1. LEGISLATIVE PROVISIONS

1.1. Name of Standard

1.1.1. This standard is the Vehicle Standard (Australian Design Rule 79/05 – Emission Control for Light Vehicles) 2024.

1.1.2. This standard may also be cited as Australian Design Rule 79/05 – Emission Control for Light Vehicles, the Australian Design Rule 79/05, or ADR 79/05

1.2. Commencement

1.2.1. This standard commences on the day after it is registered.

2. FUNCTION

2.1. The function of this vehicle standard is to set exhaust emissions requirements for light vehicles to reduce the burden of disease caused by air pollution.

3. APPLICABILITY

3.1. This vehicle standard applies to category MA, MB, MC, MD, and NA vehicles with a gross vehicle mass not exceeding 3,500kg from the dates set out in clauses 3.1.1 to 3.1.2 and the table under clause 3.3 below, notwithstanding clause 1.1 of Appendix A.

3.1.1. 1 December 2025 for all new model vehicles.

3.1.2. 1 July 2028 for all vehicles.

3.2. For the purposes of clause 3.1.1 above, a “new model” is a vehicle model first produced with a ‘Date of Manufacture’ on or after the agreed date in that clause.

3.3. Applicability Table

Vehicle Category		ADR Category Code	UN Category Code [*]	Manufactured on or After [**]	Acceptable Prior Rules
Moped 2 wheels		LA	L1	Not Applicable
Moped 3 wheels		LB	L2	Not Applicable
Motor cycle		LC	L3	Not Applicable
Motor cycle and sidecar		LD	L4	Not Applicable
Motor tricycle		LE	L5
		LEM		Not Applicable
		LEP		Not Applicable
		LEG		Not Applicable
Passenger car		MA	M1	1 December 2025	Nil
Forward-control passenger vehicle		MB	M1	1 December 2025	Nil
Off-road passenger vehicle		MC	M1	1 December 2025	Nil

Light omnibus		MD	M2
	up to 3.5 tonnes ‘GVM’ and up to 12 seats	MD1		1 December 2025	Nil
	up to 3.5 tonnes ‘GVM’ and more than 12 seats	MD2		1 December 2025	Nil
	over 3.5 tonnes and up to 4.5 tonnes ‘GVM’	MD3		Not Applicable
	over 4.5 tonnes and up to 5 tonnes ‘GVM’	MD4		Not Applicable
Heavy omnibus		ME	M3	Not Applicable
Light goods vehicle		NA	N1	1 December 2025	Nil
Medium goods vehicle		NB	N2	Not Applicable
	over 3.5 tonnes up to 4.5 tonnes ‘GVM’	NB1
	over 4.5 tonnes up to 12 tonnes ‘GVM’	NB2
Heavy goods vehicle		NC	N3	Not Applicable
Very light trailer		TA	O1	Not Applicable
Light trailer		TB	O2	Not Applicable
Medium trailer		TC	O3	Not Applicable
Heavy trailer		TD	O4	Not Applicable

4. DEFINITIONS

4.1. For vehicle categories, definitions and meanings used in this standard, refer to:

4.1.1 Definitions in Appendix A of this standard; and where there is no conflict

4.1.2 Vehicle Standard (Australian Design Rule – Definitions and Vehicle Categories) 2005.

4.1.3 Supporting Information has the same meaning as in the Road Vehicle Standards Rules 2019.

4.1.4 Pure Electric Vehicle has the same meaning as in the Vehicle Standard (Australian Design Rule 111/00 – Advanced Emission Control for Light Vehicles) 2024.

4.1.5 Fuel cell vehicle has the same meaning as in the Vehicle Standard (Australian Design Rule 111/00 – Advanced Emission Control for Light Vehicles) 2024.

4.2 For Vehicle Category Definitions refer to:

4.2.1 Vehicle Standard (Australian Design Rule – Definitions and Vehicle Categories) 2005.

5. REQUIREMENTS

5.1. Subject to 5.1.1 and 5.1.2, all vehicles must comply with either:

a) the requirements of Appendix A, as varied by Section 6 - Exemptions and Alternative Procedures, together with the requirements of ADR 111/00 and ADR 112/00; or

b) the technical requirements of one of the alternative standards set out in Section 7.

5.1.1. Pure Electric Vehicles need not comply with the requirements of clause 5.1, if the vehicle complies with ADR 111/00 and is fitted with a label or other emblem indicating the vehicle is a Battery Electric Vehicle or BEV.

5.1.2 Fuel Cell Vehicles that operate on hydrogen need not comply with the requirements of clause 5.1, if the vehicle complies with ADR 111/00 and is fitted with a label or other emblem indicating the vehicle is a Hydrogen Fuel Cell Vehicle or HFCV.

6. EXEMPTIONS AND ALTERNATIVE PROCEDURES

6.1. Compliance with the following parts, sections and annexes of Appendix A is not required for the purposes of this standard:

Section 3. Application for approval, with the exception of Clauses 3.4.1 and 3.4.9 (see 6.2 below)

Section 4 Approval

Section 7 Extensions to type approvals

Section 8. Conformity of production (COP)

Section 9. In-service conformity

Section 10. Penalties for non-conformity of production

Section 11. Production definitively discontinued

Section 12. Transitional provisions

Section 13. Names and addresses of technical services responsible for conducting approval tests, and of Type Approval Authorities

Annexes

Annex 1 Engine and vehicle characteristics and information concerning the conduct of tests

Annex 1 - Appendix 1 Test report

Annex 2 Communication

Annex 3 Arrangements of the approval mark

Annex 4 In-service conformity methodology

Annex 4 - Appendix 1 Criteria for vehicle selection and failed vehicles decision

Annex 4 - Appendix 2 Rules for performing Type 4 tests during in-service conformity

Annex 4 - Appendix 3 ISC report

Annex 4 - Appendix 4 Annual ISC report by the granting Type Approval Authority

Annex 4 - Appendix 5 Transparency lists

6.2 The documentation required in the following parts of Appendix A are not required to be submitted in an application to obtain a road vehicle type approval or component type approval to this vehicle standard under Section 16 or 174 of the Road Vehicle Standards Rules, but shall be recorded in the ‘Supporting Information’ held by the ‘Manufacturer’ and shall be provided to the Department on request:

Clauses 3.4.1 and 3.4.9

Section 5.3.2

Section 5.3.3

Section 5.3.5

Annex 11

6.3. The reference to ‘Table A4a/3 of Annex 4a of the 07 series of amendments to this Regulation’ in Clause 2.1.1 of Appendix A is amended to read: ‘Table 3 of Annex 4a of Appendix A of ADR 79/04’

6.4 The reference to ‘paragraph 6.1.1. of Annex 4a to the 07 series of amendments to this Regulation, and illustrated in Figure A4a/1 of the same annex’ in Clause 5.3.5.1.2 of Appendix A is amended to read ‘paragraph 6.1.1. of Annex 4a of Appendix A of ADR 79/04, and illustrated in figure 1 of the same annex.’

6.5 Subject to 6.5.1 to 6.5.6 references to ‘the 07 series of amendments to this Regulation’ (wherever occurring) in Annex 8 of Appendix A, are amended to read ‘Annex 4a of Appendix A of ADR 79/04’.

6.5.1 Clause 2.2.1 of Annex 8 of Appendix A is amended to read:

The requirements of Appendix 1 to Annex 4a of Appendix A of ADR 79/04 apply. The dynamometer shall be adjusted to simulate the operation of a vehicle on the road at 266 K (-7 °C). Such adjustment may be based on a determination of the road load force profile at 266 K (-7 °C). Alternatively, the driving resistance determined according to Appendix 7 of Annex 4a of Appendix A of ADR 79/04 may be adjusted for a 10 per cent decrease of the coast-down time. Other methods consistent with those approved by a technical service may be used to determine the driving resistance. The method used must be recorded in the applicant’s ‘Supporting Information’ and provided to the Department on request.

6.5.2 The references to ‘Figure A4a/1 in Annex 4a to the 07 series of amendments to this Regulation’ in Clause 3.2 of Annex 8 of Appendix A is amended to read ‘Figure 1 of Annex 4a of Appendix A of ADR 79/04’.

6.5.3 The reference to ‘Table A4a/1 and Figure A4a/1 in Annex 4a to the 07 series of amendments to this Regulation in’ Clause 3.2.1 of Annex 8 of Appendix A are amended to read ‘Table 1 and Figure 1 in Annex 4a of Appendix A of ADR 79/04’.

6.5.4 The reference to ‘Tables A4a/1 and A4a/2 and Figure A4a/1 of Annex 4a to the 07 series of amendments to this Regulation’ in Clause 4.2.3 of Annex 8 of Appendix A are amended to read ‘Tables 1 and 2 and Figure 1 of Annex 4a of Appendix A of ADR 79/04’.

6.5.5 Clause 4.2.7 of Annex 8 of Appendix A is amended to read:

The ‘Manufacturer’ may conduct additional preconditioning in exceptional cases consistent with those approved previously by a Technical Service. The additional preconditioning consists of one or more driving schedules of the Part One cycle as described in Table 1 and Figure 1 of Annex 4a of Appendix of ADR 79/04. The extent of such additional preconditioning shall be recorded must be recorded in the applicant’s ‘Supporting Information’ and provided to the Department on request.’

6.5.6 The reference to ‘Annex 4a to the 07 series of amendments to this Regulation, Table A4a/1 and Figure A4a/1’ in Clause 5.1.1 of Annex 8 of Appendix A, is amended to read ‘Annex 4a, Table 1 and Figure 1 of Appendix A of ADR 79/04’.

6.6. The reference to ‘Technical Service’ in Clause 5.3.2 of Annex 8 of Appendix A shall be read as ‘Approved Testing Facility’.

7. ALTERNATIVE STANDARDS

UN Regulation No. 83

7.1. The technical requirements of United Nations Regulation No. 83 - Uniform provisions concerning the approval of vehicles with regard to the emission of pollutants according to engine fuel requirements incorporating the 08 series of amendments.

Note: The 08 series of amendments to United Nations (UN) Regulation 83 Uniform provisions concerning the approval of vehicles with regard to the emission of pollutants according to engine fuel requirements (ECE/TRANS/WP.29/2023/57) was adopted by the Administrative Committee for the United Nations 1958 Agreement Concerning the Adoption of Harmonized Technical United Nations Regulations for Wheeled Vehicles, Equipment and Parts which can be Fitted and/or be Used on Wheeled Vehicles and the Conditions for Reciprocal Recognition of Approvals Granted on the Basis of these United Nations Regulations (the UN 1958 Agreement) on 21 June 2023. Vehicles complying the technical requirements of this regulation will be accepted as complying with this ADR, once it enters into force under the UN 1958 Agreement.

