 800,0 92,0 85,7 81,5 77,1 70,4 63,3 58,4 53,0 46,2 39,7
EPW118 SEL A 700,0 94,5 87,5 82,7 77,5 69,2 60,7 54,9 48,4 40,3 32,6
EPW118 SEL A 1 000,0 94,9 88,1 83,4 78,4 70,6 62,1 56,0 49,0 40,2 31,7
EPW118 SEL D 2 000,0 98,4 91,9 87,4 82,8 75,6 67,8 62,2 55,9 48,1 40,7
EPW118 SEL D 3 000,0 98,7 92,3 87,9 83,4 76,4 68,9 63,7 58,0 51,0 44,5
EPW118 SEL D 3 800,0 100,9 94,6 90,4 86,0 79,3 72,2 67,3 61,9 55,0 48,6
FJ44-4 LAmax A 600,0 86,7 79,1 73,8 68,1 59,1 49,4 42,7 35,7 28,2 20,8
FJ44-4 LAmax A 900,0 89,1 81,8 76,6 70,9 61,7 51,7 44,6 37,1 29,1 21,1
FJ44-4 LAmax D 1 700,0 96,4 88,4 82,8 76,9 67,6 57,7 50,9 43,7 36,2 28,8
FJ44-4 LAmax D 2 400,0 98,2 91,8 87,1 81,8 73,2 63,5 56,7 49,3 41,3 33,4
FJ44-4 LAmax D 3 000,0 101,5 95,2 90,6 85,4 76,8 67,3 60,5 53,1 45,2 37,3
FJ44-4 LAmax D 3 300,0 103,8 97,4 92,7 87,5 78,9 69,4 62,7 55,4 47,6 39,8
FJ44-4 SEL A 600,0 87,3 82,8 79,5 75,9 70,0 63,4 58,8 53,9 48,6 43,3
FJ44-4 SEL A 900,0 90,4 85,5 82,0 78,1 71,8 64,9 60,0 54,8 49,2 43,6
FJ44-4 SEL D 1 700,0 94,2 90,0 86,8 83,2 77,2 70,5 65,7 60,6 55,0 49,3
FJ44-4 SEL D 2 400,0 98,2 94,4 91,5 88,2 82,5 76,0 71,3 66,1 60,5 54,8
FJ44-4 SEL D 3 000,0 102,0 98,5 95,7 92,5 86,9 80,4 75,7 70,5 64,9 59,1
FJ44-4 SEL D 3 300,0 104,5 101,0 98,2 95,0 89,5 83,2 78,6 73,5 68,0 62,4
GE90 LAmax A 12 000,0 94,2 86,8 81,8 76,8 68,9 60,3 54,1 47,5 40,8 34,5
GE90 LAmax A 17 000,0 95,3 87,9 82,9 77,9 69,9 61,2 55,0 48,3 41,5 35,1
GE90 LAmax A 22 000,0 96,6 89,0 84,0 78,9 70,7 62,0 55,6 48,9 42,0 35,6
GE90 LAmax A 27 000,0 97,9 90,0 84,9 79,7 71,4 62,5 56,2 49,4 42,5 36,0
GE90 LAmax D 31 000,0 97,5 90,7 86,0 80,8 72,8 63,8 57,5 50,4 43,3 36,4
GE90 LAmax D 41 000,0 98,8 92,0 87,3 82,2 74,2 65,3 59,0 52,1 45,1 38,4
GE90 LAmax D 51 000,0 100,6 93,8 89,2 84,1 76,2 67,3 61,1 54,3 47,5 40,9
GE90 LAmax D 61 000,0 102,8 96,0 91,4 86,4 78,5 69,7 63,6 56,9 50,1 43,5
GE90 LAmax D 71 000,0 105,0 98,3 93,7 88,7 80,8 72,1 66,1 59,4 52,7 46,3
GE90 LAmax D 81 000,0 109,0 102,4 97,8 92,9 85,2 76,7 70,8 64,4 58,0 52,0
GE90 SEL A 12 000,0 97,7 92,8 89,5 86,3 80,9 74,9 70,4 65,5 60,5 55,8
GE90 SEL A 17 000,0 98,6 93,9 90,6 87,2 81,7 75,7 71,1 66,1 61,1 56,4
GE90 SEL A 22 000,0 99,8 94,9 91,5 88,1 82,5 76,3 71,7 66,7 61,6 56,9
GE90 SEL A 27 000,0 101,0 95,9 92,4 88,8 83,2 76,9 72,3 67,2 62,1 57,3
GE90 SEL D 31 000,0 100,0 95,8 92,7 89,2 83,5 76,9 72,2 66,9 61,4 56,2
GE90 SEL D 41 000,0 101,2 97,1 94,2 90,7 85,1 78,5 73,9 68,7 63,4 58,4
GE90 SEL D 51 000,0 102,7 98,8 95,9 92,5 87,0 80,6 76,1 71,1 66,0 61,1
GE90 SEL D 61 000,0 104,4 100,6 97,7 94,5 89,2 82,9 78,6 73,7 68,7 64,0
GE90 SEL D 71 000,0 106,1 102,3 99,5 96,4 91,3 85,3 81,1 76,3 71,5 66,9
GE90 SEL D 81 000,0 109,1 105,4 102,7 99,7 95,0 89,6 85,7 81,3 77,0 73,0
GE9015 LAmax A 12 000,0 96,1 88,9 84,3 79,4 71,6 63,2 57,1 50,5 43,8 37,5
GE9015 LAmax A 17 333,0 96,5 89,3 84,6 79,7 71,9 63,4 57,3 50,7 43,9 37,6
GE9015 LAmax A 22 667,0 97,2 90,0 85,3 80,3 72,5 63,9 57,6 51,0 44,1 37,7
GE9015 LAmax A 28 000,0 98,2 90,9 86,1 81,1 73,2 64,5 58,1 51,4 44,4 37,9
GE9015 LAmax D 39 000,0 100,4 93,2 88,4 83,4 75,3 66,5 60,1 52,9 45,6 38,6
GE9015 LAmax D 50 600,0 101,8 94,7 89,9 84,8 76,6 67,7 61,5 54,5 47,4 40,6
GE9015 LAmax D 62 200,0 103,5 96,6 91,8 86,7 78,5 69,6 63,3 56,4 49,4 42,7
GE9015 LAmax D 73 800,0 105,5 98,6 93,8 88,7 80,5 71,7 65,4 58,6 51,7 45,0
GE9015 LAmax D 85 400,0 108,5 101,7 96,9 91,9 83,8 75,1 68,9 62,1 55,3 48,8
GE9015 LAmax D 97 000,0 114,5 107,6 103,0 98,1 90,4 81,8 75,7 68,9 61,9 55,4
GE9015 SEL A 12 000,0 99,5 94,9 91,8 88,7 83,5 77,6 73,1 68,3 63,3 58,6
GE9015 SEL A 17 333,0 99,9 95,2 92,1 88,9 83,6 77,7 73,2 68,3 63,2 58,5
GE9015 SEL A 22 667,0 100,5 95,9 92,8 89,5 84,1 78,1 73,5 68,5 63,4 58,6
GE9015 SEL A 28 000,0 101,3 96,7 93,5 90,2 84,8 78,7 74,0 68,9 63,7 58,9
GE9015 SEL D 39 000,0 102,7 97,8 94,4 90,9 85,3 78,9 74,3 68,9 63,5 58,3
GE9015 SEL D 50 600,0 103,6 98,9 95,7 92,3 86,7 80,4 75,9 70,7 65,5 60,6
GE9015 SEL D 62 200,0 105,0 100,5 97,4 94,1 88,5 82,3 77,9 72,9 67,8 63,0
GE9015 SEL D 73 800,0 106,6 102,3 99,2 96,0 90,5 84,4 80,0 75,1 70,1 65,4
GE9015 SEL D 85 400,0 109,3 105,0 102,1 98,9 93,6 87,7 83,4 78,6 73,7 69,1
GE9015 SEL D 97 000,0 114,7 110,6 107,7 104,7 99,7 94,1 89,9 85,1 80,2 75,6
GENX67 LAmax A 7 000,0 99,0 91,8 87,0 82,2 74,4 65,9 59,6 52,8 45,9 39,4
GENX67 LAmax A 12 000,0 99,6 92,4 87,6 82,8 75,0 66,5 60,2 53,3 46,4 39,9
GENX67 LAmax A 17 000,0 100,0 92,8 88,0 83,2 75,3 66,7 60,4 53,5 46,5 40,0
GENX67 LAmax A 22 000,0 100,4 93,2 88,3 83,4 75,4 66,8 60,4 53,5 46,5 39,9
GENX67 LAmax D 17 000,0 101,0 94,3 89,7 84,9 77,2 68,7 62,5 55,5 48,4 41,5
GENX67 LAmax D 25 000,0 101,5 94,8 90,2 85,3 77,5 68,8 62,6 55,6 48,4 41,6
GENX67 LAmax D 33 000,0 102,9 96,2 91,5 86,6 78,7 70,0 63,7 56,6 49,5 42,6
GENX67 LAmax D 41 000,0 104,8 98,0 93,4 88,5 80,5 71,7 65,4 58,3 51,0 44,1
GENX67 LAmax D 49 000,0 107,0 100,2 95,5 90,6 82,6 73,8 67,4 60,2 53,0 46,0
GENX67 LAmax D 57 000,0 110,1 103,4 98,7 93,8 85,8 76,9 70,5 63,2 55,9 49,0
GENX67 SEL A 7 000,0 101,0 96,8 93,9 90,9 85,7 79,7 75,1 70,0 64,9 60,1
GENX67 SEL A 12 000,0 101,6 97,4 94,5 91,4 86,2 80,2 75,6 70,5 65,3 60,4
GENX67 SEL A 17 000,0 102,3 98,0 95,0 91,9 86,6 80,6 75,9 70,7 65,4 60,5
GENX67 SEL A 22 000,0 102,8 98,5 95,5 92,3 86,9 80,8 76,1 70,8 65,4 60,4
GENX67 SEL D 17 000,0 102,0 98,1 95,3 92,4 87,4 81,7 77,3 72,1 66,9 61,8
GENX67 SEL D 25 000,0 102,6 98,6 95,8 92,8 87,6 81,7 77,3 72,1 66,9 61,8
GENX67 SEL D 33 000,0 103,9 99,9 97,1 94,0 88,8 82,8 78,4 73,2 68,0 62,9
GENX67 SEL D 41 000,0 105,5 101,6 98,8 95,7 90,5 84,5 80,1 74,9 69,7 64,7
GENX67 SEL D 49 000,0 107,4 103,5 100,7 97,7 92,5 86,6 82,2 77,0 71,8 66,8
GENX67 SEL D 57 000,0 110,1 106,3 103,5 100,6 95,5 89,7 85,3 80,2 75,1 70,2
GP7270 LAmax A 5 500,0 92,0 86,2 81,9 77,4 69,8 61,4 55,3 48,6 41,2 33,5
GP7270 LAmax A 7 500,0 92,4 86,4 82,1 77,5 69,9 61,6 55,5 48,8 41,3 33,5
GP7270 LAmax A 12 000,0 93,4 87,0 82,5 77,9 70,3 61,9 55,8 49,1 41,6 33,7
GP7270 LAmax A 14 000,0 94,0 87,5 82,9 78,1 70,4 62,0 55,9 49,2 41,7 33,9
GP7270 LAmax D 40 000,0 99,3 92,8 88,5 83,7 75,9 67,2 60,9 53,9 45,9 37,3
GP7270 LAmax D 50 000,0 102,0 95,9 91,3 86,5 78,7 70,1 63,8 56,8 48,8 40,2
GP7270 LAmax D 60 000,0 104,1 98,2 93,8 89,1 81,6 73,0 66,8 59,7 51,7 43,1
GP7270 LAmax D 80 000,0 111,3 105,6 101,7 97,1 90,0 81,7 75,5 68,2 61,1 52,5
GP7270 SEL A 5 500,0 96,8 92,6 89,8 86,7 81,6 75,7 71,2 66,2 60,4 54,2
GP7270 SEL A 7 500,0 97,3 93,0 90,0 86,9 81,8 75,9 71,5 66,4 60,6 54,3
GP7270 SEL A 12 000,0 98,4 93,9 90,8 87,6 82,4 76,4 72,0 66,9 61,0 54,6
GP7270 SEL A 14 000,0 99,0 94,3 91,2 88,0 82,7 76,8 72,3 67,2 61,3 54,8
GP7270 SEL D 40 000,0 102,6 98,2 95,0 91,8 86,5 80,6 76,1 71,0 64,9 58,2
GP7270 SEL D 50 000,0 105,6 101,0 97,9 94,8 89,7 83,8 79,5 74,3 68,3 61,6
GP7270 SEL D 60 000,0 107,7 103,5 100,5 97,4 92,2 86,4 82,0 76,9 70,8 64,1
GP7270 SEL D 80 000,0 114,8 111,0 108,5 105,6 100,6 94,9 90,6 85,5 79,6 72,7
IO320B LAmax A 55,0 79,0 72,6 68,2 63,6 56,4 48,5 43,0 36,8 30,0 22,9
IO320B LAmax A 107,0 79,8 73,3 68,9 64,3 56,8 48,3 42,1 35,3 27,9 20,6
IO320B LAmax D 201,0 86,6 79,8 75,1 70,0 62,5 54,3 48,3 41,6 34,2 26,7
IO320B LAmax D 214,0 89,5 82,6 77,8 72,7 64,6 56,2 50,1 43,4 35,8 28,1
IO320B LAmax D 339,0 96,1 89,0 84,0 78,6 70,2 61,5 55,3 48,3 40,5 32,3
IO320B SEL A 55,0 82,3 78,4 75,7 72,9 68,2 62,8 58,8 54,3 49,2 44,1
IO320B SEL A 107,0 83,5 79,8 77,1 74,2 69,1 63,0 58,5 53,5 48,0 42,8
IO320B SEL D 201,0 90,2 85,8 82,8 79,6 74,3 68,3 63,9 58,8 53,0 47,2
IO320B SEL D 214,0 93,9 89,0 85,7 82,2 76,6 70,4 65,9 60,7 54,7 48,6
IO320B SEL D 339,0 98,8 94,5 91,4 88,1 82,5 76,1 71,4 66,1 60,0 53,5
IO360L LAmax A 26,6 71,6 64,2 59,7 55,0 47,7 39,8 34,4 28,5 22,4 16,9
IO360L LAmax A 58,2 78,8 72,2 67,7 62,9 55,2 46,7 40,7 34,1 27,0 20,3
IO360L LAmax D 59,6 82,7 75,6 71,1 66,4 58,9 50,8 45,0 38,6 31,7 24,5
IO360L LAmax D 100,0 84,6 77,8 73,2 68,2 60,4 52,0 46,2 39,9 33,5 25,6
IO360L SEL A 26,6 73,0 68,7 65,8 63,0 58,6 53,6 50,0 46,2 42,4 38,8
IO360L SEL A 58,2 79,3 75,3 72,7 69,9 65,1 59,6 55,5 51,1 46,3 43,0
IO360L SEL D 59,6 83,5 79,8 77,2 74,4 69,7 64,1 59,9 55,3 50,3 45,8
IO360L SEL D 100,0 84,9 81,4 78,9 76,0 71,2 65,5 61,3 56,5 51,8 46,3
IO540 LAmax A 2 400,0 82,2 75,8 71,7 67,3 60,6 53,5 48,7 43,4 37,7 31,6
IO540 LAmax A 2 500,0 86,4 80,1 75,9 71,5 64,7 57,6 52,7 47,4 41,7 35,6
IO540 LAmax A 2 700,0 94,6 88,2 83,8 79,3 72,0 63,9 58,2 52,2 45,6 38,8
IO540 LAmax D 2 500,0 92,0 85,6 81,2 76,7 69,5 62,0 56,8 51,3 45,2 38,8
IO540 LAmax D 2 700,0 99,0 92,6 88,3 83,8 76,6 68,7 63,1 56,9 50,0 42,7
IO540 SEL A 2 400,0 82,7 79,3 77,0 74,6 70,8 66,6 63,5 60,1 56,1 51,7
IO540 SEL A 2 500,0 86,6 83,2 80,8 78,4 74,4 70,2 67,1 63,7 59,8 55,4
IO540 SEL A 2 700,0 92,9 89,5 87,2 84,6 80,5 75,8 72,2 68,2 63,6 58,4
IO540 SEL D 2 500,0 91,8 88,3 85,8 83,2 78,9 74,1 70,8 67,1 63,0 58,3
IO540 SEL D 2 700,0 96,8 93,5 91,1 88,6 84,3 79,4 75,7 71,5 66,7 61,4
JT15D1 LAmax A 300,0 83,2 76,3 71,5 66,5 58,6 50,1 43,9 37,1 29,5 21,0
JT15D1 LAmax A 600,0 85,7 78,8 74,0 69,0 61,1 52,6 46,4 39,6 32,0 23,5
JT15D1 LAmax D 1 200,0 93,2 86,2 81,3 76,0 67,6 58,4 51,8 44,6 36,7 28,1
JT15D1 LAmax D 1 550,0 95,3 88,6 83,9 79,0 71,1 62,3 55,7 48,4 40,1 31,0
JT15D1 SEL A 300,0 85,6 81,0 77,7 74,2 68,5 62,3 57,6 52,3 46,2 39,2
JT15D1 SEL A 600,0 86,8 82,2 78,9 75,4 69,7 63,5 58,8 53,5 47,4 40,4
JT15D1 SEL D 1 200,0 96,4 91,7 88,2 84,5 78,3 71,4 66,3 60,6 54,2 47,1
JT15D1 SEL D 1 550,0 98,0 93,6 90,4 87,0 81,4 74,8 69,7 63,9 57,1 49,5
JT15D5 LAmax A 670,0 90,2 82,7 77,2 71,2 61,7 52,0 45,5 38,5 30,7 21,2
JT15D5 LAmax A 1 500,0 101,3 94,4 89,6 84,4 75,8 67,2 61,3 54,4 46,4 37,5
JT15D5 LAmax D 1 500,0 101,3 94,4 89,6 84,4 75,8 67,2 61,3 54,4 46,4 37,5
JT15D5 LAmax D 2 100,0 103,7 97,2 92,6 87,8 80,1 72,0 66,0 59,2 51,1 42,2
JT15D5 SEL A 670,0 90,2 85,6 82,2 78,4 72,3 65,3 60,3 54,7 48,4 41,4
JT15D5 SEL A 1 500,0 104,1 99,8 96,8 93,4 87,3 81,1 76,6 71,3 64,8 57,4
JT15D5 SEL D 1 500,0 104,1 99,8 96,8 93,4 87,3 81,1 76,6 71,3 64,8 57,4
JT15D5 SEL D 2 100,0 106,0 102,4 99,7 96,8 91,6 85,7 81,2 75,9 69,3 61,8
JT3D LAmax A 4 000,0 111,8 104,5 98,9 93,0 81,8 67,8 59,2 50,9 41,8 32,9
JT3D LAmax A 6 000,0 114,0 106,8 101,5 95,5 84,6 71,3 63,3 55,3 46,4 37,2
JT3D LAmax D 8 000,0 115,9 109,0 103,7 98,0 87,6 75,4 67,7 59,8 51,1 42,1
JT3D LAmax D 10 000,0 117,5 110,8 105,6 100,0 90,4 79,5 71,8 63,8 55,2 46,5
JT3D LAmax D 12 000,0 118,2 111,5 106,4 101,0 92,1 82,0 74,5 66,8 58,6 49,7
JT3D LAmax D 15 000,0 119,7 113,0 107,9 102,5 94,0 85,0 78,1 70,3 62,0 53,5
JT3D SEL A 4 000,0 112,5 107,5 103,6 99,0 90,0 78,3 71,2 64,5 57,0 49,5
JT3D SEL A 6 000,0 114,8 109,8 105,9 101,5 92,8 81,8 75,2 68,9 61,7 54,1
JT3D SEL D 8 000,0 117,1 112,0 108,2 104,0 95,9 85,9 79,6 73,4 66,1 58,6
JT3D SEL D 10 000,0 119,0 113,9 110,1 106,0 98,5 90,0 83,7 77,5 70,1 62,8
JT3D SEL D 12 000,0 120,7 115,6 111,9 107,7 100,8 92,6 87,1 81,0 73,9 66,5
JT3D SEL D 15 000,0 122,5 117,4 113,6 109,5 103,1 96,4 90,8 85,1 77,9 70,4
JT3DQ LAmax A 3 000,0 102,8 95,2 89,6 83,1 74,3 65,0 58,4 51,0 42,6 34,0
JT3DQ LAmax A 5 000,0 105,2 96,2 89,9 84,4 75,7 66,2 59,5 52,1 43,9 35,5
JT3DQ LAmax D 11 000,0 107,5 100,8 96,3 91,4 83,5 75,0 68,7 61,7 53,6 45,3
JT3DQ LAmax D 15 500,0 114,2 107,7 103,2 98,7 91,4 83,7 78,2 72,0 64,9 57,3
JT3DQ SEL A 3 000,0 104,4 99,4 95,6 91,4 84,8 77,8 72,6 66,7 59,9 52,7
JT3DQ SEL A 5 000,0 105,1 100,0 96,2 91,9 85,4 78,4 73,2 67,3 60,6 53,7
JT3DQ SEL D 11 000,0 109,1 105,4 102,7 99,8 95,0 88,9 84,2 78,6 72,1 65,2
JT3DQ SEL D 15 500,0 116,9 113,3 110,8 108,1 103,5 98,1 94,1 89,4 83,9 77,7
JT4A LAmax A 4 000,0 109,2 101,7 96,3 90,5 80,6 69,0 61,7 54,5 45,7 36,9
JT4A LAmax A 6 000,0 111,1 103,6 98,2 92,5 82,7 71,2 63,7 56,3 48,1 39,5
JT4A LAmax D 10 000,0 116,5 109,3 104,1 98,5 89,3 79,0 71,6 63,7 54,5 45,4
JT4A LAmax D 12 000,0 119,6 112,4 107,4 102,0 93,1 82,9 75,3 67,4 58,4 48,8
JT4A LAmax D 15 000,0 125,3 118,3 113,2 108,0 99,1 89,2 81,5 73,5 64,3 54,6
JT4A SEL A 4 000,0 110,8 105,4 101,2 97,0 89,6 80,6 74,3 68,6 60,9 52,7
JT4A SEL A 6 000,0 112,7 107,3 103,3 99,0 91,8 82,9 76,8 71,1 63,6 55,7
JT4A SEL D 10 000,0 117,4 112,4 108,7 104,5 97,4 89,2 83,3 76,9 69,4 61,5
JT4A SEL D 12 000,0 120,0 115,2 111,6 107,5 100,6 92,6 86,6 80,3 72,6 64,7
JT4A SEL D 15 000,0 125,5 120,8 117,6 113,5 106,9 99,3 93,3 86,6 78,7 70,6
JT9D7Q LAmax A 8 560,0 101,8 95,4 91,0 86,3 78,6 69,9 63,6 56,7 49,0 40,9
JT9D7Q LAmax A 14 000,0 103,3 96,8 92,2 87,1 79,2 70,5 64,2 57,5 49,9 41,9
JT9D7Q LAmax D 24 370,0 106,3 99,8 95,3 90,3 82,6 74,2 68,1 61,6 54,2 46,4
JT9D7Q LAmax D 34 850,0 110,0 103,8 99,4 94,7 87,2 78,7 72,7 66,0 58,6 50,8
JT9D7Q LAmax D 40 240,0 112,5 106,3 102,0 97,3 89,9 81,4 75,3 68,6 61,2 53,4
JT9D7Q LAmax D 44 940,0 115,3 109,1 104,8 100,0 92,6 84,2 78,0 71,4 63,9 56,1
JT9D7Q SEL A 8 560,0 103,6 99,5 96,6 93,5 88,1 81,7 77,0 71,6 65,5 58,9
JT9D7Q SEL A 14 000,0 105,1 100,9 97,8 94,3 88,7 82,3 77,6 72,4 66,4 59,9
JT9D7Q SEL D 24 370,0 108,1 103,9 100,9 97,5 92,1 86,0 81,5 76,5 70,7 64,4
JT9D7Q SEL D 34 850,0 111,8 107,9 105,0 101,9 96,7 90,5 86,1 80,9 75,1 68,8
JT9D7Q SEL D 40 240,0 114,3 110,4 107,6 104,5 99,4 93,2 88,7 83,5 77,7 71,4
JT9D7Q SEL D 44 940,0 117,1 113,2 110,4 107,2 102,1 96,0 91,4 86,3 80,4 74,1
JT9DBD LAmax A 8 000,0 106,5 99,5 94,5 89,0 79,8 69,1 61,2 53,2 44,9 36,3
JT9DBD LAmax A 14 000,0 111,0 104,0 99,0 93,5 84,3 73,6 65,7 57,7 49,4 40,8
JT9DBD LAmax D 20 000,0 114,3 107,2 102,1 96,5 87,1 76,9 69,8 62,3 54,2 45,4
JT9DBD LAmax D 28 000,0 116,4 109,3 104,2 98,5 89,0 79,1 72,3 65,0 57,0 48,0
JT9DBD LAmax D 36 000,0 117,9 110,8 105,7 100,0 90,5 80,6 73,8 66,5 58,5 49,7
JT9DBD SEL A 8 000,0 108,2 103,5 99,9 96,0 89,1 80,6 74,2 67,6 60,9 53,7
JT9DBD SEL A 14 000,0 113,2 108,5 104,9 101,0 94,1 85,6 79,2 72,6 65,9 58,7
JT9DBD SEL D 20 000,0 116,6 111,8 108,1 104,0 96,9 89,0 83,4 77,3 70,7 63,4
JT9DBD SEL D 28 000,0 118,7 113,9 110,2 106,0 98,8 91,2 85,9 80,0 73,5 66,2
JT9DBD SEL D 36 000,0 120,2 115,4 111,7 107,5 100,3 92,7 87,4 81,5 75,0 67,7
JT9DFL LAmax A 8 000,0 103,0 95,5 90,2 84,3 75,1 66,0 59,7 52,6 44,5 35,6
JT9DFL LAmax A 16 000,0 107,1 99,6 94,3 88,4 79,2 70,1 63,8 56,7 48,6 39,7
JT9DFL LAmax D 24 000,0 110,6 103,1 97,8 92,1 83,3 74,5 68,3 61,5 53,7 45,4
JT9DFL LAmax D 32 000,0 113,5 105,9 100,6 95,1 86,5 77,9 71,9 65,3 57,7 49,7
JT9DFL LAmax D 40 000,0 115,7 108,1 102,8 97,3 88,7 80,1 74,1 67,5 59,9 51,9
JT9DFL SEL A 8 000,0 102,3 97,8 94,3 90,5 84,4 77,7 72,9 67,3 60,7 53,3
JT9DFL SEL A 16 000,0 106,3 101,8 98,3 94,5 88,4 81,7 76,9 71,3 64,7 57,3
JT9DFL SEL D 24 000,0 109,4 105,1 101,7 98,0 92,2 85,8 81,2 75,9 69,7 62,8
JT9DFL SEL D 32 000,0 111,8 107,4 104,1 100,5 94,9 88,7 84,2 79,1 73,1 66,5
JT9DFL SEL D 40 000,0 113,8 109,4 106,1 102,5 96,9 90,7 86,2 81,1 75,1 68,5
O320D3 LAmax A 1 500,0 66,9 60,5 56,2 51,7 44,7 37,2 32,1 26,7 21,1 15,9
O320D3 LAmax A 1 600,0 68,1 61,7 57,4 52,9 45,9 38,4 33,2 27,7 21,9 16,6
O320D3 LAmax A 1 800,0 72,1 65,6 61,2 56,6 49,3 41,3 35,8 30,0 23,9 18,0
O320D3 LAmax D 2 150,0 79,8 73,1 68,6 63,9 56,2 47,9 42,2 36,1 29,7 23,1
O320D3 LAmax D 2 442,0 87,3 80,7 76,1 71,2 63,5 55,1 49,4 43,1 36,1 28,7
O320D3 LAmax D 2 600,0 88,8 82,1 77,5 72,6 64,7 56,2 50,2 43,8 36,7 29,3
O320D3 SEL A 1 500,0 69,0 65,6 62,8 60,2 56,0 51,3 48,0 44,5 41,3 38,2
O320D3 SEL A 1 600,0 70,4 67,1 64,6 62,0 57,7 53,0 49,6 45,9 42,3 38,9
O320D3 SEL A 1 800,0 74,1 70,5 68,0 65,3 60,7 55,5 51,8 47,8 43,8 39,9
O320D3 SEL D 2 150,0 80,4 76,9 74,3 71,4 66,5 60,9 57,0 52,7 48,1 43,7
O320D3 SEL D 2 442,0 87,9 84,2 81,5 78,5 73,4 67,9 63,9 59,5 54,4 48,9
O320D3 SEL D 2 600,0 89,4 85,5 82,8 79,8 74,8 69,0 64,8 60,2 55,0 49,2
O470R LAmax A 169,0 73,3 67,1 62,9 58,6 51,8 44,6 39,6 34,1 28,1 21,8
O470R LAmax A 244,0 73,9 67,7 63,5 59,2 52,5 45,4 40,3 34,8 28,8 22,4
O470R LAmax D 533,0 87,5 81,2 77,0 72,7 65,7 58,2 52,7 46,6 39,7 32,3
O470R LAmax D 640,0 96,1 89,8 85,5 80,9 73,5 65,0 58,6 51,3 43,0 34,3
O470R SEL A 169,0 75,6 71,7 69,0 66,2 61,7 56,7 53,1 49,2 44,7 39,8
O470R SEL A 244,0 76,2 72,3 69,6 66,8 62,3 57,3 53,7 49,7 45,1 40,2
O470R SEL D 533,0 87,8 83,8 81,1 78,2 73,6 68,2 64,2 59,6 54,2 48,4
O470R SEL D 640,0 95,4 91,3 88,5 85,4 80,3 74,1 69,2 63,4 56,5 49,3
OLY593 LAmax A 10 000,0 115,8 109,2 104,6 99,8 92,0 83,2 76,5 68,8 60,3 50,7
OLY593 LAmax A 20 000,0 126,4 119,4 113,3 109,2 101,2 92,4 85,9 78,7 70,2 60,7
OLY593 LAmax D 20 000,0 126,4 119,4 113,3 109,2 101,2 92,4 85,9 78,7 70,2 60,7
OLY593 LAmax D 28 000,0 132,1 124,8 119,6 114,3 106,1 97,3 90,8 83,6 75,1 65,3
OLY593 LAmax D 32 000,0 134,0 126,7 121,4 116,0 107,8 98,9 92,4 85,2 76,7 67,3
OLY593 SEL A 10 000,0 117,7 113,4 110,3 107,0 101,5 94,8 89,6 83,5 76,5 68,3
OLY593 SEL A 20 000,0 130,3 125,5 122,0 118,3 112,6 106,1 101,1 95,3 88,3 80,3
OLY593 SEL D 20 000,0 130,3 125,5 122,0 118,3 112,6 106,1 101,1 95,3 88,3 80,3
OLY593 SEL D 28 000,0 136,4 131,3 127,6 123,8 118,0 111,4 106,4 100,6 93,7 85,7
