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Document 02017R1151-20190101

Commission 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 Commission Regulation (EC) No 692/2008 (Text with EEA relevance)Text with EEA relevance

ELI: http://data.europa.eu/eli/reg/2017/1151/2019-01-01

02017R1151 — EN — 01.01.2019 — 002.006


This text is meant purely as a documentation tool and has no legal effect. The Union's institutions do not assume any liability for its contents. The authentic versions of the relevant acts, including their preambles, are those published in the Official Journal of the European Union and available in EUR-Lex. Those official texts are directly accessible through the links embedded in this document

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COMMISSION 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 Commission Regulation (EC) No 692/2008

(Text with EEA relevance)

(OJ L 175 7.7.2017, p. 1)

Amended by:

 

 

Official Journal

  No

page

date

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COMMISSION REGULATION (EU) 2017/1154 of 7 June 2017

  L 175

708

7.7.2017

►M2

COMMISSION REGULATION (EU) 2017/1347 of 13 July 2017

  L 192

1

24.7.2017

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COMMISSION REGULATION (EU) 2018/1832 of 5 November 2018

  L 301

1

27.11.2018


Corrected by:

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Corrigendum, OJ L 256, 4.10.2017, p.  11 (2017/1154)

►C2

Corrigendum, OJ L 056, 28.2.2018, p.  66 (2017/1151)

►C3

Corrigendum, OJ L 263, 16.10.2019, p.  41 (2018/1832)




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COMMISSION 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 Commission Regulation (EC) No 692/2008

(Text with EEA relevance)



Article 1

Subject matter

This Regulation lays down measures for the implementation of Regulation (EC) No 715/2007.

Article 2

Definitions

For the purposes of this Regulation, the following definitions shall apply:

(1) ‘vehicle type with regard to emissions and vehicle repair and maintenance information’ means a group of vehicles which:

(a) do not differ with respect to the criteria constituting an "interpolation family" as defined in point 5.6 of Annex XXI;

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(b) fall in a single "CO2 interpolation range" within the meaning of point 2.3.2 of Sub-Annex 6 to Annex XXI;

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(c) do not differ with respect to any characteristics that have a non-negligible influence on tailpipe emissions, such as, but not limited to, the following:

 types and sequence of pollution control devices (e.g. three-way catalyst, oxidation catalyst, lean NOx trap, SCR, lean NOx catalyst, particulate trap or combinations thereof in a single unit);

 exhaust gas recirculation (with or without, internal/external, cooled/non-cooled, low/high pressure).

(2) ‘EC type-approval of a vehicle with regard to emissions and vehicle repair and maintenance information’ means an EC type-approval of the vehicles contained in a ‘vehicle type with regard to emissions and vehicle repair and maintenance information’ with regard to their tailpipe emissions, crankcase emissions, evaporative emissions, fuel consumption and access to vehicle OBD and vehicle repair and maintenance information;

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(3) ‘odometer’ means an instrument indicating to the driver the total distance driven by the vehicle since its production;

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(4) ‘starting aid’ means glow plugs, modifications to the injection timing and other devices which assist the engine to start without enrichment of the air/fuel mixture of the engine;

(5) ‘engine capacity’ means either of the following:

(a) for reciprocating piston engines, the nominal engine swept volume;

(b) for rotary piston (Wankel) engines, double the nominal engine swept volume;

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(6) ‘periodically regenerating system’ means an exhaust emissions control device (e.g. catalytic converter, particulate trap) that requires a periodic regeneration process;

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(7) ‘original replacement pollution control device’ means a pollution control device or an assembly of pollution control devices whose types are indicated in Appendix 4 to Annex I to this Regulation but are offered on the market as separate technical units by the holder of the vehicle type-approval;

(8) ‘type of pollution control device’ means catalytic converters and particulate filters which do not differ in any of the following essential aspects:

(a) number of substrates, structure and material;

(b) type of activity of each substrate;

(c) volume, ratio of frontal area and substrate length;

(d) catalyst material content;

(e) catalyst material ratio;

(f) cell density;

(g) dimensions and shape;

(h) thermal protection;

(9) ‘mono fuel vehicle’ means a vehicle that is designed to run primarily on one type of fuel;

(10) ‘mono fuel gas vehicle’ means a mono fuel vehicle that primarily runs on LPG, NG/biomethane, or hydrogen but may also have a petrol system for emergency purposes or starting only, where the petrol tank does not contain more than 15 litres of petrol;

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(11) ‘bi-fuel vehicle’ means a vehicle with two separate fuel storage systems that is designed to run primarily on only one fuel at a time;

(12) ‘bi-fuel gas vehicle’ means a bi-fuel vehicle where the two fuels are petrol (petrol mode) and either LPG, NG/biomethane, or hydrogen;

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(13) ‘flex fuel vehicle’ means a vehicle with one fuel storage system that can run on different mixtures of two or more fuels;

(14) ‘flex fuel ethanol vehicle’ means a flex fuel vehicle that can run on petrol or a mixture of petrol and ethanol up to an 85 per cent ethanol blend (E85);

(15) ‘flex fuel biodiesel vehicle’ means a flex fuel vehicle that can run on mineral diesel or a mixture of mineral diesel and biodiesel;

(16) ‘hybrid electric vehicle’ (HEV) means a hybrid vehicle where one of the propulsion energy converters is an electric machine;

(17) ‘properly maintained and used’ means, for the purpose of a test vehicle, that such a vehicle satisfies the criteria for acceptance of a selected vehicle laid down in section 2 of Appendix 3 to UN/ECE Regulation No 83 ( 1 );

(18) ‘emission control system’ means, in the context of the OBD system, the electronic engine management controller and any emission-related component in the exhaust or evaporative system which supplies an input to or receives an output from this controller;

(19) ‘malfunction indicator’ (MI) means a visible or audible indicator that clearly informs the driver of the vehicle in the event of a malfunction of any emission-related component connected to the OBD system, or of the OBD system itself;

(20) ‘malfunction’ means the failure of an emission-related component or system that would result in emissions exceeding the limits in section 2.3 of Annex XI or if the OBD system is unable to fulfil the basic monitoring requirements set out in Annex XI;

(21) ‘secondary air’ means the air introduced into the exhaust system by means of a pump or aspirator valve or other means that is intended to aid in the oxidation of HC and CO contained in the exhaust gas stream;

(22) ‘driving cycle’, means, in respect of vehicle OBD systems, the engine start-up, driving mode where a malfunction would be detected if present, and engine shut-off;

(23) ‘access to information’ means the availability of all vehicle OBD and vehicle repair and maintenance information, required for the inspection, diagnosis, servicing or repair of the vehicle.

(24) ‘deficiency’ means, in the context of the OBD system, that up to two separate components or systems which are monitored contain temporary or permanent operating characteristics that impair the otherwise efficient OBD monitoring of those components or systems or do not meet all of the other detailed requirements for OBD;

(25) ‘deteriorated replacement pollution control device’ means a pollution control device as defined in Article 3(11) of Regulation (EC) No 715/2007 that has been aged or artificially deteriorated to such an extent that it fulfils the requirements laid out in section 1 to Appendix 1 to Annex XI of UN/ECE Regulation No 83;

(26) ‘vehicle OBD information’ means information relating to an on-board diagnostic system for any electronic system on the vehicle

(27) ‘reagent’ means any product other than fuel that is stored on-board the vehicle and is provided to the exhaust after-treatment system upon request of the emission control system;

(28) ‘mass in running order’ means the mass of the vehicle, with its fuel tank(s) filled to at least 90 per cent of its or their capacity/capacities, including the mass of the driver, fuel and liquids, fitted with the standard equipment in accordance with the manufacturer's specifications and, when they are fitted, the mass of the bodywork, the cabin, the coupling and the spare wheel(s) as well as the tools;

(29) ‘engine misfire’ means lack of combustion in the cylinder of a positive ignition engine due to absence of spark, poor fuel metering, poor compression or any other cause;

(30) ‘cold start system or device’ means a system which temporarily enriches the air/fuel mixture of the engine thus assisting the engine to start;

(31) ‘power take-off operation or unit’ means an engine-driven output provision for the purposes of powering auxiliary, vehicle mounted, equipment;

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(32) ‘small volume manufacturer’ means a manufacturer whose worldwide annual production is less than 10 000 units for the year prior to the one for which the type approval is granted and:

(a) is not part of a group of connected manufacturers; or

(b) is part of a group of connected manufacturers whose worldwide annual production is less than 10 000 units for the year prior to the one for which the type approval is granted; or

(c) is part of a group of connected manufacturers but operates its own production facilities and own design centre;

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(32a) ‘own production facility’ means a manufacturing or assembly plant used by the manufacturer for the purpose of manufacturing or assembling new vehicles for that manufacturer, including, where relevant, vehicles which are intended for export;

(32b) ‘own design centre’ means a facility in which the whole vehicle is designed and developed, and which is under the control and use of the manufacturer;

(32c) ‘ultra-small-volume manufacturers’ means a small volume manufacturer as defined in point (32) which has registrations of less than 1 000 in the Community for the year prior to the one the type approval is granted;

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(33) ‘pure ICE vehicle’ means a vehicle where all of the propulsion energy converters are internal combustion engines;

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(34) ‘Pure electric vehicle’ (PEV) means a vehicle equipped with a powertrain containing exclusively electric machines as propulsion energy converters and exclusively rechargeable electric energy storage systems as propulsion energy storage systems;

(35) ‘Fuel cell’ means an energy converter transforming chemical energy (input) into electrical energy (output) or vice versa;

(36) ‘Fuel cell vehicle’ (FCV) means a vehicle equipped with a powertrain containing exclusively fuel cell(s) and electric machine(s) as propulsion energy converter(s);

(37) ‘net power’ means the power obtained on a test bench at the end of the crankshaft or its equivalent at the corresponding engine or motor speed with the auxiliaries, tested in accordance with Annex XX (Measurements of net power and the maximum 30 minutes power of electric drive train), and determined under reference atmospheric conditions;

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(38) ‘rated engine power’ (Prated) means the maximum net power of the engine or motor in kW measured in accordance with the requirements of Annex XX;

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(39) ‘maximum 30 minutes power’ means the maximum net power of an electric drive train at DC voltage as set out in paragraph 5.3.2. of UN/ECE Regulation No 85 ( 2 );

(40) ‘cold start’ means, in the context of the in use performance ratio of OBD monitors, an engine coolant temperature or equivalent temperature at engine start less than or equal to 35 °C and less than or equal to 7 °C higher than ambient temperature, if available;

(41) ‘Real driving emissions (RDE)’ means the emissions of a vehicle under its normal conditions of use;

(42) ‘Portable emissions measurement system’ (PEMS) means a portable emissions measurement system meeting the requirements specified in Appendix 1 to Annex IIIA;

(43) ‘Base Emission Strategy’, (‘BES’) means an emission strategy that is active throughout the speed and load operating range of the vehicle unless an Auxiliary Emission Strategy is activated;

(44) ‘Auxiliary Emission Strategy’, (‘AES’) means an emission strategy that becomes active and replaces or modifies a BES for a specific purpose and in response to a specific set of ambient or operating conditions and only remains operational as long as those conditions exist;

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(45) ‘Fuel tank system’ means the devices which allow storing the fuel, comprising the fuel tank, the fuel filler, the filler cap and the fuel pump when it is fitted in or on the fuel tank;

(46) ‘permeability factor’ (PF) means the factor determined on the basis of hydrocarbon losses over a period of time and used to determine the final evaporative emissions;

(47) ‘monolayer non-metal tank’ means a fuel tank constructed with a single layer of non-metal material including fluorinated/sulfonated materials;

(48) ‘multilayer tank’ means a fuel tank constructed with at least two different layered materials, one of which is a hydrocarbon barrier material;

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(49) ‘inertia category’ means a category of test masses of the vehicle corresponding to an equivalent inertia as laid down in Table A4a/3 of Annex 4a to UN/ECE Regulation No 83 when the test mass is set equal to the reference mass.

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Article 3

Requirements for type-approval

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1.  In order to receive an EC type-approval with regard to emissions and vehicle repair and maintenance information, the manufacturer shall demonstrate that the vehicles comply with the requirements of this Regulation when tested in accordance with the test procedures specified in Annexes IIIA to VIII, XI, XIV, XVI, XX, XXI and XXII. The manufacturer shall also ensure that the reference fuels comply with the specifications set out in Annex IX.

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2.  Vehicles shall be subject to the tests specified in Figure I.2.4 of Annex I.

3.  As an alternative to the requirements contained in Annexes II, V to VIII, XI, XVI and XXI, small volume manufacturers may request the granting of EC type-approval to a vehicle type which was approved by an authority of a third country on the basis of the legislative acts listed in section 2.1 of Annex I.

The emissions tests for roadworthiness purposes set out in Annex IV, tests for fuel consumption and CO2 emissions set out in Annex XXI and the requirements for access to vehicle OBD and vehicle repair and maintenance information set out in Annex XIV shall be required to obtain EC type-approval with regard to emissions and vehicle repair and maintenance information under this paragraph.

The approval authority shall inform the Commission of the circumstances of each type approval granted under this paragraph.

4.  Specific requirements for inlets to fuel tanks and electronic system security are laid down in Section 2.2 and 2.3 of Annex I.

5.  The manufacturer shall take technical measures so as to ensure that the tailpipe and evaporative emissions are effectively limited, in accordance with this Regulation, throughout the normal life of the vehicle and under normal conditions of use.

These measures shall include ensuring that the security of hoses, joints and connections, used within the emission control systems, are constructed so as to conform with the original design intent.

6.  The manufacturer shall ensure that the emissions test results comply with the applicable limit value under the specified test conditions of this Regulation.

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7.  For the Type 1 test set out in Annex XXI, vehicles that are fuelled with LPG or NG/biomethane shall be tested in the Type 1 test for variation in the composition of LPG or NG/biomethane, as set out in Annex 12 to UN/ECE Regulation No 83 for pollutant emissions, with the fuel used for the measurement of the net power in accordance with Annex XX to this Regulation.

Vehicles that can be fuelled both with petrol or LPG or NG/biomethane shall be tested on both the fuels, tests on LPG or NG/biomethane being performed for variation in the composition of LPG or NG/biomethane, as set out in Annex 12 to UN/ECE Regulation No 83, and with the fuel used for the measurement of the net power in accordance with Annex XX to this Regulation.

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8.  For the Type 2 test set out in Appendix 1 to Annex IV, at normal engine idling speed, the maximum permissible carbon monoxide content in the exhaust gases shall be that stated by the vehicle manufacturer. However, the maximum carbon monoxide content shall not exceed 0,3 % vol.

At high engine idling speed, the carbon monoxide content by volume of the exhaust gases shall not exceed 0,2 %, with the engine speed being at least 2 000 min –1 and Lambda being 1 ± 0,03 or in accordance with the specifications of the manufacturer.

9.  The manufacturer shall ensure that for the Type 3 test set out in Annex V, the engine's ventilation system does not permit the emission of any crankcase gases into the atmosphere.

10.  The Type 6 test measuring emissions at low temperatures set out in Annex VIII shall not apply to diesel vehicles.

However, when applying for type-approval, manufacturers shall present to the approval authority with information showing that the NOx after-treatment device reaches a sufficiently high temperature for efficient operation within 400 seconds after a cold start at – 7 °C as described in the Type 6 test.

In addition, the manufacturer shall provide the approval authority with information on the operating strategy of the exhaust gas recirculation system (EGR), including its functioning at low temperatures.

This information shall also include a description of any effects on emissions.

The approval authority shall not grant type-approval if the information provided is insufficient to demonstrate that the after-treatment device actually reaches a sufficiently high temperature for efficient operation within the designated period of time.

At the request of the Commission, the approval authority shall provide information on the performance of NOx after-treatment devices and EGR system at low temperatures.

11.  The manufacturer shall ensure that, throughout the normal life of a vehicle which is type approved in accordance with Regulation (EC) No 715/2007, its emissions as determined in accordance with the requirements set out in Annex IIIA and emitted at an RDE test performed in accordance with that Annex, shall not exceed the values set out therein.

Type approval in accordance with Regulation (EC) No 715/2007 may only be issued if the vehicle is part of a validated PEMS test family according to Appendix 7 of Annex IIIA.

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The requirements of Annex IIIA shall not apply to emission type-approvals according to Regulation (EC) No 715/2007 granted to ultra-small-volume manufacturers.

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Article 4

Requirements for type-approval regarding the OBD system

1.  The manufacturer shall ensure that all vehicles are equipped with an OBD system.

2.  The OBD system shall be designed, constructed and installed on a vehicle so as to enable it to identify types of deterioration or malfunction over the entire life of the vehicle.

3.  The OBD system shall comply with the requirements of this Regulation during normal conditions of use.

4.  When tested with a defective component in accordance with Appendix 1 of Annex XI, the OBD system malfunction indicator shall be activated.

The OBD system malfunction indicator may also activate during this test at levels of emissions below the OBD thresholds limits specified in section 2.3 of Annex XI.

5.  The manufacturer shall ensure that the OBD system complies with the requirements for in-use performance set out in section 3 of Appendix 1 to Annex XI of this Regulation under all reasonably foreseeable driving conditions.

6.  In-use performance related data to be stored and reported by a vehicle's OBD system according to the provisions of Section 7.6 of Appendix 1 to Annex XI of UN/ECE Regulation No 83 shall be made readily available by the manufacturer to national authorities and independent operators without any encryption.

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Article 4a

Requirements for type-approval regarding devices for monitoring the consumption of fuel and/or electric energy

The manufacturer shall ensure that the following vehicles of categories M1 and N1 are equipped with a device for determining, storing and making available data on the quantity of fuel and/or electric energy used for the operation of the vehicle:

(1) pure ICE and Not-Off-Vehicle Charging Hybrid Electric vehicles (NOVC-HEVs) powered exclusively by mineral diesel, biodiesel, petrol, ethanol or any combination of these fuels;

(2) Off-Vehicle Charging Hybrid Electric Vehicles (OVC-HEVs) powered by electricity and any of the fuels mentioned in point 1.

The device for monitoring the consumption of fuel and/or electric energy shall comply with the requirements laid down in Annex XXII.

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Article 5

Application for EC type-approval of a vehicle with regard to emissions and access to vehicle repair and maintenance information

1.  The manufacturer shall submit to the approval authority an application for EC type-approval of a vehicle with regard to emissions and access to vehicle repair and maintenance information.

2.  The application referred to in paragraph 1 shall be drawn up in accordance with the model of the information document set out in Appendix 3 to Annex I.

3.  In addition, the manufacturer shall submit the following information:

(a) in the case of vehicles equipped with positive-ignition engines, a declaration by the manufacturer of the minimum percentage of misfires out of a total number of firing events that either would result in emissions exceeding the limits given in section 2.3 of Annex XI if that percentage of misfire had been present from the start of a type 1 test as chosen for the demonstration according to Annex XI to this Regulation or could lead to an exhaust catalyst, or catalysts, overheating prior to causing irreversible damage;

(b) detailed written information fully describing the functional operation characteristics of the OBD system, including a listing of all relevant parts of the emission control system of the vehicle that are monitored by the OBD system;

(c) a description of the malfunction indicator used by the OBD system to signal the presence of a fault to a driver of the vehicle;

(d) a declaration by the manufacturer that the OBD system complies with the provisions of section 3 of Appendix 1 to Annex XI relating to in-use performance under all reasonably foreseeable driving conditions;

(e) a plan describing the detailed technical criteria and justification for incrementing the numerator and denominator of each monitor that must fulfil the requirements of paragraphs 7.2 and 7.3. of Appendix 1 to Annex XI of UN/ECE Regulation No 83, as well as for disabling numerators, denominators and the general denominator under the conditions outlined in paragraph 7.7 of Appendix 1 to Annex XI of UN/ECE Regulation No 83;

(f) a description of the provisions taken to prevent tampering with and modification of the emission control computer, odometer including the recording of mileage values for the purposes of the requirements of Annexes XI and XVI;

(g) if applicable, the particulars of the vehicle family as referred to in Appendix 2 to Annex 11 to UN/ECE Regulation No 83;

(h) where appropriate, copies of other type-approvals with the relevant data to enable extension of approvals and establishment of deterioration factors.

4.  For the purposes of point (d) of paragraph 3, the manufacturer shall use the model of manufacturer's certificate of compliance with the OBD in-use performance requirements set out in Appendix 7 of Annex I

5.  For the purposes of point (e) of paragraph 3, the approval authority that grants the approval shall make the information referred to in that point available to the approval authorities or the Commission upon request.

6.  For the purposes of points (d) and (e) of paragraph 3, approval authorities shall not approve a vehicle if the information submitted by the manufacturer is inappropriate for fulfilling the requirements of section 3 of Appendix 1 to Annex XI.

Paragraphs 7.2, 7.3 and 7.7 of Appendix 1 to Annex XI of UN/ECE Regulation No 83 shall apply under all reasonably foreseeable driving conditions.

For the assessment of the implementation of the requirements set out in these paragraphs, the approval authorities shall take into account the state of technology.

7.  For the purposes of point (f) of paragraph 3, the provisions taken to prevent tampering with and modification of the emission control computer shall include the facility for updating using a manufacturer-approved programme or calibration.

8.  For the tests specified in Figure I.2.4 of Annex I the manufacturer shall submit to the technical service responsible for the type-approval tests a vehicle representative of the type to be approved.

9.  The application for type-approval of mono fuel, bi-fuel and flex-fuel vehicles shall comply with the additional requirements laid down in Sections 1.1 and 1.2 of Annex I.

10.  Changes to the make of a system, component or separate technical unit that occur after a type-approval shall not automatically invalidate a type approval, unless its original characteristics or technical parameters are changed in such a way that the functionality of the engine or pollution control system is affected.

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11.  In order for the approval authorities to be able to assess the proper use of AES, taking into account the prohibition of defeat devices contained in Article 5(2) of Regulation (EC) No 715/2007, the manufacturer shall also provide an extended documentation package, as described in Appendix 3a of Annex I to this Regulation.

