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Commission Implementing Regulation (EU) 2017/1153Show full title

Commission Implementing Regulation (EU) 2017/1153 of 2 June 2017 setting out a methodology for determining the correlation parameters necessary for reflecting the change in the regulatory test procedure and amending Regulation (EU) No 1014/2010 (Text with EEA relevance)

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Changes over time for: Commission Implementing Regulation (EU) 2017/1153 (Annexes only)

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ANNEX IU.K.

1.INTRODUCTIONU.K.

This Annex sets out the methodology for determining the NEDC CO2 value of individual M1 vehicles.

2.DETERMINATION OF THE NEDC CO2 VALUE FOR THE WLTP INTERPOLATION FAMILYU.K.

2.1.Correlation toolU.K.

The type-approval authority shall ensure that the NEDC CO2 values to be used as reference for the purpose of Section 3 are determined by way of simulations in accordance with the provisions set out in this Annex.

The [F1Secretary of State may specify] a simulation tool for that purpose (hereinafter the ‘correlation tool’) in the form of downloadable, executable, software. [F2With regard to Not-Off-Vehicle Charging Hybrid Electric Vehicles (NOVC-HEV) and Off-Vehicle Charging Hybrid Electric Vehicles (OVC-HEV), the NEDC CO 2 values to be used as a reference for the purpose of Section 3 shall be determined by way of physical vehicle tests instead of correlation tool simulations. The physical measurements shall be performed in accordance with the relevant provisions referring to physical vehicle tests set out in this Annex. The input data for the physical vehicle tests shall be determined and submitted to the type-approval authority or, where applicable, technical service, in accordance with point 2.4.]

2.1.1.Access to the correlation toolU.K.

The correlation tool shall be installed on a computer of the type-approval authority or, where applicable, the technical service, following the instructions provided in the following website:

(http://ec.europa.eu/clima/policies/transport/vehicles/cars/documentation_en.htm)

The type-approval authority shall ensure that the correlation tool is operated in accordance with the requirements of this Regulation and the user instructions set out in the user manual(1).

F3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

F4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .U.K.
2.1.3.Annual update of the correlation toolU.K.

The performance of the correlation tool shall be continuously reviewed, taking into account information provided, in particular, by the contact persons referred to in point 2.1.2. [F5Where appropriate, the Secretary of State may specify a new version of the tool to be used from 1 September of the relevant year.] The new version shall not affect the validity of results provided by previous versions.

The new version may be applied for the purpose of the procedure set out in Section 3 of this Annex from the date of its release. With the agreement of the type-approval authority or the technical service, the previous version of the correlation tool may, however, continue to be used during a maximum period of two months following the release of the new version.

The version used as well as the operating system of the computer on which the correlation tool has been run by the type-approval authority or technical service shall be indicated in the electronically signed correlation tool output report.

Where the applicability of the new version requires the adjustment of any provisions set out in this Regulation, the release of the new version shall not take place until the Regulation has been amended accordingly.

2.1.4.Ad-hoc adjustments of the correlation toolU.K.

Notwithstanding point 2.1.3, in case of serious malfunctioning of the correlation tool for the purpose of the procedure set out in Section 3, a new version of the tool shall be [F6specified] as soon as possible following the detection of the malfunction. The new version shall apply from the date of its release and shall not affect the validity of results provided by previous versions.

Where the applicability of the new version requires the adjustment of any provisions set out in this Regulation, the release of the new version shall not take place until the Regulation has been amended accordingly.

2.2.Identification of the WLTP test results to be used for the purpose of defining the input data for the simulation modelU.K.

The input data for the correlation tool simulations shall be taken from the relevant WLTP test results for vehicle H and, where applicable, vehicle L as defined in accordance with point 4.2.1 of Sub-Annex 4 to Annex XXI to Regulation (EU) 2017/1151. Where more than one WLTP type-approval test of vehicle H or L is performed in accordance with Table A6/2 of Annex XXI to that Regulation, the following test results shall be used for the purpose of determining the input data:

(a)

[F7In the case two type approval tests are performed, the test results with the highest combined CO 2 emissions shall be used;

(b)

In the case three type approval tests are performed, the test results with the median combined CO 2 emissions shall be used.]

[F82.2a. WLTP test conditions U.K.

In order for the WLTP test to be considered relevant in accordance with point 2.2 and for the purpose of determining the input data set out in point 2.4, the test conditions set out in Annex XXI to Regulation (EC) No 2017/1151 shall apply, with the following precisions:

(a)

[F2The correction of the WLTP test results for CO 2 mass emissions in accordance with Appendix 2 to Sub-Annex 6 and Appendix 2 to Sub-Annex 8 to Annex XXI to Regulation (EU) 2017/1151 shall apply to all such test results, notwithstanding the provisions in paragraph 3.4.4(a) of Appendix 2 to Sub-Annex 6 and paragraph 1.1.4(a) of Appendix 2 to Sub-Annex 8 to Annex XXI to that Regulation;]

(b)

Without prejudice to the requirements of Regulation (EU) 2017/1151, if the test vehicle is fitted with technologies that influence its CO 2 performance, including but not limited to those referred to in entries 42 to 50 of the input data matrix set out in point 2.4, and which are intended to function during the test, those technologies shall be operating during the vehicle test, regardless of the test procedure applied, i.e. NEDC or WLTP;

(c)

If the test vehicle is equipped with automated transmissions, the same driver-selectable mode shall be used, regardless of the test procedure applied. Where the best-case and worst-case modes are used for the WLTP tests in accordance with point 1.2(c) of Appendix 6 to Sub-Annex 8 to Annex XXI to Regulation (EU) 2017/1151, the worst-case mode shall be used as input to the correlation tool as well as for any NEDC physical test;

(d)

If the test vehicle is equipped with manual transmissions, the term n min_drive_set shall be as defined by the formula set out in point (k) (3) of paragraph 2 of Sub-Annex 2 to Annex XXI to Regulation (EU) 2017/1151.

With the approval of the approval authority or, where applicable, the technical service, the manufacturer may calculate the gear shifting points differently, provided that this is justified in view of the drivability of the vehicle, and that the additional power safety margin applied in accordance with point 3.4 of Sub-Annex 2 to Annex XXI to Regulation (EU) 2017/1151 does not exceed 20 %.

The conditions referred to in points (a) to (d) shall apply for the purpose of the correlation performed pursuant to this Regulation, and shall be without prejudice to the provisions laid down in Regulation (EU) 2017/1151 and to type approvals granted pursuant to that Regulation.

2.2b. Applicability of the WLTP test conditions U.K.

The precisions referred to in point 2.2a.(a) to (d) shall apply in accordance with the following:

(a)

For new vehicle types, from the entry into force of this Regulation;

(b)

For existing vehicle types, manufacturers shall, with regard to those vehicle types that cover vehicles placed on the market in 2020, provide the approval authority with evidence on the basis of which the approval authority shall confirm whether the test conditions referred to in points (a) to (d) of point 2.2a. have been met in the WLTP approval tests.

The confirmation shall indicate the interpolation family identifier, and the confirmation with regard to each of the test conditions referred to in points (a) to (d). The approval authority shall issue the confirmation to the manufacturer and shall ensure that the confirmation is recorded and can be made available without delay at the request of the Commission.

Where the approval authority cannot confirm that one or more of the test conditions referred to have been complied with, the manufacturer shall ensure that a new WLTP test, or, where applicable, test series, in accordance with Sub-Annex 6 to Annex XXI to Regulation (EU) 2017/1151 are performed under the supervision of an approval authority or, where applicable, technical service, applying the test conditions set out in point 2.2a.(a) to (d), for the interpolation family in question, including a new correlation in accordance with this Regulation.

The manufacturer may, in the case where only the test condition referred to in point 2.2a.(a) is not met, correct that value in the input matrix without the need for a new WLTP test.

The approval authority or, where applicable, the designated technical service [F9or manufacturer] shall record the results of the re-testing or correction and the correlation in accordance with paragraph 5 of Annex I, and the complete correlation file based on the re-testing in-put data shall be transmitted to the [F10Secretary of State, where appropriate,] in accordance with point 3.1.1.2 by 30 April 2021 at the latest.]

2.3.Determination of the input data and conditions for the operation of the correlation toolU.K.