OLY593 SEL D 32 000,0 138,4 133,2 129,4 125,5 119,6 113,0 108,0 102,2 95,3 87,4
PT6A114 LAmax A 400,0 90,0 83,6 79,4 75,0 68,0 60,4 54,8 48,3 40,5 31,7
PT6A114 LAmax A 427,0 90,0 83,6 79,4 75,0 68,0 60,4 54,8 48,3 40,5 31,7
PT6A114 LAmax A 463,0 90,3 84,0 79,7 75,2 68,2 60,6 55,1 48,7 41,1 32,6
PT6A114 LAmax D 1 009,0 88,2 82,0 77,8 73,5 66,7 59,1 53,5 47,1 39,4 30,8
PT6A114 LAmax D 1 899,0 90,0 83,8 79,7 75,4 68,7 61,4 56,1 50,1 43,1 35,4
PT6A114 SEL A 400,0 89,9 85,8 83,0 80,1 75,4 70,1 65,9 61,0 54,7 47,4
PT6A114 SEL A 427,0 89,9 85,8 83,0 80,1 75,4 70,1 65,9 61,0 54,7 47,4
PT6A114 SEL A 463,0 89,4 85,3 82,4 79,4 74,7 69,3 65,3 60,6 54,7 47,9
PT6A114 SEL D 1 009,0 87,7 83,8 81,1 78,3 73,7 68,4 64,3 59,4 53,2 46,1
PT6A114 SEL D 1 899,0 89,7 85,8 83,2 80,4 75,9 70,9 67,1 62,6 57,1 50,9
PT6A27 LAmax A 30,0 90,9 84,6 80,4 76,0 69,1 61,6 56,0 49,8 42,6 34,0
PT6A27 LAmax A 100,0 95,6 89,5 85,3 81,0 74,3 67,0 61,6 55,6 49,0 41,4
PT6A27 LAmax D 30,0 90,9 84,6 80,4 76,0 69,1 61,6 56,0 49,8 42,6 34,0
PT6A27 LAmax D 100,0 95,6 89,5 85,3 81,0 74,3 67,0 61,6 55,6 49,0 41,4
PT6A27 SEL A 30,0 91,3 87,2 84,4 81,6 76,9 71,7 67,6 62,9 57,2 50,0
PT6A27 SEL A 100,0 95,9 92,0 89,3 86,5 82,0 77,0 73,1 68,6 63,5 57,4
PT6A27 SEL D 30,0 91,3 87,2 84,4 81,6 76,9 71,7 67,6 62,9 57,2 50,0
PT6A27 SEL D 100,0 95,9 92,0 89,3 86,5 82,0 77,0 73,1 68,6 63,5 57,4
PT6A41 LAmax A 300,0 83,6 77,2 72,8 68,2 60,9 52,8 47,0 40,4 32,8 24,9
PT6A41 LAmax A 311,0 83,6 77,2 72,8 68,2 60,9 52,8 47,0 40,4 32,8 24,9
PT6A41 LAmax D 820,0 85,2 78,9 74,7 70,3 63,5 56,0 50,6 44,4 37,2 29,1
PT6A41 LAmax D 1 153,0 87,2 81,0 76,9 72,6 65,9 58,6 53,4 47,5 40,6 32,9
PT6A41 SEL A 300,0 87,8 83,6 80,7 77,6 72,5 66,7 62,3 57,3 51,3 44,8
PT6A41 SEL A 311,0 87,8 83,6 80,7 77,6 72,5 66,7 62,3 57,3 51,3 44,8
PT6A41 SEL D 820,0 86,6 82,5 79,8 77,0 72,3 67,1 63,2 58,5 52,8 46,3
PT6A41 SEL D 1 153,0 88,6 84,7 82,0 79,2 74,8 69,8 66,0 61,6 56,2 50,0
PT6A45 LAmax A 35,0 87,2 81,0 76,7 72,4 65,1 57,7 52,9 48,0 41,9 35,1
PT6A45 LAmax A 65,0 87,8 81,4 77,0 72,5 64,9 57,4 52,4 47,4 41,7 35,5
PT6A45 LAmax D 65,0 87,8 81,4 77,0 72,5 64,9 57,4 52,4 47,4 41,7 35,5
PT6A45 LAmax D 100,0 94,9 88,6 84,4 80,0 72,6 65,2 60,3 55,4 49,4 42,4
PT6A45 SEL A 35,0 88,0 84,0 81,3 78,5 74,0 69,2 65,6 61,6 57,0 51,6
PT6A45 SEL A 65,0 88,5 84,4 81,5 78,5 73,7 68,5 64,8 60,9 56,8 52,0
PT6A45 SEL D 65,0 88,5 84,4 81,5 78,5 73,7 68,5 64,8 60,9 56,8 52,0
PT6A45 SEL D 100,0 95,1 91,1 88,4 85,5 81,0 76,1 72,4 68,4 63,8 58,4
PT6A50 LAmax A 35,0 83,9 78,2 74,0 68,8 60,7 51,8 45,5 38,6 31,4 24,2
PT6A50 LAmax A 40,0 87,4 81,7 77,5 72,4 64,2 55,5 49,0 42,1 34,4 26,7
PT6A50 LAmax D 80,0 84,7 78,5 74,4 69,8 62,5 54,0 48,1 41,3 34,0 26,4
PT6A50 LAmax D 100,0 86,9 80,7 76,6 72,0 64,7 56,2 50,2 43,5 36,4 29,3
PT6A50 SEL A 35,0 85,7 82,3 79,6 76,0 70,2 63,6 58,9 53,5 47,9 42,2
PT6A50 SEL A 40,0 89,2 85,8 83,1 79,6 73,7 67,3 62,4 57,0 50,9 44,7
PT6A50 SEL D 80,0 86,5 82,6 80,0 77,0 72,0 65,8 61,5 56,2 50,5 44,4
PT6A50 SEL D 100,0 88,7 84,8 82,2 79,2 74,2 68,0 63,6 58,4 52,9 47,3
PT6A67 LAmax A 400,0 87,8 81,2 76,8 72,2 64,9 56,7 50,6 43,5 35,4 27,1
PT6A67 LAmax A 600,0 89,1 82,4 77,9 73,3 66,1 58,1 52,3 45,7 37,8 29,2
PT6A67 LAmax D 1 000,0 90,2 83,7 79,2 74,5 67,0 58,8 52,9 46,7 39,9 33,2
PT6A67 LAmax D 1 100,0 90,2 83,7 79,2 74,5 67,0 58,8 52,9 46,7 39,9 33,2
PT6A67 LAmax D 1 600,0 87,9 81,5 77,2 72,7 65,7 58,1 52,7 46,9 40,5 34,0
PT6A67 LAmax D 1 700,0 87,9 81,5 77,2 72,7 65,7 58,1 52,7 46,9 40,5 34,0
PT6A67 SEL A 400,0 90,6 86,4 83,9 81,0 76,3 70,7 66,2 60,9 54,6 48,2
PT6A67 SEL A 600,0 90,8 86,6 83,9 80,9 76,3 71,0 66,8 61,8 55,7 48,8
PT6A67 SEL D 1 000,0 92,8 88,9 86,3 83,3 78,4 72,7 68,5 63,9 58,8 53,6
PT6A67 SEL D 1 100,0 92,8 88,9 86,3 83,3 78,4 72,7 68,5 63,9 58,8 53,6
PT6A67 SEL D 1 600,0 89,4 85,7 83,2 80,5 76,0 70,9 67,2 63,1 58,5 53,7
PT6A67 SEL D 1 700,0 89,4 85,7 83,2 80,5 76,0 70,9 67,2 63,1 58,5 53,7
PW119C LAmax A 108,0 91,0 84,0 79,0 73,6 64,7 55,1 48,4 41,1 33,2 25,4
PW119C LAmax A 465,0 91,8 84,6 79,4 73,7 64,1 53,6 46,5 39,0 31,1 22,9
PW119C LAmax D 3 412,0 87,2 80,6 76,2 71,5 64,3 56,5 51,0 44,9 38,3 31,6
PW119C LAmax D 4 300,0 88,8 82,4 78,2 73,8 67,0 59,9 55,0 49,7 43,9 37,8
PW119C LAmax D 4 301,0 88,8 82,4 78,2 73,8 67,0 59,9 55,0 49,7 43,9 37,8
PW119C SEL A 108,0 95,0 90,3 86,8 82,8 76,2 68,8 63,6 57,8 51,4 45,1
PW119C SEL A 465,0 95,3 90,4 86,7 82,5 75,1 66,9 61,3 55,3 48,8 42,2
PW119C SEL D 3 412,0 90,0 85,7 82,7 79,6 74,6 69,1 65,0 60,5 55,4 50,1
PW119C SEL D 4 300,0 90,2 86,0 83,2 80,3 75,8 71,0 67,6 63,8 59,5 54,8
PW119C SEL D 4 301,0 90,2 86,0 83,2 80,3 75,8 71,0 67,6 63,8 59,5 54,8
PW120 LAmax A 35,0 87,1 80,3 75,5 70,5 62,4 54,0 48,9 43,8 39,1 34,8
PW120 LAmax A 40,0 90,0 83,7 79,2 74,3 66,7 59,0 54,0 48,8 43,4 38,1
PW120 LAmax D 90,0 82,8 76,9 72,9 68,7 62,8 56,3 51,8 47,3 42,3 37,6
PW120 LAmax D 100,0 85,2 79,4 75,8 71,9 65,9 59,7 55,3 51,0 46,2 41,6
PW120 LAmax D 150,0 90,2 84,4 80,8 76,9 70,9 64,7 60,3 56,0 51,2 46,6
PW120 SEL A 35,0 88,9 84,4 81,1 77,7 71,9 65,8 62,3 58,7 55,6 52,8
PW120 SEL A 40,0 91,8 87,8 84,8 81,5 76,2 70,8 67,4 63,7 59,9 56,1
PW120 SEL D 90,0 84,6 81,0 78,5 75,9 72,3 68,1 65,2 62,2 58,8 55,6
PW120 SEL D 100,0 87,0 83,5 81,4 79,1 75,4 71,5 68,7 65,9 62,7 59,6
PW120 SEL D 150,0 92,0 88,5 86,4 84,1 80,4 76,5 73,7 70,9 67,7 64,6
PW2037 LAmax A 5 000,0 93,3 86,7 82,1 77,1 69,2 60,2 53,4 46,2 38,2 30,2
PW2037 LAmax A 12 000,0 97,8 90,9 86,1 80,9 72,6 63,4 56,5 49,0 40,7 32,4
PW2037 LAmax D 13 000,0 95,6 89,2 84,6 79,6 71,4 62,1 55,2 47,6 39,3 30,8
PW2037 LAmax D 24 000,0 99,7 93,1 88,4 83,2 75,2 66,1 59,8 53,3 46,2 39,0
PW2037 LAmax D 30 000,0 101,5 95,5 91,1 86,4 78,8 70,1 63,7 57,0 49,5 41,9
PW2037 LAmax D 36 000,0 103,7 98,4 94,6 90,5 83,8 75,5 68,9 61,6 53,2 44,6
PW2037 SEL A 5 000,0 95,1 90,8 87,7 84,3 78,7 72,0 66,8 61,1 54,7 48,2
PW2037 SEL A 12 000,0 99,6 95,0 91,7 88,1 82,1 75,2 69,9 63,9 57,2 50,4
PW2037 SEL D 13 000,0 97,4 93,3 90,2 86,8 80,9 73,9 68,6 62,5 55,8 48,8
PW2037 SEL D 24 000,0 101,5 97,2 94,0 90,4 84,7 77,9 73,2 68,2 62,7 57,0
PW2037 SEL D 30 000,0 103,3 99,6 96,7 93,6 88,3 81,9 77,1 71,9 66,0 59,9
PW2037 SEL D 36 000,0 105,5 102,5 100,2 97,7 93,3 87,3 82,3 76,5 69,7 62,6
PW306C LAmax A 500,0 84,2 77,2 72,2 66,8 58,1 48,7 42,1 35,1 27,7 20,3
PW306C LAmax A 1 000,0 85,4 78,1 73,0 67,6 58,8 49,4 42,8 35,9 28,5 21,3
PW306C LAmax D 1 500,0 86,2 79,5 74,7 69,4 60,7 51,2 44,5 37,2 29,5 21,8
PW306C LAmax D 3 500,0 95,2 88,8 84,1 78,9 70,3 60,8 54,1 46,9 39,1 31,3
PW306C LAmax D 5 500,0 101,4 95,1 90,4 85,2 76,5 66,8 60,0 52,6 44,6 36,5
PW306C SEL A 500,0 85,4 81,5 78,6 75,2 69,3 62,7 57,8 52,6 46,8 41,0
PW306C SEL A 1 000,0 86,5 82,4 79,3 75,8 69,9 63,3 58,5 53,4 47,8 42,1
PW306C SEL D 1 500,0 85,8 82,3 79,5 76,2 70,6 64,0 59,1 53,8 47,9 41,9
PW306C SEL D 3 500,0 94,9 91,3 88,4 85,2 79,5 72,9 68,1 62,9 57,1 51,2
PW306C SEL D 5 500,0 101,3 97,9 95,1 91,9 86,3 79,8 75,0 69,7 64,0 58,1
PW4056 LAmax A 7 000,0 99,8 92,4 87,3 82,0 74,1 65,7 59,6 52,8 45,8 39,1
PW4056 LAmax A 10 000,0 99,9 92,4 87,3 82,0 74,2 65,8 59,7 52,8 45,8 39,0
PW4056 LAmax A 13 000,0 100,5 92,9 87,7 82,4 74,5 66,1 60,0 53,1 46,1 39,4
PW4056 LAmax A 16 000,0 101,4 93,6 88,2 82,9 74,9 66,5 60,4 53,6 46,6 40,0
PW4056 LAmax D 20 000,0 101,9 94,4 89,3 83,9 75,7 67,7 61,9 55,5 49,1 42,9
PW4056 LAmax D 26 000,0 103,4 96,2 91,2 86,1 78,0 69,7 64,0 57,6 51,1 44,9
PW4056 LAmax D 32 000,0 105,1 98,0 93,2 88,1 80,2 71,8 66,0 59,7 53,2 47,0
PW4056 LAmax D 38 000,0 107,0 100,1 95,3 90,4 82,5 74,1 68,3 61,9 55,4 49,2
PW4056 LAmax D 44 000,0 109,5 102,7 98,0 93,1 85,3 76,9 71,2 64,8 58,3 52,2
PW4056 LAmax D 50 000,0 113,3 106,5 101,7 96,9 89,1 81,0 75,3 68,9 62,5 56,4
PW4056 SEL A 7 000,0 102,9 98,2 94,9 91,5 86,1 80,1 75,6 70,5 65,2 60,1
PW4056 SEL A 10 000,0 103,3 98,6 95,2 91,7 86,3 80,3 75,8 70,6 65,2 60,1
PW4056 SEL A 13 000,0 103,9 99,1 95,7 92,1 86,6 80,6 76,1 70,9 65,6 60,6
PW4056 SEL A 16 000,0 104,6 99,8 96,3 92,6 87,0 80,9 76,5 71,4 66,3 61,4
PW4056 SEL D 20 000,0 104,5 99,9 96,5 92,7 86,9 81,1 77,1 72,6 68,0 63,6
PW4056 SEL D 26 000,0 105,0 100,7 97,5 94,1 88,7 83,0 79,0 74,5 70,0 65,6
PW4056 SEL D 32 000,0 106,1 102,0 99,0 95,8 90,6 85,0 81,0 76,5 72,0 67,6
PW4056 SEL D 38 000,0 107,6 103,6 100,8 97,7 92,7 87,2 83,3 78,8 74,3 69,9
PW4056 SEL D 44 000,0 109,9 106,0 103,2 100,2 95,4 90,0 86,2 81,8 77,3 73,0
PW4056 SEL D 50 000,0 113,5 109,6 106,9 104,0 99,2 94,2 90,5 86,1 81,7 77,5
PW4158 LAmax A 4 000,0 97,0 90,1 84,8 78,9 70,6 62,1 56,0 49,2 41,5 33,6
PW4158 LAmax A 12 000,0 99,5 92,3 86,8 81,1 72,4 63,4 57,2 50,2 42,5 34,5
PW4158 LAmax D 23 000,0 104,9 95,7 89,4 83,0 73,2 62,8 56,1 49,2 41,7 34,0
PW4158 LAmax D 32 000,0 107,8 99,8 94,4 88,6 79,1 68,1 61,4 54,6 47,0 39,0
PW4158 LAmax D 41 000,0 108,7 101,0 95,9 90,3 81,0 71,5 65,1 58,2 50,5 42,4
PW4158 LAmax D 50 000,0 111,5 103,9 98,9 93,7 85,4 76,6 70,4 63,7 56,0 47,6
PW4158 SEL A 4 000,0 99,7 94,9 91,6 88,2 82,7 76,6 72,0 66,8 60,8 54,3
PW4158 SEL A 12 000,0 102,5 97,8 94,1 90,2 84,2 77,8 73,1 67,8 61,6 55,1
PW4158 SEL D 23 000,0 104,1 98,5 94,2 90,0 83,7 76,8 71,9 66,8 61,0 54,7
PW4158 SEL D 32 000,0 106,1 101,4 97,6 94,0 88,1 81,6 77,0 72,0 66,2 60,0
PW4158 SEL D 41 000,0 107,3 103,1 99,7 96,4 91,0 85,0 80,6 75,7 70,1 63,8
PW4158 SEL D 50 000,0 110,6 106,5 103,4 100,2 95,1 89,5 85,3 80,4 74,6 68,1
PW4460 LAmax A 9 300,0 99,2 92,8 87,4 82,4 74,1 65,9 59,6 53,2 46,6 40,4
PW4460 LAmax A 22 400,0 102,5 95,6 90,5 84,9 76,3 67,5 61,2 54,8 48,1 41,7
PW4460 LAmax D 24 960,0 101,9 94,1 89,1 84,0 76,2 67,6 61,3 54,8 47,2 40,0
PW4460 LAmax D 37 100,0 104,4 97,1 92,4 87,5 80,2 71,9 65,8 59,1 51,7 44,7
PW4460 LAmax D 49 010,0 107,4 100,9 96,4 91,9 84,7 76,9 70,8 64,4 56,7 50,2
PW4460 LAmax D 53 830,0 109,6 103,2 98,6 94,0 87,3 79,4 73,8 67,1 59,7 53,2
PW4460 SEL A 9 300,0 101,0 96,9 93,0 89,6 83,6 77,7 73,0 68,1 63,1 58,4
PW4460 SEL A 22 400,0 104,3 99,7 96,1 92,1 85,8 79,3 74,6 69,7 64,6 59,7
PW4460 SEL D 24 960,0 103,7 98,2 94,7 91,2 85,7 79,4 74,7 69,7 63,7 58,0
PW4460 SEL D 37 100,0 106,2 101,2 98,0 94,7 89,7 83,7 79,2 74,0 68,2 62,7
PW4460 SEL D 49 010,0 109,2 105,0 102,0 99,1 94,2 88,7 84,2 79,3 73,2 68,2
PW4460 SEL D 53 830,0 111,4 107,3 104,2 101,2 96,8 91,2 87,2 82,0 76,2 71,2
PW530A LAmax A 500,0 88,7 81,1 75,8 70,1 60,9 51,1 44,3 37,1 29,4 21,9
PW530A LAmax A 800,0 90,3 82,7 77,5 71,8 62,9 53,3 46,7 39,7 32,3 25,0
PW530A LAmax D 1 200,0 94,0 87,0 81,9 76,3 67,2 57,2 50,1 42,6 34,5 26,4
PW530A LAmax D 1 600,0 95,8 89,1 84,2 78,9 70,0 60,3 53,4 45,9 38,0 30,0
PW530A LAmax D 2 000,0 98,5 91,8 86,8 81,4 72,4 62,5 55,5 47,9 39,8 31,7
PW530A LAmax D 2 400,0 100,2 93,6 88,8 83,5 74,7 65,0 58,1 50,7 42,8 34,8
PW530A SEL A 500,0 88,6 84,0 80,7 77,1 71,1 64,4 59,7 54,6 49,2 43,7
PW530A SEL A 800,0 90,4 85,8 82,5 78,9 73,0 66,6 62,0 57,1 51,8 46,6
PW530A SEL D 1 200,0 92,2 88,0 84,8 81,3 75,3 68,5 63,7 58,4 52,6 46,9
PW530A SEL D 1 600,0 95,5 91,5 88,4 84,8 78,8 71,9 66,9 61,4 55,5 49,5
PW530A SEL D 2 000,0 98,8 94,4 91,2 87,5 81,4 74,6 69,7 64,5 58,7 53,0
PW530A SEL D 2 400,0 100,2 96,4 93,5 90,1 84,2 77,4 72,5 67,0 61,1 55,0
PW545A LAmax A 550,0 91,5 84,2 78,9 73,1 63,6 53,3 46,0 38,2 29,9 21,6
PW545A LAmax A 750,0 93,0 85,6 80,3 74,5 65,1 54,7 47,4 39,6 31,3 23,0
PW545A LAmax D 1 750,0 94,4 87,6 82,7 77,3 68,3 58,5 51,5 44,0 35,9 27,8
PW545A LAmax D 2 000,0 94,6 87,6 82,5 77,1 68,3 58,7 52,1 45,0 37,5 30,0
PW545A LAmax D 2 500,0 96,4 89,3 84,3 78,9 70,1 60,6 53,9 46,8 39,3 31,8
PW545A LAmax D 3 000,0 97,4 90,8 86,1 81,0 72,6 63,5 57,1 50,2 42,8 35,5
PW545A LAmax D 3 500,0 99,7 93,2 88,5 83,4 75,1 66,0 59,6 52,8 45,6 38,3
PW545A SEL A 550,0 92,1 87,1 83,4 79,1 71,7 63,4 57,4 50,8 43,6 36,4
PW545A SEL A 750,0 93,6 88,6 84,8 80,5 73,2 64,9 58,9 52,4 45,3 38,1
PW545A SEL D 1 750,0 94,8 90,3 86,9 83,0 76,3 68,7 63,2 57,2 50,6 44,0
PW545A SEL D 2 000,0 95,9 91,1 87,5 83,6 77,1 69,8 64,7 59,1 53,1 47,1
PW545A SEL D 2 500,0 98,0 93,2 89,6 85,7 79,2 71,9 66,8 61,2 55,2 49,2
PW545A SEL D 3 000,0 98,7 94,4 91,2 87,6 81,5 74,6 69,7 64,3 58,5 52,6
PW545A SEL D 3 500,0 101,1 96,8 93,6 90,1 84,0 77,2 72,3 67,0 61,3 55,5
PW610F LAmax A 79,0 77,0 69,5 64,6 59,8 52,4 44,4 38,6 32,1 24,5 16,3
PW610F LAmax A 112,0 77,3 69,8 64,9 59,9 52,4 44,3 38,5 32,0 24,5 16,2
PW610F LAmax A 160,0 77,9 70,4 65,4 60,3 52,5 44,4 38,5 32,0 24,5 16,2
PW610F LAmax A 208,0 78,5 71,0 66,0 60,8 52,9 44,6 38,7 32,1 24,6 16,3
PW610F LAmax A 262,0 79,2 71,8 66,8 61,5 53,5 45,0 39,0 32,4 24,8 16,6
PW610F LAmax A 328,0 80,1 72,9 67,9 62,7 54,5 45,8 39,7 32,9 25,2 17,0
PW610F LAmax A 404,0 81,2 74,3 69,5 64,3 56,1 47,1 40,7 33,8 26,0 17,7
PW610F LAmax D 489,0 83,7 76,9 72,1 66,9 58,4 48,9 42,1 34,6 26,1 17,0
PW610F LAmax D 587,0 86,2 79,1 74,2 68,9 60,4 50,9 44,0 36,4 27,8 18,7
PW610F LAmax D 689,0 88,3 81,2 76,2 70,9 62,3 52,9 46,0 38,3 29,6 20,4
PW610F LAmax D 807,0 90,3 83,3 78,3 73,1 64,6 55,2 48,3 40,5 31,8 22,6
PW610F LAmax D 910,0 91,7 84,8 80,0 74,9 66,5 57,1 50,2 42,5 33,7 24,4
PW610F LAmax D 935,0 91,9 85,1 80,4 75,3 67,0 57,6 50,7 43,0 34,2 24,9
PW610F SEL A 79,0 78,5 74,3 71,3 68,3 63,5 58,1 54,0 49,2 43,4 36,9
PW610F SEL A 112,0 78,7 74,4 71,5 68,4 63,5 58,1 54,0 49,1 43,4 36,8
PW610F SEL A 160,0 79,0 74,7 71,8 68,7 63,7 58,2 54,0 49,2 43,4 36,8
PW610F SEL A 208,0 79,5 75,2 72,3 69,2 64,1 58,4 54,2 49,3 43,5 36,9
PW610F SEL A 262,0 80,1 75,9 72,9 69,8 64,7 58,9 54,7 49,7 43,8 37,2
PW610F SEL A 328,0 81,0 76,9 74,0 70,8 65,7 59,8 55,5 50,4 44,4 37,7
PW610F SEL A 404,0 82,2 78,3 75,5 72,4 67,2 61,3 56,8 51,6 45,4 38,6
PW610F SEL D 489,0 83,4 79,6 76,8 73,6 68,4 62,1 57,3 51,7 44,9 37,5
PW610F SEL D 587,0 85,7 81,9 78,9 75,7 70,4 64,2 59,4 53,8 47,0 39,6
PW610F SEL D 689,0 87,9 84,1 81,0 77,7 72,4 66,3 61,5 55,9 49,2 41,7
PW610F SEL D 807,0 90,1 86,3 83,4 80,1 74,9 68,7 64,0 58,4 51,7 44,1
PW610F SEL D 910,0 91,8 88,1 85,3 82,2 77,0 70,8 66,1 60,5 53,7 46,1
PW610F SEL D 935,0 92,2 88,4 85,7 82,7 77,5 71,3 66,6 60,9 54,2 46,6
PW615F LAmax A 300,0 82,8 75,7 70,6 65,1 56,1 46,3 39,5 32,2 24,4 16,6
PW615F LAmax A 500,0 87,1 79,9 74,7 69,0 59,8 49,7 42,6 35,0 26,9 18,8
PW615F LAmax D 700,0 90,2 83,5 78,6 73,1 64,1 54,0 46,9 39,2 31,0 22,7
PW615F LAmax D 900,0 94,8 87,7 82,6 77,0 67,7 57,5 50,3 42,5 34,2 25,9
PW615F LAmax D 1 100,0 96,4 89,8 85,0 79,6 70,6 60,5 53,4 45,7 37,3 28,9
PW615F LAmax D 1 300,0 97,4 91,1 86,4 81,2 72,5 62,7 55,8 48,3 40,2 32,0
PW615F SEL A 300,0 85,5 81,7 78,7 75,3 69,5 62,8 58,0 52,7 46,9 41,1
PW615F SEL A 500,0 87,0 82,9 79,8 76,3 70,4 63,8 59,0 53,9 48,3 42,6
PW615F SEL D 700,0 89,6 85,7 82,6 79,0 73,0 65,9 60,8 55,2 49,1 42,8
PW615F SEL D 900,0 92,9 89,0 86,0 82,5 76,5 69,6 64,6 59,2 53,2 47,1
PW615F SEL D 1 100,0 95,6 92,0 89,1 85,7 79,8 73,0 68,0 62,5 56,5 50,4
PW615F SEL D 1 300,0 97,4 94,1 91,3 88,1 82,4 75,7 70,8 65,4 59,4 53,3
RAISQP LAmax A 23,0 77,2 70,0 65,1 59,9 51,5 42,3 36,2 30,0 23,6 17,9
RAISQP LAmax A 30,0 78,3 71,3 67,4 61,7 53,9 45,6 39,8 33,6 27,0 20,1
RAISQP LAmax D 60,0 84,7 78,1 73,6 68,9 61,5 53,8 48,4 42,6 36,3 29,8
RAISQP LAmax D 85,0 89,2 82,7 78,4 74,0 67,2 60,1 55,3 50,2 44,6 38,7
RAISQP LAmax D 100,0 96,8 90,5 86,3 82,1 75,4 68,3 63,3 57,7 51,3 44,6
RAISQP SEL A 23,0 82,3 77,9 74,7 71,4 65,5 59,2 54,8 50,1 45,6 41,3
RAISQP SEL A 30,0 82,6 78,6 76,3 72,7 67,6 61,8 57,6 52,9 48,2 43,9
RAISQP SEL D 60,0 87,6 84,1 81,6 78,8 74,1 68,8 65,0 60,8 56,1 51,4
RAISQP SEL D 85,0 92,3 88,6 86,1 83,4 79,2 74,7 71,3 68,0 63,9 60,1
RAISQP SEL D 100,0 97,8 94,5 92,3 90,0 86,3 82,0 78,9 75,2 70,9 66,0
RB183 LAmax A 1 798,0 94,7 87,6 82,6 77,6 69,3 60,8 54,7 47,4 38,9 29,9
RB183 LAmax A 2 698,0 95,6 89,1 84,5 79,8 72,3 64,0 57,9 50,6 42,0 32,9
RB183 LAmax A 3 147,0 98,1 91,3 86,4 81,6 74,2 65,6 59,5 52,2 43,7 34,8
RB183 LAmax A 3 597,0 98,7 92,2 87,3 82,6 75,6 67,2 61,1 53,8 45,3 36,3
RB183 LAmax A 4 496,0 100,4 94,3 90,1 85,4 78,8 70,4 64,3 57,0 48,5 39,5
RB183 LAmax D 4 496,0 101,6 95,0 90,6 85,8 78,6 70,9 65,2 58,5 50,0 39,6
RB183 LAmax D 10 116,0 119,8 113,4 108,9 104,2 96,9 89,3 83,5 76,9 68,4 58,0
RB183 SEL A 1 798,0 96,5 91,7 88,2 84,8 78,8 72,6 68,1 62,3 55,4 47,9
RB183 SEL A 2 698,0 97,4 93,2 90,1 87,0 81,8 75,8 71,3 65,5 58,5 50,9
RB183 SEL A 3 147,0 99,9 95,4 92,0 88,8 83,7 77,4 72,9 67,1 60,2 52,8
RB183 SEL A 3 597,0 100,5 96,3 92,9 89,8 85,1 79,0 74,5 68,7 61,8 54,3
RB183 SEL A 4 496,0 102,2 98,4 95,7 92,6 88,3 82,2 77,7 71,9 65,0 57,5
RB183 SEL D 4 496,0 103,4 99,1 96,2 93,0 88,1 82,7 78,6 73,4 66,5 57,6
RB183 SEL D 10 116,0 121,6 117,5 114,5 111,4 106,4 101,1 96,9 91,8 84,9 76,0
RB183P LAmax A 1 798,0 93,7 86,9 82,3 77,3 69,1 60,6 54,2 46,5 37,4 27,6
RB183P LAmax A 2 698,0 94,0 87,9 83,8 79,5 72,0 63,5 57,0 49,3 40,2 30,5
RB183P LAmax A 3 147,0 97,0 90,5 85,9 81,3 73,7 64,9 58,5 50,8 41,9 32,4
RB183P LAmax A 3 597,0 97,8 91,5 87,2 82,5 74,9 66,4 59,9 52,2 43,3 33,7