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The extended documentation package shall be identified and dated by the approval authority and kept by that authority for at least 10 years after the approval is granted.

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At the request of the manufacturer, the approval authority shall conduct a preliminary assessment of the AES for new vehicle types. In that case, the relevant documentation shall be provided to the type approval authority between 2 and 12 months before the start of the type-approval process.

The approval authority shall make a preliminary assessment on the basis of the extended documentation package, as described in point (b) of Appendix 3a to Annex I, provided by the manufacturer. The approval authority shall make the assessment in accordance with the methodology described in Appendix 3b of Annex I. The approval authority may deviate from that methodology in exceptional and duly justified cases.

The preliminary assessment of the AES for new vehicle types shall remain valid for the purposes of type approval for a period of 18 months. That period may be extended by a further 12 months if the manufacturer provides to the approval authority proof that no new technologies have become accessible in the market that would change the preliminary assessment of the AES.

A list of AES which were deemed non-acceptable by Type Approval Authorities shall be compiled yearly by the Type-Approval Authorities Expert Group (TAAEG) and made available to the public by the Commission.

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12.  The manufacturer shall also provide the type approval authority which granted the emission type-approval under this Regulation (‘granting approval authority’) with a package on Testing Transparency containing the necessary information in order to allow the performance of testing in accordance with point 5.9 of Part B of Annex II.

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Article 6

Administrative provisions for EC type-approval of a vehicle with regard to emissions and access to vehicle repair and maintenance information

1.  If all the relevant requirements are met, the approval authority shall grant an EC type-approval and issue a type-approval number in accordance with the numbering system set out in Annex VII to Directive 2007/46/EC.

Without prejudice to the provisions of Annex VII to Directive 2007/46/EC, Section 3 of the type-approval number shall be drawn up in accordance with Appendix 6 to Annex I to this Regulation.

An approval authority shall not assign the same number to another vehicle type.

2.  By way of derogation from paragraph 1, at the request of the manufacturer, a vehicle with an OBD system may be accepted for type-approval with regard to emissions and vehicle repair and maintenance information, even though the system contains one or more deficiencies such that the specific requirements of Annex XI are not fully met, provided that the specific administrative provisions set out in Section 3 of that Annex are complied with.

The approval authority shall notify the decision to grant such a type approval to all approval authorities in the other Member States in accordance with the requirements set out in Article 8 of Directive 2007/46/EC.

3.  When granting an EC type approval under paragraph 1, the approval authority shall issue an EC type-approval certificate using the model set out in Appendix 4 to Annex I.

Article 7

Amendments to type-approvals

Articles 13, 14 and 16 of Directive 2007/46/EC shall apply to any amendments to the type-approvals granted in accordance to Regulation (EC) No 715/2007.

At the manufacturer's request the provisions specified in Section 3 of Annex I shall apply without the need for additional testing only to vehicles of the same type.

Article 8

Conformity of production

1.  Measures to ensure the conformity of production shall be taken in accordance with the provisions of Article 12 of Directive 2007/46/EC.

In addition, the provisions laid down in Section 4 of Annex I to this Regulation and the relevant statistical method in Appendices 1 and 2 to that Annex shall apply.

2.  Conformity of production shall be checked on the basis of the description in the type-approval certificate set out in Appendix 4 to Annex I to this Regulation.

Article 9

In service conformity

1.  Measures to ensure in-service conformity of vehicles type-approved under this Regulation shall be taken in accordance with Annex X to Directive 2007/46/EC and Annex II to this Regulation.

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2.  The in-service conformity checks shall be appropriate for confirming that tailpipe and evaporative emissions are effectively limited during the normal life of vehicles under normal conditions of use.

3.  In-service conformity shall be checked on properly maintained and used vehicles, in accordance with Appendix 1 of Annex II, between 15 000  km or 6 months whichever occurs later and 100 000  km or 5 years whichever occurs sooner. In service conformity for evaporative emissions shall be checked on properly maintained and used vehicles, in accordance with Appendix 1 of Annex II, between 30 000  km or 12 months whichever occurs later and 100 000  km or 5 years whichever occurs sooner.

The requirements for in-service conformity checks are applicable until 5 years after the last Certificate of Conformity or individual approval certificate is issued for vehicles of that in-service conformity family.

4.  In-service conformity checks shall not be mandatory if the annual sales of the in-service conformity family are less than 5 000 vehicles in the Union for the previous year. For such families, the manufacturer shall provide the approval authority with a report of any emissions related warranty, repair claim and OBD fault as set out in point 4.1 of Annex II. Such in-service conformity families may still be selected to be tested in accordance with Annex II.

5.  The manufacturer and the granting type approval authority shall perform in-service conformity checks in accordance with Annex II.

6.  The granting approval authority shall take the decision on whether a family failed the provisions of in-service conformity, following a compliance assessment and approve the plan of remedial measures presented by the manufacturer in accordance with Annex II.

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7.  If a type approval authority has established that an in-service conformity family fails the in-service conformity check, it shall notify without delay the granting type approval authority, in accordance with Article 30(3) of Directive 2007/46/EC.

Following that notification and subject to the provisions of Article 30(6) of Directive 2007/46/EC, the granting approval authority shall inform the manufacturer that an in-service conformity family fails the in-service conformity checks and that the procedures described in points 6 and 7 of Annex II shall be followed.

If the granting approval authority establishes that no agreement can be reached with a type approval authority that has established that an in-service conformity family fails the in-service conformity check, the procedure pursuant to Article 30(6) of Directive 2007/46/EC shall be initiated.

8.  In addition to points 1 to 7, the following shall apply to vehicles type approved according to Part B of Annex II.

(a) Vehicles submitted to multi-stage type-approval, as defined in Article 3(7) of Directive 2007/46/EC, shall be checked for in service conformity in accordance with the rules for multistage approval set out in point 5.10.6 of Part B of Annex II to this Regulation.

(b) Armoured vehicles, hearses and wheelchair accessible vehicles, as defined in points 5.2 and 5.5 of Part A of Annex II to Directive 2007/46/EC respectively, shall not be subject to the provisions of this Article. All other special purpose vehicles as defined in point 5 of Part A of Annex II to Directive 2007/46/EC, shall be checked for in service conformity in accordance with the rules for multistage type-approvals set out in Part B of Annex II to this Regulation.

▼B

Article 10

Pollution control devices

1.  The manufacturer shall ensure that replacement pollution control devices intended to be fitted to EC type-approved vehicles covered by the scope of Regulation (EC) No 715/2007 are EC type-approved, as separate technical units within the meaning of Article 10(2) of Directive 2007/46/EC, in accordance with Article 12, Article 13 and Annex XIII to this Regulation.

Catalytic converters and particulate filters shall be considered to be pollution control devices for the purposes of this Regulation.

The relevant requirements shall be deemed to be met if all the following conditions are fulfilled:

(a) the requirements of Article 13 are met;

(b) the replacement pollution control devices have been approved according to UN/ECE Regulation No 103 ( 3 ).

In the case referred to in the third subparagraph Article 14 shall also apply.

2.  Original equipment replacement pollution control devices, which fall within the type covered by point 2.3 of the Addendum to Appendix 4 to Annex I and are intended for fitment to a vehicle to which the relevant type-approval document refers, do not need to comply with Annex XIII provided they fulfil the requirements of points 2.1 and 2.2 of that Annex.

3.  The manufacturer shall ensure that the original pollution control device carries identification markings.

4.  The identification markings referred to in paragraph 3 shall comprise the following:

(a) the vehicle or engine manufacturer's name or trade mark;

(b) the make and identifying part number of the original pollution control device as recorded in the information referred to in point 3.2.12.2 of Appendix 3 to Annex I.

Article 11

Application for EC type-approval of a type of replacement pollution control device as a separate technical unit

1.  The manufacturer shall submit to the approval authority an application for EC type-approval of a type of replacement pollution control device as a separate technical unit.

The application shall be drawn up in accordance with the model of the information document set out in Appendix 1 to Annex XIII.

2.  In addition to the requirements laid down in paragraph 1, the manufacturer shall submit to the technical service responsible for the type-approval test all of the following:

(a) a vehicle or vehicles of a type approved in accordance with this Regulation equipped with a new original equipment pollution control device;

(b) one sample of the type of the replacement pollution control device;

(c) an additional sample of the type of the replacement pollution control device, in the case of a replacement pollution control device intended to be fitted to a vehicle equipped with an OBD system.

3.  For the purposes of point (a) of paragraph 2, the test vehicles shall be selected by the applicant with the agreement of the technical service.

The test vehicles shall comply with the requirements set out in Section 3.2 of Annex 4a to UN/ECE Regulation No 83.

The test vehicles shall respect all of the following requirements:

(a) they shall have no emission control system defects;

(b) any excessively worn out or malfunctioning emission-related original part shall be repaired or replaced;

(c) they shall be tuned properly and set to manufacturer's specification prior to emission testing.

4.  For the purposes of points (b) and (c) of paragraph 2, the sample shall be clearly and indelibly marked with the applicant's trade name or mark and its commercial designation.

5.  For the purposes of point (c) of paragraph 2, the sample shall have been deteriorated as defined under point (25) of Article 2.

Article 12

Administrative provisions for EC type-approval of replacement pollution control device as separate technical unit

1.  If all the relevant requirements are met, the type approval authority shall grant an EC type-approval for replacement pollution control devices as separate technical unit and issue a type-approval number in accordance with the numbering system set out in Annex VII to Directive 2007/46/EC.

The approval authority shall not assign the same number to another replacement pollution control device type.

The same type-approval number may cover the use of that replacement pollution control device type on a number of different vehicle types.

2.  For the purposes of paragraph 1, the approval authority shall issue an EC type-approval certificate established in accordance with the model set out in Appendix 2 to Annex XIII.

3.  If the applicant for type-approval is able to demonstrate to the approval authority or technical service that the replacement pollution control device is of a type indicated in section 2.3 of the Addendum to Appendix 4 to Annex I, the granting of a type-approval shall not be dependent on verification of compliance with the requirements specified in section 4 of Annex XIII.

Article 13

Access to vehicle OBD and vehicle repair and maintenance information

1.  Manufacturers shall put in place the necessary arrangements and procedures, in accordance with Articles 6 and 7 of Regulation (EC) No 715/2007 and Annex XIV of this regulation, to ensure that vehicle OBD and vehicle repair and maintenance information is readily accessible.

2.  Approval authorities shall only grant type-approval after receiving from the manufacturer a Certificate on Access to Vehicle OBD and Vehicle Repair and Maintenance Information.

3.  The Certificate on Access to Vehicle OBD and Vehicle Repair and Maintenance Information shall serve as the proof of compliance with Article 6(7) of Regulation (EC) No 715/2007.

4.  The Certificate on Access to Vehicle OBD and Vehicle Repair and Maintenance Information shall be drawn up in accordance with the model set out in Appendix 1 of Annex XIV.

5.  If the vehicle OBD and vehicle repair and maintenance information is not available, or does not conform to Article 6 and 7 of Regulation (EC) No 715/2007 and Annex XIV of this Regulation, when the application for type-approval is made, the manufacturer shall provide that information within six months of the date of type approval.

6.  The obligations to provide information within the period specified in paragraph 5 shall apply only if, following type-approval, the vehicle is placed on the market.

When the vehicle is placed on the market more than six months after type-approval, the information shall be provided on the date on which the vehicle is placed on the market.

7.  The approval authority may presume that the manufacturer has put in place satisfactory arrangements and procedures with regard to access to vehicle OBD and vehicle repair and maintenance information, on the basis of a completed Certificate on Access to Vehicle OBD and Vehicle Repair and Maintenance Information, providing that no complaint was made, and that the manufacturer provides this information within the period set out in paragraph 5.

8.  In addition to the requirements for the access to OBD information that are specified in Section 4 of Annex XI, the manufacturer shall make available to interested parties the following information:

(a) relevant information to enable the development of replacement components which are critical to the correct functioning of the OBD system;

(b) information to enable the development of generic diagnostic tools.

For the purposes of point (a), the development of replacement components shall not be restricted by: the unavailability of pertinent information, the technical requirements relating to malfunction indication strategies if the OBD thresholds are exceeded or if the OBD system is unable to fulfil the basic OBD monitoring requirements of this Regulation; specific modifications to the handling of OBD information to deal independently with vehicle operation on petrol or on gas; and the type-approval of gas-fuelled vehicles that contain a limited number of minor deficiencies.

For the purposes of point (b), where manufacturers use diagnostic and test tools in accordance with ISO 22900 Modular Vehicle Communication Interface (MVCI) and ISO 22901 Open Diagnostic Data Exchange (ODX) in their franchised networks, the ODX files shall be accessible to independent operators via the web site of the manufacturer.

9.  The Forum on Access to Vehicle Information (the Forum).

The Forum shall consider whether access to information affects the advances made in reducing vehicle theft and shall make recommendations for improving the requirements relating to access to information. In particular, the Forum shall advise the Commission on the introduction of a process for approving and authorising independent operators by accredited organisations to access information on vehicle security.

The Commission may decide to keep the discussions and findings of the Forum confidential.

Article 14

Compliance with the obligations regarding access to vehicle OBD and vehicle repair and maintenance information

1.  An approval authority may, at any time, whether on its own initiative, on the basis of a complaint, or on the basis of an assessment by a technical service, check the compliance of a manufacturer with the provisions of Regulation (EC) No 715/2007, this Regulation, and the terms of the Certificate on Access to Vehicle OBD and Vehicle Repair and Maintenance Information.

2.  Where an approval authority finds that the manufacturer has failed to comply with its obligations regarding access to vehicle OBD and vehicle repair and maintenance information, the approval authority which granted the relevant type approval shall take appropriate steps to remedy the situation.

3.  The steps referred to in paragraph 2 may include withdrawal or suspension of type-approval, fines, or other measures adopted in accordance with Article 13 of Regulation (EC) No 715/2007.

4.  The approval authority shall proceed to an audit in order to verify compliance by the manufacturer with the obligations concerning access to vehicle OBD and vehicle repair and maintenance information, if an independent operator or a trade association representing independent operators files a complaint to the approval authority.

5.  When carrying out the audit, the approval authority may ask a technical service or any other independent expert to carry out an assessment to verify whether these obligations are met.

Article 15

Transitional provisions

1.  Until 31 August 2017 in the case of categories M1, M2 and category N1 class I vehicles, and until 31 August 2018 in the case of N1 vehicles of class II and III and category N2 vehicles manufacturers may request type-approval to be granted in accordance with this Regulation. Where such request is not made, Regulation (EC) No 692/2008 shall apply.

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2.  With effect from 1 September 2017 in the case of categories M1, M2 and category N1 class I vehicles, and from 1 September 2018 in the case of N1 vehicles of class II and III and category N2 vehicles, national authorities shall refuse, on grounds relating to emissions or fuel consumption, to grant EC type approval or national type approval, in respect to new vehicle types which do not comply with this Regulation.

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With effect from 1 September 2019, national authorities shall refuse, on grounds relating to emissions or fuel consumption, to grant EC type approval or national type approval, in respect to new vehicle types which do not comply with Annex VI. At the request of the manufacturer, until 31 August 2019 the evaporative emissions test procedure set out in Annex 7 to UNECE Regulation 83 or the evaporative emissions test procedure set out in in Annex VI of Regulation (EC) No 692/2008 may still be used for the purposes of type-approval under this Regulation.

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3.  With effect from 1 September 2018 in the case of categories M1, M2 and category N1 class I vehicles, and from 1 September 2019 in the case of N1 vehicles of class II and III and category N2 vehicles, national authorities shall, on grounds relating to emissions or fuel consumption, in the case of new vehicles which do not comply with this Regulation, consider certificates of conformity to be no longer valid for the purposes of Article 26 of Directive 2007/46/EC and shall prohibit the registration, sale or entry into service of such vehicles.

For new vehicles registered before 1 September 2019 the evaporative emissions test procedure laid down in Annex 7 to UN/ECE Regulation 83 may, at the request of the manufacturer, be applied instead of the procedure laid down in Annex VI to this Regulation for the purposes of determining the evaporative emissions of the vehicle.

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With the exception of vehicles approved for evaporative emissions under the procedure laid down in Annex VI of Regulation (EC) No 692/2008, with effect from 1 September 2019, national authorities shall prohibit the registration, sale or entry into service of new vehicles that do not comply with Annex VI of this Regulation.

▼B

4.  Until three years after the dates specified in Article 10(4) of Regulation (EC) No 715/2007 in the case of new vehicle types and four years after the dates specified in Article 10(5) of that Regulation in the case of new vehicles, the following provisions shall apply:

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(a) the requirements of point 2.1 of Annex IIIA with the exception of the requirements for the number of particles (PN) shall not apply;

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(b) the requirements of Annex IIIA other than that in point 2.1, including the requirements with regard to RDE tests to be performed and data to be recorded and made available, shall apply only to new type approvals granted in accordance with Regulation (EC) No 715/2007 from 27 July 2017;

(c) the requirements of Annex IIIA shall not apply to type approvals granted to small volume manufacturers.

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Where a vehicle was type-approved in accordance with the requirements of Regulation (EC) No 715/2007 and its implementing legislation prior to 1 September 2017 in the case of category M and category N1 class I vehicles, or prior to 1 September 2018 in the case of category N1 class II and III and category N2 vehicles, it shall not be considered as belonging to a new type for the purpose of the first subparagraph. The same shall apply also where new types are created out of the original type exclusively due to the application of the new type definition in Article 2(1) of this Regulation. In these cases, the application of this subparagraph shall be mentioned in Section II. 5 Remarks of the EC-type-approval certificate, set out in Appendix 4 of Annex I to Regulation (EU) 2017/1151, including a reference to the previous type-approval.

▼B

5.  Until 8 years after the dates given in Article 10(4) of Regulation (EC) No 715/2007:

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(a) type 1/I tests performed in accordance with Annex III to Regulation (EC) No 692/2008 until 3 years after the dates specified in Article 10(4) of Regulation (EC) No 715/2007 shall be recognised by the approval authority for the purposes of producing deteriorated or defective components to simulate failures for assessing the requirements of Annex XI to this Regulation;

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(b) with respect to vehicles of a WLTP interpolation family which fulfil the extension rules specified in point 3.1.4 of Annex I of Regulation (EC) No 692/2008, procedures performed in accordance with Section 3.13 of Annex III to Regulation (EC) No 692/2008 until 3 years after the dates given in Article 10(4) of Regulation (EC) No 715/2007 shall be accepted by the approval authority for the purposes of fulfilling the requirements of Appendix 1 to Sub-Annex 6 to Annex XXI of this Regulation;

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(c) durability demonstrations where the first type 1/I test was performed and completed in accordance with Annex VII to Regulation (EC) No 692/2008 until 3 years after the dates specified in Article 10(4) of Regulation (EC) No 715/2007 shall be recognised by the approval authorities as equivalent for the purposes of fulfilling the requirements of Annex VII to this Regulation.

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For the purposes of this point, the possibility to use test results from procedures performed and completed in accordance with Regulation (EC) No 692/2008 shall only be applicable to those vehicles of a WLTP interpolation family which fulfil the extension rules specified in point 3.3.1 of Annex I of Regulation (EC) No 692/2008.

▼B

6.  In order to ensure a fair treatment of previously existing type-approvals, the Commission shall examine the consequences of Chapter V of Directive 2007/46/EC for the purposes of this Regulation.

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7.  Until 5 years and 4 months following the dates specified in Article 10(4) and (5) of Regulation (EC) No 715/2007 the requirements of Point 2.1 of Annex IIIA shall not apply to emission type-approvals according to Regulation (EC) No 715/2007 granted to small volume manufacturers as defined in Article 2(32). However in the period between 3 years and 5 years and 4 months following the dates specified in Article 10(4) and between 4 years and 5 years 4 months following the dates specified in Article 10(5) of Regulation (EC) No 715/2007, small volume manufacturers shall monitor and report the RDE values of their vehicles.

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8.  Part B of Annex II shall apply to categories M1, M2 and category N1 class I based on types approved from 1 January 2019, and for category N1 class II and III and category N2 based on types approved from 1 September 2019. It shall also apply to all vehicles registered from 1 September 2019 for categories M1, M2 and category N1 class I, and to all vehicles registered from 1 September 2020 for category N1 class II and III and category N2. In all other cases Part A of Annex II shall apply.

9.  With effect from 1 January 2020 in the case of vehicles as referred to in Article 4a of categories M1 and N1, class I, and from 1 January 2021 in the case of vehicles as referred to in Article 4a of category N1 vehicles, classes II and III, national authorities shall refuse, on grounds relating to emissions or fuel consumption, to grant EC type approval or national type approval in respect of new vehicle types which do not meet the requirements laid down in Article 4a.

With effect from 1 January 2021, in the case vehicles as referred to in Article 4a of categories M1 and N1, class I, and from 1 January 2022 in the case of vehicles as referred to in Article 4a of category N1 vehicles, classes II and III, national authorities shall prohibit the registration, sale or entry into service of new vehicles that do not comply with that Article.

10.  With effect from 1 September 2019 national authorities shall prohibit the registration, sale or entry into service of new vehicles that do not comply with the requirements set out in Annex IX of the Directive 2007/46/EC as amended by Commission Regulation (EU) 2018/1832 ( 4 ).

For all vehicles registered between 1 January and 31 August 2019 under new type approvals granted in the same period and where the information listed in Annex IX of the Directive 2007/46/EC as amended by Regulation (EU) 2018/1832 is not yet included in the Certificate of Conformity, the manufacturer shall make this information available free-of-charge within 5 working days of the request by an accredited lab or technical service for the purposes of testing under Annex II.

11.  The requirements of Article 4a shall not apply to type approvals granted to small volume manufacturers.

▼B

Article 16

Amendments to Directive 2007/46/EC

Directive 2007/46/EC is amended in accordance with Annex XVIII to this Regulation.

Article 17

Amendments to Regulation (EC) No 692/2008

Regulation (EC) No 692/2008 is amended as follows:

(1) In Article 6, paragraph 1, shall be replaced by the following text:

‘1.  If all the relevant requirements are met, the approval authority shall grant an EC type-approval and issue a type-approval number in accordance with the numbering system set out in Annex VII to Directive 2007/46/EC.