The test conditions referred to in Annex XII to Regulation (EC) No 692/2008 shall be taken into account in the correlation tool simulations, including the precisions provided for in points 2.3.1 to 2.3.7 of this Annex.

The physical vehicle measurements referred to in point 3 shall be performed in accordance with the conditions referred to in that Regulation, with the precisions given in this Annex, and, where applicable, the input data defined in point 2.4.

[F72.3.1. Determination of the NEDC vehicle inertia U.K.

The NEDC reference mass of vehicles H and, where applicable, of vehicles L and R shall be determined as follows:

  • RM n,L = (MRO L – 75 + 100) [kg]

  • RM n,H = (MRO H – 75 + 100) [kg]

  • RM n,R = (MRO R – 75 + 100) [kg]

Where,

Vehicle R is the representative vehicle of the Road Load Matrix Family as defined in point 5.1 of Sub-Annex 4 to Annex XXI to Commission Regulation (EU) 2017/1151(4);

[F11MRO is the mass in running order as defined in Article 3(1)(d) of Regulation (EC) No 443/2009 for vehicles H, L and R respectively.]

The reference mass to be used as input for the simulations and, where applicable, for a physical vehicle test shall be the inertia value set out in Table 3 of Annex 4a to UN/ECE Regulation No 83 which is equivalent to the reference mass, RM, determined in accordance with this point and referred to as TM n,L , TM n,H and TM n,R .]

2.3.2.Determination of the pre-conditioning effectU.K.

In preparing the chassis-dynamometer for the execution of a type-approval test, the vehicle is pre-conditioned in order to reach similar conditions to those used in the coast-down test. The pre-conditioning procedure used in the WLTP test differs from that used for the purpose of NEDC so that, with equal road loads, the vehicle is considered subject to higher forces under the WLTP. That difference shall be set at 6 Newton and that value shall be used for the calculation of the NEDC road loads in accordance with point 2.3.8.

2.3.3.Ambient conditions referred to in point 3.1.1 of UN/ECE Regulation No 83U.K.

For the purpose of the correlation tool, the test cell temperature shall be set at 25 °C.

Also in the case of a physical vehicle measurement pursuant to point 3, the test cell temperature shall be set at 25 °C. However, on request by the manufacturer, the test cell temperature may be set at a value between 20 to 25 °C for the physical measurement.

2.3.4.Determination of the initial battery state of chargeU.K.

The initial battery state of charge shall be set to at least 99 per cent for the purpose of the correlation tool test. The same shall apply in the case of a physical vehicle test.

[F72.3.5. Determination of the difference in tyre pressure prescriptions U.K.

According to point 6.6.3 of Appendix 3 to Annex I to Regulation (EU) 2017/1151, the lowest recommended tyre pressure for the vehicle test mass shall be used during the coast down for the road load determination, while this is not specified in the NEDC. The tyre pressure to be taken into account for the purpose of calculating the NEDC road load in accordance with point 2.3.8 shall be the average between the two axles of the average between the minimum and maximum tyre pressure permitted for the selected tyres on each axle for the NEDC reference mass of the vehicle. The calculation shall be carried out for vehicle H and, where applicable, for vehicles L and R with the following formulae:

  • For vehicle H:

  • For vehicle L:

  • For vehicle R:

Where,

P max,

is the average of the maximum tyre pressures of the selected tyres for the two axles;

P min,

is the average of the minimum tyre pressures of the selected tyres for the two axles.

The corresponding effect in terms of resistance applied to the vehicle shall be calculated using the following formulae for vehicles H, L and R:

  • For vehicle H:

  • For vehicle L:

  • For vehicle R:

2.3.6. Determination of the tyre tread depth (TTD) U.K.

According to point 4.2.2.2 of Sub-Annex 4 to Annex XXI to Regulation (EU) 2017/1151 the minimum tyre tread depth is 80 % for the WLTP test, while pursuant to point 4.2 of Appendix 7 to Annex 4a to UN/ECE Regulation No 83, the minimum allowed tyre tread depth for the purpose of the NEDC test is 50 % of the nominal value. That results in an average difference of 2 mm in tread depth between the two procedures. The corresponding effect in terms of the resistance applied to the vehicle shall be determined for the purpose of the NEDC road load calculation in point 2.3.8 in accordance with the following formulae for vehicles H, L and R:

  • For vehicle H:

  • For vehicle L:

  • For vehicle R:

Where,

RM n,H , RM n,L, and RM n,R are the reference masses of vehicles H, L and R determined in accordance with point 2.3.1.]

2.3.7.Determination of the inertia of rotating partsU.K.

For the purpose of the correlation tool:

During the simulation of the WLTP test four rotating wheels are to be considered, while for the purpose of the NEDC tests only two rotating wheels are to be considered. The effect this has on the forces applied to the vehicle shall be taken into account in accordance with the formulae set out in point 2.3.8.1.1(a)(3).

The acceleration and deceleration forces in the correlation tool shall be calculated for the NEDC simulation by considering the inertia of only two rotating wheels.

For the purpose of a physical test:

During the WLTP coastdown setting, coastdown times are to be transferred to forces and vice versa by taking into account the applicable test mass plus the effect of rotational mass (3 % of the sum of the MRO and 25 kg). For the NEDC coastdown setting, coastdown times are to be transferred to forces and vice versa by neglecting the effect of rotational mass (only NEDC vehicle inertia calculated in point 2.3.1 is used).

2.3.8.Determination of the NEDC road loadsU.K.
[F112.3.8.1. In the case of WLTP road loads being determined in accordance with paragraphs 1-4 and 6 of Sub-Annex 4 to Annex XXI to Regulation (EU) 2017/1151 U.K.

The NEDC road load coefficients shall be calculated in accordance with the formulae specified in point 2.3.8.1.1. (for vehicle H) and in point 2.3.8.1.2. (for vehicle L) and with the following points (a) and (b).

Unless otherwise specified the formulae shall apply both in the case of simulations and in the case of physical vehicle tests.

The type approval authority or, where applicable, the technical service shall verify if the wind-tunnel facility referred to in paragraph 3.2.3.2.2.3. in Sub-Annex 7 to Annex XXI to Regulation (EU) 2017/1151 is qualified to accurately determine the Δ(Cd × Af) values. If the wind-tunnel facility is not qualified, the highest aerodynamic drag value shall apply for all vehicles in the family.

(a)

The WLTP road load coefficients and test mass values referred to in the formulae set out in points 2.3.8.1.1. and 2.3.8.1.2. shall be those resulting from vehicle H and L as determined for the interpolation family in accordance with paragraph 5 of Sub-Annex 7 to Annex XXI to Regulation (EU) 2017/1151.

(b)

Notwithstanding point (a), where the cycle energy demand of the WLTP vehicle H and/or L does not result in the highest, or respectively, the lowest cycle energy demand for the NEDC vehicle H and/or L, the NEDC road load coefficients shall be determined in accordance with either of the following:

(i)

on the basis of the individual vehicle in the interpolation family with the highest, or respectively, the lowest NEDC cycle energy demand;

(ii)

on the basis of the combination of the highest, or respectively, the lowest of each of the road load relevant characteristics, i.e. aerodynamic drag, rolling resistance and mass, taken from any individual vehicle in the interpolation family.

The choice of the procedure set out in points (i) or (ii) shall be made by the manufacturer.

Point (b) shall apply for new emissions type approvals granted from 1 January 2019, or from an earlier date at the manufacturer's request.]

2.3.8.1.1.Determination of the NEDC road load coefficients for vehicle HU.K.

[F12Where this calculation procedure is used for an individual vehicle in accordance with point 4.2.1.4.2., the WLTP road loads and test mass corresponding to the NEDC individual vehicle shall be used with the influence of the optional equipment removed.]

(a)

The road load coefficient F0,n expressed in Newton (N) for vehicle H shall be determined as follows:

(1)

Effect of different inertia:

Where the factors in the formula are as defined in point 2.3.1, with the exception of the following:

F0w,H is the road load coefficient F0 determined for the WLTP test of vehicle H; TMw,H is the test mass used for the WLTP test of vehicle H.

(2)

Effect of different tyre pressure:

Where the factors in the formula are as defined in point 2.3.5.

(3)

Effect of the inertia of rotating parts:

In the case of a physical vehicle test, the following formula applies:

(4)

Effect of different tyre tread depth:

Where the factors in the formula are as defined in point 2.3.6.