RB183P LAmax A 4 496,0 99,9 93,8 89,6 85,3 77,8 69,3 62,8 55,1 46,1 36,4
RB183P LAmax D 4 496,0 101,5 94,6 89,9 84,9 77,4 69,3 63,3 56,3 47,5 36,5
RB183P LAmax D 10 116,0 116,3 109,6 104,9 100,1 92,5 84,4 78,4 71,4 62,5 51,5
RB183P SEL A 1 798,0 95,5 91,0 87,9 84,5 78,6 72,4 67,6 61,4 53,9 45,6
RB183P SEL A 2 698,0 95,8 92,0 89,4 86,7 81,5 75,3 70,4 64,2 56,7 48,5
RB183P SEL A 3 147,0 98,8 94,6 91,5 88,5 83,2 76,7 71,9 65,7 58,4 50,4
RB183P SEL A 3 597,0 99,6 95,6 92,8 89,7 84,4 78,2 73,3 67,1 59,8 51,7
RB183P SEL A 4 496,0 101,7 97,9 95,2 92,5 87,3 81,1 76,2 70,0 62,6 54,4
RB183P SEL D 4 496,0 103,3 98,7 95,5 92,1 86,9 81,1 76,7 71,2 64,0 54,5
RB183P SEL D 10 116,0 118,1 113,7 110,5 107,3 102,0 96,2 91,8 86,3 79,0 69,5
RB2112 LAmax A 8 000,0 99,2 92,0 86,6 81,0 72,1 63,0 56,5 49,1 40,8 32,5
RB2112 LAmax A 14 000,0 102,8 95,8 90,7 85,3 76,8 67,9 61,5 54,2 46,1 38,1
RB2112 LAmax D 20 000,0 104,8 97,4 93,0 87,8 79,6 70,7 64,4 57,2 49,2 41,4
RB2112 LAmax D 28 000,0 106,7 99,9 95,1 90,0 82,0 73,2 66,9 59,8 51,9 44,1
RB2112 LAmax D 36 000,0 108,3 101,6 97,0 92,0 84,2 75,4 69,2 62,2 54,3 46,7
RB2112 SEL A 8 000,0 100,7 95,5 91,7 87,5 81,1 74,0 68,8 63,0 56,3 49,7
RB2112 SEL A 14 000,0 104,8 100,0 96,4 92,5 86,4 79,5 74,5 68,8 62,3 55,8
RB2112 SEL D 20 000,0 107,3 102,6 99,1 95,5 89,5 82,8 77,8 72,3 65,8 59,5
RB2112 SEL D 28 000,0 109,8 105,3 101,9 98,5 92,7 86,1 81,2 75,8 69,5 63,2
RB2112 SEL D 36 000,0 111,4 107,1 103,8 100,5 94,8 88,3 83,5 78,1 71,9 65,6
RDA532 LAmax A 32,0 96,4 88,7 82,9 76,2 65,3 55,1 48,3 41,3 34,1 26,4
RDA532 LAmax A 73,0 98,2 91,1 86,2 81,2 73,6 65,9 60,5 54,7 48,2 40,7
RDA532 LAmax D 73,0 98,2 91,1 86,2 81,2 73,6 65,9 60,5 54,7 48,2 40,7
RDA532 LAmax D 100,0 98,6 92,2 87,8 83,4 76,4 68,9 63,4 57,3 50,3 42,0
RDA532 SEL A 32,0 98,9 93,5 89,1 84,0 75,3 67,3 62,0 56,5 50,8 44,6
RDA532 SEL A 73,0 100,2 95,4 92,0 88,4 83,1 77,7 73,8 69,5 64,5 58,5
RDA532 SEL D 73,0 100,2 95,4 92,0 88,4 83,1 77,7 73,8 69,5 64,5 58,5
RDA532 SEL D 100,0 101,3 97,2 94,3 91,4 86,7 81,4 77,5 72,8 67,3 60,6
RR535E LAmax A 6 000,0 91,9 84,7 80,1 75,2 67,4 58,6 52,1 45,1 38,1 31,4
RR535E LAmax A 7 000,0 92,0 84,9 80,3 75,4 67,6 58,8 52,4 45,4 38,4 31,8
RR535E LAmax A 8 000,0 92,2 85,2 80,6 75,6 67,8 59,0 52,7 45,8 38,8 32,2
RR535E LAmax A 9 000,0 92,5 85,5 80,8 75,9 68,0 59,3 53,0 46,2 39,2 32,7
RR535E LAmax D 10 000,0 91,0 84,0 79,7 75,1 67,5 59,1 53,0 46,3 39,4 33,0
RR535E LAmax D 15 000,0 95,7 87,9 83,1 78,4 70,8 62,3 56,3 49,8 43,1 36,8
RR535E LAmax D 20 000,0 99,1 91,1 86,3 81,5 73,8 65,4 59,5 53,0 46,4 40,1
RR535E LAmax D 25 000,0 101,6 93,9 89,1 84,3 76,7 68,3 62,4 55,9 49,2 43,0
RR535E LAmax D 30 000,0 103,7 96,5 91,9 87,2 79,6 71,2 65,3 58,7 52,0 45,8
RR535E LAmax D 35 000,0 106,2 100,3 96,1 91,6 84,1 75,8 69,7 63,0 56,2 49,9
RR535E SEL A 6 000,0 95,9 90,9 87,8 84,6 79,2 72,9 68,1 62,9 57,6 52,5
RR535E SEL A 7 000,0 95,8 91,0 88,0 84,7 79,3 73,1 68,4 63,2 58,0 53,0
RR535E SEL A 8 000,0 95,9 91,2 88,2 84,9 79,6 73,4 68,7 63,6 58,4 53,5
RR535E SEL A 9 000,0 96,0 91,5 88,5 85,2 79,8 73,7 69,1 64,0 58,9 54,1
RR535E SEL D 10 000,0 93,9 89,5 86,4 83,5 78,3 72,4 68,0 63,0 57,9 53,2
RR535E SEL D 15 000,0 98,4 93,9 90,7 87,5 82,1 76,1 71,8 67,0 62,1 57,6
RR535E SEL D 20 000,0 101,6 97,1 94,0 90,8 85,4 79,4 75,1 70,4 65,7 61,2
RR535E SEL D 25 000,0 104,0 99,7 96,6 93,5 88,2 82,3 78,1 73,5 68,8 64,4
RR535E SEL D 30 000,0 106,0 101,8 98,8 95,9 90,8 85,1 81,0 76,5 71,8 67,5
RR535E SEL D 35 000,0 108,3 104,5 101,8 99,4 94,6 89,4 85,4 80,9 76,2 71,9
SPEYHK LAmax A 1 000,0 86,5 80,4 76,1 71,5 64,1 56,3 50,8 45,0 38,9 32,8
SPEYHK LAmax A 2 000,0 90,6 84,5 80,2 75,6 68,2 60,4 54,9 49,1 43,0 36,9
SPEYHK LAmax A 4 000,0 98,8 92,7 88,4 83,8 76,4 68,6 63,1 57,3 51,2 45,1
SPEYHK LAmax A 6 000,0 108,7 102,6 98,3 93,7 86,3 78,5 73,0 67,2 61,1 55,0
SPEYHK LAmax A 8 000,0 113,5 107,4 103,1 98,5 91,1 83,3 77,8 72,0 65,9 59,8
SPEYHK LAmax A 10 000,0 119,4 113,3 109,0 104,4 97,0 89,2 83,7 77,9 71,8 65,7
SPEYHK LAmax D 1 000,0 86,5 80,4 76,1 71,5 64,1 56,3 50,8 45,0 38,9 32,8
SPEYHK LAmax D 2 000,0 90,6 84,5 80,2 75,6 68,2 60,4 54,9 49,1 43,0 36,9
SPEYHK LAmax D 4 000,0 98,8 92,7 88,4 83,8 76,4 68,6 63,1 57,3 51,2 45,1
SPEYHK LAmax D 6 000,0 108,7 102,6 98,3 93,7 86,3 78,5 73,0 67,2 61,1 55,0
SPEYHK LAmax D 8 000,0 113,5 107,4 103,1 98,5 91,1 83,3 77,8 72,0 65,9 59,8
SPEYHK LAmax D 10 000,0 119,4 113,3 109,0 104,4 97,0 89,2 83,7 77,9 71,8 65,7
SPEYHK SEL A 1 000,0 89,4 85,5 82,5 79,1 73,3 66,8 62,1 56,9 51,3 45,6
SPEYHK SEL A 2 000,0 93,5 89,6 86,6 83,2 77,4 70,9 66,2 61,0 55,4 49,7
SPEYHK SEL A 4 000,0 101,7 97,8 94,8 91,4 85,6 79,1 74,4 69,2 63,6 57,9
SPEYHK SEL A 6 000,0 111,8 107,9 104,9 101,5 95,7 89,2 84,5 79,3 73,7 68,0
SPEYHK SEL A 8 000,0 117,3 113,4 110,4 107,0 101,2 94,7 90,0 84,8 79,2 73,5
SPEYHK SEL A 10 000,0 123,9 120,0 117,0 113,6 107,8 101,3 96,6 91,4 85,8 80,1
SPEYHK SEL D 1 000,0 89,4 85,5 82,5 79,1 73,3 66,8 62,1 56,9 51,3 45,6
SPEYHK SEL D 2 000,0 93,5 89,6 86,6 83,2 77,4 70,9 66,2 61,0 55,4 49,7
SPEYHK SEL D 4 000,0 101,7 97,8 94,8 91,4 85,6 79,1 74,4 69,2 63,6 57,9
SPEYHK SEL D 6 000,0 111,8 107,9 104,9 101,5 95,7 89,2 84,5 79,3 73,7 68,0
SPEYHK SEL D 8 000,0 117,3 113,4 110,4 107,0 101,2 94,7 90,0 84,8 79,2 73,5
SPEYHK SEL D 10 000,0 123,9 120,0 117,0 113,6 107,8 101,3 96,6 91,4 85,8 80,1
T1KBFP LAmax A 5 250,0 92,3 85,1 80,3 75,4 67,4 58,8 52,6 45,9 39,1 32,7
T1KBFP LAmax A 10 500,0 92,7 85,5 80,7 75,7 67,8 59,2 53,0 46,3 39,6 33,3
T1KBFP LAmax A 15 750,0 93,6 86,4 81,5 76,5 68,6 60,0 53,9 47,2 40,5 34,3
T1KBFP LAmax A 21 000,0 94,6 87,4 82,5 77,5 69,5 61,0 54,9 48,3 41,7 35,5
T1KBFP LAmax D 20 000,0 92,9 85,9 81,3 76,4 68,5 60,0 53,9 47,0 40,1 33,6
T1KBFP LAmax D 29 000,0 94,8 88,0 83,3 78,2 70,1 61,4 55,2 48,5 41,7 35,4
T1KBFP LAmax D 38 000,0 97,1 90,2 85,7 80,4 72,3 63,5 57,3 50,7 44,0 37,8
T1KBFP LAmax D 47 000,0 99,5 92,5 88,2 82,8 74,6 65,9 59,8 53,2 46,6 40,4
T1KBFP LAmax D 56 000,0 101,9 94,8 90,8 85,1 77,0 68,4 62,4 55,9 49,3 43,2
T1KBFP LAmax D 65 000,0 105,2 97,8 94,2 88,3 80,3 71,9 66,0 59,6 53,2 47,2
T1KBFP SEL A 5 250,0 94,9 90,5 87,4 84,3 79,1 73,1 68,5 63,4 58,3 53,5
T1KBFP SEL A 10 500,0 95,9 91,3 88,2 84,9 79,4 73,3 68,7 63,7 58,6 53,9
T1KBFP SEL A 15 750,0 97,1 92,5 89,2 85,8 80,2 74,1 69,6 64,7 59,6 55,0
T1KBFP SEL A 21 000,0 98,4 93,7 90,2 86,8 81,2 75,2 70,8 65,9 61,0 56,4
T1KBFP SEL D 20 000,0 96,4 91,8 88,6 84,8 79,1 73,0 68,5 63,5 58,4 53,6
T1KBFP SEL D 29 000,0 97,1 92,7 90,0 86,1 80,5 74,5 70,1 65,2 60,3 55,8
T1KBFP SEL D 38 000,0 98,6 94,3 91,8 87,9 82,4 76,6 72,3 67,5 62,8 58,4
T1KBFP SEL D 47 000,0 100,5 96,2 94,0 89,9 84,7 78,9 74,8 70,1 65,5 61,2
T1KBFP SEL D 56 000,0 102,5 98,3 96,2 92,1 87,0 81,5 77,4 72,9 68,3 64,1
T1KBFP SEL D 65 000,0 105,4 101,2 99,3 95,1 90,2 84,9 81,0 76,6 72,2 68,2
T56A7 LAmax A 30,0 96,0 89,4 84,8 79,9 71,9 62,4 55,0 47,0 39,2 31,6
T56A7 LAmax A 100,0 99,8 93,3 88,9 84,3 77,3 70,0 65,1 60,0 54,5 48,4
T56A7 LAmax D 30,0 96,0 89,4 84,8 79,9 71,9 62,4 55,0 47,0 39,2 31,6
T56A7 LAmax D 100,0 99,8 93,3 88,9 84,3 77,3 70,0 65,1 60,0 54,5 48,4
T56A7 SEL A 30,0 98,0 93,7 90,6 87,2 81,4 74,2 68,3 61,8 55,5 49,4
T56A7 SEL A 100,0 100,1 95,8 92,9 89,8 85,0 80,0 76,6 72,9 69,0 64,4
T56A7 SEL D 30,0 98,0 93,7 90,6 87,2 81,4 74,2 68,3 61,8 55,5 49,4
T56A7 SEL D 100,0 100,1 95,8 92,9 89,8 85,0 80,0 76,6 72,9 69,0 64,4
TAY620 LAmax A 3 372,0 89,1 82,7 78,4 73,9 66,8 58,9 53,1 46,9 40,4 34,3
TAY620 LAmax A 5 620,0 93,0 86,8 82,6 78,0 70,7 62,6 56,8 50,3 43,6 37,2
TAY620 LAmax D 4 496,0 91,5 85,3 81,0 76,1 68,7 60,2 54,3 48,0 41,4 35,7
TAY620 LAmax D 13 489,0 106,2 100,2 96,1 91,5 84,4 76,4 70,3 63,6 56,4 50,3
TAY620 SEL A 3 372,0 90,9 86,8 84,0 81,1 76,3 70,7 66,5 61,8 56,9 52,3
TAY620 SEL A 5 620,0 94,8 90,9 88,2 85,2 80,2 74,4 70,2 65,2 60,1 55,2
TAY620 SEL D 4 496,0 93,3 89,4 86,6 83,3 78,2 72,0 67,7 62,9 57,9 53,7
TAY620 SEL D 13 489,0 108,0 104,3 101,7 98,7 93,9 88,2 83,7 78,5 72,9 68,3
TAY650 LAmax A 3 372,0 89,3 82,9 78,6 74,0 66,7 58,8 53,1 46,9 40,4 34,3
TAY650 LAmax A 5 620,0 92,3 86,0 81,7 77,1 69,7 61,7 56,0 49,8 43,3 37,2
TAY650 LAmax D 4 496,0 91,3 84,8 80,2 75,0 67,3 58,6 53,0 47,2 41,1 35,8
TAY650 LAmax D 13 488,0 104,7 98,8 94,6 90,2 83,2 75,5 69,8 63,6 57,1 51,5
TAY650 SEL A 3 372,0 91,1 87,0 84,2 81,2 76,2 70,6 66,5 61,8 56,9 52,3
TAY650 SEL A 5 620,0 94,1 90,1 87,3 84,3 79,2 73,5 69,4 64,7 59,8 55,2
TAY650 SEL D 4 496,0 93,1 88,9 85,8 82,2 76,8 70,4 66,4 62,1 57,6 53,8
TAY650 SEL D 13 488,0 106,5 102,9 100,2 97,4 92,7 87,3 83,2 78,5 73,6 69,5
TAY651 LAmax A 5 000,0 91,4 84,7 80,1 75,3 67,7 59,5 53,7 47,3 40,8 34,6
TAY651 LAmax A 7 000,0 97,9 91,2 86,7 82,0 74,4 66,0 60,1 53,4 46,6 40,1
TAY651 LAmax D 9 000,0 101,2 94,6 90,1 85,4 77,8 69,4 63,3 56,6 49,8 43,3
TAY651 LAmax D 11 000,0 104,0 97,4 92,9 88,2 80,6 72,2 66,2 59,4 52,5 45,9
TAY651 LAmax D 13 000,0 108,4 101,8 97,4 92,7 85,1 76,8 70,8 64,4 57,9 51,7
TAY651 SEL A 5 000,0 95,7 91,1 87,8 84,4 79,0 73,0 68,7 63,7 58,6 53,8
TAY651 SEL A 7 000,0 100,5 96,1 93,1 89,8 84,5 78,4 73,9 68,7 63,4 58,4
TAY651 SEL D 9 000,0 103,5 99,1 96,2 92,9 87,6 81,5 76,9 71,7 66,4 61,3
TAY651 SEL D 11 000,0 106,3 101,9 98,9 95,7 90,4 84,3 79,7 74,3 68,8 63,6
TAY651 SEL D 13 000,0 110,2 105,9 102,9 99,7 94,4 88,3 83,8 78,7 73,5 68,6
TAYGIV LAmax A 2 000,0 86,0 79,9 75,6 71,0 63,7 55,8 50,3 44,5 38,4 32,4
TAYGIV LAmax A 3 000,0 87,2 81,1 76,8 72,2 64,8 57,0 51,5 45,7 39,6 33,5
TAYGIV LAmax A 4 000,0 88,5 82,4 78,1 73,5 66,2 58,3 52,8 47,0 40,9 34,9
TAYGIV LAmax A 6 000,0 91,5 85,4 81,1 76,5 69,2 61,3 55,8 50,0 43,9 37,9
TAYGIV LAmax A 8 000,0 95,1 88,9 84,7 80,0 72,7 64,8 59,4 53,6 47,4 41,4
TAYGIV LAmax A 10 000,0 99,1 93,0 88,7 84,1 76,7 68,9 63,4 57,6 51,5 45,4
TAYGIV LAmax D 2 000,0 86,0 79,9 75,6 71,0 63,7 55,8 50,3 44,5 38,4 32,4
TAYGIV LAmax D 3 000,0 87,2 81,1 76,8 72,2 64,8 57,0 51,5 45,7 39,6 33,5
TAYGIV LAmax D 4 000,0 88,5 82,4 78,1 73,5 66,2 58,3 52,8 47,0 40,9 34,9
TAYGIV LAmax D 6 000,0 91,5 85,4 81,1 76,5 69,2 61,3 55,8 50,0 43,9 37,9
TAYGIV LAmax D 8 000,0 95,1 88,9 84,7 80,0 72,7 64,8 59,4 53,6 47,4 41,4
TAYGIV LAmax D 10 000,0 99,1 93,0 88,7 84,1 76,7 68,9 63,4 57,6 51,5 45,4
TAYGIV LAmax D 11 000,0 101,0 95,0 91,0 86,0 79,0 71,0 65,5 60,0 54,0 47,5
TAYGIV LAmax D 11 200,0 101,5 95,5 91,5 86,5 79,5 71,5 66,0 60,5 54,5 48,0
TAYGIV SEL A 2 000,0 89,9 86,0 83,0 79,6 73,9 67,3 62,6 57,4 51,8 46,2
TAYGIV SEL A 3 000,0 90,7 86,8 83,8 80,4 74,6 68,0 63,3 58,2 52,6 46,9
TAYGIV SEL A 4 000,0 91,6 87,7 84,7 81,3 75,5 69,0 64,2 59,1 53,5 47,8
TAYGIV SEL A 6 000,0 93,9 90,0 87,0 83,6 77,8 71,3 66,5 61,4 55,8 50,1
TAYGIV SEL A 8 000,0 96,8 92,9 89,9 86,5 80,8 74,2 69,5 64,3 58,7 53,1
TAYGIV SEL A 10 000,0 100,4 96,5 93,5 90,1 84,4 77,8 73,1 67,9 62,3 56,6
TAYGIV SEL D 2 000,0 89,9 86,0 83,0 79,6 73,9 67,3 62,6 57,4 51,8 46,2
TAYGIV SEL D 3 000,0 90,7 86,8 83,8 80,4 74,6 68,0 63,3 58,2 52,6 46,9
TAYGIV SEL D 4 000,0 91,6 87,7 84,7 81,3 75,5 69,0 64,2 59,1 53,5 47,8
TAYGIV SEL D 6 000,0 93,9 90,0 87,0 83,6 77,8 71,3 66,5 61,4 55,8 50,1
TAYGIV SEL D 8 000,0 96,8 92,9 89,9 86,5 80,8 74,2 69,5 64,3 58,7 53,1
TAYGIV SEL D 10 000,0 100,4 96,5 93,5 90,1 84,4 77,8 73,1 67,9 62,3 56,6
TAYGIV SEL D 11 000,0 102,0 98,0 95,5 92,0 86,0 79,5 74,5 70,0 64,0 58,5
TAYGIV SEL D 11 200,0 102,5 98,5 96,0 92,5 86,5 80,0 75,0 70,5 64,5 59,0
TF7312 LAmax A 1 000,0 91,1 84,2 79,2 73,9 65,5 56,6 50,2 43,5 36,3 28,6
TF7312 LAmax A 1 500,0 96,1 89,3 84,4 79,3 71,0 61,9 55,2 48,0 40,1 31,6
TF7312 LAmax D 1 500,0 96,1 89,3 84,4 79,3 71,0 61,9 55,2 48,0 40,1 31,6
TF7312 LAmax D 2 650,0 107,5 99,8 94,4 88,9 80,1 70,3 62,9 54,6 45,3 35,0
TF7312 SEL A 1 000,0 93,7 89,0 85,6 81,8 75,6 68,9 64,1 58,8 53,1 46,9
TF7312 SEL A 1 500,0 99,3 94,8 91,4 87,8 81,8 74,9 69,7 64,0 57,6 50,6
TF7312 SEL D 1 500,0 99,3 94,8 91,4 87,8 81,8 74,9 69,7 64,0 57,6 50,6
TF7312 SEL D 2 650,0 110,5 105,0 101,1 97,1 90,6 83,0 77,1 70,3 62,5 53,8
TF7313 LAmax A 880,0 85,8 78,6 73,4 67,9 59,1 50,0 43,6 36,6 28,8 20,7
TF7313 LAmax A 2 300,0 95,2 88,6 84,1 79,3 71,7 63,4 57,3 50,1 41,6 32,2
TF7313 LAmax D 2 300,0 95,2 88,6 84,1 79,3 71,7 63,4 57,3 50,1 41,6 32,2
TF7313 LAmax D 3 000,0 101,0 94,4 89,8 85,0 77,4 69,1 63,0 55,9 47,6 38,6
TF7313 SEL A 880,0 87,1 82,9 79,8 76,4 70,8 64,3 59,3 53,8 47,6 41,0
TF7313 SEL A 2 300,0 95,9 92,0 89,3 86,3 81,3 75,4 70,8 65,1 58,1 50,2
TF7313 SEL D 2 300,0 95,9 92,0 89,3 86,3 81,3 75,4 70,8 65,1 58,1 50,2
TF7313 SEL D 3 000,0 103,4 99,4 96,4 93,8 88,8 82,9 78,3 72,7 65,9 58,3
TIO540 LAmax A 1 900,0 77,7 70,8 65,6 61,2 54,5 47,5 42,6 37,3 31,4 25,3
TIO540 LAmax A 2 300,0 83,6 77,1 72,7 68,1 60,9 53,4 48,1 42,5 36,3 29,8
TIO540 LAmax D 2 400,0 85,2 78,7 74,4 69,9 62,8 55,5 50,4 45,0 39,0 32,7
TIO540 LAmax D 2 500,0 89,5 83,1 78,8 74,3 67,3 60,1 55,1 49,7 43,7 37,4
TIO540 SEL A 1 900,0 78,6 74,8 72,3 69,7 65,9 61,7 58,6 55,1 50,9 46,4
TIO540 SEL A 2 300,0 84,3 80,8 78,4 75,9 71,8 67,3 64,0 60,3 55,7 50,6
TIO540 SEL D 2 400,0 86,0 82,5 80,1 77,5 73,5 69,0 65,7 62,1 57,7 52,9
TIO540 SEL D 2 500,0 88,9 85,4 82,9 80,4 76,4 72,0 68,8 65,2 61,0 56,2
TIO542 LAmax A 2 380,0 85,1 78,8 74,6 70,2 63,4 56,2 51,1 45,4 39,2 32,5
TIO542 LAmax A 2 400,0 86,8 80,5 76,3 71,9 65,0 57,6 52,3 46,5 40,1 33,4
TIO542 LAmax D 2 190,0 85,9 79,4 75,0 70,5 63,4 56,0 51,0 45,6 39,7 33,6
TIO542 LAmax D 2 280,0 88,2 81,7 77,4 72,8 65,7 58,1 53,0 47,4 41,4 35,0
TIO542 LAmax D 2 500,0 92,1 85,7 81,3 76,7 69,4 61,7 56,2 50,3 43,8 37,0
TIO542 SEL A 2 380,0 85,2 81,6 79,3 76,8 72,9 68,4 65,2 61,5 57,1 52,4
TIO542 SEL A 2 400,0 86,8 83,2 80,9 78,4 74,3 69,8 66,4 62,5 58,0 53,2
TIO542 SEL D 2 190,0 87,8 84,1 81,6 78,8 74,4 69,5 66,0 62,1 57,9 53,3
TIO542 SEL D 2 280,0 89,5 85,6 82,9 80,2 75,7 70,9 67,4 63,5 59,1 54,3
TIO542 SEL D 2 500,0 93,1 89,4 87,0 84,3 80,0 75,0 71,4 67,3 62,4 57,2
TPE331 LAmax A 30,0 83,9 77,6 73,4 69,0 62,1 54,6 49,0 42,8 35,6 27,0
TPE331 LAmax A 100,0 88,4 82,3 78,2 74,0 67,5 60,5 55,4 49,8 43,5 36,4
TPE331 LAmax D 30,0 83,9 77,6 73,4 69,0 62,1 54,6 49,0 42,8 35,6 27,0
TPE331 LAmax D 100,0 88,4 82,3 78,2 74,0 67,5 60,5 55,4 49,8 43,5 36,4
TPE331 SEL A 30,0 84,3 80,2 77,4 74,6 69,9 64,7 60,6 55,9 50,2 43,7
TPE331 SEL A 100,0 88,5 84,6 82,0 79,3 75,0 70,3 66,7 62,7 57,9 52,2
TPE331 SEL D 30,0 84,3 80,2 77,4 74,6 69,9 64,7 60,6 55,9 50,2 43,7
TPE331 SEL D 100,0 88,5 84,6 82,0 79,3 75,0 70,3 66,7 62,7 57,9 52,2
TPE331-5 LAmax A 300,0 85,5 78,8 74,3 69,5 61,8 53,5 47,6 41,1 33,7 26,0
TPE331-5 LAmax A 306,0 85,5 78,8 74,3 69,5 61,8 53,5 47,6 41,1 33,7 26,0
TPE331-5 LAmax A 460,0 84,2 77,5 73,0 68,2 60,5 52,2 46,2 39,5 32,1 24,5
TPE331-5 LAmax D 1 491,0 86,9 80,5 76,1 71,5 64,3 56,6 51,1 45,3 39,1 32,9
TPE331-5 LAmax D 1 791,0 88,1 81,6 77,2 72,6 65,3 57,3 51,5 45,2 38,4 31,5
TPE331-5 LAmax D 1 800,0 88,1 81,6 77,2 72,6 65,3 57,3 51,5 45,2 38,4 31,5
TPE331-5 SEL A 300,0 88,5 84,1 81,1 77,8 72,4 66,4 61,9 56,9 51,0 44,8
TPE331-5 SEL A 306,0 88,5 84,1 81,1 77,8 72,4 66,4 61,9 56,9 51,0 44,8
TPE331-5 SEL A 460,0 86,7 82,3 79,3 76,0 70,6 64,5 59,9 54,8 48,9 42,7
TPE331-5 SEL D 1 491,0 89,7 85,5 82,6 79,6 74,6 69,1 65,1 60,8 56,2 51,4
TPE331-5 SEL D 1 791,0 89,9 85,7 82,8 79,7 74,6 68,9 64,6 59,8 54,5 49,1
TPE331-5 SEL D 1 800,0 89,9 85,7 82,8 79,7 74,6 68,9 64,6 59,8 54,5 49,1
TRENT5 LAmax A 3 000,0 94,6 88,1 83,3 78,3 70,5 61,8 55,6 48,7 41,1 33,2
TRENT5 LAmax A 5 000,0 95,6 88,8 84,0 78,9 70,9 62,1 55,8 48,9 41,2 33,3
TRENT5 LAmax A 7 000,0 96,2 89,6 84,6 79,5 71,3 62,6 56,3 49,3 41,7 33,9
TRENT5 LAmax A 9 000,0 97,2 90,7 85,7 80,5 72,2 63,2 56,8 49,8 42,1 34,1
TRENT5 LAmax D 30 000,0 104,0 96,3 91,0 85,5 77,0 67,8 61,1 53,8 45,9 37,8
TRENT5 LAmax D 35 000,0 104,8 97,3 92,2 86,9 78,6 69,5 62,8 55,7 47,8 39,7
TRENT5 LAmax D 40 000,0 105,8 98,5 93,5 88,3 80,1 71,0 64,4 57,0 49,3 41,1
TRENT5 LAmax D 47 000,0 107,8 100,4 95,4 90,3 82,2 73,2 66,6 59,3 51,3 43,0
TRENT5 SEL A 3 000,0 99,0 94,3 91,0 87,7 82,3 76,1 71,5 66,3 60,4 53,9
TRENT5 SEL A 5 000,0 99,6 94,8 91,6 88,2 82,7 76,4 71,8 66,5 60,5 54,1
TRENT5 SEL A 7 000,0 100,5 95,5 92,3 88,8 83,3 76,9 72,2 66,9 60,9 54,4
TRENT5 SEL A 9 000,0 101,5 96,4 93,1 89,5 83,9 77,5 72,8 67,5 61,4 54,9
TRENT5 SEL D 30 000,0 104,9 100,0 97,0 93,6 88,2 82,0 77,4 72,0 65,9 59,0
TRENT5 SEL D 35 000,0 106,0 101,4 98,4 95,1 89,8 83,7 79,2 73,8 67,6 60,9
TRENT5 SEL D 40 000,0 107,1 102,7 99,7 96,5 91,4 85,4 80,9 75,6 69,4 62,7
TRENT5 SEL D 47 000,0 108,6 104,4 101,5 98,4 93,3 87,3 82,8 77,6 71,6 65,1
TRENT7 LAmax A 4 000,0 93,6 86,6 81,9 77,1 69,4 61,2 55,3 48,7 41,2 33,4
TRENT7 LAmax A 12 000,0 95,1 88,1 83,3 78,4 70,7 62,3 56,2 49,4 41,8 33,8
TRENT7 LAmax D 31 000,0 102,6 95,4 90,6 85,5 77,3 68,0 61,1 53,3 45,0 36,6
TRENT7 LAmax D 41 000,0 102,6 95,3 90,5 85,4 77,4 68,5 62,0 54,7 46,6 38,1
TRENT7 LAmax D 52 000,0 105,6 98,5 93,8 88,8 80,8 72,0 65,5 58,3 50,2 41,8
TRENT7 LAmax D 62 000,0 108,7 101,6 96,9 91,9 83,9 75,1 68,9 62,0 54,1 45,5