Without prejudice to the provisions of Annex VII to Directive 2007/46/EC, Section 3 of the type-approval number shall be drawn up in accordance with Appendix 6 to Annex I to this Regulation.

An approval authority shall not assign the same number to another vehicle type.

The requirements of Regulation (EC) No 715/2007 shall be deemed to be met if all the following conditions are fulfilled:

(a) the requirements of Article 3(10) of this Regulation are met;

(b) the requirements of Article 13 of this Regulation are met;

(c) the vehicle has been approved according to UN/ECE Regulations No 83, series of amendments 07; No 85 and its supplements, No 101, Revision 3 (comprising series of amendments 01 and their supplements) and in the case of compression ignition vehicles No 24 Part III, series of amendments 03.

(d) the requirements of Article 5(11) and (12) are met.’

(2) the following Article 16a is added:

‘Article 16a

Transitional provisions

With effect from 1 September 2017 in the case of categories M1, M2 and category N1 class I vehicles, and from 1 September 2018 in the case of N1 vehicles of class II and III and category N2 vehicles, this Regulation shall only apply for the purposes of assessing the following requirements of vehicles type-approved in accordance with this Regulation before those dates:

(a) conformity of production in accordance with Article 8;

(b) in-service conformity in accordance with Article 9;

(c) access to vehicle OBD and vehicle repair and maintenance information in accordance with Article 13;

This Regulation shall also apply for the purposes of the correlation procedure set out in Commission Implementing Regulations (EU) 2017/1152 ( *1 ) and (EU) 2017/1153 ( *2 ).

(3) Annex I is amended in accordance with Annex XVII to this Regulation.

Article 18

Amendments to Commission Regulation (EU) No 1230/2012 ( 5 )

In Regulation (EU) No 1230/2012, Article 2(5) is replaced by the following:

‘(5) “Mass of the optional equipment” means the maximum mass of the combinations of optional equipment which may be fitted to the vehicle in addition to the standard equipment in accordance with the manufacturer's specifications;’

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▼B

Article 19

Repeal

Regulation (EC) No 692/2008 is repealed as from 1 January 2022.

Article 20

Entry into force and application

This Regulation shall enter into force on the twentieth day following its publication in the Official Journal of the European Union.

This Regulation shall be binding in its entirety and directly applicable in all Member States.




LIST OF ANNEXES

ANNEX I

Administrative provisions for EC type-approval

Appendix 1

Verification of conformity of production for Type 1 test — statistical method

Appendix 2

Calculations for Conformity of Production for EVs

Appendix 3

Model information document

Appendix 3a

Extended Documentation Package

Appendix 3b

Methodology for the assessment of AES

Appendix 4

Model EC type-approval certificate

Appendix 5

OBD related information

Appendix 6

EC type-approval certificate numbering system

Appendix 7

Manufacturer's certificate of compliance with OBD in-use performance requirements

Appendix 8a

Test Reports

Appendix 8b

Road Load Test Report

Appendix 8c

Template for Test Sheet

Appendix 8d

Evaporative emission test report

ANNEX II

In-service conformity

Appendix 1

In-service conformity check

Appendix 2

Statistical procedure for tailpipe emissions in-service conformity testing

Appendix 3

Responsibilities for in-service conformity

ANNEX IIIA

Verifying Real Driving Emissions (RDE)

Appendix 1

Test procedure for vehicle emissions testing with a Portable Emissions Measurement System (PEMS)

Appendix 2

Specifications and calibration of PEMS components and signals

Appendix 3

Validation of PEMS and non-traceable exhaust mass flow rate

Appendix 4

Determination of emissions

Appendix 5

Verification of overall trip dynamics using the moving averaging window method

Appendix 6

Calculation of the final rde emissions results

Appendix 7

Selection of vehicles for PEMS testing at initial type approval

Appendix 7a

Verification of trip dynamics

Appendix 7b

Procedure to determine the cumulative positive elevation gain of a PEMS trip

Appendix 8

Data exchange and reporting requirements

Appendix 9

Manufacturer's certificate of compliance

Manufacturer's certificate of compliance with the Real Driving Emissions requirements

ANNEX IV

Emissions data required at type-approval for roadworthiness purposes

Appendix 1

Measuring carbon monoxide emissions at engine idling speeds (Type 2 test)

Appendix 2

Measurement of smoke opacity

ANNEX V

Verifying emissions of crankcase gases (Type 3 test)

ANNEX VI

Determination of evaporative emissions (Type 4 test)

Appendix 1

Type 4 test procedures and test conditions

ANNEX VII

Verifying the durability of pollution control devices (Type 5 test)

Appendix 1

Standard Bench Cycle (SBC)

Appendix 2

Standard Diesel Bench Cycle (SDBC)

Appendix 3

Standard Road Cycle (SRC)

ANNEX VIII

Verifying the average exhaust emissions at low ambient temperatures (Type 6 test)

ANNEX IX

Specifications of reference fuels

ANNEX X

Reserved

ANNEX XI

On-board diagnostics (OBD) for motor vehicles

Appendix 1

Functional aspects of on-board diagnostic (OBD) systems

Appendix 2

Essential characteristics of the vehicle family

ANNEX XII

Type-approval of vehicles fitted with eco-innovations and Determination of co2 emissions and fuel consumption from vehicles submitted to multi-stage type-approval or individual vehicle approval

ANNEX XIII

EC Type-approval of replacement pollution control devices as separate technical unit

Appendix 1

Model information document

Appendix 2

Model EC type-approval certificate

Appendix 3

Model EC type-approval mark

ANNEX XIV

Access to vehicle OBD and vehicle repair and maintenance information

Appendix 1

Certificate of compliance

ANNEX XV

Reserved

ANNEX XVI

Requirements for vehicles that use a reagent for the exhaust after-treatment system

ANNEX XVII

Amendments to Regulation (EC) No 692/2008

ANNEX XVIII

Amendments to Directive 2007/46/EC

ANNEX XIX

Amendments to Regulation (EU) No 1230/2012

ANNEX XX

Measurement of net engine power

ANNEX XXI

Type 1 emissions test procedures

ANNEX XXII

Devices for monitoring on board the vehicle the consumption of fuel and/or electric energy




ANNEX I

ADMINISTRATIVE PROVISIONS FOR EC TYPE-APPROVAL

1.   ADDITIONAL REQUIREMENTS FOR GRANTING OF EC TYPE-APPROVAL

1.1.    Additional requirements for mono fuel gas vehicles, and bi-fuel gas vehicles.

1.1.1. The additional requirements for granting of type-approval for mono fuel gas vehicles, and bi-fuel gas vehicles shall be those set out in sections 1, 2 and 3 and Appendices 1 and 2 to Annex 12 to UN/ECE Regulation No 83, with the exceptions set out below.

1.1.2. The reference in paragraphs 3.1.2. and 3.1.4. of Annex 12 to UN/ECE Regulation No 83 to reference fuels of Annex 10a shall be understood as being reference to the appropriate reference fuel specifications in Section A of Annex IX to this Regulation.

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1.1.3. For LPG or NG, the fuel to be used shall be the one selected by the manufacturer for the measurement of the net power in accordance with Annex XX to this Regulation. The selected fuel shall be specified in the information document set out in Appendix 3 of Annex I to this Regulation.

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1.2.    Additional requirements for flex fuel vehicles

The additional requirements for granting of type-approval for flex fuel vehicles shall be those set out in paragraph 4.9. of UN/ECE Regulation No 83.

2.   ADDITIONAL TECHNICAL REQUIREMENTS AND TESTS

2.1.    Small volume manufacturers

2.1.1. List of legislative acts referred to in Article 3(3):



Legislative Act

Requirements

The California Code of Regulations, Title 13, Sections 1961(a) and 1961(b)(1)(C)(1) applicable to 2001 and later model year vehicles, 1968.1, 1968.2, 1968.5, 1976 and 1975, published by Barclay’s Publishing

Type-approval must be granted under the California Code of Regulations applicable to the most recent model year of light-duty vehicle.

2.2.    Inlets to fuel tanks

2.2.1. The requirements for inlets to fuel tanks shall be those specified in paragraphs 5.4.1. and 5.4.2. of Annex XXI and point 2.2.2 below.

2.2.2. Provision shall be made to prevent excess evaporative emissions and fuel spillage caused by a missing fuel filler cap. This may be achieved by using one of the following:

(a) an automatically opening and closing, non-removable fuel filler cap,

(b) design features which avoid excess evaporative emissions in the case of a missing fuel filler cap,

(c) any other provision which has the same effect. Examples may include, but are not limited to, a tethered filler cap, a chained filler cap or one utilizing the same locking key for the filler cap as for the vehicle’s ignition. In this case the key shall be removable from the filler cap only in the locked condition.

2.3.    Provisions for electronic system security

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2.3.1.

Any vehicle with an emission control computer shall include features to deter modification, except as authorised by the manufacturer. The manufacturer shall authorise modifications if those modifications are necessary for the diagnosis, servicing, inspection, retrofitting or repair of the vehicle. Any reprogrammable computer codes or operating parameters shall be resistant to tampering and afford a level of protection at least equivalent to that afforded by the provisions of the standard ISO 15031-7:2013. Any removable calibration memory chips shall be potted, encased in a sealed container or protected by electronic algorithms and shall not be changeable without the use of specialised tools and procedures. Only features directly associated with emissions calibration or prevention of vehicle theft may be so protected.

2.3.2.

Computer-coded engine operating parameters shall not be changeable without the use of specialised tools and procedures (e.g. soldered or potted computer components or sealed (or soldered) enclosures).

2.3.3.

At the request of the manufacturer, the approval authority may grant exemptions to the requirements in points 2.3.1. and 2.3.2. for those vehicles that are unlikely to require protection. The criteria that the approval authority shall evaluate in considering an exemption shall include, but are not limited to, the current availability of performance chips, the high-performance capability of the vehicle and the projected sales volume of the vehicle.

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2.3.4.

Manufacturers using programmable computer code systems shall take the necessary measures to deter unauthorised reprogramming. Such measures shall include enhanced tamper protection strategies and write-protect features requiring electronic access to an off-site computer maintained by the manufacturer, to which independent operators shall also have access using the protection afforded in point 2.3.1. and point 2.2. of Annex XIV. Methods giving an adequate level of tamper protection shall be approved by the approval authority.

2.3.5.

In the case of mechanical fuel-injection pumps fitted to compression-ignition engines, manufacturers shall take adequate steps to protect the maximum fuel delivery setting from tampering while a vehicle is in service.

2.3.6.

Manufacturers shall effectively deter reprogramming of the odometer readings, in the board network, in any powertrain controller as well as in the transmitting unit for remote data exchange if applicable. Manufacturers shall include systematic tamper-protection strategies and write-protect features to protect the integrity of the odometer reading. Methods giving an adequate level of tamper protection shall be approved by the approval authority.

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2.4.    Application of tests

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2.4.1. Figure I.2.4 illustrates the application of the tests for type-approval of a vehicle. The specific test procedures are described in Annexes II, IIIA, IV, V, VI, VII, VIII, XI, XVI, XX, XXI and XXII.

Figure I.2.4

Application of test requirements for type-approval and extensions



Vehicle category

Vehicles with positive ignition engines including hybrids (1) (2)

Vehicles with compression ignition engines including hybrids

Pure electric vehicles

Hydrogen fuel cell vehicles

 

Mono fuel

Bi-fuel (3)

Flex-fuel (3)

 

 

 

Reference fuel

Petrol

(E10)

LPG

NG/Biomethane

Hydrogen (ICE)

Petrol (E10)

Petrol (E10)

Petrol (E10)

Petrol (E10)

Diesel

(B7)

Hydrogen (Fuel Cell)

LPG

NG/Biomethane

Hydrogen (ICE) (4)

Ethanol

(E85)

Gaseous pollutants

(Type 1 test)

Yes

Yes

Yes

Yes (4)

Yes

(both fuels)

Yes

(both fuels)

Yes

(both fuels)

Yes

(both fuels)

Yes

PM

(Type 1 test)

Yes

Yes

(petrol only)

Yes

(petrol only)

Yes

(petrol only)

Yes

(both fuels)

Yes

PN

Yes

Yes

(petrol only)

Yes

(petrol only)

Yes

(petrol only)

Yes

(both fuels)

Yes

Gaseous pollutants, RDE (Type 1A test)

Yes

Yes

Yes

Yes (4)

Yes (both fuels)

Yes (both fuels)

Yes (both fuels)

Yes (both fuels)

Yes

PN, RDE (Type 1A test) (5)

Yes

Yes (petrol only)

Yes (petrol only)

Yes (petrol only)

Yes (both fuels)

Yes

ATCT (14 °C test)

Yes

Yes

Yes

Yes (4)

Yes

(both fuels)

Yes

(both fuels)

Yes

(both fuels)

Yes

(both fuels)

Yes

Idle emissions

(Type 2 test)

Yes

Yes

Yes

Yes

(both fuels)

Yes

(both fuels)

Yes

(petrol only)

Yes

(both fuels)

Crankcase emissions

(Type 3 test)

Yes

Yes

Yes

Yes

(petrol only)

Yes

(petrol only)

Yes

(petrol only)

Yes

(petrol only)

Evaporative emissions

(Type 4 test)

Yes

Yes

(petrol only)

Yes

(petrol only)

Yes

(petrol only)

Yes

(petrol only)

Durability

(Type 5 test)

Yes

Yes

Yes

Yes

Yes

(petrol only)

Yes

(petrol only)

Yes

(petrol only)

Yes

(petrol only)

Yes

Low temperature emissions

(Type 6 test)

Yes

Yes

(petrol only)

Yes

(petrol only)

Yes

(petrol only)

Yes

(both fuels)

In-service conformity

Yes

Yes

Yes

Yes

Yes

(as at type approval)

Yes

(as at type approval)

Yes

(as at type approval)

Yes

(both fuels)

Yes

On-board diagnostics

Yes

Yes

Yes

Yes

Yes

Yes

Yes

Yes

Yes

CO2 emissions, fuel consumption, electric energy consumption and electric range

Yes

Yes

Yes

Yes

Yes

(both fuels)

Yes

(both fuels)

Yes

(both fuels)

Yes

(both fuels)

Yes

Yes

Yes

Smoke opacity

Yes

Engine power

Yes

Yes

Yes

Yes

Yes

Yes

Yes

Yes

Yes

Yes

Yes

(1)   Specific test procedures for hydrogen and flex fuel biodiesel vehicles will be defined at a later stage.

(2)   Particulate mass and particle number limits and respective measurement procedures shall apply only to vehicles with direct injection engines

(3)   When a bi-fuel vehicle is combined with a flex fuel vehicle, both test requirements are applicable.

(4)   Only NOx emissions shall be determined when the vehicle is running on hydrogen.

(5)   The particle number RDE test only applies to vehicles for which Euro 6 PN emission limits are defined in Table 2 of Annex I to Regulation (EC) No 715/2007.

▼B

3.   EXTENSIONS TO TYPE-APPROVALS

3.1.    Extensions for tailpipe emissions (type 1 and type 2 tests)

▼M3

3.1.1.

The type-approval shall be extended to vehicles if they conform to the criteria of Article 2 (1) or if they conform to Article 2 (1) (a) and (c) and fulfil all the following criteria:

(a) the CO2 emission of the tested vehicle resulting from step 9 of Table A7/1 of Sub-Annex 7 to Annex XXI is less than or equal to the CO2 emission obtained from the interpolation line corresponding to the cycle energy demand of the tested vehicle;

(b) the new interpolation range does not exceed the maximum range as set out in point 2.3.2.2. of Sub-Annex 6 to Annex XXI;

(c) the pollutant emissions respect the limits set out in Table 2 of Annex I to Regulation (EC) No 715/2007.

▼M3

3.1.1.1. The type-approval shall not be extended to create an interpolation family if it has been granted only in relation to Vehicle High.

▼B

3.1.2.

Vehicles with periodically regenerating systems

▼M3

For Ki tests undertaken under Appendix 1 to Sub-Annex 6 to Annex XXI (WLTP), the type-approval shall be extended to vehicles if they conform to the criteria of paragraph 5.9. of Annex XXI.

▼B

For Ki tests undertaken under Annex 13 of UN/ECE Regulation No 83 (NEDC) the type-approval shall be extended to vehicles according to the requirements of Section 3.1.4. of Annex I to Regulation (EC) No 692/2008.

▼M3

3.2.    Extensions for evaporative emissions (type 4 test)

3.2.1.

For tests performed in accordance with Annex 6 to UN/ECE Regulation No 83 [1 day NEDC] or the Annex to Regulation (EC) No 2017/1221 [2 days NEDC] the type-approval shall be extended to vehicles equipped with a control system for evaporative emissions which meet the following conditions:

3.2.1.1. The basic principle of fuel/air metering (e.g. single point injection) is the same.

3.2.1.2. The shape of the fuel tank is identical and the material of the fuel tank and liquid fuel hoses are technically equivalent.

3.2.1.3. The worst-case vehicle with regard to the cross-section and approximate hose length shall be tested. Whether non-identical vapour/liquid separators are acceptable is decided by the technical service responsible for the type-approval tests.

3.2.1.4. The fuel tank volume is within a range of ± 10 %.

3.2.1.5. The setting of the fuel tank relief valve is identical.

3.2.1.6. The method of storage of the fuel vapour is identical, i.e. trap form and volume, storage medium, air cleaner (if used for evaporative emission control), etc.

3.2.1.7. The method of purging of the stored vapour is identical (e.g. air flow, start point or purge volume over the preconditioning cycle).

3.2.1.8. The method of sealing and venting of the fuel metering system is identical.

3.2.2.

For tests performed according Annex VI [2 days WLTP] the type-approval shall be extended to vehicles equipped with a control system for evaporative emissions which meet the requirements of point 5.5.1. of Annex VI.

3.2.3.

The type-approval shall be extended to vehicles with:

3.2.3.1. different engine sizes;

3.2.3.2. different engine powers;

3.2.3.3. automatic and manual gearboxes;

3.2.3.4. two and four wheel transmissions;

3.2.3.5. different body styles; and

3.2.3.6. different wheel and tyre sizes.

▼B

3.3.    Extensions for durability of pollution control devices (type 5 test)

3.3.1.

The type-approval shall be extended to different vehicle types, provided that the vehicle, engine or pollution control system parameters specified below are identical or remain within the prescribed tolerances:

3.3.1.1.

Vehicle:

Inertia category: the two inertia categories immediately above and any inertia category below.

Total road load at 80 km/h: + 5 % above and any value below.

3.3.1.2.

Engine

(a) engine cylinder capacity (± 15 %),

(b) number and control of valves,

(c) fuel system,

(d) type of cooling system,

(e) combustion process.

3.3.1.3.

Pollution control system parameters:

(a) Catalytic converters and particulate filters:

number of catalytic converters, filters and elements,

size of catalytic converters and filters (volume of monolith ± 10 %),

type of catalytic activity (oxidizing, three-way, lean NOx trap, SCR, lean NOx catalyst or other),

precious metal load (identical or higher),

precious metal type and ratio (± 15 %),

substrate (structure and material),

cell density,

temperature variation of no more than 50 K at the inlet of the catalytic converter or filter. This temperature variation shall be checked under stabilized conditions at a vehicle speed of 120 km/h and the load setting of the type 1 test.

(b) Air injection:

with or without

type (pulsair, air pumps, other(s))

(c) EGR:

with or without

type (cooled or non-cooled, active or passive control, high pressure or low pressure).

3.3.1.4.

The durability test may be carried out using a vehicle, which has a different body style, gear box (automatic or manual) and size of the wheels or tyres, from those of the vehicle type for which the type-approval is sought.

3.4.    Extensions for on-board diagnostics

3.4.1. The type-approval shall be extended to different vehicles with identical engine and emission control systems as defined in Annex XI, Appendix 2. The type-approval shall be extended regardless of the following vehicle characteristics:

(a) engine accessories;

(b) tyres;

(c) equivalent inertia;

(d) cooling system;

(e) overall gear ratio;

(f) transmission type; and

(g) type of bodywork.

3.5    Extensions for low temperature test (type 6 test)

3.5.1.   Vehicles with different reference masses

3.5.1.1. The type-approval shall be extended only to vehicles with a reference mass requiring the use of the next two higher equivalent inertia or any lower equivalent inertia.

3.5.1.2. For category N vehicles, the approval shall be extended only to vehicles with a lower reference mass, if the emissions of the vehicle already approved are within the limits prescribed for the vehicle for which extension of the approval is requested.

3.5.2.   Vehicles with different overall transmission ratios

3.5.2.1. The type-approval shall be extended to vehicles with different transmission ratios only under certain conditions.

3.5.2.2. To determine whether type-approval can be extended, for each of the transmission ratios used in the type 6 test, the proportion,

image

shall be determined where, at an engine speed of 1 000 min–1, V1 is the speed of the vehicle-type approved and V2 is the speed of the vehicle type for which extension of the approval is requested.

3.5.2.3. If, for each transmission ratio, E ≤ 8 %, the extension shall be granted without repeating the type 6 test.

3.5.2.4. If, for at least one transmission ratio, E > 8 %, and if, for each gear ratio, E ≤ 13 %, the type 6 test shall be repeated. The tests may be performed in a laboratory chosen by the manufacturer subject to the approval of the technical service. The report of the tests shall be sent to the technical service responsible for the type-approval tests.

3.5.3.   Vehicles with different reference masses and transmission ratios

The type-approval shall be extended to vehicles with different reference masses and transmission ratios, provided that all the conditions prescribed in paragraphs 3.5.1 and 3.5.2 are fulfilled.

4.   CONFORMITY OF PRODUCTION

4.1.    Introduction

4.1.1. Every vehicle produced under a Type Approval according to this Regulation shall be so manufactured as to conform to the type approval requirements of this Regulation. The Manufacturer shall implement adequate arrangements and documented control plans and carry-out at specified intervals as given in this regulation the necessary emission and OBD tests to verify continued conformity with the approved type. The approval authority shall verify and agree with these arrangements and control plans of the manufacturer and perform audits and conduct emission and OBD tests at specific intervals, as given in this regulation, at the premises of the manufacturer, including production and test facilities as part of the product conformity and continued verification arrangements as described in Annex X of Directive 2007/46/EC.