(5)

Effect of preconditioning:

In the case of a physical vehicle test, the correction for the effect of preconditioning shall not be applied

(b)

The road load coefficient F1n for vehicle H shall be determined as follows:

Effect of the inertia of rotating parts

In the case of a physical vehicle test, the following formula applies:

(c)

The road load coefficient F2n for vehicle H shall be determined as follows:

Effect of the inertia of rotating parts

In the case of a physical vehicle test, the following formula applies:

[F11Where the factor is the road load coefficient F 2 determined for the WLTP test of vehicle H from which the effect of all optional equipment has been removed.]

2.3.8.1.2.Determination of the NEDC road load coefficients for vehicle LU.K.
(a)

The road load coefficient F0,n for vehicle L shall be determined as follows:

(1)

Effect of different inertia:

Where the factors in the formula are as defined in point 2.3.1, with the exception of F0w,L which is the road load coefficient F0 determined for the WLTP test of vehicle L, and TMw,L which is the test mass used for the WLTP test of vehicle L.

(2)

Effect of different tyre pressure:

Where the factors in the formula are as defined in point 2.3.5.

(3)

Effect of the inertia of rotating parts:

In the case of a physical vehicle test, the following formula applies:

(4)

Effect of different tyre tread depth:

Where the factors in the formula are as defined in point 2.3.6.

(5)

Effect of preconditioning:

In the case of a physical vehicle test, the correction for the effect of preconditioning shall not be applied.

(b)

The road load coefficient F1n for vehicle L shall be determined as follows:

Effect of the inertia of rotating parts

In the case of a physical vehicle test, the following formula applies:

Where the factor F1w,L is the road load coefficient F1 determined for the WLTP test of vehicle L.

(c)

The road load coefficient F2n for vehicle L shall be determined as follows:

Effect of the inertia of rotating parts

In the case of a physical vehicle test, the following formula applies:

[F11Where the factor is the road load coefficient F 2 determined for the WLTP test of vehicle L from which the effect of all optional equipment has been removed.]

[F72.3.8.2.Determination of the road loads where, for the purpose of the WLTP test, the road loads have been determined in accordance with point 5 of Sub-Annex 4 of Annex XXI to Regulation (EU) 2017/1151.U.K.
2.3.8.2.1. Road load matrix family in accordance with point 5.1 of Sub-Annex 4 to Annex XXI to Regulation (EU) 2017/1151. U.K.

Where the road load of a vehicle has been calculated in accordance with point 5.1 of Sub-Annex 4 to Annex XXI to Regulation (EU) 2017/1151, the NEDC road load to be used as input for the correlation tool simulations shall be determined as follows:

(a)

NEDC tabulated road load values in accordance with Table 3 of Annex 4a to Regulation UN/ECE No 83

Vehicle H:

  • F 0 n,H = T 0 n,H + ( F 0 w,H A w,H )

  • F 1 n,H = F 1 w,H B w,H

  • F 2 n,H = T 2 n,H + ( F 2 w,H C w,H )

Vehicle L:

  • F 0 n,L = T 0 n,L + ( F 0 w,L A w,L )

  • F 1 n,L = F 1 w,L B w,L

  • F 2 n,L = T 2 n,L + ( F 2 w,L C w,L )

Where,

F 0 n,i , F 1 n,i , F 2 n,i , with i = H,L,

are the NEDC road load coefficients for vehicle H or L;

T 0 n,i , T 2 n,i , with i = H,L

are the NEDC chassis dynamometer coefficients for vehicles H or L determined in accordance with Table 3 of Annex 4a to UN/ECE Regulation No 83;

A W,H/L , B W,H/L , C W,H/L

are the chassis dynamometer coefficients for the vehicle used for the purpose of the preparation of the chassis dynamometer in accordance with points 7 and 8 of Sub-Annex 4 to Annex XXI to Regulation (EU) 2017/1151;

(b)

[F11NEDC road load coefficients where the NEDC tabulated values are not used

In the case of vehicles designed for a technically permissible maximum laden mass equal to or exceeding 3 000 kg, the NEDC road load coefficients may, at the request of the manufacturer, be determined in accordance with point 2.3.8.1.]

2.3.8.2.2. Default road loads in accordance with point 5.2 of Sub-Annex 4 to Annex XXI to Regulation (EU) 2017/1151 U.K.

Where default road loads have been calculated in accordance with point 5.2 of Sub-Annex 4 to Annex XXI to Regulation (EU) 2017/1151, the NEDC road loads shall be calculated in accordance with point 2.3.8.2.1.(a) of this Annex.

In the case of physical vehicle testing, the test shall be performed with the NEDC chassis dynamometer coefficients for vehicles H or L determined in accordance with Table 3 of Annex 4a to UN/ECE Regulation No 83.]

[F122.3.8.3. Extensions of emissions approvals granted pursuant to Regulation (EU) 2017/1151 U.K.

Where an emission approval pursuant to Regulation (EU) 2017/1151 is extended due to the addition of new vehicles to the CO 2 interpolation family with NEDC CO 2 emissions higher than those of vehicle H or lower than those of vehicle L, the following shall apply for the purpose of the correlation:

(a)

Where the difference between NEDC vehicle H and L of the interpolation family concerned is equal to or higher than 5g CO 2 /km, the NEDC interpolation line determined for that family can be extended, provided that the NEDC CO 2 emissions, determined pursuant to point 3 of this Annex on the basis of input data taken from the WLTP test referred to in point 3.1.1. of Annex I to Regulation (EU) 2017/1151, are equal to or below the CO 2 emissions determined on the basis of the NEDC interpolation line;

(b)

Where the difference between NEDC vehicle H and L is lower than 5g CO 2 /km, the interpolation line may not be extended.

In the case (a), the reference CO 2 emissions shall be determined without the selection referred to in points 3.1.1.2 and 3.2.6 of this Annex.

In the case (b), or in the case the reference CO 2 emissions referred to in point (a) are higher than the existing interpolation line, the NEDC vehicle H and L shall be determined in accordance with points 2 and 3 of this Annex.

Point (a) shall apply with regard to extensions to new types granted from 1 January 2019, or from an earlier date at the manufacturer's request.]

2.4.Input data matrixU.K.

The manufacturer shall determine the input data for each vehicle H and vehicle L in accordance with point 2.2 and submit the completed matrix set out in Table 1 to the type-approval authority or, where applicable, the technical service appointed to perform the test, with the exception of entries 31, 32 and 33 (the NEDC road loads) which shall be calculated by the type-approval authority or the technical service in accordance with the formulae specified in point 2.3.8. [F8The input data matrix shall be filled in for each WLTP test performed.]

The type-approval authority or technical service shall independently verify and confirm the correctness of the input data provided by the manufacturer. In case of doubt, the type-approval authority or technical service shall determine the relevant input data independently of the information provided by the manufacturer or, where appropriate, act in accordance with point 3.2.7 and 3.2.8.

Table 1

Matrix of input data for the correlation tool

a

Either normal engine idling speed, high engine idling speed and maximum net torque or T1 maps speed torque and power are necessary (for gearshift)

b

Either tyre dimensions or velocity speed ratio is necessary (for gearshift)

c

[F13P0: the electric machine is connected to the engine transmission belt therefore has the engine speed as reference speed;

P1: the electric machine is connected to the engine crankshaft therefore has the engine speed as reference speed;

P2: the electric machine is mounted right upstream the transmission (gearbox or continuously variable transmission), therefore has the transmission input speed as reference speed;

P2 planetary: the electric machine is connected to the gear of a planetary gearset that is not connected to the internal combustion engine or the final drive sides, here referred to as the planetary side. In this case the speed ratio to be specified is the ratio between the electric machine and planetary side rotational speed (reference speed) reflecting the speed multiplication/reduction effect of a reduction gear

P3: the electric machine is right upstream the final drive of a driven axle therefore has the final drive input rotational speed as reference speed (this includes electric machines mounted on the gear of a planetary gearset on the final drive side). A vehicle can have up to two P3 machines (one for the front (P3a) and one for the rear (P3b) axle;

P4: the electric machine is downstream the final drive, therefore has the wheel speed as reference speed. A vehicle can have up to four P4 motors (one for each wheel, where P4a indicates front wheels and P4b rear wheels).

Further specifications of these inputs are to be provided in the input template for the correlation tool.]