UN Regulation No. 49

7.2. Subject to Clauses 7.2.1 to 7.2.5, the technical requirements of United Nations Regulation No. 49 – Uniform provisions concerning the measures to be taken against the emission of gaseous and particulate pollutants from compression-ignition engines and positive ignition engines for use in vehicles, incorporating all amendments up to and including Supplement 4 to the 06 series of amendments or later.

7.2.1 Engines must satisfy the relevant useful life provisions, not to exceed test requirements, and rules regarding use of auxiliary emission control devices or systems applicable to engines meeting the requirements of Clause 7.2.

7.2.2 The on board diagnostic system must comply with:

(a) if the vehicle is fitted with a compression ignition or dual-fuel engine:

(i) the PM Mass OTL monitoring requirements as set out in the row "general requirements" of Table 1 of Annex 9A of this regulation; and

(ii) the NOx OTL monitoring requirements as set out in the row "general requirements" of Table 2 of Annex 9A of this regulation.

(b) if the vehicle is fitted with a positive ignition engine: the NOx and CO OTL monitoring requirements as set out in the row "general requirements" of Table 2 of Annex 9A of this regulation.

(c) if the vehicle is fitted with an engine that uses a consumable reagent to reduce emissions: the reagent quality and consumption "general" requirements as set out in paragraphs 7.1.1. and 8.4.1 of this regulation.

7.2.3 Engines fitted with a heated reagent tank and dosing system may comply with the requirements applicable to non-heated reagent tanks and dosing systems in Clause 2.4.3 of Annex 11 of this regulation in lieu of the requirements applicable to heated reagent tanks and dosing systems in Clause 2.4.2 of Annex 11 of this regulation.

7.2.4. Except where referenced in Annex 10, compliance with Annex 8 of this regulation is not required for the purposes of this vehicle standard.

7.2.5 For the purposes of the PEMS test required by Annex 10 of this regulation, vehicles/engine families shall comply with the maximum allowed conformity factor applicable to the stage they are demonstrating compliance to, as specified in Table 1 of Annex 3 of this regulation.

EU Regulations 715/2007 and 2017/1151

7.3 Subject to 7.3.1, the ‘Euro 6d’ or ‘Euro 6e’ technical requirements of Commission Regulation (EC) No 2017/1151 of the European Parliament and of the Council 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.

7.3.1 EC or UK type approval certificates for the vehicle or engine type are acceptable as evidence of compliance with this standard, if compliance with the requirements of clause 7.3 can be ascertained from the type approval. If the approval certificate is not written in English, it must be accompanied by English translation by a translator accredited by the National Accreditation Authority for Translators and Interpreters.

US EPA CFR

7.4. Subject to clauses 7.4.1 to 7.4.3, the technical requirements of the United States Code of Federal Regulations (CFR) Title 40, Part 86 – Control of air pollution from new and in-use motor vehicles and new and in-use motor vehicle engines certification and test procedures, Tier 3 requirements as specified by Subpart S §86.1811-17 Exhaust Emission standards for light-duty vehicles, light-duty trucks and medium-duty passenger vehicles.

7.4.1 Engines must comply with the evaporative emission requirements in §86.1813-17, plus the useful life provisions, not to exceed test requirements, on board diagnostic system requirements and rules regarding use of auxiliary emission control devices or systems applicable to engines meeting the requirements of Clause 7.4.

7.4.2 Certificates of conformity issued by the US EPA or test reports demonstrating compliance to the Tier 3 exhaust emission standards for light-duty vehicles for the vehicle type are acceptable as evidence of compliance to this vehicle standard.

7.4.3 The Department may test or require testing on any vehicle at a designated location, using driving cycles and conditions that may reasonably be expected to be encountered in normal operation and use, for the purposes of investigating a potential defeat device.

APPENDIX A

Uniform provisions concerning the approval of vehicles with regard to the emission of pollutants according to engine fuel requirements

Text based on the 08 series of amendments to UN Regulation No. 83 (ECE/TRANS/WP.29/2023/57), as adopted by the Administrative Committee for the United Nations 1958 Agreement Concerning the Adoption of Harmonized Technical United Nations Regulations for Wheeled Vehicles, Equipment and Parts which can be Fitted and/or be Used on Wheeled Vehicles and the Conditions for Reciprocal Recognition of Approvals Granted on the Basis of these United Nations Regulations on 21 June 2023.

Contents

1. Scope

2. Definitions

3. Application for approval

4. Approval

5. Specifications and tests

6. Reserved

7. Extensions to type approvals

8. Conformity of production (COP)

9. In-service conformity

10. Penalties for non-conformity of production

11. Production definitively discontinued

12. Transitional provisions

13. Names and addresses of technical services responsible for conducting approval tests, and of Type
Approval Authorities

Annexes

1 Engine and vehicle characteristics and information concerning the conduct of tests

Appendix 1 - Test report

Appendix 2 - Reserved

Appendix 3A – Documentation Packages

Appendix 3B - Methodology for the assessment of AES

2 Communication

Appendix 1 - Reserved

Appendix 2 - Manufacturer's certificate of compliance with the OBD in-use performance
requirements

3 Arrangements of the approval mark

4 In-service conformity methodology

Appendix 1 - Criteria for vehicle selection and failed vehicles decision

Appendix 2 - Rules for performing Type 4 tests during in-service conformity

Appendix 3 - ISC report

Appendix 4 - Annual ISC report by the granting Type Approval Authority

Appendix 5 - Transparency lists

5 Type 2 test

6 Type 3 test

7 Reserved

8 Type 6 test

9 Reserved

10 Specifications of reference fuels

10a Specifications of gaseous reference fuels

11 On-Board Diagnostics (OBD) – In-use Performance Requirements

1. Scope

This Regulation establishes technical requirements for the type approval of motor vehicles with regard to idling emissions (Type 2 test), crankcase emissions (Type 3 test) and exhaust emissions at low ambient temperature (Type 6 test) for emissions of gaseous compounds.

In addition, this Regulation lays down rules for in-service conformity.

1.1. This Regulation shall apply to vehicles of categories M1, M2, N1 and N2 with a reference mass not exceeding 2,610 kg.[1]

At the manufacturer's request, type approval granted under this Regulation may be extended from vehicles mentioned above to M1, M2, N1 and N2 vehicles with a reference mass not exceeding 2,840 kg and which meet the conditions laid down in this Regulation.

At the manufacturer's request, type approval granted under this Regulation may be extended from vehicles mentioned above to special purpose vehicles of categories M1, M2, N1 and N2 regardless of their reference mass. The manufacturer shall demonstrate to the type approval authority which granted the type approval that the vehicle in question is a special purpose vehicle.1

2. Definitions

For the purposes of this Regulation the definitions in UN Regulation No. 154 shall apply, unless specified otherwise below, in which case the following definitions shall apply:

2.1. "Vehicle type" means a group of vehicles that do not differ in the following respects:

2.1.1. The equivalent inertia determined in relation to the reference mass as prescribed in Table A4a/3 of Annex 4a of the 07 series of amendments to this Regulation; and

2.1.2. The engine and vehicle characteristics as defined in Annex 1 to this Regulation.

2.2. Reserved

2.3. "Maximum mass" means the technically permissible maximum mass declared by the vehicle manufacturer (this mass may be greater than the maximum mass authorised by the national administration).

2.4. - 2.7. Reserved

2.8. "Crankcase" means the spaces in or external to an engine which are connected to the oil sump by internal or external ducts through which gases and vapour can escape.

2.9. - 2.11. Reserved

2.12. "Pollution control devices" means those components of a vehicle that control and/or limit exhaust and evaporative emissions.

2.13. Reserved

2.14. "In-service Conformity test" means the test and evaluation of conformity conducted in accordance with paragraph 9 and Annex 4 of this Regulation.

2.15. "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 Appendix 1 to Annex 4.

2.16. – 2.18. Reserved

2.19. "Approval of a vehicle" means the approval of a vehicle type with regard to the scope of this Regulation.

2.20. - 2.25. Reserved

2.26. "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.

2.27. – 2.34. Reserved

2.35. "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.

2.36. "Real driving emissions (RDE)" means the emissions of a vehicle under its normal conditions of use.

2.37. "Portable emissions measurement system (PEMS)" means a portable emissions measurement system meeting the requirements specified in Appendix 1 to Annex IIIA.

2.38. "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.

2.39. "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.

2.40. "Third party" means a party with legitimate interest and the resources to testing facilities with accreditation in accordance with EN ISO/IEC 17020 and EN ISO/IEC 17025.

3. Application for approval

3.1. The application for approval of a vehicle type with regard to idling emissions, crankcase emissions and exhaust emissions at low ambient temperature shall be submitted by the vehicle manufacturer or by their authorized representative to the type approval authority.

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

(a) A declaration by the manufacturer that the OBD system complies with the provisions of paragraph 7 of Appendix 1 to Annex C5 of UN Regulation No. 154 and paragraph 1 of Annex 11 to this Regulation relating to in-use performance under all reasonably foreseeable driving conditions;

(b) A description of the provisions taken to prevent tampering with and modification of the emission control systems, including the emission control computer and odometer including the recording of mileage values;

(d) Demonstration of compliance with Part III of UN Regulation No. 24 (if applicable), UN Regulation No. 85, Level 1a or Level 2 of UN Regulation No. 154 and UN Regulation No. 168 on RDE (if applicable).

3.2. A model of the information document relating to exhaust emissions is given in Annex 1 to this Regulation.

3.3. For the tests described in paragraph 5. of this Regulation a vehicle representative of the vehicle type to be approved shall be submitted to the Technical service responsible for the approval tests.

3.3.1. The application referred to in paragraph 3.1. of this Regulation shall be drawn up in accordance with the model of the information document set out in Annex 1 to this Regulation.

3.3.2. For the purposes of paragraph 3.1.1.(a), the manufacturer shall use the model of a manufacturer's certificate of compliance with the OBD in-use performance requirements set out in Appendix 2 to Annex 2 to this Regulation.

3.3.3. – 3.3.4. Reserved

3.3.5. For the purposes of paragraph 3.1.1.(b) of this Regulation, 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.

3.3.6. For the tests specified in Table A, the manufacturer shall submit to the Technical service responsible for the type approval tests a vehicle representative of the type to be approved.