TRENT7 SEL A 4 000,0 97,4 93,0 89,8 86,6 81,5 75,7 71,4 66,3 60,5 54,1
TRENT7 SEL A 12 000,0 98,4 94,0 90,8 87,6 82,4 76,5 72,1 67,0 61,1 54,6
TRENT7 SEL D 31 000,0 104,2 99,6 96,5 93,1 87,7 81,2 76,2 70,6 64,3 57,6
TRENT7 SEL D 41 000,0 104,0 99,8 96,9 93,7 88,3 82,2 77,7 72,3 66,2 59,7
TRENT7 SEL D 52 000,0 106,4 102,4 99,6 96,6 91,5 85,5 81,1 75,9 69,9 63,4
TRENT7 SEL D 62 000,0 109,1 105,1 102,4 99,5 94,6 88,9 84,5 79,4 73,4 67,3
TRENT8 LAmax A 7 000,0 93,6 85,9 80,9 75,9 68,1 59,5 53,3 46,7 39,2 30,3
TRENT8 LAmax A 14 000,0 96,4 88,7 83,6 78,3 70,1 61,2 54,9 48,2 40,6 31,8
TRENT8 LAmax A 22 000,0 98,7 90,8 85,6 80,2 71,8 62,8 56,5 49,7 42,0 33,1
TRENT8 LAmax A 28 000,0 100,2 91,9 86,7 81,3 72,9 63,8 57,5 50,8 43,2 34,4
TRENT8 LAmax D 32 000,0 100,4 93,4 88,5 83,3 74,9 65,7 59,4 52,6 44,8 35,6
TRENT8 LAmax D 42 000,0 102,1 95,3 90,6 85,5 77,2 68,1 61,9 55,3 47,7 38,6
TRENT8 LAmax D 52 000,0 103,8 97,1 92,5 87,5 79,3 70,4 64,3 57,8 50,3 41,3
TRENT8 LAmax D 62 000,0 105,7 99,0 94,4 89,6 81,6 72,9 66,9 60,4 52,8 43,8
TRENT8 LAmax D 72 000,0 107,9 101,3 96,9 92,1 84,6 76,2 70,3 63,8 56,3 47,4
TRENT8 LAmax D 80 000,0 110,5 104,0 99,6 95,1 88,0 80,3 74,4 67,9 60,5 52,0
TRENT8 SEL A 7 000,0 97,4 92,1 88,8 85,3 80,0 74,0 69,6 64,8 59,3 52,8
TRENT8 SEL A 14 000,0 99,6 94,6 91,3 87,8 82,2 75,9 71,2 66,2 60,4 53,7
TRENT8 SEL A 22 000,0 101,6 96,7 93,3 89,7 83,9 77,4 72,7 67,6 61,8 55,2
TRENT8 SEL A 28 000,0 103,1 97,9 94,5 90,8 84,9 78,3 73,6 68,6 63,0 56,6
TRENT8 SEL D 32 000,0 102,6 98,4 95,3 91,8 85,9 79,1 74,2 69,1 63,5 57,2
TRENT8 SEL D 42 000,0 104,5 100,4 97,4 94,0 88,2 81,5 76,8 71,9 66,5 60,4
TRENT8 SEL D 52 000,0 106,1 102,1 99,2 95,9 90,3 83,9 79,3 74,4 69,1 63,1
TRENT8 SEL D 62 000,0 107,6 103,8 101,0 97,8 92,4 86,2 81,7 77,0 71,6 65,3
TRENT8 SEL D 72 000,0 109,5 105,8 103,1 100,1 95,0 89,2 84,9 80,2 74,8 68,3
TRENT8 SEL D 80 000,0 111,6 108,0 105,4 102,7 98,0 92,7 88,7 84,2 78,7 72,0
TRENT9 LAmax A 4 000,0 93,1 86,6 82,2 77,5 69,9 61,4 55,3 48,6 41,2 33,5
TRENT9 LAmax A 6 000,0 93,4 86,8 82,3 77,6 70,0 61,5 55,5 48,8 41,4 33,6
TRENT9 LAmax A 9 000,0 93,9 87,2 82,6 77,9 70,3 61,8 55,7 49,1 41,6 33,9
TRENT9 LAmax A 13 000,0 94,2 87,7 83,2 78,5 71,0 62,5 56,4 49,7 42,1 34,3
TRENT9 LAmax D 40 000,0 98,9 92,4 87,8 83,0 75,1 66,4 60,2 53,3 45,6 37,4
TRENT9 LAmax D 50 000,0 101,1 94,9 90,3 85,5 77,6 68,9 62,7 55,8 48,2 40,1
TRENT9 LAmax D 60 000,0 104,1 98,0 93,5 88,6 80,8 72,0 65,7 58,7 50,9 42,7
TRENT9 LAmax D 80 000,0 107,0 101,2 97,0 92,3 84,6 76,0 69,8 62,8 55,0 46,8
TRENT9 SEL A 4 000,0 98,5 93,7 90,5 87,2 82,0 76,0 71,5 66,4 60,6 54,3
TRENT9 SEL A 6 000,0 98,7 93,8 90,6 87,3 82,1 76,1 71,6 66,6 60,8 54,5
TRENT9 SEL A 9 000,0 99,2 94,2 91,0 87,7 82,4 76,4 72,0 66,9 61,1 54,8
TRENT9 SEL A 13 000,0 99,8 95,0 91,8 88,5 83,2 77,3 72,8 67,7 61,7 55,2
TRENT9 SEL D 40 000,0 102,7 98,2 95,0 91,6 86,3 80,3 75,8 70,8 64,9 58,5
TRENT9 SEL D 50 000,0 104,7 100,4 97,4 94,1 88,9 83,0 79,0 73,6 67,8 61,4
TRENT9 SEL D 60 000,0 107,5 103,5 100,6 97,4 92,2 86,2 81,8 76,7 70,8 64,4
TRENT9 SEL D 80 000,0 110,3 106,6 103,7 100,7 95,7 89,9 85,5 80,4 74,6 68,4
TSIO52 LAmax A 30,0 83,1 76,9 72,6 68,3 61,5 54,1 48,7 42,8 36,4 29,5
TSIO52 LAmax A 100,0 95,4 89,1 84,9 80,5 73,7 66,3 60,9 55,1 48,8 42,0
TSIO52 LAmax D 30,0 83,1 76,9 72,6 68,3 61,5 54,1 48,7 42,8 36,4 29,5
TSIO52 LAmax D 100,0 95,4 89,1 84,9 80,5 73,7 66,3 60,9 55,1 48,8 42,0
TSIO52 SEL A 30,0 84,6 80,6 77,9 75,1 70,5 65,3 61,4 57,1 52,2 46,8
TSIO52 SEL A 100,0 97,6 93,6 90,9 88,0 83,4 78,3 74,4 70,1 65,3 59,9
TSIO52 SEL D 30,0 84,6 80,6 77,9 75,1 70,5 65,3 61,4 57,1 52,2 46,8
TSIO52 SEL D 100,0 97,6 93,6 90,9 88,0 83,4 78,3 74,4 70,1 65,3 59,9
V2522A LAmax A 2 000,0 89,7 83,1 78,5 73,4 65,3 56,3 49,8 42,6 34,5 26,3
V2522A LAmax A 2 700,0 89,9 83,3 78,6 73,6 65,5 56,5 49,9 42,8 34,7 26,6
V2522A LAmax A 6 000,0 91,8 85,0 80,0 74,8 66,6 57,6 51,0 43,7 35,5 27,2
V2522A LAmax D 10 000,0 94,8 86,3 80,5 74,7 66,4 57,4 50,9 43,8 36,0 27,9
V2522A LAmax D 14 000,0 96,6 88,4 83,2 78,2 70,3 61,5 55,1 47,9 39,8 31,5
V2522A LAmax D 18 000,0 101,4 93,9 89,1 84,0 76,1 67,2 60,8 53,6 46,0 37,7
V2522A LAmax D 21 000,0 103,1 95,8 91,0 86,1 78,2 69,4 63,2 56,3 48,6 40,5
V2522A SEL A 2 000,0 93,7 89,5 86,3 82,8 77,0 70,6 65,6 60,2 53,9 47,2
V2522A SEL A 2 700,0 93,9 89,7 86,4 82,9 77,1 70,7 65,8 60,4 54,0 47,4
V2522A SEL A 6 000,0 95,6 91,3 87,9 84,1 78,2 71,5 66,7 61,2 54,7 47,9
V2522A SEL D 10 000,0 94,9 90,1 86,7 83,3 77,9 71,7 67,0 61,7 55,7 49,1
V2522A SEL D 14 000,0 98,2 94,0 90,9 87,6 82,1 75,7 71,0 65,4 59,2 52,6
V2522A SEL D 18 000,0 102,6 98,6 95,6 92,5 87,2 81,1 76,6 71,3 65,3 58,9
V2522A SEL D 21 000,0 103,9 100,0 97,1 94,1 89,0 83,0 78,7 73,6 67,8 61,7
V2525 LAmax A 3 000,0 89,2 83,0 78,2 73,7 66,0 57,5 51,0 44,1 36,5 28,3
V2525 LAmax A 6 950,0 91,0 84,5 80,0 75,0 67,7 58,9 53,0 46,0 38,2 30,0
V2525 LAmax D 10 500,0 93,1 86,5 82,0 77,2 69,9 61,1 55,3 48,7 41,2 33,4
V2525 LAmax D 13 150,0 95,2 88,8 84,0 79,5 72,1 63,5 57,9 51,0 43,8 36,0
V2525 LAmax D 18 500,0 100,0 93,4 88,8 84,0 76,7 68,1 62,2 56,0 48,6 40,8
V2525 LAmax D 23 000,0 104,8 98,5 93,9 89,0 81,8 73,3 67,8 61,0 53,5 45,4
V2525 SEL A 3 000,0 91,9 88,5 85,4 81,9 76,7 71,2 66,9 61,7 55,7 49,1
V2525 SEL A 6 950,0 94,3 90,2 86,6 83,5 78,3 72,8 68,4 63,7 57,5 51,5
V2525 SEL D 10 500,0 95,8 91,6 88,5 85,3 80,2 74,7 70,2 65,7 59,5 54,1
V2525 SEL D 13 150,0 98,1 94,0 91,0 87,9 82,7 76,9 72,7 68,2 62,7 56,7
V2525 SEL D 18 500,0 102,4 98,5 95,7 92,7 87,7 82,2 78,2 73,2 67,8 61,7
V2525 SEL D 23 000,0 106,2 102,7 99,7 97,0 92,2 86,7 82,7 78,0 72,7 66,5
V2527A LAmax A 2 000,0 89,3 82,8 78,2 73,4 65,8 57,4 51,2 44,4 36,7 28,6
V2527A LAmax A 2 700,0 89,5 83,0 78,3 73,5 65,8 57,4 51,3 44,4 36,7 28,6
V2527A LAmax A 6 000,0 91,6 84,7 79,5 74,2 66,5 58,0 51,9 45,0 37,2 29,1
V2527A LAmax D 10 000,0 94,8 86,3 80,5 74,8 66,5 57,6 51,1 44,0 36,2 28,2
V2527A LAmax D 14 000,0 96,7 88,6 83,5 78,4 70,5 61,7 55,3 48,1 40,1 31,8
V2527A LAmax D 19 000,0 101,2 93,9 89,0 84,0 76,1 67,3 61,1 54,1 46,3 38,2
V2527A LAmax D 23 000,0 104,0 96,9 92,2 87,3 79,4 70,8 64,7 57,9 50,3 42,0
V2527A SEL A 2 000,0 93,1 89,1 86,1 82,9 77,7 71,7 67,1 61,9 55,8 49,2
V2527A SEL A 2 700,0 93,3 89,2 86,2 83,0 77,7 71,8 67,2 62,0 55,8 49,3
V2527A SEL A 6 000,0 94,7 90,5 87,4 83,9 78,5 72,3 67,7 62,5 56,3 49,7
V2527A SEL D 10 000,0 95,0 90,2 86,8 83,5 78,1 71,8 67,2 61,9 55,9 49,4
V2527A SEL D 14 000,0 98,3 93,9 90,9 87,6 82,1 75,8 71,1 65,6 59,4 52,8
V2527A SEL D 19 000,0 102,5 98,4 95,5 92,3 87,2 81,1 76,7 71,5 65,7 59,4
V2527A SEL D 23 000,0 104,6 100,7 98,0 95,0 90,0 84,3 80,0 75,1 69,5 63,3
V2530 LAmax A 2 000,0 91,8 84,4 79,6 74,5 66,3 57,2 50,5 43,2 35,2 26,9
V2530 LAmax A 6 000,0 93,3 86,1 81,2 75,9 67,6 58,5 51,8 44,4 36,2 27,8
V2530 LAmax D 13 000,0 96,8 88,3 83,2 78,2 70,3 61,4 54,9 47,6 39,6 31,3
V2530 LAmax D 18 000,0 99,6 92,1 87,3 82,3 74,3 65,4 59,0 51,9 44,1 35,9
V2530 LAmax D 22 000,0 103,3 96,1 91,4 86,4 78,5 69,8 63,6 56,9 49,2 41,1
V2530 LAmax D 27 000,0 107,0 100,0 95,3 90,4 82,6 74,2 68,1 61,5 54,0 45,8
V2530 SEL A 2 000,0 94,6 90,2 86,9 83,4 77,7 71,2 66,2 60,5 54,3 47,6
V2530 SEL A 6 000,0 96,0 91,4 88,1 84,6 78,8 72,3 67,4 61,7 55,4 48,6
V2530 SEL D 13 000,0 98,3 94,3 91,2 87,8 82,2 75,8 71,0 65,5 59,2 52,5
V2530 SEL D 18 000,0 100,8 96,8 93,8 90,7 85,4 79,4 74,8 69,5 63,6 57,1
V2530 SEL D 22 000,0 104,1 100,1 97,3 94,3 89,3 83,5 79,1 74,0 68,4 62,2
V2530 SEL D 27 000,0 107,5 103,5 100,9 98,0 93,2 87,6 83,4 78,6 73,0 67,1
Spectral Class ID Op Type Description L_50Hz L_63Hz L_80Hz L_100Hz L_125Hz L_160Hz L_200Hz L_250Hz L_315Hz L_400Hz L_500Hz
101 Departure 2/3-Engine.LowByPass.Tfan 59,5 61,6 62,8 73,1 80,8 78,3 72,3 75,8 75,9 73,6 71,8
102 Departure 2-Engine.HighByPass.Tfan 59,7 60,0 68,5 73,0 73,8 70,4 67,6 71,4 68,7 72,8 73,2
103 Departure 2-Engine.HighByPass.Tfan 56,7 66,1 70,1 72,8 76,6 73,0 74,5 77,0 75,3 72,2 72,2
104 Departure 2-Engine.Low/MidByPass.Tfan 57,3 56,3 61,5 67,7 71,4 73,7 67,0 72,1 73,8 74,1 71,3
105 Departure 2-Engine.HighByPass.Tfan 66,5 60,4 67,1 75,0 78,2 79,3 71,5 76,7 74,4 74,6 72,3
106 Departure 4-Engine.Tfan+Supersonic 62,5 57,4 66,9 73,7 75,5 74,0 71,4 73,4 73,4 75,7 75,8
107 Departure 4-Engine.Tfan 58,6 62,7 69,1 74,1 76,0 74,3 74,1 74,4 74,0 73,6 73,2
108 Departure 4-Engine.Tfan 66,2 66,2 66,2 72,2 80,8 67,9 67,6 72,0 70,0 70,7 71,1
109 Departure 2-Engine.Tprop+1/2-Engine.Piston 64,7 67,1 73,1 89,4 84,5 76,3 89,3 80,7 79,3 79,3 81,6
110 Departure 2-Engine.Tprop+4-Engine.Piston 71,4 69,9 79,9 87,4 76,5 80,9 86,2 86,0 85,6 81,2 76,8
111 Departure 2-Engine.Tprop 78,0 76,0 90,0 103,0 82,0 85,0 97,0 89,0 94,0 80,0 79,0
112 Departure 2/4-Engine.Tprop 74,0 95,0 92,0 75,0 96,0 90,0 74,9 78,0 75,0 75,0 74,1
113 Departure 2-Engine.Tjet+Tfan.Business 58,5 57,9 60,7 67,0 71,2 72,6 70,3 72,7 72,9 73,5 72,8
136 Departure 2-Engine.Tfan.Business 59,7 60,0 68,5 73,0 73,8 70,4 67,6 71,4 68,7 72,8 73,2
137 Departure 2-Engine.Tfan.Business 58,6 62,7 69,1 74,1 76,0 74,3 74,1 74,4 74,0 73,6 73,2
138 Departure 2-Engine.Tfan.Business 66,2 66,2 66,2 72,2 80,8 67,9 67,6 72,0 70,0 70,7 71,1
201 Approach 2/3-Engine.LowByPass.Tfan 64,9 65,5 66,2 66,7 73,0 77,6 74,8 70,7 76,6 72,5 74,4
202 Approach 2-Engine.Low/HighByPass.Tfan 68,5 68,5 68,5 68,4 68,5 70,9 73,3 67,3 72,6 72,5 72,1
203 Approach 2-Engine.HighByPass.Tfan+Business 67,3 68,9 69,6 70,0 70,2 74,0 74,7 73,1 71,3 74,1 72,9
204 Approach 2-Engine.Low/MidByPass.Tfan 58,8 57,1 59,4 68,0 72,8 73,7 69,1 72,3 74,8 75,6 73,6
205 Approach 2-Engine.HighByPass.Tfan 68,3 60,7 64,6 67,4 78,4 74,8 71,4 72,4 72,0 72,4 71,6
206 Approach 4-Engine.Tjet+Tfan 63,3 65,4 64,1 63,2 66,0 66,6 69,6 70,1 71,5 67,1 71,0
207 Approach 4-Engine.Tfan 67,0 61,1 62,7 64,1 70,4 74,4 71,8 68,4 76,3 72,3 73,5
208 Approach 4-Engine.Tjet+Tfan 66,7 65,0 61,7 65,4 72,9 76,2 73,0 68,1 72,7 70,7 72,1
209 Approach 4-Engine.Tfan 60,0 59,0 60,0 69,0 71,0 70,0 69,0 69,0 69,0 69,0 70,0
210 Approach 2-Engine.Tprop 65,0 70,0 65,0 72,0 77,0 68,0 78,0 85,0 86,0 79,0 73,0
211 Approach 2-Engine.Tprop 71,3 65,4 74,7 88,1 77,1 80,3 86,9 80,0 86,8 78,2 75,5
212 Approach 2-Engine.Tprop 72,0 68,0 79,0 71,0 73,0 84,0 74,0 75,0 73,0 72,0 71,0
213 Approach 4-Engine.Tprop+Piston 64,0 73,0 76,0 71,0 82,0 83,0 67,0 71,0 70,0 69,0 69,0
214 Approach 2/4-Engine.Tprop 61,8 69,8 61,8 58,8 67,8 70,8 62,8 59,8 62,8 60,8 60,8
215 Approach 1/2-Engine.Piston 83,0 98,0 83,0 79,0 91,0 80,0 85,0 76,0 75,0 73,0 72,0
216 Approach 2-Engine.Tjet+Tfan 68,0 63,1 64,7 71,2 74,3 75,0 70,3 72,6 72,1 73,3 71,3
235 Approach 2-Engine.Tfan.Business 67,3 68,9 69,6 70,0 70,2 74,0 74,7 73,1 71,3 74,1 72,9
236 Approach 2-Engine.Tfan.Business 62,7 64,8 63,5 62,6 65,4 66,0 69,0 69,5 70,8 66,5 70,4
237 Approach 2-Engine.Tfan.Business 67,0 61,1 62,7 64,1 70,4 74,4 71,8 68,4 76,3 72,3 73,5
238 Approach 2-Engine.Tfan.Business 60,0 59,0 60,0 69,0 71,0 70,0 69,0 69,0 69,0 69,0 70,0Spectral Class ID Op Type Description L_50Hz L_63Hz L_80Hz L_100Hz L_125Hz L_160Hz L_200Hz L_250Hz L_315Hz L_400Hz L_500Hz L_630Hz L_800Hz L_1000Hz L_1250Hz L_1600Hz L_2000Hz L_2500Hz L_3150Hz L_4000Hz L_5000Hz L_6300Hz L_8000Hz L_10000Hz
101 Departure 2/3-Engine.LowByPass.Tfan 59,5 61,6 62,8 73,1 80,8 78,3 72,3 75,8 75,9 73,6 71,8 71,6 72,3 70,0 68,3 66,6 64,2 61,4 58,6 54,8 50,9 45,7 43,9 40,9
102 Departure 2-Engine.HighByPass.Tfan 59,7 60,0 68,5 73,0 73,8 70,4 67,6 71,4 68,7 72,8 73,2 73,0 72,9 70,0 68,0 67,3 62,3 61,4 58,0 58,8 58,7 46,7 44,2 44,1
103 Departure 2-Engine.HighByPass.Tfan 56,7 66,1 70,1 72,8 76,6 73,0 74,5 77,0 75,3 72,2 72,2 71,2 70,2 70,0 69,6 71,1 70,6 67,1 63,4 63,5 58,2 51,5 42,3 37,7
104 Departure 2-Engine.Low/MidByPass.Tfan 57,3 56,3 61,5 67,7 71,4 73,7 67,0 72,1 73,8 74,1 71,3 70,4 70,9 70,0 68,2 67,3 63,4 60,9 56,6 53,2 47,8 40,5 31,7 27,9
105 Departure 2-Engine.HighByPass.Tfan 66,5 60,4 67,1 75,0 78,2 79,3 71,5 76,7 74,4 74,6 72,3 71,9 71,1 70,0 69,0 68,8 67,0 65,5 63,4 59,2 53,8 50,0 44,7 38,2
106 Departure 4-Engine.Tfan+Supersonic 62,5 57,4 66,9 73,7 75,5 74,0 71,4 73,4 73,4 75,7 75,8 74,1 71,6 70,0 68,9 68,2 66,4 63,5 62,5 62,5 59,2 53,7 48,1 41,2
107 Departure 4-Engine.Tfan 58,6 62,7 69,1 74,1 76,0 74,3 74,1 74,4 74,0 73,6 73,2 72,3 71,7 70,0 69,1 69,4 69,6 73,6 67,7 63,1 58,3 51,5 44,2 34,7
108 Departure 4-Engine.Tfan 66,2 66,2 66,2 72,2 80,8 67,9 67,6 72,0 70,0 70,7 71,1 68,9 71,1 70,0 68,3 67,5 65,4 63,6 63,9 64,8 62,1 59,3 54,6 47,3
109 Departure 2-Engine.Tprop+1/2-Engine.Piston 64,7 67,1 73,1 89,4 84,5 76,3 89,3 80,7 79,3 79,3 81,6 80,3 76,4 70,0 65,0 61,9 59,8 57,3 55,6 52,7 50,9 44,8 36,3 28,4
110 Departure 2-Engine.Tprop+4-Engine.Piston 71,4 69,9 79,9 87,4 76,5 80,9 86,2 86,0 85,6 81,2 76,8 74,5 73,2 70,0 69,5 69,2 67,2 65,4 63,2 60,2 58,4 51,4 40,4 29,0
111 Departure 2-Engine.Tprop 78,0 76,0 90,0 103,0 82,0 85,0 97,0 89,0 94,0 80,0 79,0 79,0 75,0 70,0 68,0 64,0 62,0 58,0 57,0 53,0 48,0 43,0 38,0 33,0
112 Departure 2/4-Engine.Tprop 74,0 95,0 92,0 75,0 96,0 90,0 74,9 78,0 75,0 75,0 74,1 74,0 72,0 70,0 71,0 72,0 71,0 70,0 66,0 64,0 60,0 54,0 46,0 39,9
113 Departure 2-Engine.Tjet+Tfan.Business 58,5 57,9 60,7 67,0 71,2 72,6 70,3 72,7 72,9 73,5 72,8 72,0 71,3 70,0 68,9 67,1 64,5 63,0 60,2 55,8 52,1 45,1 38,8 29,6
136 Departure 2-Engine.Tfan.Business 59,7 60,0 68,5 73,0 73,8 70,4 67,6 71,4 68,7 72,8 73,2 73,0 72,9 70,0 68,0 67,3 62,3 61,4 58,0 58,8 58,7 46,7 44,2 44,1
137 Departure 2-Engine.Tfan.Business 58,6 62,7 69,1 74,1 76,0 74,3 74,1 74,4 74,0 73,6 73,2 72,3 71,7 70,0 69,1 69,4 69,6 73,6 67,7 63,1 58,3 51,5 44,2 34,7
138 Departure 2-Engine.Tfan.Business 66,2 66,2 66,2 72,2 80,8 67,9 67,6 72,0 70,0 70,7 71,1 68,9 71,1 70,0 68,3 67,5 65,4 63,6 63,9 64,8 62,1 59,3 54,6 47,3
201 Approach 2/3-Engine.LowByPass.Tfan 64,9 65,5 66,2 66,7 73,0 77,6 74,8 70,7 76,6 72,5 74,4 73,6 70,9 70,0 69,2 67,8 66,5 68,0 63,0 60,0 57,6 56,3 54,6 45,8
202 Approach 2-Engine.Low/HighByPass.Tfan 68,5 68,5 68,5 68,4 68,5 70,9 73,3 67,3 72,6 72,5 72,1 75,4 75,4 70,0 68,9 68,3 65,8 64,7 63,5 62,1 60,2 57,8 48,6 38,8
203 Approach 2-Engine.HighByPass.Tfan+Business 67,3 68,9 69,6 70,0 70,2 74,0 74,7 73,1 71,3 74,1 72,9 73,1 71,6 70,0 70,4 67,4 67,4 70,8 69,7 72,1 64,2 56,4 49,6 38,9
204 Approach 2-Engine.Low/MidByPass.Tfan 58,8 57,1 59,4 68,0 72,8 73,7 69,1 72,3 74,8 75,6 73,6 72,1 72,1 70,0 66,3 63,6 59,9 57,5 54,8 51,8 48,8 45,8 42,8 39,8
205 Approach 2-Engine.HighByPass.Tfan 68,3 60,7 64,6 67,4 78,4 74,8 71,4 72,4 72,0 72,4 71,6 72,0 71,0 70,0 68,9 67,2 65,8 64,4 63,0 62,0 60,6 54,4 48,5 39,0
206 Approach 4-Engine.Tjet+Tfan 63,3 65,4 64,1 63,2 66,0 66,6 69,6 70,1 71,5 67,1 71,0 70,4 71,8 70,0 69,6 66,6 62,9 62,0 62,7 59,1 58,8 53,3 50,2 40,6
207 Approach 4-Engine.Tfan 67,0 61,1 62,7 64,1 70,4 74,4 71,8 68,4 76,3 72,3 73,5 71,2 70,5 70,0 68,7 67,1 67,5 69,4 71,1 72,5 65,7 59,3 52,2 45,6
208 Approach 4-Engine.Tjet+Tfan 66,7 65,0 61,7 65,4 72,9 76,2 73,0 68,1 72,7 70,7 72,1 70,1 69,0 70,0 70,9 70,2 70,6 81,3 73,7 62,8 62,6 56,0 49,6 37,9
209 Approach 4-Engine.Tfan 60,0 59,0 60,0 69,0 71,0 70,0 69,0 69,0 69,0 69,0 70,0 69,0 69,0 70,0 72,0 77,0 72,0 72,0 70,0 66,0 63,0 57,0 49,0 38,0
210 Approach 2-Engine.Tprop 65,0 70,0 65,0 72,0 77,0 68,0 78,0 85,0 86,0 79,0 73,0 76,0 71,0 70,0 68,0 68,0 65,0 63,0 60,0 56,0 53,0 52,0 42,0 28,0
211 Approach 2-Engine.Tprop 71,3 65,4 74,7 88,1 77,1 80,3 86,9 80,0 86,8 78,2 75,5 75,2 71,6 70,0 70,7 69,6 68,6 67,5 67,0 63,9 59,9 53,0 45,7 40,0
212 Approach 2-Engine.Tprop 72,0 68,0 79,0 71,0 73,0 84,0 74,0 75,0 73,0 72,0 71,0 77,0 73,0 70,0 77,0 75,0 72,0 70,0 71,0 83,0 75,0 57,0 54,0 45,0
213 Approach 4-Engine.Tprop+Piston 64,0 73,0 76,0 71,0 82,0 83,0 67,0 71,0 70,0 69,0 69,0 68,0 67,0 70,0 69,0 67,0 64,0 60,0 57,0 54,0 49,0 42,0 32,0 20,0
214 Approach 2/4-Engine.Tprop 61,8 69,8 61,8 58,8 67,8 70,8 62,8 59,8 62,8 60,8 60,8 59,8 60,8 70,0 67,8 61,8 59,8 56,8 52,8 49,8 47,8 45,8 35,8 27,8
215 Approach 1/2-Engine.Piston 83,0 98,0 83,0 79,0 91,0 80,0 85,0 76,0 75,0 73,0 72,0 73,0 71,0 70,0 68,0 66,0 65,0 64,0 60,0 57,0 53,0 49,0 43,0 32,0
216 Approach 2-Engine.Tjet+Tfan 68,0 63,1 64,7 71,2 74,3 75,0 70,3 72,6 72,1 73,3 71,3 70,7 70,3 70,0 69,3 68,0 67,8 66,3 64,4 62,0 57,2 52,2 43,5 33,1
235 Approach 2-Engine.Tfan.Business 67,3 68,9 69,6 70,0 70,2 74,0 74,7 73,1 71,3 74,1 72,9 73,1 71,6 70,0 70,4 67,4 67,4 70,8 69,7 72,1 64,2 56,4 49,6 38,9
236 Approach 2-Engine.Tfan.Business 62,7 64,8 63,5 62,6 65,4 66,0 69,0 69,5 70,8 66,5 70,4 69,8 71,2 69,4 68,9 66,0 62,3 61,4 62,1 58,5 58,2 52,7 49,6 40,0
237 Approach 2-Engine.Tfan.Business 67,0 61,1 62,7 64,1 70,4 74,4 71,8 68,4 76,3 72,3 73,5 71,2 70,5 70,0 68,7 67,1 67,5 69,4 71,1 72,5 65,7 59,3 52,2 45,6
238 Approach 2-Engine.Tfan.Business 60,0 59,0 60,0 69,0 71,0 70,0 69,0 69,0 69,0 69,0 70,0 69,0 69,0 70,0 72,0 77,0 72,0 72,0 70,0 66,0 63,0 57,0 49,0 38,0This section introduces complementary data for general aviation aircraft.