▼M3

4.1.2. The manufacturer shall check the conformity of production by testing the emissions of pollutants (given in Table 2 of Annex I to Regulation (EC) No 715/2007), the emission of CO2 (along with the measurement of electric energy consumption, EC and, where applicable, the monitoring of the OBFCM device accuracy), the crankcase emissions, evaporative emissions and the OBD in accordance with the test procedures described in Annexes V, VI, XI, XXI and XXII. The verification shall therefore include the tests of types 1, 3, 4 and the test for OBD, as described in section 2.4.

The Type Approval Authority shall keep record for a period of at least 5 years of all the documentation related to the conformity of production test results and shall make it available to the Commission upon request.

The specific procedures for conformity of production are set out in Sections 4.2 to 4.7 and Appendixes 1 and 2.

4.1.3. For the purposes of the manufacturer's conformity of production check, the family means the conformity of production (COP) family for tests of Type 1, including the monitoring of the OBFCM device accuracy, and Type 3, includes for the Type 4 test the extensions described in point 3.2 and the OBD family with the extensions described in point 3.4 for the OBD tests.

▼M3

4.1.3.1.   COP family criteria

4.1.3.1.1.

For Category M vehicles and for Category N1 class I and class II vehicles, the COP family shall be identical to the interpolation family, as described in paragraph 5.6. of Annex XXI.

4.1.3.1.2

For Category N1 Class III and Category N2 vehicles, only vehicles that are identical with respect to the following vehicle/powertrain/transmission characteristics may be part of the same COP family:

(a) Type of internal combustion engine: fuel type (or types in the case of flex-fuel or bi-fuel vehicles), combustion process, engine displacement, full-load characteristics, engine technology, and charging system, and also other engine subsystems or characteristics that have a non-negligible influence on CO2 mass emission under WLTP conditions;

(b) Operation strategy of all CO2 mass emission influencing components within the powertrain;

(c) Transmission type (e.g. manual, automatic, CVT) and transmission model (e.g. torque rating, number of gears, number of clutches, etc.);

(d) Number of powered axles.

▼M3

4.1.4. The frequency for product verification performed by the manufacturer shall be based on a risk assessment methodology consistent with the international standard ISO 31000:2018 — Risk Management — Principles and guidelines and at least for Type 1 with a minimum frequency per COP family of one verification per 5 000 vehicles produced or once per year, whichever comes first.

▼B

4.1.5. The Approval Authority which has granted type-approval may at any time verify the conformity control methods applied in each production facility.

For the purpose of this regulation the Approval Authority shall perform audits for verifying the manufacturers arrangements and documented control plans at the premises of the manufacturer on a risk assessment methodology consistent with the international standard ISO 31000:2009 — Risk Management — Principles and guidelines and, in all cases, with a minimum frequency of one audit per year.

▼M3

If the approval authority is not satisfied with the auditing procedure of the manufacturer, physical test shall directly be carried out on production vehicles as described in points 4.2 to 4.7.

▼B

4.1.6. The normal frequency of physical test verifications by the Approval Authority shall be based on the results of the auditing procedure of the manufacturer on a risk assessment methodology and in all cases with a minimum frequency of one verification test per three years. ►M3  The approval authority shall conduct these physical emission tests and OBD tests on production vehicles as described in points 4.2 to 4.7. ◄

In the case of the manufacturer running the physical tests, the Approval Authority shall witness the tests at the manufacturer's facility.

4.1.7. The Approval Authority shall report the results of all audit checks and physical tests performed on verifying conformity of the manufacturers and file it for a period of minimum 10 years. These reports should be available for other type approval authorities and the European Commission on request.

4.1.8. In case of non-conformity Article 30 of Directive 2007/46/EC shall apply.

4.2.    Checking the conformity of the vehicle for a type 1 test

▼M3

4.2.1.

The Type 1 test shall be carried out on production vehicles of a valid member of the COP family as described in point 4.1.3.1. The test results shall be the values after all corrections according to this Regulation are applied. The limit values against which to check conformity for pollutants are set out in Table 2 of Annex I to Regulation (EC) No 715/2007. As regards CO2 emissions, the limit value shall be the value determined by the manufacturer for the selected vehicle in accordance with the interpolation methodology set out in Sub-Annex 7 of Annex XXI. The interpolation calculation shall be verified by the approval authority.

4.2.2.

A sample of three vehicles shall be selected at random in the COP family. After selection by the approval authority, the manufacturer shall not undertake any adjustment to the vehicles selected.

4.2.3.

The statistical method for calculating the test criteria is described in Appendix 1.

The production of a COP family shall be deemed to not conform when a fail decision is reached for one or more of the pollutants and CO2 values, in accordance with the test criteria in Appendix 1.

The production of a COP family shall be deemed to conform once a pass decision is reached for all the pollutants and CO2 values in accordance with the test criteria in Appendix 1.

▼B

When a pass decision has been reached for one pollutant, that decision shall not be changed by any additional tests carried out to reach a decision for the other pollutants and CO2 values.

If a pass decision is not reached for all the pollutants and CO2 values, a test shall be carried out on another vehicle, up to the maximum of 16 vehicles, and the procedure described in Appendix 1 for taking a pass or fail decision shall be repeated (see Figure I.4.2).

Figure I.4.2

image

4.2.4.

▼M3

At the request of the manufacturer and with the acceptance of the approval authority, tests may be carried out on a vehicle of the COP family with a maximum of 15 000  km in order to establish measured evolution coefficients EvC for pollutants/CO2 for each COP family. The running-in procedure shall be conducted by the manufacturer, who shall not to make any adjustments to these vehicles.

▼B

4.2.4.1.

In order to establish a measured evolution coefficient with a run-in vehicle the procedure shall be as follows:

(a) the pollutants/CO2 shall be measured at a mileage of at most 80 km and at ‘x’ km of the first tested vehicle;

(b) the evolution coefficient (EvC) of the pollutants/CO2 between 80 km and ‘x’ km shall be calculated as:

image

(c) the other vehicles in the COP family shall not be run in, but their zero km emissions/EC/CO2 shall be multiplied by the evolution coefficient of the first run-in vehicle. In this case, the values to be taken for testing as in Appendix 1 shall be:

▼M3

▼B

(i) the values at ‘x’ km for the first vehicle;

(ii) the values at zero km multiplied by the relevant evolution coefficient for the other vehicles.

4.2.4.2.

All these tests shall be conducted with commercial fuel. However, at the manufacturer’s request, the reference fuels described in Annex IX may be used.

4.2.4.3.

When checking the conformity of production for CO2, as an alternative to the procedure mentioned in Section 4.2.4.1 the vehicle manufacturer may use a fixed evolution coefficient EvC of 0,98 and multiply all values of CO2 measured at zero km by this factor.

4.2.5

Tests for conformity of production of vehicles fuelled by LPG or NG/biomethane may be performed with a commercial fuel of which the C3/C4 ratio lies between those of the reference fuels in the case of LPG, or of one of the high or low caloric fuels in the case of NG/biomethane. In all cases a fuel analysis shall be presented to the approval authority.

4.2.6.

Vehicles fitted with eco-innovations

4.2.6.1. In the case of a vehicle type fitted with one or more eco-innovations, within the meaning of Article 12 of Regulation (EC) No 443/2009 for M1 vehicles or Article 12 of Regulation (EU) No 510/2011 for N1 vehicles, the conformity of production shall be demonstrated with respect to the eco-innovations, by checking the presence of the correct eco-innovation(s) in question.

4.3.    PEVs

4.3.1

Measures to ensure the conformity of production with regard to electric energy consumption (EC) shall be checked on the basis of the type-approval certificate set out in Appendix 4 to this Annex.

4.3.2.

Electric energy consumption verification for conformity of production

4.3.2.1. During the conformity of production procedure, the break-off criterion for the Type 1 test procedure according to paragraph 3.4.4.1.3 of Sub-Annex 8 to Annex XXI of this Regulation (consecutive cycle procedure) and paragraph 3.4.4.2.3. of Sub-Annex 8 to Annex XXI of this Regulation (Shortened Test Procedure) shall be replaced with the following:

The break-off criterion for the conformity of production procedure shall be reached with having finished the first applicable WLTP test cycle.

4.3.2.2. During this first applicable WLTP test cycle, the DC energy from the REESS(s) shall be measured according to the method described in Appendix 3 of Sub-Annex 8 to Annex XXI of this Regulation and divided by the driven distance in this applicable WLTP test cycle.

4.3.2.3. The value determined according to paragraph 4.3.2.2 shall be compared to the value determined according to paragraph 1.2 of Appendix 2.

4.3.2.4. Conformity for EC shall be checked using the statistical procedures described in Section 4.2 and Appendix 1. For the purposes of this conformity check, the terms pollutants/CO2 shall be replaced by EC.

4.4.    OVC-HEVs

4.4.1.

Measures to ensure the conformity of production with regard to CO2 mass emission and electric energy consumption from OVC-HEV shall be checked on the basis of the description in the type-approval certificate set out in Appendix 4 to this Annex.

4.4.2.

CO2 mass emission verification for conformity of production

4.4.2.1. The vehicle shall be tested according to the charge-sustaining Type 1 test as described in paragraph 3.2.5. of Sub-Annex 8 to Annex XXI of this Regulation.

4.4.2.2. During this test, the charge-sustaining CO2 mass emission shall be determined according to Table A8/5 of Sub-Annex 8 to Annex XXI of this Regulation and compared to the charge-sustaining CO2 mass emission according to paragraph 2.3 of Appendix 2.

4.4.2.3. Conformity for CO2 emissions shall be checked using the statistical procedures described in Section 4.2 and Appendix 1.

4.4.3.

Electric energy consumption verification for conformity of production

4.4.3.1. During the conformity of production procedure, the end of the charge-depleting Type 1 test procedure according to paragraph 3.2.4.4. of Sub-Annex 8 to Annex XXI of this Regulation shall be replaced with the following:

The end of the charge-depleting Type 1 test procedure for the conformity of production procedure shall be reached with having finished the first applicable WLTP test cycle.

4.4.3.2. During this first applicable WLTP test cycle, the DC energy from the REESS(s) shall be measured according to the method described in Appendix 3 of Sub-Annex 8 to Annex XXI of this Regulation and divided by the driven distance in this applicable WLTP test cycle.

▼M3

4.4.3.3. The value determined in accordance with point 4.4.3.2. shall be compared to the value determined in accordance with point 2.4. of Appendix 2.

▼B

4.4.1.4. Conformity for EC shall be checked using the statistical procedures described in Section 4.2 and Appendix 1. For the purposes of this conformity check, the terms pollutants/CO2 shall be replaced by EC.

4.5.    Checking the conformity of the vehicle for a Type 3 test

4.5.1. If a verification of the Type 3 test is to be carried out, it shall be conducted in accordance with the following requirements:

4.5.1.1. When the approval authority determines that the quality of production seems unsatisfactory, a vehicle shall be randomly taken from the family and subjected to the tests described in Annex V.

4.5.1.2. The production shall be deemed to conform if this vehicle meets the requirements of the tests described in Annex V.

4.5.1.3. If the vehicle tested does not satisfy the requirements of Section 4.5.1.1, a further random sample of four vehicles shall be taken from the same family and subjected to the tests described in Annex V. The tests may be carried out on vehicles which have completed a maximum of 15 000  km with no modifications.

4.5.1.4. The production shall be deemed to conform if at least three vehicles meet the requirements of the tests described in Annex V.

4.6.    Checking the conformity of the vehicle for a Type 4 test

4.6.1. If a verification of the Type 4 test is to be carried out, it shall be conducted in accordance with the following requirements:

4.6.1.1. When the approval authority determines that the quality of production seems unsatisfactory, a vehicle shall be randomly taken from the family and subjected to the tests described in Annex VI, or at least as in paragraph 7 of Annex 7 of UN Regulation 83.

4.6.1.2. The production shall be deemed to conform if this vehicle meets the requirements of the tests described in Annex VI, or paragraph 7 of Annex 7 of UN Regulation 83 depending on the test performed.

4.6.1.3. If the vehicle tested does not satisfy the requirements of section 4.6.1.1, a further random sample of four vehicles shall be taken from the same family and subjected to the tests described in Annex VI, or at least as in paragraph 7 of Annex 7 of UN Regulation 83. The tests may be carried out on vehicles which have completed a maximum of 15 000  km with no modifications.

4.6.1.4. The production shall be deemed to conform if at least three vehicles meet the requirements of the tests described in Annex VI, or paragraph 7 of Annex 7 of UN Regulation 83 depending on the test performed.

4.7.    Checking the conformity of the vehicle for On-board Diagnostics (OBD)

4.7.1. If a verification of the performance of the OBD system is to be carried out, it shall be conducted in accordance with the following requirements:

4.7.1.1. When the approval authority determines that the quality of production seems unsatisfactory, a vehicle shall be randomly taken from the family and subjected to the tests described in Appendix 1 to Annex XI.

4.7.1.2. The production shall be deemed to conform if this vehicle meets the requirements of the tests described in Appendix 1 to Annex XI.

4.7.1.3. If the vehicle tested does not satisfy the requirements of section 4.7.1.1, a further random sample of four vehicles shall be taken from the same family and subjected to the tests described in Appendix 1 to Annex XI. The tests may be carried out on vehicles which have completed a maximum of 15 000  km with no modifications.

4.7.1.4. The production shall be deemed to conform if at least three vehicles meet the requirements of the tests described in Appendix 1 to Annex XI.




Appendix 1

Verification of conformity of production for Type 1 test—statistical method

▼M3

1. This Appendix describes the procedure to be used to verify the production conformity requirements for the Type 1 test for pollutants/CO2, including conformity requirements for PEVs and OVC-HEVs, and to monitor the OBFCM device accuracy.

▼B

2.  ►M3  Measurements of the pollutants specified in Table 2 of Annex I to Regulation (EC) No 715/2007, and the emission of CO2 shall be carried out on a minimum number of 3 vehicles, and consecutively increase until a pass or fail decision is reached. The OBFCM device accuracy shall be determined for each of the N tests. ◄

From the number of N tests: x1, x2, … xN, the average Xtests and the variance VAR are to be determined from all N measurements:

image

and

image

3. For each number of tests, one of the three following decisions (see (i) to ((iii) below) can be reached for pollutants based on the limit value L for each pollutant, the average of all N tests: Xtests , the variance of the test results VAR and the number of tests N:

(i) Pass the family if
image

(ii) Fail the family if
image

(iii) Take another measurement if:

▼M3

image

▼B

For the measurement of pollutants the factor A is set at 1,05 in order to take into account inaccuracies in the measurements.

4. For CO2 and EC the normalised values for CO2 and EC shall be used:

image

image

In the case of CO2 and EC the factor A is set at 1.01 and the value for L is set at 1. So in the case of CO2 and EC the criteria are simplified to:

(i) Pass the family if
image

(ii) Fail the family if
image

(iii) Take another measurement if:

▼M3

image

▼M3 —————

▼M3

5. For vehicles referred to in Article 4a, the accuracy of the OBFCM device shall be calculated as follows:

xi,OBFCM

=

accuracy of the OBFCM device determined for each single test i in accordance with the formulae point 4.2 of Annex XXII.

The Type Approval authority shall keep a record of the determined accuracies for each COP family tested.

▼B




Appendix 2

Calculations for Conformity of Production of EVs

1.   Calculations for conformity of production values for PEVs

1.1   Interpolating of individual electric energy consumption of PEVs

image

where:

ECDC–ind,COP

is the electric energy consumption of an individual vehicle for the conformity of production, Wh/km;

ECDC–L,COP

is the electric energy consumption of vehicle L for the conformity of production, Wh/km;

ECDC–H,COP

is the electric energy consumption of vehicle H for the conformity of production, Wh/km;

Kind

is the interpolation coefficient for the considered individual vehicle for the applicable WLTP test cycle.

1.2   Electric Consumption for PEVs

The following value shall be declared and used for verifying the conformity of production with respect to the electric consumption:

image

where:

ECDC,COP

is the electric energy consumption based on the REESS depletion of the first applicable WLTC test cycle provided for the verification during the conformity of production test procedure;

ECDC,CD,first WLTC

is the electric energy consumption based on the REESS depletion of the first applicable WLTC test cycle according to paragraph 4.3. of Sub-Annex 8 to Annex XXI, in Wh/km;

AFEC

is the adjustment factor which compensates the difference between the charge-depleting electric energy consumption value declared after having performed the Type 1 test procedure during homologation and the measured test result determined during the conformity of production procedure

and

image

where

ECWLTC,declared

is the declared electric energy consumption for PEVs according to ►M3  paragraph 1.2.3. of Sub-Annex 6 to Annex XXI ◄

ECWLTC

is the measured electric energy consumption according to paragraph 4.3.4.2. of Sub-Annex 8 to Annex XXI.

2.   Calculations for conformity of production values for OVC-HEVs

2.1   Individual charge-sustaining CO2 mass emission of OVC-HEVs for conformity of production

image

where:

MCO2–ind,CS,COP

is the charge-sustaining CO2 mass emission of an individual vehicle for the conformity of production, g/km;

MCO2–L,CS,COP

is the charge-sustaining CO2 mass emission of vehicle L for the conformity of production, g/km;

MCO2–H,CS,COP

is the charge-sustaining CO2 mass emission of vehicle H for the conformity of production, g/km;

Kind

is the interpolation coefficient for the considered individual vehicle for the applicable WLTP test cycle.

2.2   Individual charge-depleting electric energy consumption of OVC-HEVs for conformity of production

image

where:

ECDC–ind,CD,COP

is the charge-depleting electric energy consumption of an individual vehicle for the conformity of production, Wh/km;

ECDC–L,CD,COP

is the charge-depleting electric energy consumption of vehicle L for the conformity of production, Wh/km;

ECDC–H,CD,COP

is the charge-depleting electric energy consumption of vehicle H for the conformity of production, Wh/km;

Kind

is the interpolation coefficient for the considered individual vehicle for the applicable WLTP test cycle.

2.3   Charge-sustaining CO2 mass emission value for conformity of production

The following value shall be declared and used for the verification of the conformity of production with respect to the charge-sustaining CO2 mass emission:

image

where:

MCO2,CS,COP

is the charge-sustaining CO2 mass emission value of the charge-sustaining Type 1 test provided for the verification during the conformity of production test procedure;

MCO2,CS

is the charge-sustaining CO2 mass emission of the charge-sustaining Type 1 test according to ►M3  paragraph 4.1.1. of Sub-Annex 8 to Annex XXI ◄ , g/km;

AFCO2,CS

is the adjustment factor which compensates the difference between the value declared after having performed the Type 1 test procedure during homologation and the measured test result determined during the conformity of production procedure

And

image

where

MCO2,CS,c,declared

is the declared charge-sustaining CO2 mass emission of the charge-sustaining Type 1 test according to step 7 of Table A8/5 of Sub-Annex 8 to Annex XXI.

MCO2,CS,c,6

is the measured charge-sustaining CO2 mass emission of the charge-sustaining Type 1 test according to step 6 of Table A8/5 of Sub-Annex 8 to Annex XXI.

2.4   Charge-depleting electric energy consumption for conformity of production

The following value shall be declared and used for verifying the conformity of production with respect to the charge-depleting electric energy consumption

image

where:

ECDC,CD,COP

is the charge-depleting electric energy consumption based on the REESS depletion of the first applicable WLTC test cycle of the charge-depleting Type 1 test provided for the verification during the conformity of production test procedure;

ECDC,CD,first WLTC

is the charge-depleting electric energy consumption based on the REESS depletion of the first applicable WLTC test cycle of the charge-depleting Type 1 test according to paragraph 4.3. of Sub-Annex 8 to Annex XXI, Wh/km;

AFEC,AC,CD

is the adjustment factor for the charge-depleting electric energy consumption which compensates the difference between the value declared after having performed the Type 1 test procedure during homologation and the measured test result determined during the conformity of production procedure

and

image

where

ECAC,CD,declared

is the declared charge-depleting electric energy consumption of the charge-depleting Type 1 test according to ►M3  paragraph 1.2.3. of Sub-Annex 6 to Annex XXI ◄ .

ECAC,CD

is the measured charge-depleting electric energy consumption of the charge-depleting Type 1 test according to paragraph 4.3.1. of Sub-Annex 8 to Annex XXI.




Appendix 3

MODEL

INFORMATION DOCUMENT No …

RELATING TO EC TYPE-APPROVAL OF A VEHICLE WITH REGARD TO EMISSIONS AND ACCESS TO VEHICLE REPAIR AND MAINTENANCE INFORMATION

The following information, if applicable, must be supplied in triplicate and include a list of contents. Any drawings must be supplied in appropriate scale and in sufficient detail on size A4 or on a folder of A4 format. Photographs, if any, must show sufficient detail.

If the systems, components or separate technical units have electronic controls, information concerning their performance must be supplied.



0

GENERAL

0.1.

Make (trade name of manufacturer): …

0.2.

Type: …

0.2.1.

Commercial name(s) (if available): …

▼M3

0.2.2.1.

Allowed Parameter Values for multistage type approval to use the base vehicle emission values (insert range if applicable):

Final Vehicle mass in running order (in kg): …

Frontal area for final vehicle (in cm2): …

Rolling resistance (kg/t): …

Cross-sectional area of air entrance of the front grille (in cm2): …

0.2.3.

Identifiers:

0.2.3.1.

interpolation family's identifier: …

0.2.3.2.

ATCT family's identifier: …

0.2.3.3.

PEMS family's identifier: …

0.2.3.4.

Roadload family's identifier

0.2.3.4.1.

Roadload family of VH: …

0.2.3.4.2.

Roadload family of VL: …

0.2.3.4.3.

Roadload families applicable in the interpolation family: …

0.2.3.5.

