
Article 1 
Decision 2007/131/EC is amended as follows:

((1)) in Article 2, points 6, 7 and 8 are replaced by:
'
6.. “e.i.r.p” means equivalent isotropically radiated power, which is the product of the power supplied to the antenna and the antenna gain in a given direction relative to an isotropic antenna (absolute or isotropic gain);
7.. “maximum mean power spectral density”, specified as e.i.r.p. of the radio device under test at a particular frequency, is the average power per unit bandwidth (centred on that frequency) radiated in the direction of the maximum level under the specified conditions of measurement;
8.. “peak power”, specified as e.i.r.p., contained within a 50 MHz bandwidth at the frequency at which the highest mean radiated power occurs, radiated in the direction of the maximum level under the specified conditions of measurement;';
((2)) in Article 2, point 9 is deleted;
((3)) in Article 2, point 11 is replaced by:
'
11.. “total radiated power spectral density” means the average of the mean power spectral density values measured over a sphere around the measurement scenario with a resolution of at least 15 degree. The detailed measuring setup is contained within ETSI EN 302 435;';
((4)) in Article 2, the following points 12 and 13 are added:
'
12.. “onboard aircraft” means the use of radio links for intra-aircraft communications purposes inside an aircraft;
13.. “LT1” are systems intended for general location tracking of people and objects that can be put into service on an unlicensed basis.';
((5)) Article 3, is replaced by the following:
'
Article 3 
The Member States shall allow the use of the radio spectrum on a non-interference and non-protected basis by equipment using ultra-wideband technology provided that such equipment meets the conditions set out in the Annex and it is used indoors or, if it is used outdoors, it is not attached to a fixed installation, a fixed infrastructure or a fixed outdoor antenna. Equipment using ultra-wideband technology which meets the conditions set in the Annex shall also be allowed in automotive and railway vehicles';
((6)) the Annex is replaced by the text in the Annex to this Decision.
Article 2 
This Decision shall take effect from 1 February 2015.
Article 3 
This Decision is addressed to the Member States.
Done at Brussels, 7 October 2014.
For the Commission
Neelie KROES
Vice-President
ANNEX
1. 

Technical requirements
Frequency range Maximum mean power spectral density (e.i.r.p) Maximum peak power (e.i.r.p)(defined in 50 MHz)
f ≤ 1,6 GHz – 90 dBm/MHz – 50 dBm
1,6 < f ≤ 2,7 GHz – 85 dBm/MHz – 45 dBm
2,7 < f ≤ 3,1 GHz – 70 dBm/MHz – 36 dBm
3,1 < f ≤ 3,4 GHz – 70 dBm/MHzor– 41,3 dBm/MHz using LDC or DAA – 36 dBmor0 dBm
3,4 < f ≤ 3,8 GHz – 80 dBm/MHzor– 41,3 dBm/MHz using LDC or DAA – 40 dBmor0 dBm
3,8 < f ≤ 4,8 GHz – 70 dBm/MHzor– 41,3 dBm/MHz using LDC or DAA – 30 dBmor0 dBm
4,8 < f ≤ 6 GHz – 70 dBm/MHz – 30 dBm
6 < f ≤ 8,5 GHz – 41,3 dBm/MHz 0 dBm
8,5 < f ≤ 9 GHz – 65 dBm/MHzor– 41,3 dBm/MHz using DAA – 25 dBmor0 dBm
9 < f ≤ 10,6 GHz – 65 dBm/MHz – 25 dBm
f > 10,6 GHz – 85 dBm/MHz – 45 dBm



2. 

Technical requirements
Frequency range Maximum mean power spectral density (e.i.r.p) Maximum peak power (e.i.r.p)(defined in 50 MHz)
f ≤ 1,6 GHz – 90 dBm/MHz – 50 dBm
1,6 < f ≤ 2,7 GHz – 85 dBm/MHz – 45 dBm
2,7 < f ≤ 3,4 GHz – 70 dBm/MHz – 36 dBm
3,4 < f ≤ 3,8 GHz – 80 dBm/MHz – 40 dBm
3,8 < f ≤ 6,0 GHz – 70 dBm/MHz – 30 dBm
6 < f ≤ 8,5 GHz – 41,3 dBm/MHz 0 dBm
8,5 < f ≤ 9 GHz – 65 dBm/MHzor– 41,3 dBm/MHz using DAA – 25 dBmor0 dBm
9 < f ≤ 10,6 GHz – 65 dBm/MHz – 25 dBm
f > 10,6 GHz – 85 dBm/MHz – 45 dBm


3. 