ACFTID Description Engine Type Numb of Engines Weight Class Owner Category MGTOW (lb) MGLW (lb) Max Landing Dist (ft) Max Sea Level Static Thrust (lb) Noise Chapter NPD_ID Power Parameter Approach Spectral Class ID Departure Spectral Class ID Lateral Directivity Identifier
GASEPF Single-engine fixed pitch propeller aircraft Piston 1 Small General Aviation 2 200 2 200 1 160 560 0 GASEPF Percent 215 109 Prop
GASEPV Single-engine variable pitch propeller aircraft Piston 1 Small General Aviation 3 000 3 000 1 111 790 0 GASEPV Percent 215 109 Prop

(the associated spectral data are available in the ANP ‘Spectral Classes’ table)


ACFTID Op type Profile_ID Stage length Point number Distance (ft) Altitude AFE (ft) TAS (kt) Percentage of Max Static Thrust (%)
GASEPF A APP_3_DEG 1 1 – 114 486,8 6 000,0 109,4 34,21
GASEPF A APP_3_DEG 1 2 – 57 243,4 3 000,0 71,8 37,57
GASEPF A APP_3_DEG 1 3 – 28 621,7 1 500,0 60,0 40,59
GASEPF A APP_3_DEG 1 4 – 19 081,1 1 000,0 59,6 39,85
GASEPF A APP_3_DEG 1 5 0,0 0,0 58,7 38,43
GASEPF A APP_3_DEG 1 6 47,2 0,0 55,7 27,20
GASEPF A APP_3_DEG 1 7 472,0 0,0 30,0 10,00
GASEPF A APP_5_DEG 1 1 – 68 580,3 6 000,0 109,4 18,03
GASEPF A APP_5_DEG 1 2 – 34 290,2 3 000,0 71,8 22,59
GASEPF A APP_5_DEG 1 3 – 17 145,1 1 500,0 60,0 26,14
GASEPF A APP_5_DEG 1 4 – 11 430,1 1 000,0 59,6 25,67
GASEPF A APP_5_DEG 1 5 0,0 0,0 58,7 24,75
GASEPF A APP_5_DEG 1 6 47,2 0,0 55,7 27,20
GASEPF A APP_5_DEG 1 7 472,0 0,0 30,0 10,00
GASEPF D DEFAULT_DEP 1 1 0,0 0,0 0,0 113,06
GASEPF D DEFAULT_DEP 1 2 972,8 0,0 62,1 113,06
GASEPF D DEFAULT_DEP 1 3 2 077,9 51,4 73,1 96,32
GASEPF D DEFAULT_DEP 1 4 13 665,7 1 000,0 74,1 98,31
GASEPF D DEFAULT_DEP 1 5 16 079,7 1 097,7 84,3 86,65
GASEPF D DEFAULT_DEP 1 6 17 079,7 1 155,4 84,4 81,16
GASEPF D DEFAULT_DEP 1 7 49 057,1 3 000,0 86,8 84,60
GASEPF D DEFAULT_DEP 1 8 97 253,2 5 500,0 90,1 89,42
GASEPF D DEFAULT_DEP 1 9 140 694,0 7 500,0 92,9 93,53
GASEPF D DEFAULT_DEP 1 10 202 700,4 10 000,0 96,6 99,04
GASEPV A APP_3_DEG 1 1 – 114 486,8 6 000,0 109,4 24,34
GASEPV A APP_3_DEG 1 2 – 57 243,4 3 000,0 79,4 26,37
GASEPV A APP_3_DEG 1 3 – 28 621,7 1 500,0 67,5 45,05
GASEPV A APP_3_DEG 1 4 – 19 081,1 1 000,0 67,0 44,24
GASEPV A APP_3_DEG 1 5 0,0 0,0 66,0 42,66
GASEPV A APP_3_DEG 1 6 42,8 0,0 62,6 31,00
GASEPV A APP_3_DEG 1 7 428,0 0,0 30,0 10,00
GASEPV A APP_5_DEG 1 1 – 68 580,3 6 000,0 109,4 8,70
GASEPV A APP_5_DEG 1 2 – 34 290,2 3 000,0 79,4 12,04
GASEPV A APP_5_DEG 1 3 – 17 145,1 1 500,0 67,5 31,28
GASEPV A APP_5_DEG 1 4 – 11 430,1 1 000,0 67,0 30,72
GASEPV A APP_5_DEG 1 5 0,0 0,0 66,0 29,62
GASEPV A APP_5_DEG 1 6 42,8 0,0 62,6 31,00
GASEPV A APP_5_DEG 1 7 428,0 0,0 30,0 10,00
GASEPV D DEFAULT_DEP 1 1 0,0 0,0 0,0 163,92
GASEPV D DEFAULT_DEP 1 2 861,8 0,0 55,6 163,92
GASEPV D DEFAULT_DEP 1 3 1 302,6 42,7 66,0 138,25
GASEPV D DEFAULT_DEP 1 4 2 963,7 172,0 90,2 101,67
GASEPV D DEFAULT_DEP 1 5 9 389,6 1 000,0 91,3 103,50
GASEPV D DEFAULT_DEP 1 6 10 985,9 1 102,9 101,6 93,36
GASEPV D DEFAULT_DEP 1 7 11 985,9 1 200,6 101,8 86,89
GASEPV D DEFAULT_DEP 1 8 30 407,6 3 000,0 104,5 90,57
GASEPV D DEFAULT_DEP 1 9 57 858,2 5 500,0 108,5 95,72
GASEPV D DEFAULT_DEP 1 10 81 543,2 7 500,0 111,9 100,13
GASEPV D DEFAULT_DEP 1 11 113 618,2 10 000,0 116,4 106,03