Roadload Matrix family's identifier: …

0.2.3.6.

Periodic regeneration family's identifier: …

0.2.3.7.

Evaporative test family's identifier: …

0.2.3.8.

OBD family's identifier: …

0.2.3.9.

other family's identifier: …

▼B

0.4.

Category of vehicle (c): …

0.8.

Name(s) and address(es) of assembly plant(s): …

0.9.

Name and address of the manufacturer's representative (if any): …

1

GENERAL CONSTRUCTION CHARACTERISTICS

1.1.

Photographs and/or drawings of a representative vehicle/component/separate technical unit (1):

1.3.3.

Powered axles (number, position, interconnection): …

2

MASSES AND DIMENSIONS (f) (g) (7)

(in kg and mm) (Refer to drawing where applicable)

2.6.

Mass in running order (h)

(a)  maximum and minimum for each variant: … ►M3   ◄

▼M3

2.6.3.

Rotational mass: 3 % of the sum of mass in running order and 25 kg or value, per axle (kg): …

▼B

2.8.

Technically permissible maximum laden mass stated by the manufacturer (i) (3): …

3

PROPULSION ENERGY CONVERTER (k)

3.1.

Manufacturer of the propulsion energy converter(s): …

3.1.1.

Manufacturer's code (as marked on the propulsion energy converter or other means of identification): …

3.2.

Internal combustion engine

3.2.1.1.

Working principle: positive ignition/compression ignition/dual fuel (1)

Cycle: four stroke/two stroke/rotary (1)

3.2.1.2.

Number and arrangement of cylinders: …

3.2.1.2.1.

Bore (1): … mm

3.2.1.2.2.

Stroke (1): … mm

3.2.1.2.3.

Firing order: …

3.2.1.3.

Engine capacity (m): … cm3

3.2.1.4.

Volumetric compression ratio (2): …

3.2.1.5.

Drawings of combustion chamber, piston crown and, in the case of positive ignition engines, piston rings: …

3.2.1.6.

Normal engine idling speed (2): … min–1

3.2.1.6.1.

High engine idling speed (2): … min–1

3.2.1.8.

Rated engine power (n): … kW at … min–1 (manufacturer's declared value)

3.2.1.9.

Maximum permitted engine speed as prescribed by the manufacturer: … min–1

3.2.1.10.

Maximum net torque (n): … Nm at … min–1 (manufacturer's declared value)

3.2.2.

Fuel

▼M3

3.2.2.1.

Diesel/Petrol/LPG/NG or Biomethane/Ethanol (E 85)/Biodiesel/Hydrogen (1), (6)

▼B

3.2.2.1.1.

RON, unleaded: …

3.2.2.4.

Vehicle fuel type: Mono fuel, Bi fuel, Flex fuel (1)

3.2.2.5.

Maximum amount of biofuel acceptable in fuel (manufacturer's declared value): … % by volume

3.2.4.

Fuel feed

3.2.4.1.

By carburettor(s): yes/no (1)

3.2.4.2.

By fuel injection (compression ignition or dual fuel only): yes/no (1)

3.2.4.2.1.

System description (common rail/unit injectors/distribution pump etc.): …

3.2.4.2.2.

Working principle: direct injection/pre-chamber/swirl chamber (1)

3.2.4.2.3.

Injection/Delivery pump

3.2.4.2.3.1.

Make(s): …

3.2.4.2.3.2.

Type(s): …

3.2.4.2.3.3.

Maximum fuel delivery (1) (2): … mm3 /stroke or cycle at an engine speed of: … min–1 or, alternatively, a characteristic diagram: … (When boost control is supplied, state the characteristic fuel delivery and boost pressure versus engine speed)

3.2.4.2.4.

Engine speed limitation control

3.2.4.2.4.2.1.

Speed at which cut-off starts under load: … min–1

3.2.4.2.4.2.2.

Maximum no-load speed: … min–1

3.2.4.2.6.

Injector(s)

3.2.4.2.6.1.

Make(s): …

3.2.4.2.6.2.

Type(s): …

3.2.4.2.8.

Auxiliary starting aid

3.2.4.2.8.1.

Make(s): …

3.2.4.2.8.2.

Type(s): …

3.2.4.2.8.3.

System description: …

3.2.4.2.9.

Electronic controlled injection: yes/no (1)

3.2.4.2.9.1.

Make(s): …

3.2.4.2.9.2.

Type(s):

3.2.4.2.9.3

Description of the system: …

3.2.4.2.9.3.1.

Make and type of the control unit (ECU): …

3.2.4.2.9.3.1.1.

Software version of the ECU: …

3.2.4.2.9.3.2.

Make and type of the fuel regulator: …

3.2.4.2.9.3.3.

Make and type of the air-flow sensor: …

3.2.4.2.9.3.4.

Make and type of fuel distributor: …

3.2.4.2.9.3.5.

Make and type of the throttle housing: …

3.2.4.2.9.3.6.

Make and type or working principle of water temperature sensor: …

3.2.4.2.9.3.7.

Make and type or working principle of air temperature sensor: …

3.2.4.2.9.3.8.

Make and type or working principle of air pressure sensor: …

3.2.4.3.

By fuel injection (positive ignition only): yes/no (1)

3.2.4.3.1.

Working principle: intake manifold (single-/multi-point/direct injection (1) /other (specify): …

3.2.4.3.2.

Make(s): …

3.2.4.3.3.

Type(s): …

3.2.4.3.4.

System description (In the case of systems other than continuous injection give equivalent details): …

3.2.4.3.4.1.

Make and type of the control unit (ECU): …

3.2.4.3.4.1.1.

Software version of the ECU: …

3.2.4.3.4.3.

Make and type or working principle of air-flow sensor: …

3.2.4.3.4.8.

Make and type of throttle housing: …

3.2.4.3.4.9.

Make and type or working principle of water temperature sensor: …

3.2.4.3.4.10.

Make and type or working principle of air temperature sensor: …

3.2.4.3.4.11.

Make and type or working principle of air pressure sensor: …

3.2.4.3.5.

Injectors

3.2.4.3.5.1.

Make: …

3.2.4.3.5.2.

Type: …

3.2.4.3.7.

Cold start system

3.2.4.3.7.1.

Operating principle(s): …

3.2.4.3.7.2.

Operating limits/settings (1) (2): …

3.2.4.4.

Feed pump

3.2.4.4.1.

Pressure (2): … kPa or characteristic diagram (2): …

3.2.4.4.2.

Make(s): …

3.2.4.4.3.

Type(s): …

3.2.5.

Electrical system

3.2.5.1.

Rated voltage: … V, positive/negative ground (1)

3.2.5.2.

Generator

3.2.5.2.1.

Type: …

3.2.5.2.2.

Nominal output: … VA

3.2.6.

Ignition system (spark ignition engines only)

3.2.6.1.

Make(s): …

3.2.6.2.

Type(s): …

3.2.6.3.

Working principle: …

3.2.6.6.

Spark plugs

3.2.6.6.1.

Make: …

3.2.6.6.2.

Type: …

3.2.6.6.3.

Gap setting: … mm

3.2.6.7.

Ignition coil(s)

3.2.6.7.1.

Make: …

3.2.6.7.2.

Type: …

3.2.7.

Cooling system: liquid/air (1)

3.2.7.1.

Nominal setting of the engine temperature control mechanism: …

3.2.7.2.

Liquid

3.2.7.2.1.

Nature of liquid: …

3.2.7.2.2.

Circulating pump(s): yes/no (1)

3.2.7.2.3.

Characteristics: … or

3.2.7.2.3.1.

Make(s): …

3.2.7.2.3.2.

Type(s): …

3.2.7.2.4.

Drive ratio(s): …

3.2.7.2.5.

Description of the fan and its drive mechanism: …

3.2.7.3.

Air

3.2.7.3.1.

Fan: yes/no (1)

3.2.7.3.2.

Characteristics: … or

3.2.7.3.2.1.

Make(s): …

3.2.7.3.2.2.

Type(s): …

3.2.7.3.3.

Drive ratio(s): …

3.2.8.

Intake system

3.2.8.1.

Pressure charger: yes/no (1)

3.2.8.1.1.

Make(s): …

3.2.8.1.2.

Type(s): …

3.2.8.1.3.

Description of the system (e.g. maximum charge pressure: … kPa; wastegate if applicable): …

3.2.8.2.

Intercooler: yes/no (1)

3.2.8.2.1.

Type: air-air/air-water (1)

3.2.8.3.

Intake depression at rated engine speed and at 100 % load (compression ignition engines only)

3.2.8.4.

Description and drawings of inlet pipes and their accessories (plenum chamber, heating device, additional air intakes, etc.): …

3.2.8.4.1.

Intake manifold description (include drawings and/or photos): …

3.2.8.4.2.

Air filter, drawings: … or

3.2.8.4.2.1.

Make(s): …

3.2.8.4.2.2.

Type(s): …

3.2.8.4.3.

Intake silencer, drawings: … or

3.2.8.4.3.1.

Make(s): …

3.2.8.4.3.2.

Type(s): …

3.2.9.

Exhaust system

3.2.9.1.

Description and/or drawing of the exhaust manifold: …

3.2.9.2.

Description and/or drawing of the exhaust system: …

3.2.9.3.

Maximum allowable exhaust back pressure at rated engine speed and at 100 % load (compression ignition engines only): … kPa

3.2.10.

Minimum cross-sectional areas of inlet and outlet ports: …

3.2.11.

Valve timing or equivalent data

3.2.11.1.

Maximum lift of valves, angles of opening and closing, or timing details of alternative distribution systems, in relation to dead centres. For variable timing system, minimum and maximum timing: …

3.2.11.2.

Reference and/or setting ranges (1): …

3.2.12.

Measures taken against air pollution

3.2.12.1.

Device for recycling crankcase gases (description and drawings): …

3.2.12.2.

Pollution control devices (if not covered by another heading)

3.2.12.2.1.

Catalytic converter

3.2.12.2.1.1.

Number of catalytic converters and elements (provide the information below for each separate unit): …

3.2.12.2.1.2.

Dimensions, shape and volume of the catalytic converter(s): …

3.2.12.2.1.3.

Type of catalytic action: …

3.2.12.2.1.4.

Total charge of precious metals: …

3.2.12.2.1.5.

Relative concentration: …

3.2.12.2.1.6.

Substrate (structure and material): …

3.2.12.2.1.7.

Cell density: …

3.2.12.2.1.8.

Type of casing for the catalytic converter(s): …

3.2.12.2.1.9.

Location of the catalytic converter(s) (place and reference distance in the exhaust line): …

3.2.12.2.1.10.

Heat shield: yes/no (1)

3.2.12.2.1.11.

Normal operating temperature range: … °C

3.2.12.2.1.12.

Make of catalytic converter: …

3.2.12.2.1.13.

Identifying part number: …

3.2.12.2.2.

Sensors

3.2.12.2.2.1.

Oxygen sensor: yes/no (1)

3.2.12.2.2.1.1.

Make: …

3.2.12.2.2.1.2.

Location: …

3.2.12.2.2.1.3.

Control range: …

3.2.12.2.2.1.4.

Type or working principle: …

3.2.12.2.2.1.5.

Identifying part number: …

3.2.12.2.2.2.

NOx sensor: yes/no (1)

3.2.12.2.2.2.1.

Make: …

3.2.12.2.2.2.2.

Type: …

3.2.12.2.2.2.3.

Location

3.2.12.2.2.3.

Particulate sensor: yes/no (1)

3.2.12.2.2.3.1.

Make: …

3.2.12.2.2.3.2.

Type: …

3.2.12.2.2.3.3.

Location: …

3.2.12.2.3.

Air injection: yes/no (1)

3.2.12.2.3.1.

Type (pulse air, air pump, etc.): …

3.2.12.2.4.

Exhaust gas recirculation (EGR): yes/no (1)

3.2.12.2.4.1.

Characteristics (make, type, flow, high pressure/low pressure/combined pressure, etc.): …

3.2.12.2.4.2.

Water-cooled system (to be specified for each EGR system e.g. low pressure/high pressure/combined pressure: yes/no (1)

3.2.12.2.5.

Evaporative emissions control system (petrol and ethanol engines only): yes/no (1)

3.2.12.2.5.1.

Detailed description of the devices: …

3.2.12.2.5.2.

Drawing of the evaporative control system: …

3.2.12.2.5.3.

Drawing of the carbon canister: …

3.2.12.2.5.4.

Mass of dry charcoal: … g

▼M3

3.2.12.2.5.5.

Schematic drawing of the fuel tank (petrol and ethanol engines only): …

▼M3

3.2.12.2.5.5.1.

Fuel tank system capacity, material and construction: …

3.2.12.2.5.5.2.

Description of vapour hose material, fuel line material and connection technique of the fuel system: …

3.2.12.2.5.5.3.

Sealed tank system: yes/no

3.2.12.2.5.5.4.

Description of fuel tank relief valve setting (air ingestion and relief): …

3.2.12.2.5.5.5.

Description of the purge control system: …

▼M3

3.2.12.2.5.6.

Description and schematic of the heat shield between tank and exhaust system: …

▼M3

3.2.12.2.5.7.

Permeability factor: …

▼B

3.2.12.2.6.

Particulate trap (PT): yes/no (1)

3.2.12.2.6.1.

Dimensions, shape and capacity of the particulate trap: …

3.2.12.2.6.2.

Design of the particulate trap: …

3.2.12.2.6.3.

Location (reference distance in the exhaust line): …

3.2.12.2.6.4.

Make of particulate trap: …

3.2.12.2.6.5.

Identifying part number: …

3.2.12.2.7

On-board-diagnostic (OBD) system: yes/no (1)

3.2.12.2.7.1.

Written description and/or drawing of the MI: …

3.2.12.2.7.2.

List and purpose of all components monitored by the OBD system: …

3.2.12.2.7.3.

Written description (general working principles) for

3.2.12.2.7.3.1

Positive-ignition engines

3.2.12.2.7.3.1.1.

Catalyst monitoring: …

3.2.12.2.7.3.1.2.

Misfire detection: …

3.2.12.2.7.3.1.3.

Oxygen sensor monitoring: …

3.2.12.2.7.3.1.4.

Other components monitored by the OBD system: …

3.2.12.2.7.3.2.

Compression-ignition engines: …

3.2.12.2.7.3.2.1.

Catalyst monitoring: …

3.2.12.2.7.3.2.2.

Particulate trap monitoring: …

3.2.12.2.7.3.2.3.

Electronic fuelling system monitoring: …

3.2.12.2.7.3.2.5.

Other components monitored by the OBD system: …

3.2.12.2.7.4.

Criteria for MI activation (fixed number of driving cycles or statistical method): …

3.2.12.2.7.5.

List of all OBD output codes and formats used (with explanation of each): …

3.2.12.2.7.6.

The following additional information shall be provided by the vehicle manufacturer for the purposes of enabling the manufacture of OBD-compatible replacement or service parts and diagnostic tools and test equipment.

3.2.12.2.7.6.1.

A description of the type and number of the preconditioning cycles used for the original type approval of the vehicle.

3.2.12.2.7.6.2.

A description of the type of the OBD demonstration cycle used for the original type-approval of the vehicle for the component monitored by the OBD system.

3.2.12.2.7.6.3.

A comprehensive document describing all sensed components with the strategy for fault detection and MI activation (fixed number of driving cycles or statistical method), including a list of relevant secondary sensed parameters for each component monitored by the OBD system. A list of all OBD output codes and format used (with an explanation of each) associated with individual emission related power-train components and individual non-emission related components, where monitoring of the component is used to determine MI activation, including in particular a comprehensive explanation for the data given in service $05 Test ID $21 to FF and the data given in service $06.

In the case of vehicle types that use a communication link in accordance with ISO 15765-4 ‘Road vehicles, diagnostics on controller area network (CAN) — Part 4: requirements for emissions-related systems’, a comprehensive explanation for the data given in service $06 Test ID $00 to FF, for each OBD monitor ID supported, shall be provided.

3.2.12.2.7.6.4.

The information required above may be defined by completing a table as described below.

3.2.12.2.7.6.4.1.

Light-duty vehicles



Component

Fault code

Monitoring strategy

Fault detection criteria

MI activation criteria

Secondary parameters

Preconditioning

Demonstration test

Catalyst

P0420

Oxygen sensor 1 and sensor 2 signals

Difference between sensor 1 and sensor 2 signals-

3rd cycle

Engine speed load, A/F mode, catalyst temperature

Two type I cycles

Type I

3.2.12.2.8.

Other system: …

3.2.12.2.8.2.

Driver inducement system

3.2.12.2.8.2.3.

Type of inducement system: no engine restart after countdown/no start after refuelling/fuel-lockout/performance restriction

3.2.12.2.8.2.4.

Description of the inducement system

3.2.12.2.8.2.5.

Equivalent to the average driving range of the vehicle with a complete tank of fuel: … km

3.2.12.2.10.

Periodically regenerating system: (provide the information below for each separate unit)

3.2.12.2.10.1.

Method or system of regeneration, description and/or drawing: …

3.2.12.2.10.2.

The number of Type 1 operating cycles, or equivalent engine test bench cycles, between two cycles where regenerative phases occur under the conditions equivalent to Type 1 test (Distance ‘D’ in Figure A6.App1/1 in Appendix 1 to Sub-Annex 6 of Annex XXI to Regulation (EU) 2017/1151 or figure A13/1 in Annex 13 to UN/ECE Regulation 83 (as applicable)): …

3.2.12.2.10.2.1.

Applicable Type 1 cycle (indicate the applicable procedure: Annex XXI, Sub-Annex 4 or UN/ECE Regulation 83): …

3.2.12.2.10.3.

Description of method employed to determine the number of cycles between two cycles where regenerative phases occur: …

3.2.12.2.10.4.

Parameters to determine the level of loading required before regeneration occurs (i.e. temperature, pressure etc.): …

3.2.12.2.10.5.

Description of method used to load system in the test procedure described in paragraph 3.1., Annex 13 to UN/ECE Regulation 83: …

3.2.12.2.11.

Catalytic converter systems using consumable reagents (provide the information below for each separate unit) yes/no (1)

3.2.12.2.11.1.

Type and concentration of reagent needed: …

3.2.12.2.11.2.

Normal operational temperature range of reagent: …

3.2.12.2.11.3.

International standard: …

3.2.12.2.11.4.

Frequency of reagent refill: continuous/maintenance (where appropriate):

3.2.12.2.11.5.

Reagent indicator: (description and location)

3.2.12.2.11.6.

Reagent tank

3.2.12.2.11.6.1.

Capacity: …

3.2.12.2.11.6.2.

Heating system: yes/no

3.2.12.2.11.6.2.1.

Description or drawing

3.2.12.2.11.7.

Reagent control unit: yes/no (1)

3.2.12.2.11.7.1.

Make: …

3.2.12.2.11.7.2.

Type: …

3.2.12.2.11.8.

Reagent injector (make type and location): …

▼M3

3.2.12.2.12.

Water injection: yes/no (1)

▼B

3.2.13.

Smoke opacity

3.2.13.1.

Location of the absorption coefficient symbol (compression ignition engines only): …

3.2.14.

Details of any devices designed to influence fuel economy (if not covered by other items):.…

3.2.15.

LPG fuelling system: yes/no (1)

3.2.15.1.

Type-approval number according to Regulation (EC) No 661/2009 (OJ L 200, 31.7.2009, p. 1): …

3.2.15.2.

Electronic engine management control unit for LPG fuelling

3.2.15.2.1.

Make(s): …

3.2.15.2.2.

Type(s): …

3.2.15.2.3.

Emission-related adjustment possibilities: …

3.2.15.3.

Further documentation

3.2.15.3.1.

Description of the safeguarding of the catalyst at switch-over from petrol to LPG or back: …

3.2.15.3.2.

System lay-out (electrical connections, vacuum connections compensation hoses, etc.): …

3.2.15.3.3.

Drawing of the symbol: …

3.2.16.

NG fuelling system: yes/no (1)

3.2.16.1.

Type-approval number according to Regulation (EC) No 661/2009: …

3.2.16.2.

Electronic engine management control unit for NG fuelling

3.2.16.2.1.

Make(s): …

3.2.16.2.2.

Type(s): …

3.2.16.2.3.

Emission-related adjustment possibilities: …

3.2.16.3.

Further documentation

3.2.16.3.1.

Description of the safeguarding of the catalyst at switch-over from petrol to NG or back: …

3.2.16.3.2.

System lay-out (electrical connections, vacuum connections compensation hoses, etc.): …

3.2.16.3.3.

Drawing of the symbol: …

3.2.18.

Hydrogen fuelling system: yes/no (1)

3.2.18.1.

EC type-approval number in accordance with Regulation (EC) No 79/2009: …

3.2.18.2.

Electronic engine management control unit for hydrogen fuelling

3.2.18.2.1.

Make(s): …

3.2.18.2.2.

Type(s): …

3.2.18.2.3.

Emission-related adjustment possibilities: …

3.2.18.3.

Further documentation

3.2.18.3.1.

Description of the safeguarding of the catalyst at switch-over from petrol to hydrogen or back: …

3.2.18.3.2.

System lay-out (electrical connections, vacuum connections compensation hoses, etc.): …

3.2.18.3.3.

Drawing of the symbol: …

3.2.19.4.

Further documentation

▼M3 —————

▼B

3.2.19.4.2.

System lay-out (electrical connections, vacuum connections compensation hoses, etc.): …

3.2.19.4.3.

Drawing of the symbol: …

▼M3

3.2.20.

Heat storage information

▼B

3.2.20.1.

Active heat storage device: yes/no (1)

3.2.20.1.1.

Enthalpy: … (J)

▼M3

3.2.20.2.

Insulation materials: yes/no (1)

▼B

3.2.20.2.1.

Insulation material: …

3.2.20.2.2.

Insulation volume: …

3.2.20.2.3.

Insulation weight: …

3.2.20.2.4.

Insulation location: …

▼M3

3.2.20.2.5.

Worst case approach vehicle cool down: yes/no (1)

3.2.20.2.5.1.