3.3.7. The application for type approval of flex-fuel vehicles shall comply with the additional requirements laid down in paragraph 5.8. of UN Regulation No. 154.

3.3.8. 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.

3.4. Extended documentation package

3.4.1. 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 paragraph 5.1.7., the manufacturer shall also provide an extended documentation package, as described in Appendix 3a to Annex 1 to this Regulation.

3.4.2. For vehicles approved under the character EB and EC as defined in Table A3/1, Annex 3, the manufacturer shall introduce an indicator (AES Flag or Timer) to indicate when a vehicle runs in AES mode instead of BES mode. The indicator shall be available via the serial port of a standard diagnostic connector upon request of a generic scan-tool. The AES that is running shall be identifiable via the formal documentation package, as in Appendix 3a to Annex 1.

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

3.4.4. At the request of the manufacturer, the type 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.

3.4.5. The type 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 1, provided by the manufacturer. The type approval authority shall make the assessment in accordance with the methodology described in Appendix 3b to Annex 1. The type approval authority may deviate from that methodology in exceptional and duly justified cases.

3.4.6. 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 type approval authority proof that no new technologies have become accessible in the market that would change the preliminary assessment of the AES.

3.4.7. The type approval authority may test the functioning of AES.

3.4.8. A list of AES which were deemed non-acceptable by type approval authorities shall be compiled yearly by a Contracting Party on request of a regional authority.

3.4.9. The manufacturer shall also provide to the type approval authorities a formal documentation package, as in Appendix 3a to Annex 1, containing information on AES/BES that would allow an independent tester to identify if the emissions measured can be attributed to an AES or BES strategy or are potentially due to a defeat device. The formal documentation package shall be made available upon request.

3.4.10. Vehicles of category M1 or N1 shall be approved with emission characters EA, EB or EC as specified in Table A3/1, Annex 3, taking into account the utility factors determined in accordance with the values specified in Table A8.App5/1 of paragraph 3.2. of Annex B8 to UN Regulation No. 154.

3.5. The manufacturer shall also provide the type approval authority which granted the emission type approval under this Regulation (‘granting type approval authority’) with a package on testing transparency containing the necessary information in order to allow the performance of testing in accordance with paragraph 5.9. of Annex 4.

4. Approval

4.1. If the vehicle type submitted for approval following this amendment meets the requirements of paragraph 5. of this Regulation, approval of that vehicle type shall be granted.

4.2. An approval number shall be assigned to each type approved.

4.2.1. The type approval number shall consist of four sections. Each section shall be separated by the '*' character.

Section 1: The capital letter 'E' followed by the distinguishing number of the Contracting Party which has granted the type approval [2].

Section 2: The number 83, followed by the letter 'R', successively followed by:

(a) Two digits (with leading zeros as applicable) indicating the series of amendments incorporating the technical provisions of the UN Regulation applied to the approval (00 for the UN Regulation in its original form);

(b) A slash (/) and two digits (with leading zeros as applicable) indicating the number of supplement to the series of amendments applied to the approval (00 for the series of amendments in its original form);

(c) A slash (/) and two characters indicating the emission standard (e.g. EA, EB or EC) as defined in Table A3/1, Annex 3.

Section 3: A four-digit sequential number (with leading zeros as applicable). The sequence shall start from 0001.

Section 4: A two-digit sequential number (with leading zeros if applicable) to denote the extension. The sequence shall start from 00.

All digits shall be Arabic numerals.

4.2.2. Example of an Approval Number to this Regulation:

E11*83R08/01/EA*0123*01

The first extension of the Approval numbered 0123, issued by the United Kingdom to Series of Amendments 08, Supplement 01, which is an Approval according to emission standard ‘Euro 6e’.

4.2.3. The same Contracting Party shall not assign the same number to another vehicle type.

4.3. Notice of approval or of extension or refusal of approval of a vehicle type pursuant to this Regulation shall be communicated to the Contracting Parties to the Agreement which apply this Regulation by means of a form conforming to the model in Annex 2 to this Regulation.

4.3.1. In the event of amendment to the present text, for example, if new limit values are prescribed, the Contracting Parties to the Agreement shall be informed which vehicle types already approved comply with the new provisions.

4.4. There shall be affixed, conspicuously and in a readily accessible place specified on the approval form, to every vehicle conforming to a vehicle type approved under this Regulation, an international approval mark consisting of:

4.4.1. A circle surrounding the letter "E" followed by the distinguishing number of the country that has granted approval.

4.4.2. The number of this Regulation, followed by the letter "R", a dash and the approval number to the right of the circle described in paragraph 4.4.1.

4.4.3. The approval mark shall contain an additional character after the type approval number, the purpose of which is to distinguish the emission standard for which the approval has been granted. This letter should be chosen according to the Table A3/1 of Annex 3 to this Regulation.

4.5. If the vehicle conforms to a vehicle type approved, under one or more other Regulations annexed to the Agreement, in the country which has granted approval under this Regulation, the symbol prescribed in paragraph 4.4.1. need not be repeated; in such a case, the Regulation, approval numbers and the additional symbols of all the UN Regulations under which approval has been granted in the country which has granted approval under this Regulation shall be placed in vertical columns to the right of the symbol prescribed in paragraph 4.4.1. of this Regulation.

4.6. The approval mark shall be clearly legible and be indelible.

4.7. The approval mark shall be placed close to or on the vehicle data plate.

4.7.1. Annex 3 to this Regulation gives examples of arrangements of the approval mark.

5. Specifications and tests

5.1. General

5.1.1. Manufacturers shall demonstrate that all new vehicles are type approved in accordance with this Regulation. These obligations include meeting the emission limits set out in this Regulation.

Manufacturers shall ensure that type approval procedures for verifying conformity of production and in-service conformity are met.

In addition, the technical measures taken by the manufacturer must be such as to ensure that the tailpipe and evaporative emissions are effectively limited, pursuant to this Regulation, throughout the normal life of the vehicles under normal conditions of use. Therefore, in-service conformity measures shall be checked for a period of up to five years or 100 000 km, whichever is the sooner.

In-service conformity shall be checked, in particular, for tailpipe emissions as tested against emission limits set out in UN Regulation No. 154.

5.1.2. The manufacturer shall equip vehicles so that the components likely to affect emissions are designed, constructed and assembled so as to enable the vehicle, in normal use, to comply with this Regulation.

5.1.3. Reserved

5.1.4. Reserved

5.1.5. Provisions for electronic system security

5.1.5.1. The requirements for electronic system security of paragraph 6.1.7. of UN Regulation No. 154 shall be complied with. The effective application of these strategies in protecting the emission control systems may be tested during type approval and/or regional market surveillance.

5.1.5.2. 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 type approval authority. The effective application of these strategies in protecting the odometer may be tested during type approval and/or regional market surveillance.

5.1.6. It shall be possible to inspect the vehicle for roadworthiness test in order to determine its performance in relation to the data collected in accordance with paragraph 5.3.7. If this inspection requires a special procedure, this shall be detailed in the service manual (or equivalent media). This special procedure shall not require the use of special equipment other than that provided with the vehicle.

5.1.7. The use of defeat devices that reduce the effectiveness of emission control systems shall be prohibited. The prohibition shall not apply where:

(a) The need for the device is justified in terms of protecting the engine against damage or accident and for safe operation of the vehicle;

(b) The device does not function beyond the requirements of engine starting; or

(c) The conditions are substantially included in the test procedures for verifying evaporative emissions and average tailpipe emissions.

5.2. Application of tests

Table A illustrates the various possibilities for type approval of a vehicle type.

Table A - Requirements

Application of test requirements for type approval and extensions

Application of test requirements for type approval and extensions
Vehicle category	Vehicles with positive ignition engines including hybrids1,								Vehicles with compression ignition engines including hybrids
	Mono fuel				Bi-fuel2			Flex-fuel	Mono fuel
Reference fuel	Petrol	LPG	NG/Biomethane	Hydrogen (ICE)	Petrol	Petrol	Petrol	Petrol	Diesel	Petrol
Reference fuel	Petrol	LPG	NG/Biomethane	Hydrogen (ICE)	LPG	NG/Bio methane	Hydrogen (ICE)	Ethanol (E85)	Diesel	Petrol
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)	—	—
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 (both fuels)	Yes (both fuels)	Yes (both fuels)	Yes (both fuels)	Yes	Yes

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

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

5.3. Description of tests

5.3.1. Reserved

5.3.2. Type 2 test (Carbon monoxide emission test at idling speed)

5.3.2.1. This test is carried out on all vehicles powered by positive ignition engines, as follows:

5.3.2.1.1. Vehicles that can be fuelled either with petrol or with LPG or NG/biomethane shall be tested in the Type 2 test on both fuels.

5.3.2.1.2. Notwithstanding the requirement of paragraph 5.3.2.1.1., mono-fuel gas vehicles will be regarded for the Type 2 test as vehicles that can only run on a gaseous fuel.

5.3.2.2. For the Type 2 test set out in Annex 5 to this Regulation, 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 per cent vol.

At high idle speed, the carbon monoxide content by volume of the exhaust gases shall not exceed 0.2 per cent, 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.

5.3.3. Type 3 test (Verifying emissions of crankcase gases)

5.3.3.1. This test shall be carried out on all vehicles referred to in paragraph 1. except those having compression-ignition engines.

5.3.3.1.1. Vehicles that can be fuelled either with petrol or with LPG or NG should be tested in the Type 3 test on petrol only.

5.3.3.1.2. Notwithstanding the requirement of paragraph 5.3.3.1.1., mono-fuel gas vehicles will be regarded for the Type 3 test as vehicles that can only run on a gaseous fuel.

5.3.3.2. When tested in accordance with Annex 6 to this Regulation, the engine's crankcase ventilation system shall not permit the emission of any of the crankcase gases into the atmosphere.

5.3.4. Reserved

5.3.5. Type 6 test (Verifying the average exhaust emissions of carbon monoxide and hydrocarbons after a cold start at low ambient temperature).

5.3.5.1. This test shall be carried out on all vehicles referred to in paragraph 1. except those having compression-ignition engines.

5.3.5.1.1. The vehicle is placed on a chassis dynamometer equipped with a means of load an inertia simulation.

5.3.5.1.2. The test consists of the four elementary urban driving cycles of Part One of the NEDC based Type I test. The Part One test is described in paragraph 6.1.1. of Annex 4a to the 07 series of amendments to this Regulation, and illustrated in Figure A4a/1 of the same annex. The low ambient temperature test lasting a total of 780 seconds shall be carried out without interruption and start at engine cranking.