NPD_ID Noise metric Op type Power setting — Percentage of Maximum Static Thrust (%) L_200ft L_400ft L_630ft L_1000ft L_2000ft L_4000ft L_6300ft L_10000ft L_16000ft L_25000ft
GASEPF LAmax A 30,00 72,2 65,9 61,6 57,2 50,3 43,1 38,0 32,7 27,0 20,9
GASEPF LAmax A 100,00 84,9 78,6 74,4 70,0 63,2 55,8 50,4 44,6 38,3 31,5
GASEPF LAmax D 30,00 72,2 65,9 61,6 57,2 50,3 43,1 38,0 32,7 27,0 20,9
GASEPF LAmax D 100,00 84,9 78,6 74,4 70,0 63,2 55,8 50,4 44,6 38,3 31,5
GASEPF SEL A 30,00 74,2 70,1 67,3 64,4 59,8 54,8 51,2 47,4 43,2 38,6
GASEPF SEL A 100,00 87,1 83,1 80,4 77,5 72,9 67,8 63,9 59,6 54,8 49,4
GASEPF SEL D 30,00 74,2 70,1 67,3 64,4 59,8 54,8 51,2 47,4 43,2 38,6
GASEPF SEL D 100,00 87,1 83,1 80,4 77,5 72,9 67,8 63,9 59,6 54,8 49,4
GASEPV LAmax A 30,00 82,8 73,9 69,6 65,2 58,3 51,1 46,0 40,7 35,0 28,9
GASEPV LAmax A 100,00 92,4 86,1 81,9 77,5 70,7 63,3 57,9 52,1 45,8 39,0
GASEPV LAmax D 30,00 82,8 73,9 69,6 65,2 58,3 51,1 46,0 40,7 35,0 28,9
GASEPV LAmax D 100,00 92,4 86,1 81,9 77,5 70,7 63,3 57,9 52,1 45,8 39,0
GASEPV SEL A 30,00 81,7 77,6 74,8 71,9 67,3 62,3 58,7 54,9 50,7 46,1
GASEPV SEL A 100,00 94,6 90,6 87,9 85,0 80,4 75,3 71,4 67,1 62,3 56,9
GASEPV SEL D 30,00 81,7 77,6 74,8 71,9 67,3 62,3 58,7 54,9 50,7 46,1
GASEPV SEL D 100,00 94,6 90,6 87,9 85,0 80,4 75,3 71,4 67,1 62,3 56,9