(not worst case approach) Minimum soaking time, tsoak_ATCT (hours):…

3.2.20.2.5.2.

(not worst case approach) Location of the engine temperature measurement: …

3.2.20.2.6.

Single interpolation family within the ATCT family approach: yes/no (1)

3.3.

Electric machine

3.3.1.

Type (winding, excitation): …

3.3.1.1.

Maximum hourly output: … kW

(manufacturer's declared value)

3.3.1.1.1.

Maximum net power (a) … kW

(manufacturer's declared value)

3.3.1.1.2.

Maximum 30 minutes power (a) … kW

(manufacturer's declared value)

3.3.1.2.

Operating voltage:… V

3.3.2.

REESS

3.3.2.1.

Number of cells: …

3.3.2.2.

Mass: … kg

3.3.2.3.

Capacity: … Ah (Amp-hours)

3.3.2.4.

Position: …

▼B

3.4.

Combinations of propulsion energy converters

3.4.1.

Hybrid electric vehicle: yes/no (1)

3.4.2.

Category of hybrid electric vehicle: off-vehicle charging/not off-vehicle charging: (1)

3.4.3.

Operating mode switch: with/without (1)

3.4.3.1.

Selectable modes

3.4.3.1.1.

Pure electric: yes/no (1)

3.4.3.1.2.

Pure fuel consuming: yes/no (1)

3.4.3.1.3.

Hybrid modes: yes/no (1)

(if yes, short description): …

3.4.4.

Description of the energy storage device: (REESS, capacitor, flywheel/generator)

3.4.4.1.

Make(s): …

3.4.4.2.

Type(s): …

3.4.4.3.

Identification number: …

3.4.4.4.

Kind of electrochemical couple: …

3.4.4.5.

Energy: … (for REESS: voltage and capacity Ah in 2 h, for capacitor: J, …)

3.4.4.6.

Charger: on board/external/without (1)

3.4.5.

Electric machine (describe each type of electric machine separately)

3.4.5.1.

Make: …

3.4.5.2.

Type: …

3.4.5.3.

Primary use: traction motor/generator (1)

3.4.5.3.1.

When used as traction motor: single-/multimotors (number) (1): …

3.4.5.4.

Maximum power: … kW

3.4.5.5.

Working principle

3.4.5.5.5.1

Direct current/alternating current/number of phases: …

3.4.5.5.2.

Separate excitation/series/compound (1)

3.4.5.5.3.

Synchronous/asynchronous (1)

3.4.6.

Control unit

3.4.6.1.

Make(s): …

3.4.6.2.

Type(s): …

3.4.6.3.

Identification number: …

3.4.7.

Power controller

3.4.7.1.

Make: …

3.4.7.2.

Type: …

3.4.7.3.

Identification number: …

3.4.9.

Manufacturer's recommendation for preconditioning: …

3.5.

Manufacturer’s declared values for determination of CO2 emissions/fuel consumption/electric consumption/electric range and details of eco-innovations (where applicable) (o)

3.5.7.

Manufacturer’s declared values

▼M3

3.5.7.1.

Test vehicle parameters



Vehicle

Vehicle Low (VL)

if existing

Vehicle High

(VH)

VM

if existing

V representative (only for road load matrix family (*1))

Default values

Vehicle bodywork type

 

 

 

 

Road load method used (measurement or calculation by road load family)

 

 

 

Road load information:

 

Tyres make and type, if measurement

 

 

 

 

Tyre dimensions (front/rear), if measurement

 

 

 

 

Tyre rolling resistance (front/rear) (kg/t)

 

 

 

 

 

Tyre pressure (front/rear) (kPa), if measurement

 

 

 

 

 

Delta CD × A of vehicle L compared to vehicle H (IP_H minus IP_L)

 

 

Delta CD × A compared to road load family vehicle L (IP_H/L minus RL_L), if calculation by road load family

 

 

 

Vehicle test mass (kg)

 

 

 

 

 

Road load coefficients

 

f0 (N)

 

 

 

 

 

f1 (N/(km/h))

 

 

 

 

 

f2 (N/(km/h)2)

 

 

 

 

 

Frontal area m2 (0,000 m2)

 

 

Cycle Energy Demand (J)

 

 

 

 

 

(*1)   Representative vehicle is tested for the road load matrix family.

3.5.7.1.1.

Fuel used for the Type 1 test and selected for the measurement of the net power in accordance with Annex XX to this Regulation (for LPG or NG vehicles only): …

▼M3 —————

▼B

3.5.7.2.

Combined CO2 mass emissions

▼M3

3.5.7.2.1.

CO2 mass emission for pure ICE vehicles and NOVC-HEVs

3.5.7.2.1.0.

Minimum and maximum CO2 values within the interpolation family

3.5.7.2.1.1.

Vehicle high: … g/km

3.5.7.2.1.1.0.

Vehicle high (NEDC): … g/km

3.5.7.2.1.2.

Vehicle low (if applicable): … g/km

3.5.7.2.1.2.0.

Vehicle low (if applicable) (NEDC): … g/km

3.5.7.2.1.3.

Vehicle M (if applicable): … g/km

3.5.7.2.1.3.0.

Vehicle M (if applicable) (NEDC): … g/km

3.5.7.2.2.

Charge-Sustaining CO2 mass emission for OVC-HEVs

3.5.7.2.2.1.

Charge Sustaining CO2 mass emission vehicle high: g/km

3.5.7.2.2.1.0.

Combined CO2 mass emission vehicle high (NEDC Condition B): g/km

3.5.7.2.2.2.

Charge Sustaining CO2 mass emission vehicle low (if applicable): g/km

3.5.7.2.2.2.0.

Combined CO2 mass emission vehicle low (if applicable) (NEDC Condition B): g/km

3.5.7.2.2.3.

Charge Sustaining CO2 mass emission vehicle M (if applicable): g/km

3.5.7.2.2.3.0.

Combined CO2 mass emission vehicle M (if applicable) (NEDC Condition B): g/km

3.5.7.2.3.

Charge Depleting CO2 mass emission and weighted CO2 mass emission for OVC-HEVs

3.5.7.2.3.1.

Charge Depleting CO2 mass emission of Vehicle high: … g/km

3.5.7.2.3.1.0.

Charge Depleting CO2 mass emission of Vehicle high (NEDC Condition A): … g/km

3.5.7.2.3.2.

Charge Depleting CO2 mass emission of Vehicle low (if applicable): … g/km

3.5.7.2.3.2.0.

Charge Depleting CO2 mass emission of Vehicle low (if applicable) (NEDC Condition A): … g/km

3.5.7.2.3.3.

Charge Depleting CO2 mass emission of Vehicle M (if applicable): … g/km

3.5.7.2.3.3.0.

Charge Depleting CO2 mass emission of Vehicle M (if applicable) (NEDC Condition A): … g/km

▼M3

3.5.7.2.3.4.

Minimum and maximum weighted CO2 values within the OVC interpolation family

▼B

3.5.7.3.

Electric range for electrified vehicles

3.5.7.3.1.

Pure Electric Range (PER) for PEVs

3.5.7.3.1.1.

Vehicle high: … km

3.5.7.3.1.2.

Vehicle low (if applicable): … km

3.5.7.3.2.

All Electric Range AER for OVC-HEVs

3.5.7.3.2.1.

Vehicle high: … km

3.5.7.3.2.2.

Vehicle low (if applicable): … km

3.5.7.3.2.3.

Vehicle M (if applicable): … km

3.5.7.4.

Charge Sustaining fuel consumption (FCCS) for FCHVs

3.5.7.4.1.

Vehicle high: … kg/100 km

3.5.7.4.2.

Vehicle low (if applicable): … kg/100 km

▼M3 —————

▼B

3.5.7.5.

Electric energy consumption for electrified vehicles

3.5.7.5.1.

Combined electric energy consumption (ECWLTC) for Pure electric vehicles

3.5.7.5.1.1.

Vehicle high: … Wh/km

3.5.7.5.1.2.

Vehicle low (if applicable): … Wh/km

3.5.7.5.2.

UF-weighted charge-depleting electric consumption ECAC,CD (combined)

3.5.7.5.2.1.

Vehicle high: … Wh/km

3.5.7.5.2.2.

Vehicle low (if applicable): … Wh/km

3.5.7.5.2.3.

Vehicle M (if applicable): … Wh/km

3.5.8.

Vehicle fitted with an eco-innovation within the meaning of Article 12 of Regulation (EC) No 443/2009 for M1 vehicles or Article 12 of Regulation (EU) No 510/2011 for N1 vehicles: yes/no (1)

3.5.8.1.

Type/Variant/Version of the baseline vehicle as referred to in Article 5 of Regulation (EU) No 725/2011 for M1 vehicles or Article 5 of Regulation (EU) No 427/2014 for N1 vehicles (if applicable): …

3.5.8.2.

Existence of interactions between different eco-innovations: yes/no (1)

▼M3

3.5.8.3.

Emissions data related to the use of eco-innovations (repeat the table for each reference fuel tested) (w1)



Decision approving the eco-innovation (w2)

Code of the eco-innovation (w3)

1.  CO2 emissions of the baseline vehicle (g/km)

2.  CO2 emissions of the eco-innovation vehicle (g/km)

3.  CO2 emissions of the baseline vehicle under type 1 test-cycle (w4)

4.  CO2 emissions of the eco-innovation vehicle under type 1 test-cycle

5.  Usage factor (UF), i.e. temporal share of technology usage in normal operation conditions

CO2 emissions savings ((1 – 2) – (3 – 4))*5

xxxx/201x

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Total NEDC CO2 emissions saving (g/km)(w5)

Total WLTP CO2 emissions saving (g/km)(w5)

▼B

3.6.

Temperatures permitted by the manufacturer

3.6.1.

Cooling system

3.6.1.1.

Liquid cooling

Maximum temperature at outlet: … K

3.6.1.2.

Air cooling

3.6.1.2.1.

Reference point: …

3.6.1.2.2.

Maximum temperature at reference point: … K

3.6.2.

Maximum outlet temperature of the inlet intercooler: … K

3.6.3.

Maximum exhaust temperature at the point in the exhaust pipe(s) adjacent to the outer flange(s) of the exhaust manifold or turbocharger: … K

3.6.4.

Fuel temperature

Minimum: … K — maximum: … K

For diesel engines at injection pump inlet, for gas fuelled engines at pressure regulator final stage

3.6.5.

Lubricant temperature

Minimum: … K — maximum: … K

3.8.

Lubrication system

3.8.1.

Description of the system

3.8.1.1.

Position of lubricant reservoir: …

3.8.1.2.

Feed system (by pump/injection into intake/mixing with fuel, etc.) (1)

3.8.2.

Lubricating pump

3.8.2.1.

Make(s): …

3.8.2.2.

Type(s): …

3.8.3.

Mixture with fuel

3.8.3.1.

Percentage: …

3.8.4.

Oil cooler: yes/no (1)

3.8.4.1.

Drawing(s): … or

3.8.4.1.1.

Make(s): …

3.8.4.1.2.

Type(s): …

▼M3

3.8.5.

Lubricant specification: …W…

▼B

4

TRANSMISSION (p)

4.3.

Moment of inertia of engine flywheel: …

4.3.1.

Additional moment of inertia with no gear engaged: …

4.4.

Clutch(es)

4.4.1.

Type: …

4.4.2.

Maximum torque conversion: …

4.5.

Gearbox

4.5.1.

Type (manual/automatic/CVT (continuously variable transmission)) (1)

▼M3 —————

▼B

4.5.1.4.

Torque rating: …

4.5.1.5.

Number of clutches: …

4.6.

Gear ratios



Gear

Internal gearbox ratios (ratios of engine to gearbox output shaft revolutions)

Final drive ratio(s) (ratio of gearbox output shaft to driven wheel revolutions)

Total gear ratios

Maximum for CVT

 

 

 

1

 

 

 

2

 

 

 

3

 

 

 

 

 

 

Minimum for CVT

 

 

 

►M3  Reverse ◄

 

 

 

▼M3

4.6.1.

Gearshift

4.6.1.1.

Gear 1 excluded: yes/no (1)

4.6.1.2.

n_95_high for each gear: … min–1

4.6.1.3.

nmin_drive

4.6.1.3.1.

1st gear: … min–1

4.6.1.3.2.

1st gear to 2nd: … min–1

4.6.1.3.3.

2nd gear to standstill: … min–1

4.6.1.3.4.

2nd gear: … min–1

4.6.1.3.5.

3rd gear and beyond: … min–1

4.6.1.4.

n_min_drive_set for acceleration/constant speed phases (n_min_drive_up): … min–1

4.6.1.5.

n_min_drive_set for deceleration phases (nmin_drive_down):

4.6.1.6.

initial period of time

4.6.1.6.1.

t_start_phase: … s

4.6.1.6.2.

n_min_drive_start: … min–1

4.6.1.6.3.

n_min_drive_up_start: … min–1

4.6.1.7.

use of ASM: yes/no (1)

4.6.1.7.1.

ASM values: …

▼B

4.7.

Maximum vehicle design speed (in km/h) (q): …

▼M3

4.12.

Gearbox lubricant: …W…

▼B

6

SUSPENSION

6.6.

Tyres and wheels

6.6.1.

Tyre/wheel combination(s)

6.6.1.1.

Axles

6.6.1.1.1.

Axle 1: …

6.6.1.1.1.1.

Tyre size designation

6.6.1.1.2.

Axle 2: …

6.6.1.1.2.1.

Tyre size designation

 

etc.

6.6.2.

Upper and lower limits of rolling radii

6.6.2.1.

Axle 1: …

6.6.2.2.

Axle 2: …

6.6.3.

Tyre pressure(s) as recommended by the vehicle manufacturer: … kPa

9

BODYWORK

9.1.

Type of bodywork using the codes defined in Part C of Annex II of Directive 2007/46/EC: …

▼M3 —————

▼M3

12.8.

Devices or systems with driver selectable modes which influence CO2 emissions and/or criteria emissions and do not have a predominant mode: yes/no (1)

12.8.1.

Charge sustaining test (if applicable) (state for each device or system)

12.8.1.1.

Best case mode: …

12.8.1.2.

Worst case mode: …

12.8.2.

Charge depleting test (if applicable) (state for each device or system)

12.8.2.1.

Best case mode: …

12.8.2.2.

Worst case mode: …

12.8.3.

Type 1 test (if applicable) (state for each device or system)

12.8.3.1.

Best case mode: …

12.8.3.2.

Worst case mode: …

▼B

16

ACCESS TO VEHICLE REPAIR AND MAINTENANCE INFORMATION

16.1.

Address of principal website for access to vehicle repair and maintenance information: …

16.1.1.

Date from which it is available (no later than 6 months from the date of type-approval): …

16.2.

Terms and conditions of access to website: …

16.3.

Format of the vehicle repair and maintenance information accessible through website: …

▼M2

Explanatory notes

(1) Delete where not applicable (there are cases where nothing needs to be deleted when more than one entry is applicable).

(2) Specify the tolerance.

(3) Please fill in here the upper and lower values for each variant.

(6) Vehicles can be fuelled with both petrol and a gaseous fuel but, where the petrol system is fitted for emergency purposes or starting only and of which the petrol tank cannot contain more than 15 litres of petrol, will be regarded for the test as vehicles which can only run a gaseous fuel.

(7) Optional equipment that affects the dimensions of the vehicle shall be specified.

(c) Classified according to the definitions set out in Part A of Annex II.

(f) Where there is one version with a normal cab and another with a sleeper cab, both sets of masses and dimensions are to be stated.

(g) Standard ISO 612: 1978 — Road vehicles — Dimensions of motor vehicles and towed vehicles — terms and definitions.

(h) The mass of the driver is assessed at 75 kg.

The liquid containing systems (except those for used water that must remain empty) are filled to 100 % of the capacity specified by the manufacturer.

The information referred to in points 2.6(b) and 2.6.1(b) do not need to be provided for vehicle categories N 2, N 3, M 2, M 3, O 3, and O 4.

(i) For trailers or semi-trailers, and for vehicles coupled with a trailer or a semi-trailer, which exert a significant vertical load on the coupling device or the fifth wheel, this load, divided by standard acceleration of gravity, is included in the maximum technically permissible mass.

(k) In the case of a vehicle that can run either on petrol, diesel, etc., or also in combination with another fuel, items shall be repeated.

In the case of non-conventional engines and systems, particulars equivalent to those referred to here shall be supplied by the manufacturer.

(l) This figure shall be rounded off to the nearest tenth of a millimetre.

(m) This value shall be calculated (π = 3,1416) and rounded off to the nearest cm3.

(n) Determined in accordance with the requirements of Regulation (EC) No 715/2007 or Regulation (EC) No 595/2009 as applicable.

(o) Determined in accordance with the requirements of Council Directive 80/1268/EEC (OJ L 375, 31.12.1980, p. 36).

(p) The specified particulars are to be given for any proposed variants.

(q) With respect to trailers, maximum speed permitted by the manufacturer.

(w) Eco-innovations.

(w1) Expand the table if necessary, using one extra row per eco-innovation.

(w2) Number of the Commission Decision approving the eco-innovation.

(w3) Assigned in the Commission Decision approving the eco-innovation.

(w4) Under agreement of the type-approval authority, if a modelling methodology is applied instead of the type 1 test cycle, this value shall be the one provided by the modelling methodology.

(w5) Sum of the CO2 emissions savings of each individual eco-innovation.

▼M1




Appendix 3a

Extended Documentation Package

The extended documentation package shall include the following information on all AES:

(a) a declaration of the manufacturer that the vehicle does not contain any defeat device not covered by one of the exceptions in Article 5(2) of Regulation (EC) No 715/2007;

(b) a description of the engine and the emission control strategies and devices employed, whether software or hardware, and any condition(s) under which the strategies and devices will not operate as they do during testing for TA;

(c) a declaration of the software versions used to control these AES/BES, including the appropriate checksums of these software versions and instructions to the authority on how to read the checksums; the declaration shall be updated and sent to the Type Approval Authority that holds this extended documentation package each time there is a new software version that has an impact to the AES/BES;

▼M3

(d) detailed technical reasoning of any AES including a risk assessment estimating the risk with the AES and without it, and information on the following:

(i) why any of the exception clauses from the defeat device prohibition in Article 5(2) of Regulation (EC) No 715/2007 apply;

(ii) hardware element(s) that need to be protected by the AES, where applicable;

(iii) proof of sudden and irreparable engine damage that cannot be prevented by regular maintenance and would occur in the absence of the AES, where applicable;

(iv) a reasoned explanation on why there is a need to use an AES upon engine start, where applicable;

▼M1

(e) a description of the fuel system control logic, timing strategies and switch points during all modes of operation;

(f) a description of the hierarchical relations among the AES (i.e., when more than one AES can be active concurrently, an indication of which AES is primary in responding, the method by which strategies interact, including data flow diagrams and decision logic and how does the hierarchy assure emissions from all AES are controlled to the lowest practical level;

(g) a list of parameters which are measured and/or calculated by the AES, along with the purpose of every parameter measured and/or calculated and how each of those parameters relates to engine damage; including the method of calculation and how well these calculated parameters correlate with the true state of the parameter being controlled and any resulting tolerance or factor of safety incorporated into the analysis;

(h) a list of engine/emission control parameters which are modulated as a function of the measured or calculated parameter(s) and the range of modulation for each engine/emission control parameter; along with the relationship between engine/emission control parameters and measured or calculated parameters;

(i) an evaluation of how the AES will control real-driving emissions to the lowest practical level, including a detailed analysis of the expected increase of total regulated pollutants and CO2 emissions by using the AES, compared to the BES.

▼M3

The extended documentation package shall be limited to 100 pages and shall include all the main elements to allow the type approval authority to assess the AES. The package may be complemented with annexes and other attached documents, containing additional and complementary elements, if necessary. The manufacturer shall send a new version of the extended documentation package to the type approval authority every time changes are introduced to the AES. The new version shall be limited to the changes and their effect. The new version of the AES shall be evaluated and approved by the type approval authority.

The extended documentation package shall be structured as follows:

Extended Documentation Package for AES Application No. YYY/OEM in accordance with Regulation (EU) 2017/1151



Parts

Paragraph

Point

Explanation

Introduction documents

 

Introduction letter to TAA

Reference of the document with the version, the date of issuing the document, signature by the relevant person in the manufacturer organisation

 

Versioning table

Content of each version modifications: and with part is modified

 

Description of the (emission) types concerned

 

 

Attached documents table

List of all attached documents

 

Cross references

link to paragraph (a) to (i) of Appendix 3a (where to find each requirement of the regulation)

 

Absence of defeat device declaration

+ signature

Core document

0

Acronyms/abbreviations

 

1

GENERAL DESCRIPTION

 

1.1

Engine general presentation

Description of main characteristics: displacement, after treatment,…

1.2

General system architecture

System bloc diagram: list of sensors and actuators, explanation of engine general functions

1.3

Reading of software and calibration version

E.g. scan-tool explanation

2

Base Emission Strategies

 

2.x

BES x

Description of strategy x

2.y

BES y

Description of strategy y

3

Auxiliary Emission Strategies

 

3.0

Presentation of the AESs

Hierarchical relations among AES: description and justification (e.g. safety, reliability, etc.)

3.x

AES x

3.x.1  AES justification

3.x.2  measured and/or modelled parameters for AES characterization

3.x.3  Action mode of AES - Parameters used

3.x.4  Effect of AES on pollutants and CO2

3.y

AES y

3.y.1

3.y.2

etc.