NoInput parameters for the correlation toolUnitSourceRemarks
1Fuel typePoint 3.2.2.1 of Appendix 3 to Annex I to Regulation (EU) 2017/1151Diesel/Petrol/LPG/NG or Biomethane/Ethanol(E85)/Biodiesel
2Fuel lower heating valuekJ/kgDeclaration by manufacturer and/or technical service
3Fuel carbon content%Idem% of carbon in the fuel by weight, e.g. 85,5 %
4Engine typePoint 3.2.1.1 of Appendix 3 to Annex I to Regulation (EU) 2017/1151Positive ignition or compression ignition
5Engine capacityccPoint 3.2.1.3 of Appendix 3 to Annex I to Regulation (EU) 2017/1151
6Engine strokemmPoint 3.2.1.2.2 Appendix 3 to Annex I to Regulation (EU) 2017/1151
7Rated engine powerkW…min–1Point 3.2.1.8 of Appendix 3 to Annex I to Regulation (EU) 2017/1151
8Engine speed at rated engine powermin–1Point 3.2.1.8 in Appendix 3 to Annex I to Regulation (EU) 2017/1151Engine speed at maximum net power
9High engine idling speedamin–1Point 3.2.1.6.1 Appendix 3 to Annex I to Regulation (EU) 2017/1151
10Maximum net torqueaNm at… min–1Point 3.2.1.10 Appendix 3 to Annex I to Regulation (EU) 2017/1151
11T1 map speedarpmSub-Annex 2 to Annex XXI to Regulation (EU) 2017/1151Array
12T1 map torqueaNmSub-Annex 2 to Annex XXI to Regulation (EU) 2017/1151Array
13T1 map powerakWSub-Annex 2 to Annex XXI to Regulation (EU) 2017/1151Array
14Engine idle speedrpmSub-Annex 2 to Annex XXI to Regulation (EU) 2017/1151Idle speed in warm condition
15Engine idle fuel consumptiong/sManufacturer declarationIdle fuel consumption in warm condition
16Final drive ratiosPoint 4.6 in Appendix 3 to Annex I to Regulation (EU) 2017/1151Final drive ratio
17Tyre codebPoint 6 of Appendix 3 to Annex I to Regulation (EU) 2017/1151Tyre code (e.g. P195/55R1685H) of the tyres used in the WLTP test
18Gearbox typePoint 4.5 of Appendix 3 to Annex I to Regulation (EU) 2017/1151automatic/manual/CVT
19Torque converterManufacturer declaration0 = No, 1 = Yes; Does the vehicle use torque converter?
20Fuel saving gear for automatic transmissionManufacturer declaration

0 = No, 1 = Yes

Setting this value to 1 will allow the correlation tool to use a higher gear at constant speed driving than in the case of transient conditions

21Drive modePoint 2.3.1 of Sub-Annex 5 to Annex XXI to Regulation (EU) 2017/1151Two-wheel drive, four-wheel drive.
22Start-stop activation timesecManufacturer declarationStart-stop activation time elapsed from test start
23Nominal voltage of the alternatorVPoint 3.4.4.5 of Appendix 3 to Annex I to Regulation (EU) 2017/1151
24 [F2Service battery capacity]AhPoint 3.4.4.5 of Appendix 3 to Annex I to Regulation (EU) 2017/1151
25Starting ambient temperature WLTP°C

Default value = 23 °C

WLTP test measurement

26Alternator maximum powerkWManufacturer declaration
27Efficiency of the alternatorManufacturer declarationDefault value = 0,67
28Gearbox ratiosPoint 4.6 of Appendix 3 to Annex I to Regulation (EU) 2017/1151Array: ratio gear 1, ratio gear 2, etc.
29Ratio of vehicle speed to engine speedb(km/h)/rpmManufacturer declarationArray: [constant velocity speed ratio gear 1, constant velocity speed ratio gear 2, ...]; Alternative to gear box ratios
30Vehicle inertia NEDCkg [F7Table 3 of Annex 4a to UN/ECE Regulation No 83. To be completed by the type approval authority or Technical Service] To be derived in accordance with point 2.3.1 of this Annex.
31F0 NEDCNPoint 2.3.8 of this Annex, To be completed by the type-approval authority or Technical ServiceF0 road load coefficient
32F1 NEDCN/(km/h)IdemF1 road load coefficient
33F2 NEDCN/(km/h)2IdemF2 road load coefficient
[F734 Inertia setting WLTP kg Point 2.5.3 of sub-Annex 4 to Annex XXI to Regulation (EU) 2017/1151 Chassis dynamometer inertia applied during WLTP test]
35F0 WLTPNPoint 2.4.8 of the Appendix to the information document in Appendix 3 to Annex I to Regulation (EU) 2017/1151F0 road load coefficient
36F1 WLTPN/(km/h)IdemF1 road load coefficient
37F2 WLTPN/(km/h)2IdemF2 road load coefficient
[F238 WLTP CO 2 value phase 1 (Charge-Sustaining value in case of NOVC and OVC-HEVs) gCO 2 /km

Entry 2.1.1.2.1.

of Appendix 8a to Annex I of (EU) 2017/1151

Uncorrected measured value M CO2,p,1 of phase Low
39 WLTP CO 2 value phase 2 (Charge-Sustaining value in case of NOVC and OVC-HEVs) gCO 2 /km Idem Uncorrected measured value M CO2,p,1 of phase Medium
40 WLTP CO 2 value phase 3 (Charge-Sustaining value in case of NOVC and OVC-HEVs) gCO 2/ km Idem Uncorrected measured value M CO2,p,1 of phase High
41 WLTP CO 2 value phase 4 (Charge-Sustaining value in case of NOVC and OVC-HEVs) gCO 2 /km Idem Uncorrected measured value M CO2,p,1 of phase Extra-High]
42Turbo- or SuperchargerManufacturer declaration0 = No | 1 = Yes — Is the engine equipped with any kind of charging system?
43Start-stopManufacturer declaration0 = No | 1 = Yes — Does the vehicle have start-stop system?
44Brake energy RecuperationManufacturer declaration0 = No | 1 = Yes — Does the vehicle have energy recuperation technologies?
45Variable valve actuationManufacturer declaration0 = No | 1 = Yes — Does the engine feature variable valve actuation?
46Thermal managementManufacturer declaration0 = No | 1 = Yes — Does the vehicle have technologies that actively manage temperature at the gear box?
47Direct injection/Port Fuel InjectionManufacturer declaration0 = PFI | 1 = DI
48Lean burnManufacturer declaration0 = No | 1 = Yes — Does the engine use lean burn?
49Cylinder deactivationManufacturer declaration0 = No | 1 = Yes — Does the engine use a cylinder deactivation system?
50Exhaust gas recirculationManufacturer declaration0 = No | 1 = Yes — Does the vehicle have an external EGR system?
51Particulate filterManufacturer declaration0 = No | 1 = Yes — Does the vehicle have a particulate filter?
52Selective Catalytic ReductionManufacturer declaration0 = No | 1 = Yes — Does the vehicle have an SCR system?
53NOx storage catalystManufacturer declaration0 = No | 1 = Yes — Does the vehicle have a NOx storage catalyst?
54WLTP TimesecWLTP test measurement (identified in accordance to Point 2.2 of this Annex)Array: OBD and Chassis Dynamometer data, 1hz
55WLTP Velocity (theoretical)km/hAs defined in sub-Annex 1 to Annex XXI to Regulation (EU) 2017/1151Array: 1hz, resolution 0,1 km/h. If not provided the speed profile defined in Point 6 of sub-Annex 1 to Annex XXI to Regulation (EU) 2017/1151 and in particular to Tables A1/7-A1/9, A1/11, and A1/12 applies
56WLTP Velocity (actual)km/hWLTP test measurement (identified in accordance to Point 2.2 of this Annex) [F14Array: OBD and chassis dynamometer data, 1Hz for OBD and 10Hz for the chassis dynamometer, resolution 0.1 km/h]
57WLTP Gear (theoretical)As defined in sub-Annex 2 to Annex XXI to Regulation (EU) 2017/1151 [F14Array: 1Hz. Theoretical calculated gear shift to be provided for vehicle H and L (if applicable)]
58WLTP Engine SpeedrpmWLTP test measurement (identified in accordance to Point 2.2 of this Annex)Array: 1hz, 10 RPM resolution from OBD
59WLTP Engine Coolant Temperature°CIdem [F7Array: OBD Data, 1hz, 1 °C resolution]
60 [F2WLTP Alternator (DC/DC converter – low voltage side — in case of NOVC and OVC-HEVs) Current]AAs defined, for the low-voltage battery current, in Appendix 2 to Sub-Annex 6 to Annex XXI to Regulation (EU) 2017/1151Array: 1hz, 0,1 A resolution, external measurement device synchronised with the chassis dynamometer
61 [F2Service battery current]AAs defined in Appendix 2 to Sub-Annex 6 to Annex XXI to Regulation (EU) 2017/1151 [F14Array: 1Hz (sampling frequency of the instrument 20Hz), 0.1 A resolution, external measurement device synchronised with the chassis dynamometer]
62WLTP calculated loadAs defined in Annex 11 of UN/ECE Regulation No 83Array: OBD data, 1hz at least (higher frequencies possible, 1 % resolution) WLTP test measurement
[F763 Declared combined NEDC CO 2 emissions for vehicle H and L gCO 2 /km Declared value for NEDC test. In case of vehicles with periodically regenerative systems the value shall be Ki corrected
64 NEDC velocity (theoretical) km/h As defined in point 6 of Annex 4 to Un/ECE Regulation No 83 Array: 1 hz, resolution 0,1 km/h. If not provided the speed profile defined in point 6 of Annex 4 to UN/ECE Regulation No 83 shall apply
65 NEDC gear (theoretical) Idem Array: 1 hz. If not provided the speed profile defined in point 6 of Annex 4 to UN/ECE Regulation No 83 shall apply
66 [F11Interpolation family identification number] Point 5.0 of Annex XXI to Regulation (EU) 2017/1151 ]
[F1467 K i Regenerative Factor multiplicative/additive for vehicle H and L Appendix 1 to Sub-Annex 6 to Annex XXI to Regulation (EU) 2017/1151 For vehicles without periodically regenerating systems this value is equal to 1.]
[F1268 Number of cylinders Manufacturer declaration Number (To be provided at the latest from 1 January 2019 )]
[F869 Fuel heating value kWh/l Appendix 2 to Sub-Annex 6 to Annex XXI to Regulation (EU) 2017/1151 Value according to the Table A6.App2/1 in Regulation (EU) 2017/1151
70 Fuel consumption of WLTP test for vehicle H and L l/100km Paragraph 6 of Sub-Annex 7 to Annex XXI to Regulation (EU) 2017/1151 Non-balanced fuel consumption of Type 1 test
71 Nominal REESS voltage V According to DIN EN 60050-482 For low voltage battery as described in Appendix 2 to Sub-Annex 6 to Annex XXI to Regulation (EU) 2017/1151
72 ATCT family correction factor Sub-Annex 6a to Annex XXI to Regulation (EU) 2017/1151 ATCT Family correction factor (14 °C correction)
73 Speed and distance correction of WLTP test Regulation (EU) 2017/1151