Aircraft group Examples of aircraft types (maximum take-off mass)
P 1.0 Dewald Sunny, Flightstar II, Ikarus C42, Quicksilver MXL II, Sherpa, Stratos, Tecnam P92 Echo
P 1.1 DG-400 (500 kg), Grob 109B (900 kg), H 36 Dimona (800 kg), Scheibe SF 25C (700 kg)
P 1.2 DR 400/180R (1 000 kg), H 36 Dimona (800 kg), PZL-104 ‘Wilga 35’ (1 200 kg), Scheibe SF 25 (700 kg)
P 1.3 DR 400/180R (1 000 kg), Cessna 172N (1 000 kg), Piper PA-28- 181 (1 200 kg), Piper PA-34-200 (1 900 kg)


NOISE_ID,C,12 THRSET_TYP,C,1 MODEL_TYPE,C,1 SPECT_APP,N,3,0 SPECT_DEP,N,3,0 SPECT_AFB,N,3,0
P1.0 P I 215 109 0
P1.1 P I 215 109 0
P1.2 P I 215 109 0
P1.3 P I 215 109 0


ACFT_ID,C,12 ACFT_DESCR,C,40 WGT_CAT,C,1 OWNER_CAT,C,1 ENG_TYPE,C,1 NOISE_CAT,C,1 NOISE_ID,C,12 NUMB_ENG,N,1,0 THR_RESTOR,C,1 MX_GW_TKO,N,7,0 MX_GW_LND,N,7,0 MX_DS_STOP,N,5,0 COEFF_TYPE,C,1 THR_STATIC,N,6,0
P1.0 Ultralights S G P 0 P1.0 1 N 0 0 0 P 100
P1.1 Motorgliders S G P 0 P1.1 1 N 0 0 0 P 100
P1.2 Prop MTOM <= 2 t towing gliders S G P 0 P1.2 1 N 0 0 0 P 100
P1.3 Prop MTOM <= 2 t S G P 0 P1.3 1 N 0 0 0 P 100


ACFT_ID,C,12 OP_TYPE,C,1 PROF_ID1,C,8 PROF_ID2,C,1 WEIGHT,N,7,0
P1.0 A DEFAULT 1 100
P1.0 D DEFAULT 1 100
P1.1 A DEFAULT 1 100
P1.1 D DEFAULT 1 100
P1.2 A DEFAULT 1 100
P1.2 D DEFAULT 1 100
P1.3 A DEFAULT 1 100
P1.3 D DEFAULT 1 100


ACFT_ID,C,12 OP_TYPE,C,1 PROF_ID1,C,8 PROF_ID2,C,1 PT_NUM,N,3,0 DISTANCE,N,10,1 ALTITUDE,N,7,1 SPEED,N,5,1 THR_SET,N,9,2 OP_MODE,C,1
P1.0 A DEFAULT 1 1 – 114 486 6 000 50,5 70 A
P1.0 A DEFAULT 1 2 – 18 917,1 1 000 50,5 70 A
P1.0 A DEFAULT 1 3 – 15 636,3 828,1 50,5 70 A
P1.0 A DEFAULT 1 4 164 0 50,5 70 A
P1.0 A DEFAULT 1 5 656,2 0 19,4 30 A
P1.0 D DEFAULT 1 1 0 0 19,4 100 D
P1.0 D DEFAULT 1 2 328,1 0 62,2 100 D
P1.0 D DEFAULT 1 3 12 986,3 1 000 62,2 100 D
P1.0 D DEFAULT 1 4 42 000 3 000 65 100 D
P1.0 D DEFAULT 1 5 200 000 10 000 68 100 D
P1.1 A DEFAULT 1 1 – 114 486 6 000 50,5 70 A
P1.1 A DEFAULT 1 2 – 18 589 1 000 50,5 70 A
P1.1 A DEFAULT 1 3 – 15 308,2 828,1 50,5 70 A
P1.1 A DEFAULT 1 4 492,1 0 50,5 70 A
P1.1 A DEFAULT 1 5 656,2 0 19,4 30 A
P1.1 D DEFAULT 1 1 0 0 19,4 100 D
P1.1 D DEFAULT 1 2 656,2 0 66,1 100 D
P1.1 D DEFAULT 1 3 13 314,4 1 000 66,1 100 D
P1.1 D DEFAULT 1 4 43 000 3 000 70 100 D
P1.1 D DEFAULT 1 5 200 000 10 000 73,9 100 D
P1.2 A DEFAULT 1 1 – 114 486 6 000 60,3 70 A
P1.2 A DEFAULT 1 2 – 18 589 1 000 60,3 70 A
P1.2 A DEFAULT 1 3 – 15 308,2 828,1 60,3 70 A
P1.2 A DEFAULT 1 4 492,1 0 60,3 70 A
P1.2 A DEFAULT 1 5 1 476,4 0 19,4 30 A
P1.2 D DEFAULT 1 1 0 0 19,4 100 D
P1.2 D DEFAULT 1 2 1 312,3 0 62,2 100 D
P1.2 D DEFAULT 1 3 17 705,8 1 000 62,2 100 D
P1.2 D DEFAULT 1 4 50 000 3 000 64 100 D
P1.2 D DEFAULT 1 5 200 000 10 000 66,1 100 D
P1.3 A DEFAULT 1 1 – 114 486 6 000 60,3 70 A
P1.3 A DEFAULT 1 2 – 18 589 1 000 60,3 70 A
P1.3 A DEFAULT 1 3 – 15 308,2 828,1 60,3 70 A
P1.3 A DEFAULT 1 4 492,1 0 60,3 70 A
P1.3 A DEFAULT 1 5 1 476,4 0 19,4 30 A
P1.3 D DEFAULT 1 1 0 0 19,4 100 D
P1.3 D DEFAULT 1 2 820,2 0 70 100 D
P1.3 D DEFAULT 1 3 10 344 1 000 70 100 D
P1.3 D DEFAULT 1 4 40 000 3 000 75 100 D
P1.3 D DEFAULT 1 5 200 000 10 000 83 100 D


NOISE_ID,C,12 NOISE_TYPE,C,1 OP_MODE,C,1 THR_SET,N,9,2 L_200,N,5,1 L_400,N,5,1 L_630,N,5,1 L_1000,N,5,1 L_2000,N,5,1 L_4000,N,5,1 L_6300,N,5,1 L_10000,N,5,1 L_16000,N,5,1 L_25000,N,5,1
P1.0 M A 30 55,2 49 44,8 40,4 33,6 26,3 21,2 15,6 9,3 2,8
P1.0 M A 70 65,2 59 54,8 50,4 43,6 36,3 31,2 25,6 19,3 12,8
P1.0 M D 88 71,2 65 60,8 56,4 49,6 42,3 37,2 31,6 25,3 18,8
P1.0 M D 100 75,2 69 64,8 60,4 53,6 46,3 41,2 35,6 29,3 22,8
P1.0 S A 30 54,7 51,4 49,1 46,7 42,8 38,4 35,2 31,4 27,1 22,3
P1.0 S A 70 64,7 61,4 59,1 56,7 52,8 48,4 45,2 41,4 37,1 32,3
P1.0 S D 88 70,7 67,4 65,1 62,7 58,8 54,4 51,2 47,4 43,1 38,3
P1.0 S D 100 74,7 71,4 69,1 66,7 62,8 58,4 55,2 51,4 47,1 42,3
P1.1 M A 30 60,2 54 49,8 45,4 38,6 31,3 26,2 20,6 14,3 7,8
P1.1 M A 70 70,2 64 59,8 55,4 48,6 41,3 36,2 30,6 24,3 17,8
P1.1 M D 82 74,2 68 63,8 59,4 52,6 45,3 40,2 34,6 28,3 21,8
P1.1 M D 100 80,2 74 69,8 65,4 58,6 51,3 46,2 40,6 34,3 27,8
P1.1 S A 30 59,7 56,4 54,1 51,7 47,8 43,4 40,2 36,4 32,1 27,3
P1.1 S A 70 69,7 66,4 64,1 61,7 57,8 53,4 50,2 46,4 42,1 37,3
P1.1 S D 82 73,7 70,4 68,1 65,7 61,8 57,4 54,2 50,4 46,1 41,3
P1.1 S D 100 79,7 76,4 74,1 71,7 67,8 63,4 60,2 56,4 52,1 47,3
P1.2 M A 30 64,4 58,2 53,9 49,5 42,6 35,1 29,8 24 17,5 10,6
P1.2 M A 70 74,4 68,2 63,9 59,5 52,6 45,1 39,8 34 27,5 20,6
P1.2 M D 76 76,4 70,2 65,9 61,5 54,6 47,1 41,8 36 29,5 22,6
P1.2 M D 100 84,4 78,2 73,9 69,5 62,6 55,1 49,8 44 37,5 30,6
P1.2 S A 30 63,9 60,5 58,2 55,8 51,8 47,2 43,8 39,8 35,2 30,1
P1.2 S A 70 73,9 70,5 68,2 65,8 61,8 57,2 53,8 49,8 45,2 40,1
P1.2 S D 76 75,9 72,5 70,2 67,8 63,8 59,2 55,8 51,8 47,2 42,1
P1.2 S D 100 83,9 80,5 78,2 75,8 71,8 67,2 63,8 59,8 55,2 50,1
P1.3 M A 30 66,4 60,2 55,9 51,5 44,6 37,1 31,8 26 19,5 12,6
P1.3 M A 70 76,4 70,2 65,9 61,5 54,6 47,1 41,8 36 29,5 22,6
P1.3 M D 76 78,4 72,2 67,9 63,5 56,6 49,1 43,8 38 31,5 24,6
P1.3 M D 100 86,4 80,2 75,9 71,5 64,6 57,1 51,8 46 39,5 32,6
P1.3 S A 30 65,9 62,5 60,2 57,8 53,8 49,2 45,8 41,8 37,2 32,1
P1.3 S A 70 75,9 72,5 70,2 67,8 63,8 59,2 55,8 51,8 47,2 42,1
P1.3 S D 76 77,9 74,5 72,2 69,8 65,8 61,2 57,8 53,8 49,2 44,1
P1.3 S D 100 85,9 82,5 80,2 77,8 73,8 69,2 65,8 61,8 57,2 52,1

This includes data for five helicopters classes, based on helicopter MTOM:


ACFT_ID Description EngineTYPE Number of Engines Weight Class Owner Category MGTOW (lb) MGLW (lb) Max Landing Dist (ft) Max Sea Level Static Thrust (lb) Noise Chapter NPD_ID Power Parameter Approach Spectral Class ID Departure Spectral Class ID Lateral Directivity Indentifier
H1.0 Helicopters with MTOM <= 1 t Propeller 0 0 Helicopter 0 0 0 100 0 H1.0 SHP (% of Max Static Thrust) 215 109 Prop
H1.1 Helicopters with MTOM 1-3 t Propeller 0 0 Helicopter 0 0 0 100 0 H1.1 SHP (% of Max Static Thrust) 215 109 Prop
H1.2 Helicopters with MTOM 3-5 t Propeller 0 0 Helicopter 0 0 0 100 0 H1.2 SHP (% of Max Static Thrust) 215 109 Prop
H2.1 Helicopters with MTOM 5-10 t Propeller 0 0 Helicopter 0 0 0 100 0 H2.1 SHP (% of Max Static Thrust) 215 109 Prop
H2.2 Helicopters with MTOM > 10 t Propeller 0 0 Helicopter 0 0 0 100 0 H2.2 SHP (% of Max Static Thrust) 215 109 Prop