5.3.5.1.3. The low ambient temperature test shall be carried out at an ambient test temperature of 266 K (-7 °C). Before the test is carried out, the test vehicles shall be conditioned in a uniform manner to ensure that the test results may be reproducible. The conditioning and other test procedures are carried out as described in Annex 8 to this Regulation.

5.3.5.1.4. During the test, the exhaust gases are diluted and a proportional sample collected. The exhaust gases of the vehicle tested are diluted, sampled and analysed, following the procedure described in Annex 8 to this Regulation, and the total volume of the diluted exhaust is measured. The diluted exhaust gases are analysed for carbon monoxide and total hydrocarbons.

5.3.5.2. Subject to the requirements in paragraphs 5.3.5.2.2. and 5.3.5.3. the test shall be performed three times. The resulting mass of carbon monoxide and hydrocarbon emission shall be less than the limits shown in Table 2.

Table 2

Emission limit for the carbon monoxide and hydrocarbon tailpipe emissions after a cold start test

Test temperature 266 K (-7 °C)
Vehicle category	Class	Mass of carbon monoxide (CO) L1 (g/km)	Mass of hydrocarbons (HC) L2 (g/km)
M	-	15	1.8
N1	I	15	1.8
	II	24	2.7
	III	30	3.2
N2	-	30	3.2

5.3.5.2.1. Notwithstanding the requirements of paragraph 5.3.5.2., for each pollutant, at least two of the three test results must be below the limit. One of the test results can exceed the limit but by no more than 10 per cent. The arithmetical mean value of the three test results for a pollutant must be below the prescribed limit. Where the prescribed limits are exceeded for more than one pollutant, it is immaterial whether this occurs in the same test or in different tests.

5.3.5.2.2. The number of tests prescribed in paragraph 5.3.5.2. may, at the request of the manufacturer, be increased to 10 if the arithmetical mean of the first three results is lower than 110 per cent of the limit. In this case, the requirement after testing is only that the arithmetical mean of all 10 results shall be less than the limit value.

5.3.5.3. The number of tests prescribed in paragraph 5.3.5.2. may be reduced according to paragraphs 5.3.5.3.1. and 5.3.5.3.2.

5.3.5.3.1. Only one test is performed if the result obtained for each pollutant of the first test is less than or equal to 0.70 L.

5.3.5.3.2. If the requirement of paragraph 5.3.5.3.1. is not satisfied, only two tests are performed if for each pollutant the result of the first test is less than or equal to 0.85 L and the sum of the first two results is less than or equal to 1.70 L and the result of the second test is less than or equal to L.

(V1 ≤ 0.85 L and V1 + V2 ≤ 1.70 L and V2 ≤ L).

5.3.6. Reserved

5.3.7. Emission data required for roadworthiness testing

5.3.7.1. This requirement applies to all vehicles powered by a positive ignition engine for which type approval is sought in accordance with this Regulation.

5.3.7.2. When tested in accordance with Annex 5 to this Regulation (Type 2 test) at normal idling speed:

(a) The carbon monoxide content by volume of the exhaust gases emitted shall be recorded; and

(b) The engine speed during the test shall be recorded, including any tolerances.

5.3.7.3. When tested at "high idle" speed (i. e. > 2,000 min-1)

(a) The carbon monoxide content by volume of the exhaust gases emitted shall be recorded;

(b) The Lambda value shall be recorded; and

The Lambda value shall be calculated using the simplified Brettschneider equation as follows:

A complex equation to calculate the lambda value using the concentration in per cent volume, the conversion for Non-Dispersive Infrared measurement to Flame Ionisation Detector measurement, the atomic ratio of hydrogen to carbon and the atomic ratio of oxygen to carbon.

Where:

[ ] = concentration in per cent volume,

K1 = conversion factor for Non-Dispersive Infrared (NDIR) measurement to Flame Ionisation Detector (FID) measurement (provided by manufacturer of measuring equipment),

Hcv = Atomic ratio of hydrogen to carbon:

(a) for petrol (E10) 1.93;

(b) for LPG 2.53;

(d) for ethanol (E85) 2.74;

(e) for ethanol (E75) 2.61.

Ocv = Atomic ratio of oxygen to carbon:

(a) for petrol (E10) 0.033;

(b) for LPG 0.0;

(d) for ethanol (E85) 0.39;

(e) for ethanol (E75) 0.329.

5.3.7.4. The engine oil temperature at the time of the test shall be measured and recorded.

5.3.7.5. The table of item 2.2. of the Addendum to Annex 2 to this Regulation shall be completed.

5.3.7.6. The manufacturer shall confirm the accuracy of the Lambda value recorded at the time of type approval in paragraph 5.3.7.3. as being representative of typical production vehicles within 24 months of the date of the granting of type approval by the type approval authority. An assessment shall be made based on surveys and studies of production vehicles.

6. Reserved

7. Extensions to type approvals

7.1. Extensions for tailpipe emissions (Type 2 test)

7.1.1. The type approval shall be extended without the need for further testing to vehicles if they conform to the criteria of paragraph 3.0.1. (c) of UN Regulation No. 154.

7.2. Extensions for low temperature test (Type 6 test)

7.2.1. Vehicles with different reference masses

7.2.1.1. 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.

7.2.1.2. 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.

7.2.2. Vehicles with different overall transmission ratios

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

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

(E) = (V2 – V1)/V1

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.

7.2.2.3. If, for each transmission ratio, E ≤ 8 per cent, the extension shall be granted without repeating the Type 6 test.

7.2.2.4. If, for at least one transmission ratio, E > 8 per cent, and if, for each gear ratio, E ≤ 13 per cent, 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.

7.2.3. 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 7.2.1. and 7.2.2. are fulfilled.

8. Conformity of production (COP)

8.1. Every vehicle bearing an approval mark as prescribed under this Regulation shall conform, with regard to components affecting the emission of pollutants by the engine and emissions from the crankcase, to the vehicle type approved. The conformity of production procedures shall comply with those set out in the 1958 Agreement, Schedule 1 (E/ECE/TRANS/505/Rev.3), with the following requirements:

8.1.1. Where applicable the Type 2 and 3 test, as described in Table A of this Regulation, shall be performed. The specific procedures for conformity of production are set out in the paragraph 8.2.

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

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

8.2.1.1. When the type 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 6.

8.2.1.2. The production shall be deemed to conform if this vehicle meets the requirements of the tests described in Annex 6.

8.2.1.3. If the vehicle tested does not satisfy the requirements of paragraph 8.2.1.1. a further random sample of four vehicles shall be taken from the same family and subjected to the tests described in Annex 6. The tests may be carried out on vehicles which have completed a maximum of 15,000 km with no modifications.

8.2.1.4. The production shall be deemed to conform if at least three vehicles meet the requirements of the tests described in Annex 6.

9. In-service conformity

9.1. Measures to ensure in-service conformity of vehicles type-approved under this Regulation shall be taken in accordance with Annex 4 to this Regulation.

9.2. 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.

9.3. In-service conformity shall be checked on properly maintained and used vehicles, in accordance with Appendix 1 of Annex 4, 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 4, 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 vehicles of that in-service conformity family are registered.

9.4. In-service conformity checks shall not be mandatory if the annual production volume of an in-service conformity family intended for sales in the Contracting Parties that apply this regulation was less than 5,000 vehicles for the previous year. For the European Union, this shall apply for the whole Union. For such families, the manufacturer shall provide the type approval authority with a report of any emissions related warranty and relevant repair as set out in paragraph 4. of Annex 4. Such in-service conformity families may still be selected to be tested in accordance with Annex 4.

9.5. The manufacturer and the granting type approval authority shall perform in-service conformity checks in accordance with Annex 4. Other type approval authorities, technical services and other actors may perform parts of the in-service conformity checks in accordance with Annex 4.

9.6. The granting type 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 4.

9.7. If a type approval authority, technical service or other actors have established that an in-service conformity family fails the in-service conformity check, it shall notify without delay the granting type approval authority.

Following that notification the granting type approval authority shall inform the manufacturer that an in-service conformity family fails the in-service conformity checks and that the procedures laid out in paragraphs 6. and 7. of Annex 4 shall be followed.

9.8. The manufacturer shall ensure that, throughout the normal life of a vehicle which is type approved in accordance with UN Regulation No. 154, its final RDE emission results as determined in accordance with UN Regulation No. 168 on RDE and emitted at any RDE test performed in accordance with that Regulation, do not exceed the emission limits for NOX and PN.

10. Penalties for non-conformity of production

10.1. The approval granted in respect of a vehicle type pursuant to this Regulation, may be withdrawn if the requirements laid down in paragraph 8.1. are not complied with or if the vehicle or vehicles taken fail to pass the tests prescribed in paragraph 8.1.1.

10.2. If a Contracting Party which applies this Regulation withdraws an approval it has previously granted, it shall forthwith so notify the other Contracting Parties applying this Regulation, by means of a communication form conforming to the model in Annex 2 to this Regulation.

11. Production definitively discontinued

If the holder of the approval completely ceases to manufacture a type of vehicle approved in accordance with this Regulation, he shall so inform the type approval authority which granted the approval. Upon receiving the relevant communication, that authority shall inform thereof the other Contracting Parties to the 1958 Agreement applying this Regulation by means of copies of the communication form conforming to the model in Annex 2 to this Regulation.

12. Transitional provisions

12.1. General provisions

12.1.1. As from the official date of entry into force of the 08 series of amendments, no Contracting Party applying this Regulation shall refuse to grant approval under this Regulation as amended by the 08 series of amendments.

12.2. Type approvals

12.2.1. As from 1 September 2023, Contracting Parties applying this Regulation shall grant an approval to new types of vehicle only if they comply with:

(a) The requirements for vehicles approved under the character EA as defined in Table A3/1, Annex 3 of this Regulation, as amended by the 08 series of amendments.

(b) The requirements stated in Part III of UN Regulation No. 24 (if applicable).

(d) The Level 1A requirements of the 02 series of amendment to UN Regulation No. 154 or the requirements of the 03 series of amendment to UN Regulation No. 154.

(e) The requirements of UN Regulation No. 168 on RDE.

12.2.2. As from 1 January 2025, Contracting Parties applying this Regulation shall grant an approval to new types of vehicle only if they comply with:

(a) The requirements for vehicles approved under the character EB as defined in Table A3/1, Annex 3 of this Regulation, as amended by the 08 series of amendments.