Correction performed?

0 = No | 1 = Yes

74 RCB correction of WLTP test Appendix 2 to Sub-Annex 6 to Annex XXI to Regulation (EU) 2017/1151

Correction performed?

0 = No | 1 = Yes

F15
76 WLTP CO 2 declared value for vehicle H and/or L g/km Manufacturer declaration Declared value for WLTP vehicle H and L. Value to include all corrections (if applicable)
[F277 WLTP CO 2 measured corrected (Charge-Sustaining value in case of NOVC and OVC-HEVs) for vehicle H and/or L g/km Entry 2.1.1.2.1 of Appendix 8a to Annex I of (EU) 2017/1151 Combined measured CO 2 emissions for vehicle H and L after all applicable corrections, M CO2,C,5 . In case of 2 and 3 WLTP tests all measured results shall be provided (except for NOVC and OVC-HEVs where only final type-approval value shall be provided).]
78 WLTP re-test Point 2.2b.(b) of Annex I Indicate which test conditions as referred to in point 2.2a.(a) to (d) of Annex I have been subject to re-testing]
[F1379 WLTP Charge-depleting CO 2 results (combined) gCO 2 /km 2.5.3.2 of Appendix 4 to Annex I to Regulation (EU) 2017/1151 Combined charge depleting CO 2 mass emissions M CO2,CD (average values in case of 2 and 3 tests) for the Type I test as calculated according to paragraph 4.1.2 of Sub-Annex 8 to Annex XXI to Regulation (EU) 2017/1151(OVC-HEV only)
80 WLTP utility factor-weighted combined CO 2 emission (measured) gCO 2 /km Calculated according to paragraph 4.1.3.1 of Sub-Annex 8 to Annex XXI to Regulation (EU) 2017/1151 Calculated weighted combined results (measured) as described in Article 7a(1)(c) of this Regulation (OVC-HEV only)
81 WLTP utility factor-weighted combined CO 2 emission (declared) gCO 2 /km Entry 2.5.3.3 of the EC type-approval certificate Calculated weighted combined results (declared) taken from entry 2.5.3.3 of the EC type-approval certificate (OVC-HEV only)
82 WLTP Equivalent all electric range (EAER) combined km Entry 2.5.3.7.2 (EAER) of the EC type-approval certificate Combined Equivalent all Electric Range (EAER) (OVC-HEV only)
83 Index number of the transition cycle Entry 2.1.1.4.1.4 of Appendix 8a to Annex I to Regulation (EU) 2017/1151 for OVC-HEV indicate the index number of the transition cycle
84 Relative electric energy change REECi of each charge-depleting test Calculated according to paragraph 3.2.4.5.2 of Sub-Annex 8 to Annex XXI to Regulation (EU) 2017/1151 Indicate REECi of each CD test
85 NEDC Charge- Sustaining CO 2 emission (declared, Condition B) gCO 2 /km

Information document (Appendix 3 of Annex I to Regulation (EU) 2017/1151)

(for NOVC-HEV entry 3.5.7.2.1; for OVC-HEV entry 3.5.7.2.2)

OEM declaration

for NOVC-HEV: Declared combined NEDC CO 2 value; For OVC-HEV: Declared combined charge sustaining CO 2 mass emission (NEDC condition B).

86 NEDC Charge- Depleting CO 2 emission (declared, Condition A) gCO 2 /km Information document, (entry 3.5.7.2.3 of Appendix 3 of Annex I to Regulation (EU) 2017/1151) Combined CD CO 2 emission, OEM declaration (only OVC-HEV)
87 NEDC weighted-combined CO 2 emission (declared) gCO 2 /km OEM declaration OEM declaration (only OVC-HEV)
88 NEDC electric range for OVC-HEV (declared) km OEM declaration OEM declaration (only OVC-HEV)
89 K CO2 factor for charge sustaining mode correction (g/km)/(Wh/km) paragraph 2.3.2 of Appendix 2 of Sub-Annex 8 to Annex XXI to Regulation (EU) 2017/1151 RCB CO 2 mass emission correction coefficient for NOVC and OVC-HEV
90 Hybrid Vehicle Configuration (P0, P1, P2, P2 planetary, P3, or P4) c

Does the vehicle have an electric machine used for vehicle propulsion and electric energy generation in P0, P1, P2, P2 planetary, P3, or P4 position, or a combination thereof?

OEM declaration

91 Maximum power output of each electric machine (P0, P1, P2, P2 planetary, P3, or P4) c kW Point 3.3.1.1.1 of Appendix 3 of Annex I to Regulation (EU) 2017/1151 OEM declaration
92 Maximum torque output of each electric machine (P0, P1, P2, P2 planetary, P3, or P4) c Nm OEM declaration
93 For each electric machine, the ratio between the electric machine rotational speed and the reference rotational speed (P0, P1, P2, P2 planetary, P3, or P4) c OEM declaration
94 Traction REESS capacity Ah Point 3.3.2.3 of Appendix 3 of Annex I to Regulation (EU) 2017/1151 OEM declaration
95 Traction REESS current A Appendix 3 of Sub-Annex 8 to Annex XXI to Regulation (EU) 2017/1151 20Hz time-series values used for the test(s) resampled to 1Hz
96 Traction REESS technology type Point 1.1.10 of Appendix 8a of Annex I to Regulation (EU) 2017/1151 OEM declaration
97 Traction REESS initial state of charge % OEM declaration
98 Number of REESS cells Point 3.3.2.1 of Appendix 3 of Annex I to Regulation (EU) 2017/1151 OEM declaration
99 Traction REESS voltage nominal/time-series V Appendix 3 of Sub-Annex 8 to Annex XXI to Regulation (EU) 2017/1151 Nominal or time-series values used for the test (20Hz minimum)
100 Engine-idle coasting function Y/N Does the vehicle have the engine idle coasting function (allow the engine to idle during vehicle coasting in order to save fuel)?
101 Engine-off coasting function Y/N Does the vehicle have the engine-off coasting function (allow the engine to switch off during vehicle coasting in order to save fuel)?]

