
Article 1 
The use of efficient light emitting diodes in vehicle exterior lighting (‘efficient exterior LED light’) is approved as an innovative technology within the meaning of Article 11 of Regulation (EU) 2019/631 for use in light commercial vehicles powered by an internal combustion engine that are capable of running on petrol, diesel, liquefied petroleum gas (LPG), compressed natural gas (CNG) or E85, or a combination of those fuels, as well as in not-off-vehicle charging hybrid electric vehicles (NOVC-HEVs) of category N1 for which uncorrected measured fuel consumption and CO2 emission values may be used in accordance with paragraph 1.1.4 of Appendix 2 to Sub-Annex 8 to Annex XXI to Regulation (EU) 2017/1151 and that are capable of running on those same fuels or a combination thereof, where the innovative technology is used in one or several of the following exterior vehicle lights:

((a)) low beam headlamp (including adaptive front lighting system);
((b)) high beam headlamp;
((c)) front position lamp;
((d)) front fog lamp;
((e)) rear fog lamp;
((f)) front turn signal lamp;
((g)) rear turn signal lamp;
((h)) licence plate lamp;
((i)) reversing lamp;
((j)) cornering lamp;
((k)) static bending light lamp;
((l)) end-outline marker light;
((m)) side marker light.
Article 2 

1. A manufacturer may apply to a type-approval authority for certification of the CO2 savings from the use of one or several efficient exterior LED lights by reference to this Decision.
2. The manufacturer shall ensure that the application for the certification is accompanied by a verification report from an independent and certified body confirming that the conditions set out in Article 1 have been met.
3. Where the savings have been certified in accordance with Article 3, the manufacturer shall ensure that the certified CO2 savings and the eco-innovation code referred to in Article 4(1) are recorded in the certificate of conformity of the vehicles concerned.
Article 3 

1. The type-approval authority shall ensure that the CO2 savings achieved from the use of the innovative technology have been determined using the methodology set out in the Annex.
2. Where a manufacturer applies for the certification of the CO2 savings from more than one efficient exterior LED light referred to in Article 1 in relation to one vehicle version, the type approval authority shall determine which of the efficient exterior LED lights tested delivers the lowest CO2 savings, and record the lowest value in the relevant type approval documentation.
3. The type approval authority shall record the certified CO2 savings determined in accordance with paragraphs 1 and 2 of this Article, and the eco-innovation code referred to in Article 4(1) in the relevant type-approval documentation.
4. Where the innovative technology is fitted in a bi-fuel or flex-fuel vehicle, the approval authority shall record the CO2 savings as follows:
(a) for bi-fuel vehicles using petrol and gaseous fuels, the CO2 savings with regard to LPG or CNG fuels;
(b) for flex-fuel vehicles using petrol and E85, the CO2 savings with regard to petrol.
5. The type-approval authority shall record all the elements considered for the certification in a test report and keep that together with the verification report referred to in Article 2(2), and shall make that information available to the Commission on request.
6. The type-approval authority shall only certify CO2 savings, if it finds that the innovative technology complies with the conditions set out in Article 1 of this Decision, and if the CO2 savings achieved are 0,5 g CO2/km or higher, as specified in Article 9(1)(b) of Implementing Regulation (EU) No 427/2014.
Article 4 

1. The innovative technology approved by this Decision is attributed with the eco-innovation code 35.
2. The certified CO2 savings recorded by reference to the eco-innovation code referred to in paragraph 1 may be taken into account for the calculation of the average specific emissions of manufacturers starting from the calendar year 2021.
Article 5 
This Decision shall enter into force on the twentieth day following that of its publication in the Official Journal of the European Union.
Done at Brussels, 23 September 2020.
For the Commission
The President
Ursula VON DER LEYEN
ANNEX
1. 
This Annex sets out the methodology to determine the carbon dioxide (CO2) emission savings to be attributed to the use of efficient vehicle exterior LED lights in one or several of the exterior vehicle lights listed in Article 1, for use in the light commercial vehicles referred to in that Article.