(b) The requirements stated in Part III of UN Regulation No. 24 (if applicable).

(d) The Level 1A requirements of Supplement 1, or later version, to the 02 series of amendment to UN Regulation No. 154 or the requirements of Supplement 1, or later version, to the 03 series of amendment to UN Regulation No. 154.

(e) The requirements of UN Regulation No. 168 on RDE.

12.2.3. As from 1 January 2027, Contracting Parties applying this Regulation shall grant an approval to new types of vehicle only if they comply with:

(a) The requirements for vehicles approved under the character EC as defined in Table A3/1, Annex 3 of this Regulation, as amended by the 08 series of amendments.

(b) The requirements stated in Part III of UN Regulation No. 24 (if applicable).

(e) The requirements of UN Regulation No. 168 on RDE.

13. Names and addresses of technical services responsible for conducting approval tests, and of Type Approval Authorities

The Contracting Parties to the 1958 Agreement which apply this Regulation shall communicate to the United Nations Secretariat the names and addresses of the Technical Services responsible for conducting approval tests and of the Type Approval Authorities which grant approval and to which forms certifying approval or extension or refusal or withdrawal of approval, issued in other countries, are to be sent [3].

Annex 1 - Appendix 1

Test report

Test Reports

A Test Report is the report issued by the technical service responsible for conducting the tests according this regulation.

The following information, if applicable, is the minimum data required

Report number

APPLICANT
Manufacturer
SUBJECT	…
Object submitted to tests
	Make	:
	Type	:
CONCLUSION	The object submitted to tests complies with the requirements mentioned in the subject.

place,

DD/MM/YYYY

General notes:

If there are several options (references), the one tested should be described in the test report

If there are not, a single reference to the information document at the start of the test report may be sufficient.

Every Technical Service is free to include some additional information.

Characters are included in the sections of the test report relating to specific vehicle types, as follows:

"(a)" Specific to positive ignition engine vehicles

"(b)" Specific to compression ignition engine vehicles

1. Description of tested vehicle(s)

1.1. General

Vehicle numbers

Prototype number and VIN

Category

Drive wheels

1.1.1. Powertrain Architecture

Powertrain architecture

pure ICE, hybrid

1.1.2. Internal combustion engine

For more than one ICE, please repeat the point

Make	:
Type	:
Working principle	:		two/four stroke
Cylinders number and arrangement	:
Engine capacity (cm3)	:
Engine idling speed (min-1)	:				+ -
High engine idling speed (min-1) (a)	:				+ -
Rated engine power	:			kW		at	rpm
Maximum net torque	:			Nm		at	rpm
Spark plug (if applicable)	:	make and type
Ignition coil (if applicable)	:	make and type
Engine lubricant	:	make and type
Cooling system	:	Type: air/water/oil

1.1.3. Test fuel

For more than one test fuel, please repeat the point

Make	:
Type	:	Petrol - Diesel – LPG – NG - …
Density at 15°C	:
Sulphur content	:	Only for Diesel and Petrol
Batch number	:

1.1.4. Fuel feed system (if applicable)

For more than one fuel feed system, please repeat the point

Direct injection	:	yes/no or description
Vehicle fuel type	:	Monofuel / bifuel / flex fuel
Control unit
Part reference	:	same as information document
Software tested	:	read via scantool, for example
Air flowmeter	:
Throttle body	:
Pressure sensor	:
Injection pump	:
Injector(s)	:

1.1.5. Intake system (if applicable)

For more than one intake system, please repeat the point

Pressure charger	:	Yes/no make & type (1)
Intercooler	:	yes/no type (air/air – air/water) (1)
Air filter (element) (1)	:	make & type
Intake silencer (1)	:	make & type

1.1.6. Exhaust system and anti-evaporative system (if applicable)

For more than one, please repeat the point

First catalytic converter	:	make & reference (1) principle: three way / oxidising / NOX trap / NOX storage system / Selective Catalyst Reduction…
Second catalytic converter	:	make & reference (1) principle: three way / oxidising / NOX trap / NOX storage system / Selective Catalyst Reduction…
Particulate trap	:	with/without/not applicable catalysed: yes/no make & reference (1)
Reference and position of oxygen and/or lambda sensor(s)	:	before catalyst / after catalyst
Air injection	:	with/without/not applicable
Water injection	:	with/without/not applicable
EGR	:	with/without/not applicable cooled/non-cooled HP/LP
Reference and position of NOX sensor(s)	:	Before/ after
General description (1)	:

1.1.8. Transmission (if applicable)

For more than one Transmission, please repeat the point

Gearbox	:	manual / automatic / continuous variation
Control unit	:
Gearbox lubricant	:	make and type
Tyres
Make	:
Type	:
Dimensions front/rear	:
Dynamic circumference (m)	:
Tyre pressure (kPa)	:

* for OVC-HEV, specify for charge sustaining and for charge depleting operating conditions.

Transmission ratios (R.T.), primary ratios (R.P.) and (vehicle speed (km/h)) / (engine speed (1000 (min-1)) (V1000) for each of the gearbox ratios (R.B.).

R.B.	R.P.	R.T.	V1000
1st	1/1
2nd	1/1
3rd	1/1
4th	1/1
5th	1/1
…

1.1.9. Electric machine (if applicable)

For more than one Electric Machine, please repeat the point

Make	:
Type	:
Peak Power (kW)	:

1.1.10. Traction REESS (if applicable)

For more than one Traction REESS, please repeat the point

Make	:
Type	:
Capacity (Ah)	:
Nominal Voltage (V)	:

1.1.12. Power electronics (if applicable)

Can be more than one PE (propulsion converter, low voltage system or charger)

Make	:
Type	:
Power (kW)	:

1.2. Vehicle description

1.2.1. Mass

Inertia mass (kg)

1.2.2. Road load parameters

f0 (N)	:
f1 (N/(km/h))	:
f2 (N/(km/h)²)	:
Road load family’s identifier	:

2. Test results

2.2. Type 2 test (a)

Included the emissions data required for roadworthiness testing

Test	CO ( % vol)	Lambda [15]	Engine speed (min–1)	Oil temperature (°C)
Idle		—
High idle

2.3. Type 3 test (a)

Emission of crankcase gases into the atmosphere: none

2.7. Type 6 test (a)

Date of tests	:	(day/month/year)
Place of tests	:
Method of setting of the chassis dyno	:	coast down (road load reference)
Effective power absorbed at 50 km/h including running losses of the vehicle on the dynamometer (kW)	:

Pollutants		CO (g/km)	HC (g/km)
Test	1
	2
	3
Average
Limit

2.9. Smoke opacity test (b)

2.9.1. Steady speeds test

See family report(s)

2.9.2. Free acceleration test

Measured absorption value (m– 1)	:
Corrected absorption value (m– 1)	:

Annex 1 – Appendix 3a

Documentation Packages

Formal Documentation Package:

The manufacturer may use one formal documentation package for multiple emission type approvals. The formal documentation package shall include the following information:

Point	Explanation
Emission Type Approval Number(s)	List of emission type approval number(s) covered by this BES-AES declaration: including TA reference, software reference, calibration number, checksums of each version and of each relevant Control Unit (CU) such as engine and aftertreatment ones
Method of reading of software and calibration version	E.g. scan-tool explanation
Base Emission Strategies
BES x	Description of strategy x
BES y	Description of strategy y
Auxiliary Emission Strategies
Presentation of the AESs	Hierarchical relations among AES: which AES takes precedence if more than one are present
AES x	AES description and justification Measured and/or modelled parameters for AES activation Other parameters used to activate the AES Increase of pollutants and CO2 during the use of AES compared to BES
AES y	As above

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 paragraph 5.1.3. of this Regulation;

(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 or reference values of these software versions and instructions to the authority on how to read the checksums or reference values; 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. Manufacturers may request to use an alternative to a checksum as long as it provides an equivalent level of traceability for software version changes;

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

(i) why any of the exception clauses from the defeat device prohibition in paragraph 5.1.3. of this Regulation 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;

(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.

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:

Table A1/1
Extended Documentation Package for AES Application No. YYY/OEM

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 and/or CO2 impact with or without AES activation

Annex 4

In-service conformity methodology

1. Introduction

This Annex sets out the in-service conformity (ISC) methodology for checking compliance against the emission limits for tailpipe (including low temperature) and evaporative emissions throughout the normal life of the vehicle.

2. Process description

Figure 4/1

Illustration of the in-service conformity process

A schematic in the Annex to illustrate the in-service conformity process methodology. The in service conformity, or ISC, steps are given as information gathering and risk assessment, ISC testing, compliance assessment, remedial measures and reporting. To the right of the steps, the schematic shows who holds main responsibility of the step, and whether any other actors are involved.

Note: GTAA refers to the granting type- type approval authority, OEM refers to the manufacturer, and Other Actors are defined as: TAA refers to type approval authorities other than the one granting the relevant type approval, TS refer to Technical services, other CP to Contracting Parties not issuing the type approval, and third parties.

3. ISC family definition

An ISC family shall be composed of the following vehicles:

(a) For tailpipe emissions (Type 1, RDE and Type 6 tests), the vehicles covered by the PEMS test family, as described in paragraph 6.3.1. of UN Regulation No. 168 on RDE,

(b) For evaporative emissions (Type 4 test), the vehicles included in the evaporative emission family, as described in paragraph 6.6.3. of UN Regulation No. 154.

4. Information gathering and initial risk assessment

The granting type approval authority and other actors shall gather all relevant information on possible emission non-compliances relevant for deciding which ISC families to check in a particular year. They shall take into account in particular, information indicating vehicle types with high emissions in real driving conditions. That information shall be obtained by appropriate methods, which may include remote sensing, simplified on-board emissions monitoring systems (SEMS) and testing with PEMS. The number and importance of exceedances observed during such testing may be used to prioritise ISC testing.

As part of the information provided for the ISC checks, each manufacturer shall report to the granting type approval authority on emission-related warranty claims, and any emission-related warranty repair works performed or recorded during servicing, in accordance with a format agreed between the granting type approval authority and the manufacturer at type approval. The information shall detail the frequency and nature of faults for emissions-related components and systems by ISC family. The ISC reports shall be filed at least once a year for each ISC family for the duration of the period during which in-service conformity checks are to be performed in accordance with paragraph 9.3. of this Regulation. The ISC reports shall be made available upon request.