3.DETERMINATION OF NEDC CO2 EMISSION AND FUEL CONSUMPTION VALUES FOR VEHICLE H AND LU.K.

3.1.Determination of NEDC CO2 reference values, phase-specific values and fuel consumption values for vehicle H and LU.K.

The type-approval authority shall ensure that the NEDC CO2 reference value for the respective vehicle H and, where applicable, vehicle L of a WLTP interpolation family as well as the phase-specific values and the fuel consumption is determined in accordance with points 3.1.2 and 3.1.3.

[F7Where the difference between vehicle H and vehicle L is due only to a difference in optional equipment (i.e. MRO, bodyshape and road load coefficients are the same) the NEDC CO 2 reference value shall be determined for vehicle H only.]

[F73.1.1. Correlation tool input and output U.K.
3.1.1.1. Original correlation output report U.K.

The type approval authority or designated technical service shall ensure that the input data file for the correlation tool is complete. Following a completed test run on the correlation tool, an original correlation output report shall be issued and attributed with a hash code. The report shall include the following sub-files:

(a)

F16...

(b)

the output data resulting from the execution of the simulation;

(c)

the summary file, including

(i)

[F11the interpolation family identification number;]

(ii)

the delta between the manufacturer declared CO 2 value and the value resulting from the correlation tool (CO 2 combined);

(iii)

[F14the input data as specified in point 2.4.]

[F8The summary file referred to in point (c) shall be encrypted to ensure confidentiality.]

[F143.1.1.2. Complete correlation file U.K.

Where the original correlation output report has been issued in accordance with point 3.1.1.1., the type approval authority, or where applicable the designated technical service [F17or manufacturer] shall upload the summary file referred to in point 3.1.1.1.(c) to a [F18server controlled by the Secretary of State] from which a reply is returned to the sender F19....

A complete correlation file shall be created by the type approval authority, or where applicable the designated technical service [F20or manufacturer], which shall include the original correlation output report referred to in point 3.1.1.1. and the reply from the F21... server. The file shall be maintained by the type approval authority as a test report in accordance with Annex VIII of Directive 2007/46/EC.]

3.1.2. NEDC CO 2 reference value for vehicle H U.K.

The correlation tool shall be used to execute the simulated NEDC test of vehicle H using the relevant input data referred to in point 2.4.

The NEDC CO 2 reference value for vehicle H shall be determined as follows:

CO 2, H = NEDC CO 2, C,H · K i,H

Where,

CO 2, H

is the NEDC CO 2 reference value for vehicle H;

NEDC CO 2, C,H

is the correlation tool simulated combined NEDC CO 2 result for vehicle H;

K i,H

is the value determined in accordance with appendix 1 to Sub-Annex 6 to Annex XXI to Regulation (EU) 2017/1151 for vehicle H.

In addition to the NEDC CO 2 reference value, the correlation tool shall also provide the phase-specific CO 2 values for vehicle H.

3.1.3. NEDC CO 2 reference value for vehicle L U.K.

Where applicable, the simulated NEDC test of vehicle L shall be performed using the correlation tool and the relevant input data referred to in point 2.4.

The NEDC CO 2 reference value for vehicle L shall be determined as follows:

CO 2, L = NEDC CO 2,C,L · K i,L

Where,

CO 2, L

is the NEDC CO 2 reference value for vehicle L;

NEDC CO 2,C,L

is the correlation tool simulated combined NEDC CO 2 result for vehicle L;

K i,L

is the value determined in accordance with appendix 1 to Sub-Annex 6 to Annex XXI to Regulation (EU) 2017/1151 for vehicle L.

In addition to the NEDC CO 2 reference value, the correlation tool shall also provide the phase-specific CO 2 values for vehicle L.]

3.2.Interpretation of the NEDC CO2 reference values determined for vehicle H and LU.K.

For each WLTP interpolation family, the manufacturer shall declare the NEDC CO2 mass emissions combined value for vehicle H, and, where applicable, vehicle L, to the approval authority. The type-approval authority shall ensure that the NEDC CO2 reference values for vehicle H and, where applicable, vehicle L are determined in accordance with point 3.1.2 and 3.1.3, and that the reference values for the respective vehicle is interpreted in accordance with points 3.2.1 to 3.2.5.

3.2.1.The NEDC CO2 value for test vehicle H or L to be used for the purpose of the calculations set out in point 4 shall be the manufacturer-declared value, if the NEDC CO2 reference value does not exceed that value by more than 4 per cent. The reference value may be lower without any limitation.U.K.
3.2.2.If the NEDC CO2 reference value exceeds the manufacturer-declared value by more than 4 per cent, the reference value may be used for the purpose of the calculations set out in point 4 for test vehicle H or L, or the manufacturer may request that a physical measurement is performed under the responsibility of the type-approval authority in accordance with the procedure referred to in Annex XII to Regulation (EC) No 692/2008, taking into account the precisions specified in point 2 of this Annex.U.K.
3.2.3.If the physical measurement referred to in point 3.2.2, amplified by the Ki-factor, does not exceed the manufacturer-declared value by more than 4 per cent, the declared value shall be used for the purpose of the calculations set out in point 4.U.K.
3.2.4.If the physical measurement, amplified by the Ki-factor, exceeds the manufacturer-declared value by more than 4 per cent, another physical measurement of the same vehicle shall be performed and the results shall be amplified by the Ki-factor. If the average of those two measurements does not exceed the declared value by more than 4 per cent, the declared value shall be used for the purpose of the calculations set out in point 4.U.K.
3.2.5.If the average of the two measurements referred to in point 3.2.4 exceeds the manufacturer-declared value by more than 4 per cent, a third measurement shall be performed and the results shall be amplified by the Ki-factor. The average of the three measurements shall be used for the purpose of the calculations set out in point 4.U.K.
[F73.2.6.Where the randomly generated number referred to in point 3.1.1.2 is in the range of 90 to 99 the vehicle shall be selected for one physical measurement in accordance with the procedure referred to in Annex XII to Regulation (EC) No 692/2008, taking into account the precisions set out in section 2 of this Annex. The test results shall be documented in accordance with Annex VIII to Directive 2007/46/EC.U.K.

Where the NEDC CO 2 value for both vehicles H and L is determined in accordance with point 3.2.1, the vehicle configuration selected for physical measurement shall be vehicle L, if the random number is in the range 90 to 94, and vehicle H, if the random number is in the range 95 to 99.

Where the NEDC CO 2 value is determined in accordance with point 3.2.1 for only one of the vehicles H or L in the interpolation family, that vehicle shall be selected for one physical measurement if the random number is in the range 90 to 99.

Where the NEDC CO 2 values are not determined in accordance with point 3.2.1, but both vehicle H and L are physically tested, the random number shall be disregarded.]

3.2.7.Notwithstanding point 3.2.6, a type-approval authority shall, where applicable, based on a proposal by a technical service, in those cases where the NEDC CO2 value is determined in accordance with point 3.2.1, request that a vehicle undergoes one physical measurement where, based on their independent expertise, there are justified reasons to consider that the declared NEDC CO2 value is too low in relation to a measured NEDC CO2 value. The test results shall be documented in accordance with Annex VIII to Directive 2007/46/EC.U.K.
3.2.8.Where a physical test is performed in accordance with point 3.2.6 or point 3.2.7, the type-approval authority shall for each WLTP interpolation family record the relative deviation (De) between the measured value and the manufacturer-declared value determined as follows:U.K.

Where:

RTr

is the random test result, amplified by the Ki-factor;

DV

is the manufacturer-declared value.

[F7The De factor shall be calculated with three decimals and shall be recorded in the type approval certificate and in the certificate of conformity.]