2. 
In the case of NOVC-HEVs, the maximum available voltage level on board shall not exceed 60 Volt.

The testing conditions shall fulfil the requirements of UN/ECE Regulations Nos 4, 6, 7, 19, 23, 38, 48, 91, 100, 112, 119 and 123. The power consumption shall be determined in accordance with point 6.1.4 of UN/ECE Regulation No 112, and points 3.2.1 and 3.2.2 of Annex 10 to that Regulation.

For the low beam adaptive front lighting system (AFS) falling within at least two of the Classes C, E, V or W as defined in Table 1 of UN/ECE Regulation No 123, the power consumption measurements shall be done at the LED intensity of each class (Pk), where k corresponds to each class specified at Table 1 as defined in UN/ECE Regulation No 123.

If it is agreed with the technical service that Class C is the representative/average LED intensity for the vehicle application, power consumption measurements shall be done in the same way as for any other exterior LED light included in the combination.


Class See point 1.3 and footnote 2 of UN/ECE Regulation No 123 % LED Intensity Activation Mode
C Base Passing Beam (Country) 100 50 km/h < speed < 100 km/hOr when no mode of another passing beam class is activated (V, W, E)
V Town 85 Speed < 50 km/h
E Motorway 110 Speed > 100 km/h
W Adverse Conditions 90 Windshield wiper active > 2 minutes

 2.1. 
The following test equipment shall be used:


((a)) a power supply unit (i.e. variable voltage supplier);
((b)) two digital multimeters, one for measuring the DC-current, and the other for measuring the DC-voltage.

Figure 1 shows a possible test set-up, with the DC-voltage meter integrated in the power supply unit.


 2.2.  2.2.1. 
For each efficient exterior LED light included in a combination, the measurement of the current shall be performed at a voltage of 13,2 V. LED module(s) operated by an electronic light source control gear, shall be measured as specified by the applicant.

The manufacturer may request that additional measurements of the current shall be performed at other voltages, where the necessity to do so can be demonstrated on the basis of verified documentation.

In any case the measurements (n) shall be performed for each voltage at least five times consecutively. The applied voltage and the measured current shall be recorded in four decimals.

The power consumption shall be determined by multiplying the voltage with the measured current. The average of the power consumption for each efficient exterior LED light  [W] shall be calculated as set out in Formula 1 with four decimals to be taken into account in the calculations. When a stepper motor or electronic controller is used for the supply of the electricity to the LED lamps, then the electric load of this component is to be excluded from the measurement.



where:

is the tested voltage of each LED vehicle light i [V]is the measured current of each LED vehicle light i [A]nis the number of measurements of the samplejrefers to an individual measurement of power consumption

In case of low beam AFS, the power consumption  [W] shall be calculated as the average of the LED power consumption for each class k, weighted according to the WLTP time share per speed range, in accordance with Formula 2.



where:

is the power consumption at the LED intensity for each class k as the average of n consecutive measurements [W]Kis the number of classes associated with the low beam AFS.

WLTP_share is the WLTP time share per speed range in each class as defined in Table 2.


Speed range WLTP_share
< 50 km/h 0,588
50 – 100 km/h 0,311
> 100 km/h 0,101

When the low beam AFS does not fall within all four classes specified in Table 1, the WLTP_share of the missing classes shall be attributed to class C.
 2.2.2. 
The power savings of each efficient exterior LED light (ΔPi) [W] shall be calculated in accordance with Formula 3.



where:

is the power consumption of the baseline vehicle light i [W]is the average power consumption of the eco-innovative vehicle light i [W].

The power consumption of the different baseline vehicle lights is defined in Table 3.