100 page limit ends here

Annex

 

List of types covered by this BES-AES: including TA reference, software reference, calibration number, checksums of each version and of each CU (engine and/or after-treatment if any)

Attached documents

 

Technical note for AES justification n° xxx

Risk assessment or justification by testing or example of sudden damage, if any

 

Technical note for AES justification n° yyy

 

 

Test report for specific AES impact quantification

test report of all specific tests done for AES justification, test conditions details, description of the vehicle / date of the tests emission/CO2 impact with/without AES activation




Appendix 3b

Methodology for the assessment of AES

The assessment of the AES by the type-approval authority shall include at least the following verifications:

(1) The increase of emissions induced by the AES shall be kept at the lowest possible level:

(a) The increase of total emissions when using an AES shall be kept at the lowest possible level throughout the normal use and life of the vehicles;

(b) Whenever a technology or design that would allow for improved emission control is available on the market at the time of the AES preliminary assessment it shall be used with no unjustified modulation

(2) When used to justify an AES, the risk of sudden and irreparable damage to the ‘propulsion energy converter and the drivetrain’, as defined in Mutual Resolution No. 2 (M.R.2) of the 1958 and 1998 Agreements of UNECE containing Vehicle Propulsion System Definitions ( 6 ), shall be appropriately demonstrated and documented, including the following information:

(a) Proof of catastrophic (i.e. sudden and irreparable) engine damage shall be provided by the manufacturer, along with a risk assessment which includes an evaluation of the likelihood of the risk occurring and severity of the possible consequences, including results of tests carried out to this effect;

(b) When a technology or design is available on the market at the time of the AES application that eliminates or reduces that risk, it shall be used to the largest extent technically possible (i.e. with no unjustified modulation);

(c) Durability and the long-term protection of the engine or components of the emission control system from wear and malfunctioning shall not be considered an acceptable reason to grant an exemption from the defeat device prohibition.

(3) An adequate technical description shall document why it is necessary to use an AES for the safe operation of the vehicle:

(a) Proof of an increased risk to the safe operation of the vehicle should be provided by the manufacturer along with a risk assessment which includes an evaluation of the likelihood of the risk occurring and severity of the possible consequences, including results of tests carried out to this effect;

(b) When a different technology or design is available on the market at the time of the AES application that would allow for lowering the safety risk, it shall be used to the largest extent technically possible (i.e. with no unjustified modulation).

(4) An adequate technical description shall document why it is necessary to use an AES during engine start:

(a) Proof of the need to use an AES during engine start shall be provided by the manufacturer along with a risk assessment which includes an evaluation of the likelihood of the risk occurring and severity of the possible consequences, including results of tests carried out to this effect;

(b) Where a different technology or design is available on the market at the time of the AES application that would allow for improved emission control upon engine start, it shall be used to the largest extent technically possible.

▼M3 —————

▼B




Appendix 4

MODEL OF EC TYPE-APPROVAL CERTIFICATE

(Maximum format: A4 (210 × 297 mm))

EC TYPE-APPROVAL CERTIFICATE

Stamp of administration

Communication concerning the:

 EC type-approval (1),

 extension of EC type-approval (1),

 refusal of EC type-approval (1),

 withdrawal of EC type-approval (1),

 of a type of system/type of a vehicle with regard to a system (1) with regard to Regulation (EC) No 715/2007 (2) and Regulation (EU) 2017/1151 (3)

EC type-approval number: …

Reason for extension: …

SECTION I

0.1. Make (trade name of manufacturer): …

0.2. Type: …

0.2.1. Commercial name(s) (if available): …

0.3. Means of identification of type if marked on the vehicle (4)

0.3.1. Location of that marking: …

0.4. Category of vehicle (5)

▼M3

0.4.2. Base vehicle (5a) (1): yes/no (1)

▼B

0.5. Name and address of manufacturer: …

0.8. Name(s) and address(es) of assembly plant(s): …

0.9. Representative of the manufacturer: …

SECTION II —   to be repeated for each interpolation family, as defined in paragraph 5.6. of Annex XXI

0. Interpolation family identifier as defined in paragraph 5.0 of Annex XXI

1. Additional information (where applicable): (see addendum)

2. Technical service responsible for carrying out the tests: …

3. Date of type 1 test report: …

4. Number of the type 1 test report: …

5. Remarks (if any): (see addendum)

6. Place: …

7. Date: …

8. Signature: …



Attachments:

Information package (6).




Addendum to EC type-approval certificate No …

concerning the type-approval of a vehicle with regard to emissions and access to vehicle repair and maintenance information according to Regulation (EC) No 715/2007

Cross references to information in Test Report or Information Document should be avoided when completing the TA certificate.

▼M3

0.   INTERPOLATION FAMILY IDENTIFIER AS DEFINED IN PARAGRAPH 5.0 OF ANNEX XXI OF REGULATION (EU) 2017/1151

0.1.

Identifier: …

0.2.

Base vehicle identifier (5a) (1): …

▼B

1.   ADDITIONAL INFORMATION

▼M3

1.1. Mass of the vehicle in running order:

VL (1): …

VH: …

1.2. Maximum mass:

VL (1): …

VH: …

1.3. Reference mass:

VL (1): …

VH: …

▼B

1.4. Number of seats: …

1.6. Type of bodywork:

1.6.1. for M1, M2: saloon, hatchback, station wagon, coupé, convertible, multipurpose vehicle ( 7 )

1.6.2. for N1, N2: lorry, van (7) 

1.7. Drive wheels: front, rear, 4 × 4 (7) 

1.8. Pure electric vehicle: yes/no (7) 

1.9. Hybrid electric vehicle: yes/no (7) 

1.9.1. Category of Hybrid Electric vehicle: Off Vehicle Charging/Not Off Vehicle charging / Fuel Cell (7) 

1.9.2. Operating mode switch: with/without (7) 

1.10. Engine identification:

1.10.1. Engine displacement:

1.10.2. Fuel supply system: direct injection/indirect injection (7) 

1.10.3. Fuel recommended by the manufacturer:

1.10.4.1. Maximum power: kW at min–1

1.10.4.2. Maximum torque: Nm at min–1

1.10.5. Pressure charging device: yes/no (7) 

1.10.6. Ignition system: compression ignition/positive ignition (7) 

1.11. Power train (for pure electric vehicle or hybrid electric vehicle) (7) 

1.11.1. Maximum net power: … kW, at: … to … min–1

1.11.2. Maximum thirty minutes power: … kW

1.11.3. Maximum net torque: … Nm, at … min–1

1.12. Traction battery (for pure electric vehicle or hybrid electric vehicle)

1.12.1. Nominal voltage: V

1.12.2. Capacity (2 h rate): Ah

1.13. Transmission: …, …

1.13.1. Type of gearbox: manual/automatic/variable transmission (7) 

1.13.2. Number of gear ratios:

1.13.3. Total gear ratios (including the rolling circumferences of the tyres under load): (vehicle speed (km/h)) / (engine speed (1 000 (min–1))



First gear: …

Sixth gear: …

Second gear: …

Seventh gear: …

Third gear: …

Eighth gear: …

Fourth gear: …

Overdrive: …

Fifth gear: …

 

1.13.4. Final drive ratio:

1.14. Tyres: …, …, …

Type: radial/bias/… ( 8 )

Dimensions: …

Rolling circumference under load:

Rolling circumference of tyres used for the Type 1 test

2.   TEST RESULTS

▼M3

2.1.   Tailpipe emissions test results

Emissions classification: …

Type 1 test results, where applicable

Type approval number if not parent vehicle (1): …

Test 1



Type 1 Result

CO

(mg/km)

THC

(mg/km)

NMHC

(mg/km)

NOx

(mg/km)

THC + NOx

(mg/km)

PM

(mg/km)

PN

(#.1011/km)

Measured (8) (9)

 

 

 

 

 

 

 

Ki × (8) (10)

 

 

 

 

(11)

 

 

Ki + (8) (10)

 

 

 

 

(11)

 

 

Mean value calculated with Ki (M × Ki or M + Ki) (9)

 

 

 

 

(12)

 

 

DF (+) (8) (10)

 

 

 

 

 

 

 

DF (×) (8) (10)

 

 

 

 

 

 

 

Final mean value calculated with Ki and DF (13)

 

 

 

 

 

 

 

Limit value

 

 

 

 

 

 

 

Test 2 (if applicable)

Repeat Test 1 table with the second test results.

Test 3 (if applicable)

Repeat Test 1 table with the third test results.

Repeat Test 1, test 2 (if applicable) and test 3 (if applicable) for Vehicle Low (if applicable), and VM (if applicable)

ATCT test



CO2 Emission (g/km)

Combined

ATCT (14 °C) MCO2,Treg

 

Type 1 (23 °C) MCO2,23°

 

Family correction factor (FCF)

 



ATCT test Result

CO

(mg/km)

THC

(mg/km)

NMHC

(mg/km)

NOx

(mg/km)

THC + NOx

(mg/km)

PM

(mg/km)

PN

(#.1011/km)

Measured (1) (2)

 

 

 

 

 

 

 

Limit values

 

 

 

 

 

 

 

(1)   Where applicable.

(2)   Round to two decimal numbers.

Difference between engine coolant end temperature and average soak area temperature of the last 3 hours ΔT_ATCT (°C) for the reference vehicle: …

The minimum soaking time tsoak_ATCT (s): …

Location of temperature sensor: …

ATCT family identifier: …

Type 2: (including data required for roadworthiness testing):



Test

CO value

(% vol)

Lambda (1)

Engine speed

(min– 1)

Engine oil temperature

(°C)

Low idle test

 

N/A

 

 

High idle test

 

 

 

 

Type 3: …

Type 4: … g/test;

Test procedure in accordance with: Annex 6 to UN/ECE Regulation No 83 [1 day NEDC] / the Annex to Regulation (EC) 2017/1221 [2 days NEDC] / Annex VI to Regulation (EU) 2017/1151 [2 days WLTP] (1).

Type 5:

 Durability test: whole vehicle test/bench ageing test/none (1)

 Deterioration factor DF: calculated/assigned (1)

 Specify the values: …

 Applicable Type 1 cycle (Sub-Annex 4 to Annex XXI of Regulation (EU) 2017/1151 or UN/ECE Regulation No 83) (14): …



Type 6

CO (g/km)

THC (g/km)

Measured value

 

 

Limit value

 

 

▼B

2.1.1. For bi fuel vehicles, the type 1 table shall be repeated for both fuels. For flex fuel vehicles, when the type 1 test is to be performed on both fuels according to Figure I.2.4 of Annex I, and for vehicles running on LPG or NG/Biomethane, either mono fuel or bi fuel, the table shall be repeated for the different reference gases used in the test, and an additional table shall display the worst results obtained. When applicable, in accordance with section 3.1.4 of Annex 12 to UN/ECE Regulation No 83, it shall be shown if the results are measured or calculated.

2.1.2. Written description and/or drawing of the MI: …

2.1.3. List and function of all components monitored by the OBD system: …

2.1.4. Written description (general working principles) for: …

2.1.4.1. Misfire detection ( 9 ): …

2.1.4.2. Catalyst monitoring (9) : …

2.1.4.3. Oxygen sensor monitoring (9) : …

2.1.4.4. Other components monitored by the OBD system (9) : …

2.1.4.5. Catalyst monitoring ( 10 ): …

2.1.4.6. Particulate trap monitoring (10) : …

2.1.4.7. Electronic fuelling system actuator monitoring (10) : …

2.1.4.8. Other components monitored by the OBD system: …

2.1.5. Criteria for MI activation (fixed number of driving cycles or statistical method): …

2.1.6. List of all OBD output codes and formats used (with explanation of each): …

2.2.   Reserved

2.3.   Catalytic converters yes/no (7) 

2.3.1. Original equipment catalytic converter tested to all relevant requirements of this Regulation yes/no (7) 

2.4.   Smoke opacity test results (7) 

2.4.1.

At steady engine speeds: See technical service test report number: …

2.4.2.

Free acceleration tests

2.4.2.1. Measured value of the absorption coefficient: … m–1

2.4.2.2. Corrected value of the absorption coefficient: … m–1

2.4.2.3. Location of the absorption coefficient symbol on the vehicle: …

2.5.   CO2 emissions and fuel consumption test results

▼M3

2.5.1.   Pure ICE vehicle and Not Externally Chargeable (NOVC) Hybrid Electric Vehicle

▼M3

2.5.1.0.

Minimum and maximum CO2 values within the interpolation family

▼B

2.5.1.1.

Vehicle High

2.5.1.1.1.

Cycle Energy Demand: … J

2.5.1.1.2.

Road load coefficients

2.5.1.1.2.1. f0, N: …

2.5.1.1.2.2. f1, N/(km/h): …

2.5.1.1.2.3. f2, N/(km/h)2: …

▼M3

2.5.1.1.3.

CO2 mass emissions (provide values for each reference fuel tested, for the phases: the measured values, for the combined see points 1.2.3.8. and 1.2.3.9. of Sub-Annex 6 to Annex XXI of Regulation (EU) 2017/1151)



CO2 Emission (g/km)

Test

Low

Medium

High

Extra High

Combined

MCO2,p,5 / MCO2,c,5

1

 

 

 

 

 

2

 

 

 

 

 

3

 

 

 

 

 

average

 

 

 

 

 

Final MCO2,p,H / MCO2,c,H

 

 

 

 

 

2.5.1.1.4.

Fuel consumption (provide values for each reference fuel tested, for the phases: the measured values for the combined see paragraphs 1.2.3.8 and 1.2.3.9 of Sub-Annex 6 to Annex XXI)



Fuel consumption (l/100 km) or m3/100 km or kg/100 km (1)

Low

Medium

High

Extra High

Combined

Final values FCp,H/FCc,H

 

 

 

 

 

2.5.1.2.

Vehicle Low (if applicable)

2.5.1.2.1.

Cycle Energy Demand: … J

2.5.1.2.2.

Road load coefficients

2.5.1.2.2.1.

f0, N: …

2.5.1.2.2.2.

f1, N/(km/h): …

2.5.1.2.2.3.

f2, N/(km/h) (2): …

2.5.1.2.3.

CO2 mass emissions (provide values for each reference fuel tested, for the phases: the measured values for the combined see points 1.2.3.8. and.1.2.3.9. of Sub-Annex 6 to Annex XXI)



CO2 Emission (g/km)

Test

Low

Medium

High

Extra High

Combined

MCO2,p,5/MCO2,c,5

1

 

 

 

 

 

2

 

 

 

 

 

3

 

 

 

 

 

average

 

 

 

 

 

Final MCO2,p,L/MCO2,c,L

 

 

 

 

 

2.5.1.2.4.

Fuel consumption (provide values for each reference fuel tested, for the phases: the measured values for the combined see points 1.2.3.8 and 1.2.3.9 of Sub-Annex 6 to Annex XXI)



Fuel consumption (l/100 km) or m3/100 km or kg/100 km (1)

Low

Medium

High

Extra High

Combined

Final values FCp,L/FCc,L

 

 

 

 

 

2.5.1.3.

Vehicle M for NOVC-HEV (if applicable)

▼M3 —————

▼M3

2.5.1.3.1.   Cycle Energy Demand: … J

2.5.1.3.2.   Road load coefficients

2.5.1.3.2.1.

f0, N: …

2.5.1.3.2.2.

f1, N/(km/h): …

2.5.1.3.2.3.

f2, N/(km/h) (2): …

2.5.1.3.3.   CO2 mass emissions (provide values for each reference fuel tested, for the phases: the measured values for the combined see paragraphs 1.2.3.8. and 1.2.3.9. of Sub-Annex 6 to Annex XXI)



CO2 Emission (g/km)

Test

Low

Medium

High

Extra High

Combined

MCO2,p,5/MCO2,c,5

1

 

 

 

 

 

2

 

 

 

 

 

3

 

 

 

 

 

average

 

 

 

 

 

Final MCO2,p,L/MCO2,c,L

 

 

 

 

 

2.5.1.3.4.   Fuel consumption (provide values for each reference fuel tested, for the phases: the measured values for the combined see paragraphs 1.2.3.8. and 1.2.3.9. of Sub-Annex 6 to Annex XXI)



Fuel consumption (l/100 km) or m3/100 km or kg/100 km (1)

Low

Medium

High

Extra High

Combined

Final values FCp,L / FCc,L

 

 

 

 

 

2.5.1.4.

For vehicles powered by an internal combustion engine which are equipped with periodically regenerating systems as defined in point 6 of Article 2 of this Regulation, the test results shall be adjusted by the Ki factor as specified in Appendix 1 to Sub-Annex 6 of Annex XXI.

2.5.1.4.1.   Information about regeneration strategy for CO2 emissions and fuel consumption

D — number of operating cycles between 2 cycles where regenerative phases occur: …

d — number of operating cycles required for regeneration: …

Applicable Type 1 cycle (Sub-Annex 4 to Annex XXI of Regulation (EU) 2017/1151, or UN/ECE Regulation 83) (14): …



 

Combined

Ki (additive / multiplicative) (1)

Values for CO2 and fuel consumption (10)

 

Repeat 2.5.1. in case of base vehicle.

▼B

2.5.2.   Pure electric vehicles (7) 

▼M3

2.5.2.1.   Electric energy consumption

2.5.2.1.1.   Vehicle High

2.5.2.1.1.1.

Cycle Energy Demand: … J

2.5.2.1.1.2.

Road load coefficients

2.5.2.1.1.2.1.

f0, N: …

2.5.2.1.1.2.2.

f1, N/(km/h): …

2.5.2.1.1.2.3.

f2, N/(km/h) (2): …



EC (Wh/km)

Test

City

Combined

Calculated EC

1

 

 

2

 

 

3

 

 

average

 

 

Declared value

 

2.5.2.1.1.3.

Total time out of tolerance for the conduct of the cycle: … sec

2.5.2.1.2.   Vehicle Low (if applicable)

2.5.2.1.2.1.

Cycle Energy Demand: … J

2.5.2.1.2.2.

Road load coefficients

2.5.2.1.2.2.1.

f0, N: …

2.5.2.1.2.2.2.

f1, N/(km/h): …

2.5.2.1.2.2.3.

f2, N/(km/h) (2): …



EC (Wh/km)

Test

City

Combined

Calculated EC

1

 

 

2

 

 

3

 

 

average

 

 

Declared value

 

2.5.2.1.2.3.

Total time out of tolerance for the conduct of the cycle: … sec

2.5.2.2.   Pure Electric Range

2.5.2.2.1.   Vehicle High



PER (km)

Test

City

Combined

Measured Pure Electric Range

1

 

 

2

 

 

3

 

 

average

 

 

Declared value

 

2.5.2.2.2.   Vehicle Low (if applicable)



PER (km)

Test

City

Combined

Measured Pure Electric Range

1

 

 

2

 

 

3

 

 

average

 

 

Declared value

 

▼B

2.5.3.

Externally chargeable (OVC) Hybrid Electric Vehicle:

▼M3

2.5.3.1.   CO2 mass emission charge sustaining

2.5.3.1.1.   Vehicle High

2.5.3.1.1.1.

Cycle Energy Demand: … J

2.5.3.1.1.2.

Road load coefficients

2.5.3.1.1.2.1.

f0, N: …

2.5.3.1.1.2.2.

f1, N/(km/h): …

2.5.3.1.1.2.3.

f2, N/(km/h) (2): …



CO2 Emission (g/km)

Test

Low

Medium

High

Extra High

Combined

MCO2,p,5/MCO2,c,5

1

 

 

 

 

 

2

 

 

 

 

 

3

 

 

 

 

 

Average

 

 

 

 

 

Final MCO2,p,H/MCO2,c,H

 

 

 

 

 

2.5.3.1.2.   Vehicle Low (if applicable)

2.5.3.1.2.1.

Cycle Energy Demand: … J

2.5.3.1.2.2.

Road load coefficients

2.5.3.1.2.2.1.

f0, N: …

2.5.3.1.2.2.2.

f1, N/(km/h): …

2.5.3.1.2.2.3.

f2, N/(km/h) (2): …



CO2 Emission (g/km)

Test

Low

Medium

High

Extra High

Combined

MCO2,p,5/MCO2,c,5

1

 

 

 

 

 

2

 

 

 

 

 

3

 

 

 

 

 

Average

 

 

 

 

 

Final MCO2,p,L/MCO2,c,L

 

 

 

 

 

2.5.3.1.3.   Vehicle M (if applicable)

2.5.3.1.3.1.

Cycle Energy Demand: … J

2.5.3.1.3.2.

Road load coefficients

2.5.3.1.3.2.1.

f0, N: …

2.5.3.1.3.2.2.

f1, N/(km/h): …

2.5.3.1.3.2.3.

f2, N/(km/h) (2): …



CO2 Emission (g/km)

Test

Low

Medium

High

Extra High

Combined

MCO2,p,5/MCO2,c,5

1

 

 

 

 

 

2

 

 

 

 

 

3

 

 

 

 

 

Average

 

 

 

 

 

MCO2,p,M/MCO2,c,M

 

 

 

 

 

2.5.3.2.   CO2 mass emission charge depleting

Vehicle High



CO2 Emission (g/km)

Test

Combined

MCO2,CD

1

 

2

 

3

 

Average

 

Final MCO2,CD,H

 

Vehicle Low (if applicable)



CO2 Emission (g/km)

Test

Combined

MCO2,CD

1

 

2

 

3

 

Average

 

Final MCO2,CD,L

 

Vehicle M (if applicable)



CO2 Emission (g/km)

Test

Combined

MCO2,CD

1

 

2

 

3

 

Average

 

Final MCO2,CD,M

 

▼B

2.5.3.3.

CO2 mass emission (weighted, combined) ( 11 ):

Vehicle High: MCO2,weighted … g/km

Vehicle Low (if applicable): MCO2,weighted … g/km

Vehicle M (if applicable): MCO2,weighted … g/km

▼M3

2.5.3.3.1. Minimum and maximum CO2 values within the interpolation family.

▼B

2.5.3.4.

Fuel consumption Charge Sustaining



Vehicle High

Fuel Consumption (l/100 km)

Low

Medium

High

Extra High

Combined

Final values FCp,H / FCc,H

 

 

 

 

 



Vehicle Low (if applicable)

Fuel Consumption (l/100 km)

Low

Medium

High

Extra High

Combined

Final values FCp,L / FCc,L

 

 

 

 

 



Vehicle M (if applicable)

Fuel Consumption (l/100 km)

Low

Medium

High

Extra High

Combined

Final values FCp,M / FCc,M

 

 

 

 

 

▼M3

2.5.3.5.