ACFT_ID OP_TYPE PROF_ID1 PROF_ID2 PT_NUM DISTANCE (ft) ALTITUDE (ft) SPEED (kt) THR_SET (%) OP_MODE
H1.0 D H1.0_S 1 1 0,0 0,0 3,9 100,00 D
H1.0 D H1.0_S 1 2 9,8 6,6 5,8 100,00 D
H1.0 D H1.0_S 1 3 32,8 16,4 9,7 100,00 D
H1.0 D H1.0_S 1 4 295,3 49,2 40,8 100,00 D
H1.0 D H1.0_S 1 5 5 687,5 1 000,0 60,3 100,00 D
H1.0 D H1.0_S 1 6 8 968,3 1 000,0 64,1 100,00 D
H1.0 D H1.0_S 1 7 200 000,0 1 000,0 64,1 100,00 D
H1.1 D H1.1_S 1 1 0,0 0,0 3,9 100,00 D
H1.1 D H1.1_S 1 2 9,8 6,6 5,8 100,00 D
H1.1 D H1.1_S 1 3 32,8 16,4 9,7 100,00 D
H1.1 D H1.1_S 1 4 295,3 49,2 40,8 100,00 D
H1.1 D H1.1_S 1 5 6 298,3 1 000,0 64,1 100,00 D
H1.1 D H1.1_S 1 6 9 579,2 1 000,0 70,0 100,00 D
H1.1 D H1.1_S 1 7 200 000,0 1 000,0 70,0 100,00 D
H1.2 D H1.2_S 1 1 0,0 0,0 3,9 100,00 D
H1.2 D H1.2_S 1 2 9,8 6,6 5,8 100,00 D
H1.2 D H1.2_S 1 3 32,8 16,4 9,7 100,00 D
H1.2 D H1.2_S 1 4 295,3 49,2 40,8 100,00 D
H1.2 D H1.2_S 1 5 6 298,3 1 000,0 70,0 100,00 D
H1.2 D H1.2_S 1 6 9 579,2 1 000,0 75,8 100,00 D
H1.2 D H1.2_S 1 7 200 000,0 1 000,0 75,8 100,00 D
H2.1 D H2.1_S 1 1 0,0 0,0 3,9 100,00 D
H2.1 D H2.1_S 1 2 9,8 6,6 5,8 100,00 D
H2.1 D H2.1_S 1 3 32,8 16,4 9,7 100,00 D
H2.1 D H2.1_S 1 4 295,3 49,2 40,8 100,00 D
H2.1 D H2.1_S 1 5 6 298,3 1 000,0 70,0 100,00 D
H2.1 D H2.1_S 1 6 9 579,2 1 000,0 75,8 100,00 D
H2.1 D H2.1_S 1 7 200 000,0 1 000,0 75,8 100,00 D
H2.2 D H2.2_S 1 1 0,0 0,0 3,9 100,00 D
H2.2 D H2.2_S 1 2 9,8 0,0 5,8 100,00 D
H2.2 D H2.2_S 1 3 32,8 16,4 9,7 100,00 D
H2.2 D H2.2_S 1 4 295,3 49,2 40,8 100,00 D
H2.2 D H2.2_S 1 5 6 298,3 1 000,0 70,0 100,00 D
H2.2 D H2.2_S 1 6 9 579,2 1 000,0 75,8 100,00 D
H2.2 D H2.2_S 1 7 200 000,0 1 000,0 75,8 100,00 D


ACFT_ID OP_TYPE PROF_ID1 PROF_ID2 PT_NUM DISTANCE ALTITUDE SPEED THR_SET OP_MODE
H1.0 A H1.0_L 1 1 – 200 000,0 1 000,0 64,1 100,00 A
H1.0 A H1.0_L 1 2 – 10 836,6 1 000,0 64,1 100,00 A
H1.0 A H1.0_L 1 3 – 7 555,8 1 000,0 60,3 100,00 A
H1.0 A H1.0_L 1 4 – 295,3 44,1 40,8 100,00 A
H1.0 A H1.0_L 1 5 – 32,8 9,6 9,7 100,00 A
H1.0 A H1.0_L 1 6 – 9,8 6,6 5,8 100,00 A
H1.0 A H1.0_L 1 7 0,0 0,0 3,9 100,00 A
H1.1 A H1.1_L 1 1 – 200 000,0 1 000,0 70,0 100,00 A
H1.1 A H1.1_L 1 2 – 8 401,5 1 000,0 70,0 100,00 A
H1.1 A H1.1_L 1 3 – 5 120,6 1 000,0 64,1 100,00 A
H1.1 A H1.1_L 1 4 – 295,3 62,0 40,8 100,00 A
H1.1 A H1.1_L 1 5 – 32,8 11,0 9,7 100,00 A
H1.1 A H1.1_L 1 6 – 9,8 6,6 5,8 100,00 A
H1.1 A H1.1_L 1 7 0,0 0,0 3,9 100,00 A
H1.2 A H1.2_L 1 1 – 200 000,0 1 000,0 75,8 100,00 A
H1.2 A H1.2_L 1 2 – 9 563,0 1 000,0 75,8 100,00 A
H1.2 A H1.2_L 1 3 – 6 282,2 1 000,0 70,0 100,00 A
H1.2 A H1.2_L 1 4 – 295,3 51,8 40,8 100,00 A
H1.2 A H1.2_L 1 5 – 32,8 10,2 9,7 100,00 A
H1.2 A H1.2_L 1 6 – 9,8 6,6 5,8 100,00 A
H1.2 A H1.2_L 1 7 0,0 0,0 3,9 100,00 A
H2.1 A H2.1_L 1 1 – 200 000,0 1 000,0 75,8 100,00 A
H2.1 A H2.1_L 1 2 – 9 563,0 1 000,0 75,8 100,00 A
H2.1 A H2.1_L 1 3 – 6 282,2 1 000,0 70,0 100,00 A
H2.1 A H2.1_L 1 4 – 295,3 51,8 40,8 100,00 A
H2.1 A H2.1_L 1 5 – 32,8 10,2 9,7 100,00 A
H2.1 A H2.1_L 1 6 – 9,8 6,6 5,8 100,00 A
H2.1 A H2.1_L 1 7 0,0 0,0 3,9 100,00 A
H2.2 A H2.2_L 1 1 – 200 000,0 1 000,0 75,8 100,00 A
H2.2 A H2.2_L 1 2 – 9 604,4 1 000,0 75,8 100,00 A
H2.2 A H2.2_L 1 3 – 6 323,6 1 000,0 70,0 100,00 A
H2.2 A H2.2_L 1 4 – 295,3 45,2 40,8 100,00 A
H2.2 A H2.2_L 1 5 – 32,8 3,6 9,7 100,00 A
H2.2 A H2.2_L 1 6 – 9,8 0,0 5,8 100,00 A
H2.2 A H2.2_L 1 7 0,0 0,0 3,9 100,00 A


NOISE_ID THRSET_TYP MODEL_TYPE SPECT_APP SPECT_DEP SPECT_AFB
H1.0 Propeller I 215 109 0
H1.1 Propeller I 215 109 0
H1.2 Propeller I 215 109 0
H2.1 Propeller I 215 109 0
H2.2 Propeller I 215 109 0


NOISE_ID NOISE_TYPE OP_MODE THR_SET L_200 L_400 L_630 L_1000 L_2000 L_4000 L_6300 L_10000 L_16000 L_25000
H1.0 M A 80,00 81,3 75,0 70,7 66,3 59,2 51,4 45,6 39,1 31,5 23,1
H1.0 M A 100,00 84,3 78,0 73,7 69,3 62,2 54,4 48,6 42,1 34,5 26,1
H1.0 M D 80,00 81,3 75,0 70,7 66,3 59,2 51,4 45,6 39,1 31,5 23,1
H1.0 M D 100,00 84,3 78,0 73,7 69,3 62,2 54,4 48,6 42,1 34,5 26,1
H1.0 S A 80,00 82,0 78,6 76,2 73,6 69,2 64,1 60,1 55,3 49,4 42,8
H1.0 S A 100,00 85,0 81,6 79,2 76,6 72,2 67,1 63,1 58,3 52,4 45,8
H1.0 S D 80,00 82,0 78,6 76,2 73,6 69,2 64,1 60,1 55,3 49,4 42,8
H1.0 S D 100,00 85,0 81,6 79,2 76,6 72,2 67,1 63,1 58,3 52,4 45,8
H1.1 M A 80,00 86,5 80,2 75,9 71,5 64,4 56,6 50,8 44,3 36,7 28,3
H1.1 M A 100,00 89,5 83,2 78,9 74,5 67,4 59,6 53,8 47,3 39,7 31,3
H1.1 M D 80,00 86,5 80,2 75,9 71,5 64,4 56,6 50,8 44,3 36,7 28,3
H1.1 M D 100,00 89,5 83,2 78,9 74,5 67,4 59,6 53,8 47,3 39,7 31,3
H1.1 S A 80,00 87,2 83,8 81,4 78,8 74,4 69,3 65,3 60,5 54,6 48,0
H1.1 S A 100,00 90,2 86,8 84,4 81,8 77,4 72,3 68,3 63,5 57,6 51,0
H1.1 S D 80,00 87,2 83,8 81,4 78,8 74,4 69,3 65,3 60,5 54,6 48,0
H1.1 S D 100,00 90,2 86,8 84,4 81,8 77,4 72,3 68,3 63,5 57,6 51,0
H1.2 M A 80,00 89,1 82,8 78,5 74,1 67,0 59,2 53,4 46,9 39,3 30,9
H1.2 M A 100,00 92,1 85,8 81,5 77,1 70,0 62,2 56,4 49,9 42,3 33,9
H1.2 M D 80,00 89,1 82,8 78,5 74,1 67,0 59,2 53,4 46,9 39,3 30,9
H1.2 M D 100,00 92,1 85,8 81,5 77,1 70,0 62,2 56,4 49,9 42,3 33,9
H1.2 S A 80,00 89,8 86,4 84,0 81,4 77,0 71,9 67,9 63,1 57,2 50,6
H1.2 S A 100,00 92,8 89,4 87,0 84,4 80,0 74,9 70,9 66,1 60,2 53,6
H1.2 S D 80,00 89,8 86,4 84,0 81,4 77,0 71,9 67,9 63,1 57,2 50,6
H1.2 S D 100,00 92,8 89,4 87,0 84,4 80,0 74,9 70,9 66,1 60,2 53,6
H2.1 M A 80,00 91,3 85,0 80,7 76,3 69,2 61,4 55,6 49,1 41,5 33,1
H2.1 M A 100,00 94,3 88,0 83,7 79,3 72,2 64,4 58,6 52,1 44,5 36,1
H2.1 M D 80,00 91,3 85,0 80,7 76,3 69,2 61,4 55,6 49,1 41,5 33,1
H2.1 M D 100,00 94,3 88,0 83,7 79,3 72,2 64,4 58,6 52,1 44,5 36,1
H2.1 S A 80,00 92,0 88,6 86,2 83,6 79,2 74,1 70,1 65,3 59,4 52,8
H2.1 S A 100,00 95,0 91,6 89,2 86,6 82,2 77,1 73,1 68,3 62,4 55,8
H2.1 S D 80,00 92,0 88,6 86,2 83,6 79,2 74,1 70,1 65,3 59,4 52,8
H2.1 S D 100,00 95,0 91,6 89,2 86,6 82,2 77,1 73,1 68,3 62,4 55,8
H2.2 M A 80,00 94,3 88,0 83,7 79,3 72,2 64,4 58,6 52,1 44,5 36,1
H2.2 M A 100,00 97,3 91,0 86,7 82,3 75,2 67,4 61,6 55,1 47,5 39,1
H2.2 M D 80,00 94,3 88,0 83,7 79,3 72,2 64,4 58,6 52,1 44,5 36,1
H2.2 M D 100,00 97,3 91,0 86,7 82,3 75,2 67,4 61,6 55,1 47,5 39,1
H2.2 S A 80,00 95,0 91,6 89,2 86,6 82,2 77,1 73,1 68,3 62,4 55,8
H2.2 S A 100,00 98,0 94,6 92,2 89,6 85,2 80,1 76,1 71,3 65,4 58,8
H2.2 S D 80,00 95,0 91,6 89,2 86,6 82,2 77,1 73,1 68,3 62,4 55,8
H2.2 S D 100,00 98,0 94,6 92,2 89,6 85,2 80,1 76,1 71,3 65,4 58,8

Data is provided for three helicopter classes, based on maximum take-off mass:


1.. Light helicopter (LHEL) MTOM < 3 000 kg
2.. Medium helicopter (MHEL) 3 000 kg < MTOM < 6 000 kg
3.. Heavy helicopter (THEL) MTOM > 6 000 kg

Default arrival and departure flight profiles are provided as fixed point profiles. Default departure flight profiles assume climb to a level flight altitude of 1 000 ft (305 m) for each helicopter class. Where the level flight portion on departure or arrival differs locally from these values, it is recommended that the default profiles are adapted to reflect local circumstances.


ACFT_ID Description EngineTYPE Number of Engines Weight Class Owner Category MGTOW (lb) MGLW (lb) Max Landing Dist (ft) Max Sea Level Static Thrust (lb) Noise Chapter NPD_ID Power Parameter Approach Spectral Class ID Departure Spectral Class ID Lateral Directivity Indentifier
LHEL Helicopters with MTOM ≤ 1 t Turboprop 0 0 Helicopter 0 0 0 100 0 LHEL SHP (% of Max Static Thrust) 215 112 Prop
MHEL Helicopters with MTOM 1-3 t Turboprop 0 0 Helicopter 0 0 0 100 0 MHEL SHP (% of Max Static Thrust) 215 112 Prop
THEL Helicopters with MTOM 3-5 t Turboprop 0 0 Helicopter 0 0 0 100 0 THEL SHP (% of Max Static Thrust) 215 112 Prop


ACFT_ID Op Type Profile ID Stage Length Point Number Distance (ft) Altitude (ft) TAS (kt) Corrected Net Thrust (%) OP_MODE
LHEL D DEFAULT 1 1 0 0 1 50 X
LHEL D DEFAULT 1 2 10 0 3 50 X
LHEL D DEFAULT 1 3 20 16 5 50 X
LHEL D DEFAULT 1 4 102 16 5 60 D
LHEL D DEFAULT 1 5 561 30 50 60 D
LHEL D DEFAULT 1 6 2 297 515 70 60 D
LHEL D DEFAULT 1 7 4 032 1 001 90 70 D
LHEL D DEFAULT 1 8 7 014 1 001 100 70 D
LHEL D DEFAULT 1 9 10 000 1 001 110 70 D
MHEL D DEFAULT 1 1 0 0 1 50 D
MHEL D DEFAULT 1 2 10 0 2 50 D
MHEL D DEFAULT 1 3 20 16 3 50 D
MHEL D DEFAULT 1 4 102 16 30 50 D
MHEL D DEFAULT 1 5 561 30 60 50 D
MHEL D DEFAULT 1 6 4 032 1 001 65 75 D
MHEL D DEFAULT 1 7 6 785 1 001 100 75 D
MHEL D DEFAULT 1 8 10 000 1 001 126 75 D
THEL D DEFAULT 1 1 0 0 1 100 X
THEL D DEFAULT 1 2 10 0 2 100 X
THEL D DEFAULT 1 3 20 16 3 50 D
THEL D DEFAULT 1 4 102 16 30 50 D
THEL D DEFAULT 1 5 1 001 151 60 50 D
THEL D DEFAULT 1 5 4 679 1 000 65 75 D
THEL D DEFAULT 1 5 6 681 1 000 83 75 D
THEL D DEFAULT 1 5 8 679 1 000 100 75 D
THEL D DEFAULT 1 5 13 679 1 000 113 75 D
THEL D DEFAULT 1 5 18 679 1 000 126 75 D


ACFT_ID Op Type Profile ID Stage Length Point Number Distance (ft) Altitude (ft) TAS (kt) Corrected Net Thrust (%) OP_MODE
LHEL D DEFAULT 1 3 – 50 003 1 000 115 70 X
LHEL D DEFAULT 1 4 – 9 332 1 000 113 70 X
LHEL D DEFAULT 1 5 – 6 340 686 110 80 A
LHEL D DEFAULT 1 6 – 4 029 443 95 80 A
LHEL D DEFAULT 1 7 – 1 686 197 80 80 A
LHEL D DEFAULT 1 8 – 843 108 60 80 A
LHEL D DEFAULT 1 9 0 20 5 80 A
LHEL D DEFAULT 1 9 102 0 3 80 A
LHEL D DEFAULT 1 9 121 0 1 80 A
MHEL D DEFAULT 1 2 – 40 229 1 000 135 75 X
MHEL D DEFAULT 1 3 – 36 322 1 000 123 75 X
MHEL D DEFAULT 1 4 – 32 411 1 000 112 75 X
MHEL D DEFAULT 1 5 – 28 504 1 000 100 75 X
MHEL D DEFAULT 1 6 – 22 145 1 000 90 75 X
MHEL D DEFAULT 1 7 – 15 784 1 000 80 75 X
MHEL D DEFAULT 1 8 – 9 426 1 000 70 75 X
MHEL D DEFAULT 1 8 – 5 153 551 60 60 A
MHEL D DEFAULT 1 8 – 750 89 50 60 A
MHEL D DEFAULT 1 8 – 62 16 20 60 A
MHEL D DEFAULT 1 8 0 10 5 60 A
MHEL D DEFAULT 1 8 102 0 2 60 A
MHEL D DEFAULT 1 8 121 0 1 60 A
MHEL D DEFAULT 1 8 – 40 229 1 000 135 75 X
MHEL D DEFAULT 1 8 – 36 322 1 000 123 75 X
MHEL D DEFAULT 1 8 – 32 411 1 000 112 75 X
MHEL D DEFAULT 1 8 – 28 504 1 000 100 75 X
MHEL D DEFAULT 1 8 – 22 145 1 000 90 75 X
MHEL D DEFAULT 1 8 – 15 784 1 000 80 75 X
MHEL D DEFAULT 1 8 – 9 426 1 000 70 75 X
MHEL D DEFAULT 1 8 – 5 153 551 60 60 A
MHEL D DEFAULT 1 8 – 750 89 50 60 A
MHEL D DEFAULT 1 8 – 62 16 20 60 A
MHEL D DEFAULT 1 8 0 10 5 60 A
MHEL D DEFAULT 1 8 102 0 2 60 A
MHEL D DEFAULT 1 8 121 0 1 60 A


NOISE_ID THRSET_TYP MODEL_TYPE SPECT_APP SPECT_DEP SPECT_AFB
LHEL P I 215 109 0
MHEL P I 215 109 0
THEL P I 215 109 0


NPD Identifier Noise Descriptor Power Setting Op Mode L _200ft L_400ft L_630ft L_1000ft L_2000ft L_4000ft L_6300ft L_10000ft L_16000ft L_25000ft
LHEL MAX 80 A 84,6 79,1 75,7 71,6 65,8 60,1 56 48,8 41,6 34,4
LHEL MAX 70 X 88,4 82,9 79,5 75,6 70,3 65 61,6 55,4 49,2 43
LHEL MAX 60 D 83,6 78,2 75,1 70,3 66,5 61,7 58,9 53,3 47,7 42,1
LHEL MAX 50 S 91,7 85,3 81,5 76,5 69,4 61,5 56,5 49,6 42,7 35,8
LHEL SEL 80 A 90,5 87,1 84,9 82,1 77,6 72,1 67,9 62,4 56,9 51,4
LHEL SEL 70 X 90,4 87 84,7 81,9 77,5 72 68,1 62,9 57,7 52,5
LHEL SEL 60 D 85,9 82,5 80,4 77,7 73,4 68,4 64,6 59,6 54,6 49,6
LHEL SEL 50 S 85,9 82,5 80,4 77,7 73,4 68,4 64,6 59,6 54,6 49,6
MHEL MAX 50 D 91,8 85,2 80,6 75,7 67,5 58,1 51,2 42,6 34 25,4
MHEL MAX 60 A 90,2 83,9 80 75,3 68,4 60,9 55,8 49,5 43,2 36,9
MHEL MAX 75 X 92,4 86 82 77,2 70 62,3 57,1 50,8 44,5 38,2
MHEL SEL 50 D 91,2 87,2 84,8 80,8 75 68,1 63,7 57,6 51,5 45,4
MHEL SEL 60 A 94,2 90,1 88,1 84,7 80 74,7 71,3 66 60,7 55,4
MHEL SEL 75 X 89,3 85,3 82,8 78,9 73,1 66,6 62,6 57 51,4 45,8
THEL MAX 50 D 91,2 85,2 81,7 76,3 68,8 60,4 54,9 46 37,1 28,2
THEL MAX 60 A 90 84,1 80,7 75,5 68,5 60,6 55,3 48 40,7 33,4
THEL MAX 75 X 92,4 86,4 82,9 77,5 70,1 61,6 55,7 48,1 40,5 32,9
THEL MAX 100 S 100,2 93,8 90,3 84,9 77,5 69,3 64,3 56,5 48,7 40,9
THEL SEL 50 D 92,8 89,3 87,4 84 79,2 73,5 69,6 63,7 57,8 51,9
THEL SEL 60 A 91,6 88,2 86,4 83,2 78,8 73,7 70 64,7 59,4 54,1
THEL SEL 75 X 94 90,5 88,6 85,2 80,5 74,7 70,4 64,8 59,2 53,6
THEL SEL 100 S 92,8 89,3 87,4 84 79,2 73,5 69,6 63,7 57,8 51,9