Technical requirements
Frequency range Maximum mean power spectral density (e.i.r.p) Maximum peak power (e.i.r.p)(defined in 50 MHz)
f ≤ 1,6 GHz – 90 dBm/MHz – 50 dBm
1,6 < f ≤ 2,7 GHz – 85 dBm/MHz – 45 dBm
2,7 < f ≤ 3,1 GHz – 70 dBm/MHz – 36 dBm
3,1 < f ≤ 3,4 GHz – 70 dBm/MHzor– 41,3 dBm/MHz using LDC + e,l,or– 41,3 dBm/MHz using TPC + DAA + e,l, – 36 dBmor≤ 0 dBmor≤ 0 dBm
3,4 < f ≤ 3,8 GHz – 80 dBm/MHzor– 41,3 dBm/MHz using LDC + e,l,or– 41,3 dBm/MHz using TPC + DAA + e,l, – 40 dBmor≤ 0 dBmor≤ 0 dBm
3,8 < f ≤ 4,8 GHz – 70 dBm/MHzor– 41,3 dBm/MHz using LDC + e,l,or– 41,3 dBm/MHz using TPC + DAA + e,l, – 30 dBmor≤ 0 dBmor≤ 0 dBm
4,8 < f ≤ 6 GHz – 70 dBm/MHz – 30 dBm
6 < f ≤ 8,5 GHz – 53,3 dBm/MHzor– 41,3 dBm/MHz using LDC + e,l,or– 41,3 dBm/MHz using TPC + e,l, – 13,3 dBmor≤ 0 dBmor≤ 0 dBm
8,5 < f ≤ 9 GHz – 65 dBm/MHzor– 41,3 dBm/MHz using TPC + DAA + e,l, – 25 dBmor≤ 0 dBm
9 < f ≤ 10,6 GHz – 65 dBm/MHz – 25 dBm
f > 10,6 GHz – 85 dBm/MHz – 45 dBm





4. 
The values for maximum mean power spectral density (e.i.r.p) and maximum peak power (e.i.r.p) for Short Range Devices (SRD) using Ultra Wide Band technology (UWB), with or without use of mitigation techniques are listed in the table below.


Technical requirements
Frequency range Maximum mean power spectral density(e.i.r.p) Maximum peak power (e.i.r.p)(defined in 50 MHz) Requirements for mitigation techniques
f ≤ 1,6 GHz – 90 dBm/MHz – 50 dBm 
1,6 < f ≤ 2,7 GHz – 85 dBm/MHz – 45 dBm 
2,7 < f ≤ 3,4 GHz – 70 dBm/MHz – 36 dBm 
3,4 < f ≤ 3,8 GHz – 80 dBm/MHz – 40 dBm 
3,8 < f ≤ 6,0 GHz – 70 dBm/MHz – 30 dBm 
6,0 < f ≤ 6,650 GHz – 41,3 dBm/MHz 0 dBm 
6,650 < f ≤ 6,6752 GHz – 62,3 dBm/MHz – 21 dBm notch of 21 dB should be implemented to meet a level – 62,3 dBm/MHz
6,6752 < f ≤ 8,5 GHz – 41,3 dBm/MHz 0 dBm 7,25 to7,75 GHz (FSS and MetSat (7,45 to 7,55 GHz) protection)7,75 to 7,9 GHz (MetSat protection)
8,5 < f ≤ 10,6 GHz – 65 dBm/MHz – 25 dBm 
f > 10,6 GHz – 85 dBm/MHz – 45 dBm 




5.  5.1. 
Material sensing devices permitted under this Decision shall fulfil the following requirements:


— Fixed installation (application A)
— The transmitter has to switch off if the machine is not running, ‘running sensor’;
— The transmitter shall implement a TPC with a dynamic range of 10 dB, as described in the harmonised standard EN 302 498-2 for ODC (Object Discrimination and Characterisation) applications;
— The transmitter shall be attached to a fixed installation.
— Non-fixed installation (application B)
— Transmitter-on only if manually operated with a non-locking switch (e.g. it may be a sensor for the presence of the operators hand) plus being in contact or close proximity to the investigated material and the emissions being directed into the direction of the object (e.g. measured by a proximity sensor or imposed by the mechanical design);
— The transmitter has to switch off if the machine is not running, ‘running sensor’

Emissions radiating from material sensing devices permitted under this decision shall be kept to a minimum and in any case not exceed the e.i.r.p. density limits within the following Table. The compliance with the limits of the following Table for non-fixed installations (application B) has to be ensured with the device on a representative structure of the investigated material (e.g. representative wall as defined in ETSI EN 302 435-1 or ETSI EN 302 498-1).