Fuel consumption Charge Depleting

Vehicle High



Fuel consumption (l/100km)

Combined

Final values FCCD,H

 

Vehicle Low (if applicable)



Fuel consumption (l/100km)

Combined

Final values FCCD,L

 

Vehicle M (if applicable)



Fuel consumption (l/100km)

Combined

Final values FCCD,M

 

▼B

2.5.3.6.

Fuel consumption (weighted, combined) (11) :

Vehicle High: FCweighted … l/100 km

Vehicle Low (if applicable): FCweighted … l/100 km

Vehicle M (if applicable): FCweighted … l/100 km

2.5.3.7.

Ranges:

▼M3

2.5.3.7.1.   All Electric Range AER



AER (km)

Test

City

Combined

AER values

1

 

 

2

 

 

3

 

 

Average

 

 

Final values AER

 

 

▼B

2.5.3.7.2.   Equivalent All Electric Range EAER



EAER (km)

City

Combined

EAER values

 

 

2.5.3.7.3.   Actual Charge Depleting Range RCDA



RCDA (km)

Combined

RCDA values

 

▼M3

2.5.3.7.4.   Charge Depleting Cycle Range RCDC



RCDC (km)

Test

Combined

RCDC values

1

 

2

 

3

 

Average

 

Final values RCDC

 

▼B

2.5.3.8.

Electric consumption

2.5.3.8.1.   Electric Consumption EC



EC (Wh/km)

Low

Medium

High

Extra High

City

Combined

Electric consumption values

 

 

 

 

 

 

▼M3

2.5.3.8.2.   UF-weighted charge-depleting electric consumption ECAC,CD (combined)



ECAC,CD (Wh/km)

Test

Combined

ECAC,CD values

1

 

2

 

3

 

Average

 

Final values ECAC,CD

 

2.5.3.8.3.   UF-weighted electric consumption ECAC, weighted (combined)



ECAC,weighted (Wh/km)

Test

Combined

ECAC,weighted values

1

 

2

 

3

 

Average

 

Final values ECAC,weighted

 

Repeat 2.5.3. in case of base vehicle.

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2.5.4.

Fuel cell vehicles (FCV)



Fuel Consumption (kg/100 km)

Combined

Final values FCc

 

Repeat 2.5.4. in case of base vehicle.

2.5.5.

Device for monitoring the consumption of fuel and/or electric energy: yes/not applicable …

▼B

2.6.    Test results of eco-innovations ( 12 ) ( 13 )



Decision approving the eco-innovation (20)

Code of the eco-innovation (21)

Type 1/I cycle (22)

1.  CO2 emissions of the baseline vehicle (g/km)

2.  CO2 emissions of the eco-innovation vehicle (g/km)

3.  CO2 emissions of the baseline vehicle under type 1 test-cycle (23)

4.  CO2 emissions of the eco-innovation vehicle under type 1 test-cycle

5.  Usage factor (UF) i.e. temporal share of technology usage in normal operation conditions

CO2 emissions savings

((1 - 2) - (3 - 4)) * 5

xxx/201x

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Total CO2 emissions saving on NEDC (g/km) (24)

 

 

Total CO2 emissions saving on WLTP (g/km) (25)

 

2.6.1.

General code of the eco-innovation(s) ( 14 ): …

3.   VEHICLE REPAIR INFORMATION

3.1. Address of website for access to vehicle repair and maintenance information: …

3.1.1. Date from which it is available (up to 6 months from the date of type approval): …

3.2. Terms and conditions of access (i.e. duration of access, price of access on an hourly, daily, monthly, annual and per-transaction basis) to websites referred to in point 3.1): …

3.3. Format of vehicle repair and maintenance information accessible through website referred to in point 3.1: …

3.4. Manufacturer’s certificate on access to vehicle repair and maintenance information provided: …

4.   POWER MEASUREMENT

Maximum engine net power of internal combustion engine, net power and maximum 30 minutes power of electric drive train

4.1.    Internal combustion engine net power

4.1.1. Engine speed (min–1) …

4.1.2. Measured fuel flow (g/h) …

4.1.3. Measured torque (Nm) …

4.1.4. Measured power (kW) …

4.1.5. Barometric pressure (kPa) …

4.1.6. Water vapour pressure (kPa) …

4.1.7. Intake air temperature (K) …

4.1.8. Power correction factor when applied …

4.1.9. Corrected power (kW) …

4.1.10. Auxiliary power (kW) …

4.1.11. Net power (kW) …

4.1.12. Net torque (Nm) …

4.1.13. Corrected specific fuel consumption (g/kWh) …

4.2.    Electric drive train(s):

4.2.1.   Declared figures

4.2.2.

Maximum net power: … kW, at … min–1

4.2.3.

Maximum net torque: … Nm, at … min–1

4.2.4.

Maximum net torque at zero engine speed: … Nm

4.2.5.

Maximum 30 minutes power: … kW

4.2.6.

Essential characteristics of the electric drive train

4.2.7.

Test DC voltage: … V

4.2.8.

Working principle: …

4.2.9.

Cooling system:

4.2.10.

Motor: liquid/air (7) 

4.2.11.

Variator: liquid/air (7) 

5.   REMARKS: …

Explanatory Notes

(2) OJ L 171, 29.6.2007, p. 1.

(3) OJ L 175, 7.7.2017, p. 1.

(4) If the means of identification of type contains characters not relevant to describe the vehicle, component or separate technical unit types covered by this information, such characters shall be represented in the documentation by the symbol ‘?’ (e.g. ABC??123??)

(5) As defined in Annex II, Section A

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(5a) As defined in article 3, point 18 of Directive 2007/46/EC

▼B

(6) As defined in article 3, paragraph 39 of Directive 2007/46/EC

(8) Where applicable.

(9) Round to 2 decimal places

(10) Round to 4 decimal places

(11) Not applicable

(12) Mean value calculated by adding mean values (M.Ki) calculated for THC and NOx.

(13) Round to 1 decimal place more than limit value.

(14) Indicate the applicable procedure.

(20) Number of the Commission Decision approving the eco-innovation.

(21) Assigned in the Commission Decision approving the eco-innovation.

(22) Applicable Type 1 cycle: Annex XXI, Sub-Annex 4 or UN/ECE Regulation 83

(23) If modelling is applied instead of the type 1 test-cycle, this value shall be the one provided by the modelling methodology.

(24) Sum of the emissions saving of each individual eco-innovation on Type I according to UN/ECE Regulation 83.

(25) Sum of the emissions saving of each individual eco-innovation on Type 1 according to Annex XXI, Sub-Annex 4 of this regulation




Appendix to the Addendum to the Type Approval Certificate

Transitional period (correlation output)

(Transitional provision):

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1.   CO2 emissions determined in accordance with point 3.2. of Annex I to Implementing Regulations (EU) 2017/1152 and (EU) 2017/1153

▼B

1.1   Co2mpas version

1.2.   Vehicle High

1.2.1.   CO2 mass emissions (for each reference fuel tested)



CO2 Emission (g/km)

Urban

Extra Urban

Combined

MCO2,NEDC_H,co2mpas

 

 

 

1.3.   Vehicle Low (if applicable)

1.3.1.   CO2 mass emissions (for each reference fuel tested)



CO2 Emission (g/km)

Urban

Extra Urban

Combined

MCO2,NEDC_L,co2mpas

 

 

 

2.   CO2 emissions test results (if applicable)

2.1.   Vehicle High

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2.1.1.   CO2 mass emissions (for each reference fuel tested) for pure ICE and NOVC-HEV



CO2 Emission (g/km)

Urban

Extra Urban

Combined

MCO2,NEDC_H,test

 

 

 

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2.1.2.   OVC test results

2.1.2.1.   CO2 mass emissions for OVC-HEV



CO2 Emission (g/km)

Combined

MCO2,NEDC_H,test,condition A

 

MCO2,NEDC_H,test,condition B

 

MCO2,NEDC_H,test,weighted

 

▼B

2.2.   Vehicle Low (if applicable)

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2.2.1.   CO2 mass emissions (for each reference fuel tested) for pure ICE and NOVC-HEV



CO2 Emission (g/km)

Urban

Extra Urban

Combined

MCO2,NEDC_L,test

 

 

 

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2.2.2.   OVC test results

2.2.2.1.   CO2 mass emissions for OVC-HEV



CO2 Emission (g/km)

Combined

MCO2,NEDC_L,test,condition A

 

MCO2,NEDC_L,test,condition B

 

MCO2,NEDC_L,test,weighted

 

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3.   Deviation and verification factors (determined in accordance with point 3.2.8 of Implementing Regulation (EU) 2017/1152 and (EU) 2017/1153)



Deviation factor (if applicable)

 

Verification factor (if applicable)

‘1’ or ‘0’

Hash identifier code of the complete correlation file (point 3.1.1.2 of Annex I to Implementing Regulations (EU) 2017/1152 and (EU) 2017/1153

 

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4.   Final NEDC CO2 and fuel consumption values

4.1.   Final NEDC values (for each reference fuel tested) for pure ICE and NOVC-HEV



 

 

Urban

Extra Urban

Combined

CO2 Emission (g/km)

MCO2,NEDC_L, final

 

 

 

MCO2,NEDC_H, final

 

 

 

Fuel Consumption (l/100km)

FCNEDC_L, final

 

 

 

FCNEDC_H, final

 

 

 

4.2.   final NEDC values (for each reference fuel tested) for OVC-HEV

4.2.1.

CO2 Emission (g/km): see points 2.1.2.1. and 2.2.2.1.

4.2.2.

Electric energy consumption (Wh/km): see points 2.1.2.2. and 2.2.2.2.

4.2.3.

Fuel consumption (l/100 km)



Fuel consumption (l/100 km)

Combined

FCNEDC_L,test,condition A

 

FCNEDC_L,test,condition B

 

FCNEDC_L,test,weighted

 

▼B




Appendix 5

Vehicle OBD information

1.

The information required in this Appendix shall be provided by the vehicle manufacturer for the purposes of enabling the manufacture of OBD-compatible replacement or service parts and diagnostic tools and test equipment.

2.

Upon request, the following information shall be made available to any interested component, diagnostic tools or test equipment manufacturer, on a non-discriminatory basis:

2.1. A description of the type and number of the preconditioning cycles used for the original type-approval of the vehicle;

2.2. A description of the type of the OBD demonstration cycle used for the original type-approval of the vehicle for the component monitored by the OBD system;

2.3. A comprehensive document describing all sensed components with the strategy for fault detection and MI activation (fixed number of driving cycles or statistical method), including a list of relevant secondary sensed parameters for each component monitored by the OBD system and a list of all OBD output codes and format used (with an explanation of each) associated with individual emission-related power-train components and individual non-emission related components, where monitoring of the component is used to determine MI activation. In particular, a comprehensive explanation for the data given in service $ 05 Test ID $ 21 to FF and the data given in service $ 06 shall be provided. In the case of vehicle types that use a communication link in accordance with ISO 15765-4 ‘Road vehicles — Diagnostics on Controller Area Network (CAN) — Part 4: Requirements for emissions-related systems’, a comprehensive explanation for the data given in service $ 06 Test ID $ 00 to FF, for each OBD monitor ID supported, shall be provided.

This information may be provided in the form of a table, as follows:



Component

Fault code

Monitoring strategy

Fault detection criteria

MI activation criteria

Secondary parameters

Preconditioning

Demonstration test

Catalyst

P0420

Oxygen sensor 1 and 2 signals

Difference between sensor 1 and sensor 2 signals

3rd cycle

Engine speed, engine load, A/F mode, catalyst temperature

e.g. Two Type 1 cycles (as described in Annex III of Regulation (EC) No 692/2008 or in Annex XXI to Regulation (EU) 2017/1151)

e.g. Type 1 test (as described in Annex III of Regulation (EC) No 692/2008 or in Annex XXI to Regulation (EU) 2017/1151)

3.

INFORMATION REQUIRED FOR THE MANUFACTURE OF DIAGNOSTIC TOOLS

In order to facilitate the provision of generic diagnostic tools for multi-make repairers, vehicle manufacturers shall make available the information referred to in the points 3.1 to 3.3. through their repair information web-sites. This information shall include all diagnostic tool functions and all the links to repair information and troubleshooting instructions. The access to this information may be subject to the payment of a reasonable fee.

3.1.    Communication Protocol Information

The following information shall be required indexed against vehicle make, model and variant, or other workable definition such as VIN or vehicle and systems identification:

(a) Any additional protocol information system necessary to enable complete diagnostics in addition to the standards prescribed in Section 4 of Annex XI, including any additional hardware or software protocol information, parameter identification, transfer functions, ‘keep alive’ requirements, or error conditions;

(b) Details of how to obtain and interpret all fault codes not in accordance with the standards prescribed in Section 4 of Annex XI:

(c) A list of all available live data parameters including scaling and access information;

(d) A list of all available functional tests including device activation or control and the means to implement them;

(e) Details of how to obtain all component and status information, time stamps, pending DTC and freeze frames;

(f) Resetting adaptive learning parameters, variant coding and replacement component setup, and customer preferences;

(g) ECU identification and variant coding;

(h) Details of how to reset service lights;

(i) Location of diagnostic connector and connector details;

(j) Engine code identification.

3.2.    Test and diagnosis of OBD monitored components

The following information shall be required:

(a) A description of tests to confirm its functionality, at the component or in the harness

(b) Test procedure including test parameters and component information

(c) Connection details including minimum and maximum input and output and driving and loading values

(d) Values expected under certain driving conditions including idling

(e) Electrical values for the component in its static and dynamic states

(f) Failure mode values for each of the above scenarios

(g) Failure mode diagnostic sequences including fault trees and guided diagnostics elimination.

3.3.    Data required to perform the repair

The following information shall be required:

(a) ECU and component initialisation (in the event of replacements being fitted)

(b) Initialisation of new or replacement ECUs where relevant using pass-through (re-) programming techniques.




Appendix 6

EC Type–Approval Certification Numbering System

1.

Section 3 of the EC type-approval number issued according to Article 6(1) shall be composed by the number of the implementing regulatory act or the latest amending regulatory act applicable to the EC type-approval. This number shall be followed by one or more characters reflecting the different categories in accordance with Table 1.

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Table 1

Character

Emission standard

OBD standard

Vehicle category and class

Engine

Implementation date: new types

Implementation date: new vehicles

Last date of registration

AA

Euro 6c

Euro 6-1

M, N1 class I

PI, CI

 

 

31.8.2018

BA

Euro 6b

Euro 6-1

M, N1 class I

PI, CI

 

 

31.8.2018

AB

Euro 6c

Euro 6-1

N1 class II

PI, CI

 

 

31.8.2019

BB

Euro 6b

Euro 6-1

N1 class II

PI, CI

 

 

31.8.2019

AC

Euro 6c

Euro 6-1

N1 class III, N2

PI, CI

 

 

31.8.2019

BC

Euro 6b

Euro 6-1

N1 class III, N2

PI, CI

 

 

31.8.2019

AD

Euro 6c

Euro 6-2

M, N1 class I

PI, CI

 

1.9.2018

31.8.2019

AE

Euro 6c-EVAP

Euro 6-2

N1 class II

PI, CI

 

1.9.2019

31.8.2020

AF

Euro 6c-EVAP

Euro 6-2

N1 class III, N2

PI, CI

 

1.9.2019

31.8.2020

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AG

Euro 6d-TEMP

Euro 6-2

M, N1 class I

PI, CI

1.9.2017 (1)

 

31.8.2019

BG

Euro 6d-TEMP-EVAP

Euro 6-2

M, N1 class I

PI, CI

 

 

31.8.2019

CG

Euro 6d-TEMP-ISC

Euro 6-2

M, N1 class I

PI, CI

1.1.2019

 

31.8.2019

DG

Euro 6d-TEMP-EVAP-ISC

Euro 6-2

M, N1 class I

PI, CI

1.9.2019

1.9.2019

31.12.2020

AH

Euro 6d-TEMP

Euro 6-2

N1 class II

PI, CI

1.9.2018 (1)

 

31.8.2019

▼C3

BH

Euro 6d-TEMP-EVAP

Euro 6-2

N1 class II

PI, CI

 

 

31.8.2020

▼M3

CH

Euro 6d-TEMP-EVAP-ISC

Euro 6-2

N1 class II

PI, CI

1.9.2019

1.9.2020

31.12.2021

AI

Euro 6d-TEMP

Euro 6-2

N1 class III, N2

PI, CI

1.9.2018 (1)

 

31.8.2019

▼C3

BI

Euro 6d-TEMP-EVAP

Euro 6-2

N1 class III, N2

PI, CI

 

 

31.8.2020

▼M3

CI

Euro 6d-TEMP-EVAP-ISC

Euro 6-2

N1 class III, N2

PI, CI

1.9.2019

1.9.2020

31.12.2021

AJ

Euro 6d

Euro 6-2

M, N1 class I

PI, CI

 

 

31.8.2019

AK

Euro 6d

Euro 6-2

N1 class II

PI, CI

 

 

31.8.2020

AL

Euro 6d

Euro 6-2

N1 class III, N2

PI, CI

 

 

31.8.2020

AM

Euro 6d-ISC

Euro 6-2

M, N1 class I

PI, CI

 

 

31.12.2020

AN

Euro 6d-ISC

Euro 6-2

N1 class II

PI, CI

 

 

31.12.2021

AO

Euro 6d-ISC

Euro 6-2

N1 class III, N2

PI, CI

 

 

31.12.2021

AP

Euro 6d-ISC-FCM

Euro 6-2

M, N1 class I

PI, CI

1.1.2020

1.1.2021

 

AQ

Euro 6d-ISC-FCM

Euro 6-2

N1 class II

PI, CI

1.1.2021

1.1.2022

 

AR

Euro 6d-ISC-FCM

Euro 6-2

N1 class III, N2

PI, CI

1.1.2021

1.1.2022

 

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AX

n.a.

n.a.

All vehicles

Battery full electric

 

 

 

AY

n.a.

n.a.

All vehicles

Fuel cell

 

 

 

AZ

n.a.

n.a.

All vehicles using certificates according to point 2.1.1 of Annex I

PI, CI

 

 

 

(1)   This limitation does not apply if a vehicle was type-approved in accordance with the requirements of Regulation (EC) No 715/2007 and its implementing legislation prior to 1 September 2017 in the case of category M and N1 class I vehicles, or prior to 1 September 2018 in the case of category N1 class II and III and category N2 vehicles, according to the last subparagraph of Article 15(4).

Key:

‘Euro 6-1’ OBD standard = Full Euro 6 OBD requirements but with preliminary OBD threshold limits as defined in point 2.3.4 of Annex XI and partially relaxed IUPR;

‘Euro 6-2’ OBD standard = Full Euro 6 OBD requirements but with final OBD threshold limits as defined in point 2.3.3 of Annex XI;

‘Euro 6b’ emissions standard = Euro 6 emission requirements including revised measurement procedure for particulate matter, particle number standards (preliminary values for PI direct injection);

‘Euro 6c’ emissions standard = RDE NOx testing for monitoring only (no NTE emission limits applied), otherwise full Euro 6 tailpipe emission requirements (including PN RDE);

‘Euro 6c-EVAP’ emissions standard = RDE NOx testing for monitoring only (no NTE emission limits applied), otherwise full Euro 6 tailpipe emission requirements (including PN RDE), revised evaporative emissions test procedure;

‘Euro 6d-TEMP’ emissions standard = RDE NOx testing against temporary conformity factors, otherwise full Euro 6 tailpipe emission requirements (including PN RDE);

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‘Euro 6d-TEMP-ISC’ emissions standard = RDE testing against temporary conformity factors, full Euro 6 tailpipe emission requirements (including PN RDE) and new ISC procedure;‘Euro 6d-TEMP-EVAP-ISC'’ emissions standard = RDE NOx testing against temporary conformity factors, full Euro 6 tailpipe emission requirements (including PN RDE), 48H evaporative emissions test procedure and new ISC procedure;

▼M2

‘Euro 6d-TEMP-EVAP’ emissions standard = RDE NOx testing against temporary conformity factors, otherwise full Euro 6 tailpipe emission requirements (including PN RDE), revised evaporative emissions test procedure;

‘Euro 6d’ emissions standard = RDE testing against final conformity factors, otherwise full Euro 6 tailpipe emission requirements, revised evaporative emissions test procedure;

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‘Euro 6d-ISC' RDE’ = testing against final conformity factors, full Euro 6 tailpipe emission requirements, 48H evaporative emissions test procedure and new ISC procedure;‘Euro 6d-ISC-FCM' RDE’ = testing against final conformity factors, full Euro 6 tailpipe emission requirements, 48H evaporative emissions test procedure, devices for monitoring the consumption of fuel and/or electric energy and new ISC procedure.

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▼B

2.

EXAMPLES OF TYPE–APPROVAL CERTIFICATION NUMBERS

2.1 An example is provided below of an approval of a Euro 6 light passenger car to the 'Euro 6d' emission standard and 'Euro 6-2' OBD standard, identified by the characters AJ according to table 1, issued by Luxembourg, identified by the code e13. The approval was granted for the base Regulation (EC) 715/2007 and its implementing Regulation (EC) xxx/2016 without any amendments. It is the 17th approval of this kind without any extension, so the fourth and fifth components of the certification number are 0017 and 00, respectively.

image

2.2 This second example shows an approval of a Euro 6 N1 class II light commercial vehicle to the 'Euro 6d-TEMP' emission standard and 'Euro 6-2' OBD standard, identified by the characters AH according to table 1, issued by Romania, identified by the code e19. The approval was granted for the base Regulation (EC) 715/2007 and its implementing legislation as last amended by a Regulation xyz/2018. It is the 1st approval of this kind without extension, so the fourth and fifth components of the certification number are 0001 and 00, respectively.

image




Appendix 7

image

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Appendix 8a

Test Reports

A Test Report is the report issued by the technical service responsible for conducting the tests according this regulation.

PART I

The following information, if applicable, is the minimum data required for the Type 1 test.

REPORT number



APPLICANT

 

Manufacturer

 

SUBJECT

Roadload family identifier(s)

:

 

Interpolation family identifier(s)

:

 

Object submitted to tests

 

Make