On the basis of the information referred to in the first and second paragraphs, the granting type approval authority shall make an initial assessment of the risk of an ISC family to not comply with the in-service conformity rules and on that basis shall take a decision on which families to test and which types of tests to perform under the ISC provisions. Additionally, the granting type approval authority may randomly choose ISC families to test.

Other actors shall take into account the information collected according to the first paragraph in order to prioritise testing. Additionally, they may randomly choose ISC families to test.

5. ISC testing

The manufacturer shall perform ISC testing for tailpipe emissions comprising at least the Type 1 test for all ISC families. The manufacturer may also perform RDE, Type 4 and Type 6 tests for all or part of the ISC families. The manufacturer shall report to the granting type approval authority all results of the ISC testing for in-service conformity.

The granting type approval authority shall check an appropriate number of ISC families each year, as set out in paragraph 5.4.

Other actors may perform checks on any number of ISC families each year. They shall report to the granting type approval authority all results of the ISC testing.

5.1. Quality assurance of testing

The granting type approval authority shall annually audit the ISC checks performed by the manufacturer. The granting type approval authority may also audit the ISC checks performed by other actors. The audit shall be based on the information provided by the manufacturers, or other actors, which shall include at least the detailed ISC report in accordance with Appendix 3. The granting type approval authority may require the manufacturers, or other actors to provide additional information.

5.2. Disclosure of tests results

The granting type approval authority shall communicate the results of the compliance assessment and remedial measures for a particular ISC family to other actors which provided test results for that family as soon as they become available.

The results of the tests, including the detailed data for all vehicles tested, may only be disclosed to the public after the publication by the granting type approval authority of the annual report or the results of an individual ISC procedure or after the closure of the statistical procedure (see paragraph 5.10.) without a result. If the results of the ISC tests undertaken by other actors are published, reference shall be made to the annual report by the granting type approval authority which included them.

5.3. Types of tests

ISC testing shall only be performed on vehicles selected in accordance with Appendix 1.

ISC testing with the Type 1 test shall be performed in accordance with UN Regulation No. 154.

ISC testing with the RDE test shall be performed in accordance with UN Regulation No. 168 on RDE, Type 4 tests shall be performed in accordance with Appendix 2 to this Annex and Type 6 tests shall be performed in accordance with Annex 8.

5.4. Frequency and scope of ISC testing

The time period between commencing two in-service conformity checks by the manufacturer for a given ISC family shall not exceed 24 months.

The frequency of ISC testing performed by the granting type approval authority shall be based on a risk assessment methodology consistent with the international standard ISO 31000:2018 — Risk Management — Principles and guidelines which shall include the results of the initial assessment made according to paragraph 4.

Each granting type approval authority shall perform both the Type 1 and RDE tests on a minimum of 5 per cent of the ISC families per manufacturer per year or at least two ISC families per manufacturer per year, where available. The requirement for testing a minimum of 5 per cent or at least two ISC families per manufacturer per year shall not apply to small volume manufacturers. The granting type approval authority shall ensure the widest possible coverage of ISC families and vehicle age in a particular in-service conformity family in order to ensure compliance with paragraph 9.3. of this Regulation. The granting type approval authority shall complete the statistical procedure for each ISC family it has started within 12 months.

Type 4 or Type 6 ISC tests shall have no minimum frequency requirements.

5.5. Funding for ISC testing by the granting type approval authorities

The granting type approval authority shall ensure that sufficient resources are available to cover the costs for in-service conformity testing. Without prejudice to national law, those costs shall be recovered by fees that can be levied on the manufacturer by the granting type approval authority. Such fees shall cover ISC testing of up to 5 per cent of the in-service conformity families per manufacturer per year or at least two ISC families per manufacturer per year.

5.6. Testing plan

When performing testing for ISC, the granting type approval authority shall draft a testing plan. In the case of RDE testing, that plan shall include testing to check ISC compliance under a wide range of conditions in accordance with UN Regulation No. 168 on RDE.

5.7. Selection of vehicles for ISC testing

The information gathered shall be sufficiently comprehensive to ensure that in-service performance can be assessed for vehicles that are properly maintained and used. The tables in Appendix 1 shall be used to decide whether the vehicle can be selected for the purposes of ISC testing. During the check against the tables in Appendix 1, some vehicles may be declared as faulty and not tested during ISC, when there is evidence that parts of the emission control system were damaged.

The same vehicle may be used to perform and establish reports from more than one type of tests (Type 1, RDE, Type 4, Type 6) but only the first valid test of each type shall be taken into account for the statistical procedure.

5.7.1. General requirements

The vehicle shall belong to an ISC family as described in paragraph 3 and shall comply with the checks set out in the table in Appendix 1. It shall be registered in the Contracting Party and have been driven in the Contracting Party for at least 90 per cent of its driving time. The emissions testing may be done in a different geographical region from that where the vehicles have been selected. In case of ISC testing conducted by the manufacturer, with the agreement of the granting type approval authority, vehicles registered in a non-Contracting Party may be tested, if they belong to the same ISC family and are accompanied by a certificate of conformity defined in the 1958 Agreement, Schedule 1 (E/ECE/TRANS/505/Rev.3).

The vehicles selected shall be accompanied by a maintenance record which shows that the vehicle has been properly maintained and has been serviced in accordance with the manufacturer's recommendations with only original parts used for the replacement of emissions related parts.

Vehicles exhibiting indications of abuse, improper use that could affect its emissions performance, tampering or conditions that may lead to unsafe operation shall be excluded from ISC.

The vehicles shall not have undergone aerodynamic modifications that cannot be removed prior to testing.

A vehicle shall be excluded from ISC testing if the information stored in the on-board computer shows that the vehicle was operated after a fault code was displayed and a repair was not carried out in accordance with manufacturer specifications.

A vehicle shall be excluded from ISC testing if the fuel from the vehicle tank does not meet the applicable standards or if there is evidence or record of fuelling with the wrong type of fuel.

5.7.1.1. Additional RDE related ISC requirements

For ISC or regional market surveillance testing purposes, the reference CO2 mass shall be obtained from the Certificate of Conformity for the individual vehicle. The value for OVC-HEV vehicles shall be obtained from the WLTP test conducted using the Charge Sustaining mode.

5.7.1.2. Lubricating oil, fuel and reagent

For tests performed during ISC, or regional market surveillance the fuel used for RDE testing may be any fuel legally available in the market and within the specifications issued by the manufacturer for vehicle operation by the customer.

5.7.2. Vehicle Examination and Maintenance

Diagnosis of faults and any normal maintenance necessary in accordance with Appendix 1 shall be performed on vehicles accepted for testing, prior to or after proceeding with ISC testing.

The following checks shall be carried out: OBD checks (performed before or after the test), visual checks for lit malfunction indicator lamps, checks on air filter, all drive belts, all fluid levels, radiator and fuel filler cap, all vacuum and fuel system hoses and electrical wiring related to the after-treatment system for integrity; checks on ignition, fuel metering and pollution control device components for maladjustments and/or tampering.

If the vehicle is within 800 km of a scheduled maintenance service, that service shall be performed.

The window washer fluid shall be removed before the Type 4 test and replaced with hot water.

A fuel sample shall be collected and kept in accordance with the requirements of UN Regulation No. 168 on RDE for further analysis in case of fail.

All faults shall be recorded. When the fault is on the pollution control devices then the vehicle shall be reported as faulty and not be used further for testing, but the fault shall be taken into account for the purposes of the compliance assessment performed in accordance with paragraph 6.1.

5.8. Sample size

When manufacturers apply the statistical procedure set out in paragraph 5.10. for the Type 1 test, the number of sample lots shall be set on the basis of the annual production volume of an in-service family intended for sale in the Contracting Parties that apply this regulation, as described in Table 4/1.

Table 4/1

Number of sample lots for ISC testing with Type 1 tests

Contracting Party Production Volume per calendar year of vehicles in the sampling period	Number of sample lots (for Type 1 tests)

up to 100,000	1
100,001 to 200,000	2
above 200,000	3

Each sample lot shall include enough vehicle types, in order to ensure that at least 20 % of the total registrations of this PEMS family in the Contracting Party for the previous year are covered. In case the same PEMS family is shared between more brands, then all brands shall be tested. When a family requires more than one sample lot to be tested, the vehicles in the second and third sample lots shall select vehicles used in different ambient and/or typical use conditions from those selected for the first sample.

5.9. Access to data required for testing

The manufacturer shall complete the package on Testing Transparency in the format specified in Tables 1 and 2 of Appendix 5 and in Table A4/2 and transmit it to the granting type approval authority. Table 2 of Appendix 5 shall be used in order to allow the selection of vehicles from the same family for testing and along with Table 1 of Appendix 5 provide sufficient information for vehicles to be tested.

All information in Tables 1 and 2 of Appendix 5 shall be accessible to the public in an electronic form free of charge within 5 working days of the request.

The following information shall also be part of the package on Testing Transparency and shall be provided by the manufacturer free-of-charge within 5 working days of the request by other actors.

Table A4/2

Sensitive information

ID	Input	Description

1.	Special Procedure for conversion of vehicles (4WD to 2WD) for dyno testing if available	As defined in paragraph 2.4.2.4. of Annex B6 to UN Regulation No. 154
2.	Dyno mode instructions, if available	How to enable the dyno mode as done also during TA tests
3.	Coastdown mode used during the TA tests	If the vehicle has coastdown mode instructions how to enable this mode
4.	Battery discharge procedure (OVC-HEV, PEV)	OEM procedure to deplete battery for preparing OVC-HEV for charge sustaining tests, and PEV to charge the battery
5.	Procedure to deactivate all auxiliaries	If used during TA
6.	Procedure to measure current and voltage of all REESS with the use of external equipment	As defined in Appendix 3 of Annex B8 to UN Regulation No. 154 To measure current and voltage independently of on-board data, OEM provides procedure, description of current and voltage access points and list of devices used for current and voltage measurement during type approval.

5.10. Statistical Procedure

5.10.1. General

The verification of in-service conformity shall rely on a statistical method following the general principles of sequential sampling for inspection by attributes. The minimum sample size for a pass result is three vehicles, and the maximum cumulative sample size is ten vehicles for the Type 1 and RDE tests.

For the Type 4 and Type 6 tests a simplified method may be used, where the sample shall consist of three vehicles and shall be considered a fail if all three vehicles fail to pass the test, and a pass if all three vehicles pass the test. In cases where two out of three passed or failed, the type approval authority may decide to conduct further tests or proceed with assessing the compliance in accordance with paragraph 6.1.

Test results shall not be multiplied by deterioration factors.