Frequency range Fixed installations (Application A) Non-fixed installations (Application B)Maximum mean power spectral density (e.i.r.p)
Maximum mean power spectral density(e.i.r.p) Maximum mean power spectral density (e.i.r.p) in the horizontal plane(– 20° to 30° elevation)
Below 1,73 GHz – 85 dBm/MHz – 85 dBm/MHz
1,73 to 2,2 GHz – 65 dBm/MHz – 70 dBm/MHz – 70 dBm/MHz
2,2 to 2,5 GHz – 50 dBm/MHz – 50 dBm/MHz
2,5 to 2,69 GHz – 65 dBm/MHz – 70dBm/MHz – 65 dBm/MHz
2,69 to 2,7 GHz – 55 dBm/MHz – 75 dBm/MHz – 70 dBm/MHz
2,7 to 2,9 GHz – 50 dBm/MHz – 70 dBm/MHz – 70 dBm/MHz
2,9 to 3,4 GHz – 50 dBm/MHz – 70 dBm/MHz – 70 dBm/MHz
3,4 to 3,8 GHz – 50 dBm/MHz – 70 dBm/MHz – 50 dBm/MHz
3,8 to 4,8 GHz – 50 dBm/MHz – 50 dBm/MHz
4,8 to 5 GHz – 55 dBm/MHz – 75 dBm/MHz – 55 dBm/MHz
5 to 5,25 GHz – 50 dBm/MHz – 50 dBm/MHz
5,25 to 5,35 GHz – 50 dBm/MHz – 60 dBm/MHz – 60 dBm/MHz
5,35 to 5,6 GHz – 50 dBm/MHz – 50 dBm/MHz
5,6 to 5,65 GHz – 50 dBm/MHz – 65 dBm/MHz – 65 dBm/MHz
5,65 to 5,725 GHz – 50 dBm/MHz – 60 dBm/MHz – 60 dBm/MHz
5,725 to 8,5 GHz – 50 dBm/MHz – 50 dBm/MHz
8,5 to 10,6 GHz – 65 dBm/MHz – 65 dBm/MHz
Above 10,6 GHz – 85 dBm/MHz – 85 dBm/MHz



The peak power (in dBm) measured in a bandwidth of 50 MHz shall be less than a limit that is obtained by adding a conversion factor (25 dB) to the ‘maximum mean power spectral density’ (in dBm/MHz) limit.
 5.2.  1. 

((a)) Transmitter-On only if manually operated with a non-locking switch plus being in contact or close proximity to the investigated material and the emissions being directed into the direction of the object;
((b)) The BMA transmitter has to switch-off after max 10s without movement;
((c)) The total radiated power spectral density has to be 5 dB below the maximum mean power spectral density limits in the table below;
 2. 
Technical requirements
Frequency range Maximum mean power spectral density (e.i.r.p) Maximum peak power (e.i.r.p)(defined in 50 MHz)
Below 1,73 GHz – 85 dBm/MHz – 45 dBm
1,73 to 2,2 GHz – 65 dBm/MHz – 25 dBm
2,2 to 2,5 GHz – 50 dBm/MHz – 10 dBm
2,5 to 2,69 GHz – 65 dBm/MHz – 25 dBm
2,69 to 2,7 GHz – 55 dBm/MHz – 15 dBm
2,7 to 3,4 GHz – 70 dBm/MHz – 30 dBm
3,4 to 4,8 GHz – 50 dBm/MHz – 10 dBm
4,8 to 5 GHz – 55 dBm/MHz – 15 dBm
5 to 8,5 GHz – 50 dBm/MHz – 10 dBm
Above 8,5 GHz – 85 dBm/MHz – 45 dBm