Where the type-approval authority finds that the physical test results do not confirm the input data provided by the manufacturer and, in particular, the data referred to in points 20, 22 and 44 of Table 1 in point 2.4, a verification factor shall be set to 1 and be recorded in the type-approval certificate and in the certificate of conformity. Where the input data is confirmed or where the error in the input data is not to the benefit of the manufacturer the verification factor shall be set to 0.

3.3.Calculation of the NEDC phase-specific CO2 values and fuel consumption values for vehicle H and LU.K.

The type-approval authority or, where applicable, the technical service shall determine the NEDC phase-specific values and the fuel consumption values for vehicle H and L in accordance with points 3.3.1 to 3.3.4.

[F73.3.1. Calculation of the NEDC phase-specific CO 2 values for vehicle H U.K.

The NEDC phase-specific values for vehicle H shall be calculated as follows:

NEDC CO 2, p,H = NEDC CO 2, p,H,c · CO 2, AF,H

Where:

p

is the NEDC phase ‘UDC’ or ‘EUDC’;

NEDC CO 2,p,H,c

is the correlation tool simulated NEDC CO 2 value for the phase p referred to in point 3.1.2 or, where applicable, the physical measurement result as referred to in point 3.2.2;

NEDC CO 2,p,H

is the NEDC phase-specific value for vehicle H of the applicable phase p, gCO 2 /km;

CO 2,AF,H

is the adjustment factor for vehicle H calculated by the ratio between the NEDC CO 2 value determined in accordance with point 3.2 and the correlation tool simulated NEDC test result referred to in point 3.1.2 or, where applicable, the physical measurement result.

3.3.2. Calculation of the NEDC phase-specific CO 2 values for vehicle L U.K.

The NEDC phase-specific values for vehicle L shall be calculated as follows:

NEDC CO 2, p,L = NEDC CO 2, p,L,c · CO 2, AF,L

Where:

p

is the NEDC phase ‘UDC’ or ‘EUDC’;

NEDC CO 2,p,L,c

is the correlation tool simulated NEDC CO 2 value for the phase p referred to in point 3.1.2 or, where applicable, the physical measurement result as referred to in point 3.2.2;

NEDC CO 2,p,L

is the NEDC phase-specific value for vehicle L of the applicable phase p, gCO 2 /km;

CO 2,AF,L

is the adjustment factor for vehicle L calculated by the ratio between the NEDC CO 2 value determined in accordance with point 3.2 and the correlation tool simulated NEDC test result referred to in point 3.1.2 or, where applicable, the physical measurement result.

3.3.3. Calculation of the NEDC fuel consumption for vehicle H and L U.K.
3.3.3.1. Calculation of the NEDC fuel consumption (combined) U.K.

The NEDC fuel consumption (combined) for vehicles H and L shall be calculated using the combined NEDC CO 2 emissions determined in accordance with point 3.2 and the provisions set out in Annex XII to Regulation (EC) No 692/2008. The emissions of other pollutants relevant to the fuel consumption calculation (hydrocarbons, carbon monoxide) shall be considered equal to 0 (zero) g/km.

3.3.3.2. Calculation of the NEDC phase-specific fuel consumption U.K.

The NEDC phase-specific fuel consumption for vehicles H and L shall be calculated using the phase-specific NEDC CO 2 emissions determined in accordance with point 3.3 and the provisions set out in Annex XII to Regulation (EC) No 692/2008. The emissions of other pollutants relevant to the fuel consumption calculation (hydrocarbons, carbon monoxide) shall be considered equal to 0 (zero) g/km.]

F223.3.4.Calculation of the NEDC fuel consumption for vehicle LU.K.

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4.CALCULATION OF THE NEDC CO2 VALUES AND FUEL CONSUMPTION VALUES TO BE ATTRIBUTED TO INDIVIDUAL M1 VEHICLESU.K.

The manufacturer shall calculate the (phase-specific and combined) NEDC CO2 values and the fuel consumption values to be attributed to individual passenger cars in accordance with points 4.1 and 4.2 and record those values in the certificates of conformity.

The provisions on rounding set out in point 1.3 of Sub-Annex 7 to Annex XXI to Regulation (EU) 2017/1151 shall apply.

4.1.Determination of the NEDC CO2 values in the case of a WLTP interpolation family based on vehicle HU.K.

Where the CO2 emissions of the WLTP interpolation family are determined by reference to vehicle H only in accordance with point 1.2.3.1 of Sub-Annex 6 to Annex XXI to Regulation (EU) 2017/1151, the NEDC CO2 value to be recorded in the certificates of conformity of the vehicles belonging to that family shall be the NEDC CO2 emissions determined in accordance with point 3.2 of this Annex and recorded in the type-approval certificate of the vehicle H in question.

4.2.Determination of the NEDC CO2 value in the case of a WLTP interpolation family based on vehicle L and vehicle HU.K.

4.2.1.Road load calculation of an individual vehicleU.K.
4.2.1.1.Mass of the relevant vehicleU.K.

The NEDC reference mass of the individual vehicle (RMn,ind) shall be determined as follows:

Where: MROind is the mass in running order as defined in Article 3(d) of Regulation (EC) No 443/2009 of the individual vehicle.

The mass to be used for the calculation of the NEDC CO2 values of the individual vehicle shall be the inertia value set out in Table 3 of Annex 4a to UN/ECE Regulation No 83 which is equivalent to the reference mass determined in accordance with this point and referred to as. TMn,ind.

4.2.1.2.Rolling resistance of the individual vehicleU.K.

The tyre rolling resistance values determined in accordance with point 3.2.3.2.2.2 of sub-Annex 7 to Annex XXI to Regulation (EU) 2017/1151 shall be used for the purpose of the interpolation of the NEDC CO2 value of the individual vehicle.

4.2.1.3.Aerodynamic drag of an individual vehicleU.K.

The aerodynamic drag of the individual vehicle shall be calculated by considering the difference in aerodynamic drag between an individual vehicle and vehicle L, due to a difference in body shape (m2):

Where:

Cd

is the aerodynamic drag coefficient;

Af

is the frontal area of the vehicle, m2.

The type-approval authority or, where applicable, the technical service shall verify if the wind tunnel facility referred to in 3.2.3.2.2.3. in Sub-Annex 7 to Annex XXI to Regulation (EU) 2017/1151 is qualified to accurately determine the Δ(Cd ×Af) for body shapes that differ between vehicle L and H. If the wind tunnel facility is not qualified, the for vehicle H shall apply for the individual vehicle.

If vehicles L and H have the same body shape, the value of for the interpolation method shall be set to zero.

[F114.2.1.4. Calculation of the road load for an individual vehicle in a WLTP interpolation family U.K.
4.2.1.4.1. Road load coefficients derived from NEDC vehicle H and L U.K.

The road load coefficients F 0,n , F 1,n and F 2,n for vehicles H and L determined in accordance with point 2.3.8. are referred to as F 0n,H , F 1n,H and F 2n,H and F 0n,L , F 1n,L and F 2n,L respectively.

The road load coefficients f 0n,ind , f 1n,ind and f 2n,ind for an individual vehicle shall be calculated in accordance with the following formula:

Formula 1(a) U.K.

For new emission type approvals granted from 1 January 2019, or prior to that date, on the manufacturer's request, the road load coefficients shall be calculated in accordance with the following formula:

Formula 1(b) U.K.

Or, if ( TM n,H · RR n,H – TM n,L · RR n,L ) = 0, or, where applicable, ( RM n,H · RR n,H – RM n,L · RR n,L ) = 0, Formula 2 shall apply:

Formula 2 U.K.

f 0n,ind = F 0n,H – ΔF 0n

f 1 n,ind = F 1 n,H

or, if Δ[C d × A f ] LH,n = 0, Formula 3 shall apply:

Formula 3 U.K.

f 2 n,ind = F 2 n,H – ΔF 2 n

where:

Δ F 0,n = F 0n,H – F 0 n,L

Δ F 2,n = F 2n,H – F 2 n,L

4.2.1.4.2. Road load coefficients derived from WLTP road load coefficients of individual vehicles U.K.

From 1 January 2019 for new type approvals and from 1 January 2020 for all new vehicles entering into service, or prior to those dates at the request of the manufacturer, the NEDC road loads for an individual vehicle shall be derived from the WLTP road load coefficients of that vehicle in any of the following cases:

(a)

if the CO 2 emission value, the cycle energy demand, or any of the road load coefficients f 0 , f 1 or f 2 calculated in accordance with point 4.2.1.4.1., is to be extrapolated from NEDC vehicle H or L;

(b)

if the road load coefficients for NEDC vehicle H and L are derived from different road load families;

(c)

if the individual vehicle belongs to a road load family different to the road load family of NEDC vehicle H and/or L;

(d)

if the individual vehicle belongs to a road load matrix family.