Prior to the performance of the first ISC test, the manufacturer, or other actors shall notify the intent of performing in-service conformity testing of a given vehicle family to the granting type approval authority. Upon this notification, the granting type approval authority shall open a new statistical folder to process the results for each relevant combination of the following parameters for that particular party/or that pool of parties: vehicle family, emissions test type and pollutant. Separate statistical procedures shall be opened for each relevant combination of those parameters.

The granting type approval authority shall incorporate in each statistical folder only the results provided by the relevant party. The granting type approval authority shall keep a record of the number of tests performed, the number of failed and passed tests and other necessary data to support the statistical procedure.

Whereas more than one statistical procedure can be open at the same time for a given combination of test type and vehicle family, a party shall only be allowed to provide test results to one open statistical procedure for a given combination of test type and vehicle family. Each test shall be reported only once and all tests (valid, not valid, fail or pass, etc.) shall be reported.

Each ISC statistical procedure shall remain open until an outcome is reached when the statistical procedure arrives to a pass or fail decision for the sample in accordance with paragraph 5.10.5. However, if an outcome is not reached within 12 months of the opening of a statistical folder, the granting type approval authority shall close the statistical folder unless it decides to complete testing for that statistical folder within the following 6 months.

5.10.2. Pooling of ISC results

Test results from other actors may be pooled for the purposes of a common statistical procedure. The pooling of test results shall require the written consent from all the interested parties providing test results to a pool of results, and a notification to the type approval authorities prior to the start of testing. One of the parties shall be designated as leader of the pool and be responsible for data reporting and communication with the granting type approval authority.

5.10.3. Pass/Fail/Invalid outcome for a single test

An ISC emissions test shall be considered as ‘passed’ for one or more pollutants when the emissions result is equal or below the emission limit set out in paragraph 6.3.10. of UN Regulation No. 154 for that type of test.

An emissions test shall be considered as ‘failed’ for one or more pollutants when the emissions result is greater than the corresponding emission limit for that type of test. Each failed test result shall increase the ‘f’ count (see paragraph 5.10.5.) by 1 for that statistical instance.

An ISC emissions test shall be considered invalid if it does not respect the requirements of the tests referred to in paragraph 5.3. Invalid test results shall be excluded from the statistical procedure and the test shall be repeated with the same vehicle in order to have a valid test.

The results of all ISC tests shall be submitted to the granting type approval authority within ten working days from the execution of each test on a single vehicle. The test results shall be accompanied by a comprehensive test report at the end of the tests. The results shall be incorporated in the sample in chronological order of execution.

The granting type approval authority shall incorporate all valid emission test results to the relevant open statistical procedure until a ‘sample fail’ or a ‘sample pass’ outcome is reached in accordance with paragraph 5.10.5.

5.10.4. Treatment of Outliers

The presence of outlying results in the sample statistical procedure may lead to a ‘fail’ outcome in accordance with the procedures described below:

(a) Outliers shall be categorised as mild, intermediate or extreme.

(b) An emissions test result shall be considered as a mild outlier if it is more than the applicable emission limit but less than 1.3 times the applicable emission limit. The presence of a mild outlier only counts in the number of failed results in paragraph 5.10.5. below.

(c) An emissions test result shall be considered as an intermediate outlier if it is equal or greater than 1.3 times the applicable emission limit. The presence of two such outliers in a sample shall lead to a fail of the sample.

(d) An emissions result shall be considered as an extreme outlier if it is equal or greater than 2.5 times the applicable emission limit. The presence of one such outlier in a sample shall lead to a fail of the sample. In such case, the plate number of the vehicle shall be communicated to the manufacturer and to the granting type approval authority. This possibility shall be communicated to the vehicle owners before testing.

5.10.5. Pass/Fail decision for a sample

For the purposes of deciding on a pass/fail result for the sample, ‘p’ is the count of passed results, and ‘f’ is the count of failed results. Each passed test result shall increase the ‘p’ count by 1 and each failed test result shall increase the ‘f’ count by 1 for the relevant open statistical procedure.

Upon the incorporation of valid emission test results to an open instance of the statistical procedure, the type approval authority shall perform the following actions:

(a) update the cumulative sample size ‘n’ for that instance to reflect the total number of valid emissions tests incorporated to the statistical procedure;

(b) following an evaluation of the results, update the count of passed results ‘p’ and the count of failed results ‘f’;

(d) check whether a decision is reached with the procedure described below.

The decision depends on the cumulative sample size ‘n’, the passed and failed result counts ‘p’ and ‘f’, as well as the number of intermediate and/or extreme outliers in the sample. For the decision on a pass/fail of an ISC sample the granting type approval authority shall use the decision chart in Figure 4/2. The charts indicate the decision to be taken for a given cumulative sample size ‘n’ and failed count result ‘f’.

Two decisions are possible for a statistical procedure for a given combination of vehicle family, emissions test type and pollutant:

‘Sample pass’ outcome shall be reached when the applicable decision chart from Figure 4/2 gives a ‘PASS’ outcome for the current cumulative sample size ‘n’ and the count of failed results ‘f’.

‘Sample fail’ decision shall be reached, for a given cumulative sample size ‘n’, when at least one of the following conditions is fulfilled:

(a) the applicable decision chart from Figure 4/2 gives a ‘FAIL’ decision for the current cumulative sample size ‘n’ and the count of failed results ‘f’;

(b) there are two “FAIL” decisions with intermediate outliers;

If no decision is reached, the statistical procedure shall remain open and further results shall be incorporated into it until a decision is reached or the procedure is closed in accordance with paragraph 5.10.1.

Figure 4/2

Decision chart for the statistical procedure for vehicles (where ‘UND’ means undecided)

Failed result count f	10								FAIL
	9							FAIL	FAIL
	8						FAIL	FAIL	FAIL
	7					FAIL	FAIL	FAIL	FAIL
	6				FAIL	FAIL	FAIL	FAIL	FAIL
	5			FAIL	FAIL	FAIL	UND	UND	PASS
	4		FAIL	FAIL	UND	UND	UND	UND	PASS
	3	FAIL	FAIL	UND	UND	UND	UND	PASS	PASS
	2	UND	UND	UND	UND	PASS	PASS	PASS	PASS
	1	UND	PASS	PASS	PASS	PASS	PASS	PASS	PASS
	0	PASS	PASS	PASS	PASS	PASS	PASS	PASS	PASS
		3	4	5	6	7	8	9	10
	Cumulative sample size n

6. Compliance Assessment

6.1. Within 10 working days of the end of the ISC testing for the sample as referred to in paragraph 5.10.5., the granting type approval authority shall start detailed investigations with the manufacturer in order to decide whether the ISC family (or part of it) complies with the ISC rules and whether it requires remedial measures. For multistage or special purpose vehicles the granting type approval authority shall also perform detailed investigations when there are at least three faulty vehicles with the same fault or five flagged vehicles in the same ISC family, as set out in paragraph 5.10.6.

6.2. The granting type approval authority shall ensure that sufficient resources are available to cover the costs for compliance assessment. Without prejudice to national law, those costs shall be recovered by fees that can be levied on the manufacturer by the granting type approval authority. Such fees shall cover all testing or auditing needed in order for an assessment on compliance to be reached.

6.3. On the request of the manufacturer, the granting type approval authority may extend the investigations to vehicles in service of the same manufacturer belonging to other ISC families which are likely to be affected by the same defects.

6.4. The detailed investigation shall take no more than 60 working days after the start of the investigation by the granting type approval authority. The granting type approval authority may conduct additional ISC tests designed to determine why vehicles have failed during the original ISC tests. The additional tests shall be conducted under similar conditions as the original ISC failed ISC tests.

Upon the request of the granting type approval authority, the manufacturer shall provide additional information, showing in particular the possible cause of the failures, which parts of the family might be affected, whether other families might be affected, or why the problem which caused the failure at the original ISC tests is not related to in-service conformity, if applicable. The manufacturer shall be given the opportunity to prove that the in-service conformity provisions have been complied with.

6.5. Within the deadline set out in paragraph 6.4., the granting type approval authority shall take the decision on the compliance or the non-compliance. In case of non-compliance, the granting type approval authority shall define the remedial measures for the ISC family according to paragraph 7. It shall notify them to the manufacturer.

7. Remedial Measures

7.1. The manufacturer shall establish a plan of remedial measures and submit it to the granting type approval authority within 45 working days of the decision on the compliance or non-compliance referred to in paragraph 6.5. That period may be extended by up to an additional 30 working days where the manufacturer demonstrates to the granting type approval authority that further time is required to investigate the non-compliance.

7.2. The remedial measures required by the granting type approval authority shall include reasonably designed and necessary tests on components and vehicles in order to demonstrate the effectiveness and durability of the remedial measures.

7.3. The manufacturer shall assign a unique identifying name or number to the plan of remedial measures. The plan of remedial measures shall include at least the following:

(a) a description of each vehicle emission type included in the plan of remedial measures;

(b) a description of the specific modifications, alterations, repairs, corrections, adjustments or other changes to be made to bring the vehicles into conformity including a brief summary of the data and technical studies which support the decision of the manufacturer as to the particular remedial measures to be taken;

(c) a description of the method by which the manufacturer will inform the vehicle owners of the planned remedial measures;

(d) a description of the proper maintenance or use, if any, which the manufacturer stipulates as a condition of eligibility for repair under the plan of remedial measures, and an explanation of the need for such condition;

(e) a description of the procedure to be followed by vehicle owners to obtain correction of the non-conformity; that description shall include a date after which the remedial measures shall be taken, the estimated time for the workshop to perform the repairs and where they can be done;

(f) an example of the information transmitted to the vehicle owner;

(g) a brief description of the system which the manufacturer uses to assure an adequate supply of component or systems for fulfilling the remedial action, including information on when an adequate supply of the components, software or systems needed to initiate the application of remedial measures will be available;

(h) an example of all instructions to be sent to the repair shops which will perform the repair;

(i) a description of the impact of the proposed remedial measures on the emissions, fuel consumption, driveability, and safety of each vehicle emission type, covered by the plan of remedial measures, including supporting data and technical studies;

(j) where the plan of remedial measures includes a recall, a description of the method for recording the repair shall be submitted to the granting type approval authority. If a label is used, an example of it shall also be submitted.

For the purposes of point (d), the manufacturer may not impose maintenance or use conditions which are not demonstrably related to the non-conformity and the remedial measures.