Vehicle light Power consumption PB [W]
Low beam headlamp 137
High beam headlamp 150
Front position 12
Licence plate 12
Front fog lamp 124
Rear fog lamp 26
Front turn signal lamp 13
Rear turn signal lamp 13
Reversing lamp 52
Cornering lamp 44
Static Bending lamp 44
End-outline marker lamp (vehicles width > 2,1 m) 12
Side marker lamp (vehicles length > 6 m) 24

3. 
The CO2 savings shall be calculated in accordance with Formula 4.



where:

vis the mean driving speed of the WLTP, which is 46,6 km/hηAis the efficiency of the alternator, which is 0,67UFiis the usage factor of the vehicle light i as defined in Table 4VPeis the consumption of effective power for each fuel approved, as defined in Table 5CFis the fuel conversion factor as defined in Table 6.


Vehicle light Usage factor (UF)
Low beam headlamp 0,33
High beam headlamp 0,03
Front position 0,36
Licence plate 0,36
Front fog lamp 0,01
Rear fog lamp 0,01
Front turn signal lamp 0,15
Rear turn signal lamp 0,15
Reversing lamp 0,01
Cornering lamp 0,019
Static Bending lamp 0,039
End-outline marker lamps (width > 2,1 m) 0,36
Side marker lamps (length > 6 m) 0,36


Type of Engine Consumption of effective power VPe [l/kWh]
Petrol/E85 0,264
Petrol/E85 Turbo 0,280
Diesel 0,220
LPG 0,342
LPG Turbo 0,363
 Consumption of effective power VPe [m3/kWh]
CNG (G20) 0,259
CNG (G20) Turbo 0,275


Type of fuel Conversion factor (CF) [g CO2/l]
Petrol/E85 2 330
Diesel 2 640
LPG 1 629
 Conversion factor (CF) [g CO2/m3]
CNG (G20) 1 795

4.  4.1. 
The uncertainty of the CO2 savings  [W] shall be calculated in accordance with Formula 5 and shall not exceed 30 % of the CO2 savings.



where:

mis the number of exterior LED lights in the combination tested.is the statistical margin of the power consumption of each i-th LED light fitted in the eco-innovative vehicle which shall be calculated in accordance with Formula 6.



In case of a low beam AFS the statistical margin of the power consumption  [W] shall instead be calculated in accordance with Formulas 7 and 8.





where:

nis the number of power consumption measurements, which is at least 5 as indicated in Section 2.2.1icorresponds to each vehicle lightjrefers to an individual measurement of power consumptionis the average of the n values of PkKis the number of classes associated with the low beam AFS.

5. 
The CO2 savings  and the uncertainty of the CO2 savings  shall be rounded to two decimal places.

Each value used in the calculation of the CO2 savings shall either be applied unrounded or be rounded to the minimum number of decimal places which allows the maximum total impact (i.e. combined impact of all rounded values) on the savings to be lower than 0,25 g CO2/km.

6. 
The type-approval authority shall ensure for each version of a vehicle fitted with the efficient exterior LED lights that the minimum threshold criterion as specified in Article 9(1)(b) of Implementing Regulation (EU) No 427/2014 is met.

When verifying whether the minimum threshold criterion is met, the type-approval authority shall take into account, in accordance with Formula 9, the CO2 savings determined in point 3 and the uncertainty determined in point 4.



where:

MTis the minimum threshold equal to 1 g CO2/kmis the CO2 savings [g CO2/km] as defined in point 3is the uncertainty of the CO2 savings calculated in accordance with point 4 [g CO2/km].

7. 
The CO2 savings to be certified by the type-approval authority in accordance with Article 11 of Implementing Regulation (EU) No 427/2014  [g CO2/km] are those calculated in accordance with Formula 10.

The CO2 savings shall be recorded in the type approval certificate for each vehicle version fitted with the efficient exterior LED lights.



where:

is the CO2 savings as determined in point 3 [g CO2/km]is the uncertainty of the CO2 savings calculated in accordance with point 4 [g CO2/km].