The NEDC road load coefficients shall, in the cases (a) to (d), be calculated using the formulae set out in point 2.3.8.1.1., where references to vehicle H shall be considered as references to the individual vehicle. [F13In the case of point (d), where the road load coefficients for the road load matrix family have been determined in accordance with point 2.3.8.2.1(a), the road load coefficients for the individual vehicle may be determined in accordance with the formulae set out in the second paragraph of point 4.2.1.5.]

In the case (a), CO 2 extrapolation may only be performed, if the difference between the NEDC vehicle H and L is equal to or higher than 5g CO 2 /km. The interpolation line may in that case be extrapolated by a maximum of 3g CO 2 /km above the CO 2 emissions of vehicle H, or below the CO 2 emissions of vehicle L. If the extrapolation exceeds 3g CO 2 /km, or the difference between NEDC vehicle H and L is less than 5g CO 2 /km, the manufacturer shall determine a new interpolation line for that interpolation family in accordance with point 2 and 3 of this Annex.]

F224.2.1.4a.NEDC road loads derived from the representative vehicle of a road load matrix familyU.K.

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4.2.1.5.Calculation of cycle energy demandU.K.

The cycle energy demand of the applicable NEDC Ek,n and the energy demand for all applicable cycle phases Ek,p,n applicable for individual vehicles in the WLTP interpolation family shall be calculated according to the procedure in paragraph 5 of Sub-Annex 7 to Annex XXI to Regulation (EU) 2017/1151, for the following sets k of road load coefficients and masses:

k = 1

:

(test vehicle L)

k = 2

:

(test vehicle H)

k = 3

:

(an individual vehicle in the WLTP interpolation family)

In case the chassis dynamometer coefficients specified in Table 3 of Annex 4a of UN/ECE Regulation No 83 are applied, the following formulae shall be used:

4.2.1.6.Calculation of the NEDC CO2 value for an individual vehicle by the CO2 interpolation methodU.K.

For each cycle phase p of the NEDC applicable for individual vehicles in the WLTP interpolation family, the contribution to the total mass of CO2 for an individual vehicle shall be calculated as follows:

The mass of CO2 emissions, g/km, attributed to an individual vehicle of the WLTP interpolation family shall be calculated as follows:

The terms E1,p,n, E2,p,n, E3,p,n, and E1,n, E2,n, E3,n respectively are defined in paragraph 4.2.1.5.

4.2.1.7.Calculation of the NEDC fuel consumption value for an individual vehicle by the interpolation methodU.K.

For each cycle phase p of the NEDC applicable for individual vehicles in the WLTP interpolation family, the fuel consumption, l/100km, shall be calculated as follows:

The fuel consumption, l/100km, of the complete cycle for an individual vehicle of the WLTP interpolation family shall be calculated as follows:

The terms E1,p,n, E2,p,n, E3,p,n, and E1,n, E2,n, E3,n respectively are defined in paragraph 4.2.1.5.

5.RECORDING OF DATAU.K.

The type-approval authority or the designated Technical Service shall ensure that the following information is recorded:

(a)

the [F7complete correlation file] referred to in point 3.1.1 including the NEDC CO2 reference value referred to in points 3.1.2 and 3.1.3 and the manufacturer-declared value, as a test report in accordance with Annex VIII to Directive 2007/46/EC;

(b)

the NEDC CO2 values resulting from physical measurements referred to in point 3.2 in this Annex, in the type-approval certificate specified in the Appendix to the Addendum to the type-approval certificate set out in Appendix 4 to Annex I to Regulation (EU) 2017/1151;

(c)

the deviation factor (De) and the verification factor determined in accordance with point 3.2.8 of this Annex (if available), in the type-approval certificate as specified in the Appendix to the Addendum to the type-approval certificate set out in Appendix 4 to Annex I to Regulation (EU) 2017/1151 and in entry 49.1 of the certificate of conformity as specified in Annex IX to Directive 2007/46/EC;

(d)

the NEDC phase-specific values and the phase-specific and combined fuel consumption values determined in accordance with point 3.3, as specified in the Appendix to the Addendum to the type-approval certificate set out in Appendix 4 to Annex I to Regulation (EU) 2017/1151;

(e)

the NEDC CO2 (all phases and combined) and fuel consumption values (all phases and combined) determined in accordance with point 4.2 of this Annex, in entry 49.1 of the certificate of conformity as specified in Annex IX to Directive 2007/46/EC.

ANNEX IIU.K.

ANNEX IU.K.

Data sources

a

In accordance with Article 3(8) of this Regulation

b

In accordance with Article 3(8) of this Regulation

c

In accordance with Articles 3(7) and 3(8) of this Regulation

d

In accordance with Articles 3 and 4 of Implementing Regulation (EU) 2017/1152.

ParameterCertificate of conformity (Part 1, Model B set out in Annex IX of Directive 2007/46/EC)Type-approval documentation (Directive 2007/46/EC)
ManufacturerSection 0.5Section 0.5 of Part I of Annex III
Type-approval number and its extensionSection 0.10Type-approval certificate as specified in Annex VI
TypeSection 0.2Section 0.2 of Part I of Annex III (where applicable)
VariantSection 0.2Section 3 of Annex VIII (where applicable)
VersionSection 0.2Section 3 of Annex VIII (where applicable)
MakeSection 0.1Section 0.1 of Part I of Annex III
Commercial nameSection 0.2.1Section 0.2.1 of Part I of Annex III
Category of the vehicle type-approvedSection 0.4Section 0.4 of Part I of Annex III
Category of the vehicle registeredn/an/a
Mass in running order (kg)Section 13Section 2.6 of Part I of Annex IIIa
Footprint — Wheel base (mm)Section 4Section 2.1 of Part I of Annex IIIb
Footprint — Track width (mm)Section 30Section 2.3.1 and 2.3.2 of Part I of Annex IIIc
Specific NEDC CO2 emissions (g/km)dSection 49.1Section 3 of Annex VIII
Specific WLTP CO2 emissions (g/km)dSection 49.4n/a
Fuel typeSection 26Section 3.2.2.1 of Part I of Annex III
Fuel modeSection 26.1Section 3.2.2.4 of Part I of Annex III
Engine capacity (cm3)Section 25Section 3.2.1.3 of Part I of Annex III
Electric energy consumption (Wh/km)Section 49.2Section 3 of Annex VIII
Code of the eco-innovation(s)Section 49.3.1Section 4 of Annex VIII
Total NEDC CO2 emissions savings due to the eco-innovation(s)Section 49.3.2.1Section 4 of Annex VIII
Total emissions WLTP CO2 savings due to the eco-innovation(s)Section 49.3.2.2
Vehicle identification numberSection 0.10Point 9.17 of Part I of Annex III
Test mass [WLTP]Section 47.1.1n/a
Deviation factor DeSection 49.1Appendix to the Addendum to the type-approval certificate set out in Appendix 4 to Annex I to Regulation (EU) 2017/1151
Verification factor (“1” or “0”)Section 49.1Appendix to the Addendum to the type-approval certificate set out in Appendix 4 to Annex I to Regulation (EU) 2017/1151
(1)

https://co2mpas.io/

(2)

[F7Any up-dates of the mailbox address will be made available on the website.]

(3)

[F7Electronic signing keys to be provided by the European Commission Joint Research Centre]

(4)

[F7Commission Regulation (EU) 2017/1151 of 1 June 2017 supplementing Regulation (EC) No 715/2007 of the European Parliament and of the Council on type-approval of motor vehicles with respect to emissions from light passenger and commercial vehicles (Euro 5 and Euro 6) and on access to vehicle repair and maintenance information, amending Directive 2007/46/EC of the European Parliament and of the Council, Commission Regulation (EC) No 692/2008 and Commission Regulation (EU) No 1230/2012 and repealing Regulation (EC) No 692/2008 ( OJ L 175, 7.7.2017, p. 1 ).]

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