7.4. The repair shall be done expediently, within a reasonable time after the vehicle is received by the manufacturer for repair. Within 15 working days of receiving the proposed plan of remedial measures, the granting type approval authority shall approve it or require a new plan in accordance with paragraph 7.5.

7.5. When the granting type approval authority does not approve the plan of remedial measures, the manufacturer shall develop a new plan and submit it to the granting type approval authority within 20 working days of notification of the decision of the granting type approval authority.

7.6. If the granting type approval authority does not approve the second plan submitted by the manufacturer, it shall take all appropriate measures to restore conformity, including withdrawal of type approval where necessary.

7.7. The granting type approval authority shall notify its decision on remedial measures to the relevant Contracting Parties within 5 working days.

7.8. The remedial measures shall apply to all vehicles in the ISC family (or other relevant families identified by the manufacturer in accordance with paragraph 6.2.) that are likely to be affected by the same defect. The granting type approval authority shall decide if it is necessary to amend the type approval.

7.9. The manufacturer is responsible for the execution of the approved plan of remedial measures in all relevant Contracting Parties and for keeping a record of every vehicle removed from the market or recalled and repaired and the workshop which performed the repair.

7.10. The manufacturer shall keep a copy of the communication with the customers of affected vehicles related to the plan of remedial measures. The manufacturer shall also maintain a record of the recall campaign, including the total number of vehicles affected per Contracting Party and the total number of vehicles already recalled per Contracting Party, along with an explanation of any delays in the application of the remedial measures. The manufacturer shall provide that record of the recall campaign to the granting type approval authority, the type approval authorities of each Contracting Party every two months.

7.11. Contracting Parties shall take measures to ensure that the approved plan of remedial measures is applied within two years to at least 90 % of affected vehicles registered in their territory.

7.12. The repair and modification or addition of new equipment shall be recorded in a certificate provided to the vehicle owner, which shall include the number of the remedial campaign.

8. Annual report by the granting type approval authority

The granting type approval authority shall make available on a publicly accessible website, free of charge and without the need for the user to reveal their identity or sign up, a report with the results of all the finalised ISC investigations of the previous year, at the latest by the 31 March of each year. In case some ISC investigations of the previous year are still open by that date, they shall be reported as soon as the investigation is finalised. The report shall contain at least the items listed in Appendix 4.

Annex 4 - Appendix 1

Criteria for vehicle selection and failed vehicles decision

The vehicle survey shall be used in order to select properly maintained and used vehicles for testing in ISC. Vehicles that have one or more of the exclusion criteria below shall be excluded from testing or otherwise repaired and then selected.

Selection of Vehicles for In-Service Conformity Emissions Testing
				Confidential
Date:				x
Name of investigator:				x
Location of test:				x
Country of registration:			x
		x = Exclusion Criteria	X = Checked and reported
Vehicle Characteristics

Registration plate number:			x	x
Mileage and age of vehicle: The vehicle must comply with the rules in regards to mileage and age in paragraph 9. of this Regulation, otherwise it cannot be selected. The age of the vehicle counts from the date of first registration		x
Date of first registration:			x

VIN:			x	x
Emission class and character:			x
Country of registration: The vehicle must be registered in the Contracting Party		x	x
Model:			x
Engine code:			x
Engine volume (l):			x
Engine power (kW):			x
Gearbox type (auto/manual):			x
Drive axle (FWD/AWD/RWD):			x
Tyre size (front and rear if different):			x
Is the vehicle involved in a recall or service campaign? If yes: Which one? Has the campaign repairs already been done? The repairs must have been done before the start of the ISC testing		x	x

Vehicle Owner Interview (the owner will only be asked the main questions and shall have no knowledge of the implications of the replies)

Name of the owner (only available to the accredited inspection body or laboratory/Technical service)				x
Contact (address / telephone) (only available to the accredited inspection body or laboratory/Technical service)				x

How many owners did the vehicle have?			x
Did the odometer not work? If yes, the vehicle cannot be selected.		x
Was the vehicle used for one of the following?
As car used in show-rooms?			x
As a taxi?			x
As delivery vehicle?			x
For racing / motor sports?		x
As a rental car?			x
Has the vehicle carried heavy loads over the specifications of the manufacturer? If yes, the vehicle cannot be selected.		x
Have there been major engine or vehicle repairs?			x
Have there been unauthorised major engine or vehicle repairs? If yes, the vehicle cannot be selected.		x
Has there been an unauthorised power increase/tuning? If yes, the vehicle cannot be selected.		x
Was any part of the emissions after-treatment and/or the fuel system replaced? Were original parts used? If original parts were not used, the vehicle cannot be selected.		x	x
Was any part of the emissions after-treatment system permanently removed? If yes, the vehicle cannot be selected		x
Were there any unauthorised devices installed (Urea killer, emulator, etc)? If yes, the vehicle cannot be selected		x
Was the vehicle involved in a serious accident? Provide a list of damage and repairs done afterwards			x
Has the car been used with a wrong fuel type (i.e. gasoline instead of diesel) in the past? Has the car been used with non-commercially available fuel (black market, or blended fuel?) If yes, the vehicle cannot be selected.		x
Did you use air-fresher, cockpit-spray, brake cleaner or other high hydrocarbon emission source around the vehicle during the last month? If yes, the vehicle cannot be selected for evaporative testing.		x
Was there a gasoline spill in the inside or outside of the vehicle during the last 3 months? If yes, the vehicle cannot be selected for evaporative testing.		x
Did anyone smoke in the car during the last 12 months? If yes, the vehicle cannot be selected for evaporative testing		x
Did you apply corrosion protection, stickers, under seal protection, on any other potential sources of volatile compounds to the car? If yes, the vehicle cannot be selected for evaporative testing		x
Was the car repainted? If yes, the vehicle cannot be selected for evaporative testing		x
Where do you use your vehicle more often?
% motorway			x
% rural			x
% urban			x
Did you drive the vehicle in a non-Contracting Party for more than 10 % of driving time? If yes, the vehicle cannot be selected		x	—
In which country was the vehicle refuelled during the last two times? If the vehicle was refuelled the last two times outside a state applying the compliant Fuel Standards, the vehicle cannot be selected.		x
Has a fuel additive, not approved by the manufacturer been used? If yes then the vehicle cannot be selected.		x
Has the vehicle been maintained and used in accordance with the manufacturer's instructions? If not, the vehicle cannot be selected.		x
Full service and repair history including any re-works If the full documentation cannot be provided, the vehicle cannot be selected.		x

	Vehicle Examination and Maintenance	X = Exclusion Criteria/ F = Faulty Vehicle		X = checked and reported

1	Fuel tank level (full / empty) Is the fuel reserve light ON? If yes, refuel before test.			x
2	Are there any warning lights on the instrument panel activated indicating a vehicle or exhaust after-treatment system malfunctioning that cannot be resolve by normal maintenance? (Malfunction Indication Light, Engine Service Light, etc?) If yes, the vehicle cannot be selected	x
3	Is the SCR light on after engine-on? If yes, the AdBlue should be filled in, or the repair executed before the vehicle is used for testing.	x
4	Visual examination exhaust system Check leaks between exhaust manifold and end of tailpipe. Check and document (with photos) If there is damage or leaks, the vehicle is declared faulty.	F
5	Exhaust gas relevant components Check and document (with photos) all emissions relevant components for damage. If there is damage, the vehicle is declared faulty.	F
6	Evaporative system Pressurize fuel-system (from canister side), testing for leaks in a constant ambient temperature environment, FID sniff test around and in the vehicle. If the FID sniff test is not passed, the vehicle is declared faulty.	F
7	Fuel sample Collect fuel sample from the fuel tank.			x
8	Air filter and oil filter Check for contamination and damage and change if damaged or heavily contaminated or less than 800 km before the next recommended change.			x
9	Window washer fluid (only for evaporative testing) Remove window washer fluid and fill tank with hot water.			x
10	Wheels (front & rear) Check whether the wheels are freely moveable or blocked by the brake. If not, the vehicle cannot be selected.	x
11	Tyres (only for evaporative testing) Remove spare tyre, change to stabilised tyres if the tyres were changes less than 15,000 km ago. Use summer and all season tyres only.			x
12	Drive belts & cooler cover In case of damage, the vehicle is declared faulty. Document with photos	F
13	Check fluid levels Check the max. and min. levels (engine oil, cooling liquid) / top up if below minimum			x
14	Filler flap (only for evaporative testing) Check overfill line within filler flap is completely free of residues or flush the hose with hot water.			x
15	Vacuum hoses and electrical wiring Check all for integrity. In case of damage, the vehicle is declared faulty. Document with photos	F
16	Injection valves / cabling Check all cables and fuel lines. In case of damage, the vehicle is declared faulty. Document with photos	F
17	Ignition cable (gasoline) Check spark plugs, cables, etc. In case of damage, replace them.			x
18	EGR & Catalyst, Particle Filter Check all cables, wires and sensors. In case of tampering, the vehicle cannot be selected. In case of damage the vehicle is declared Faulty, Document with photos	x/F
19	Safety condition Check tyres, vehicle's body, electrical and braking system status are in safe conditions for the test and respect road traffic rules. If not, the vehicle cannot be selected.	x
20	Semi-trailer Are there electric cables for semi-trailer connection, where required?			x
21	Aerodynamic modifications Verify no aftermarket aerodynamics modification that cannot be removed before testing was made (roof boxes, load racking, spoilers, etc.) and no standard aerodynamics components are missing (front deflectors, diffusers, splitters, etc.). If yes, the vehicle cannot be selected. Document with photos.	x
22	Check if less than 800 km away from next scheduled service, if yes, then perform the service.			x
23	All checks requiring OBD connections to be performed before and/or after the end of testing
24	Powertrain Control Module calibration part number and checksum			x
25	OBD diagnosis (before or after the emissions test) Read Diagnostic Trouble Codes & Print error log			x
26	OBD Service Mode 09 Query (before or after the emissions test) Read Service Mode 09. Record the information.			x
27	OBD mode 7 (before or after the emissions test) Read Service Mode 07. Record the information

	Remarks for: Repair / replacement of components / part numbers

Annex 4 - Appendix 5

Transparency lists

Table 1

Transparency List 1

ID	Input	Type of data	Unit	Description
1	Emission TA number	Text	--	UN Regulation No.154 approval number; UN Regulation No. 168 on RDE approval number (if applicable)
1a	Emission Type approval Date	Date	--	Date of emission type approval
2	Interpolation Family ID (IP ID)	Text	--	As reported in UN Regulation No. 154, Annex A2, Addendum to type approval communication item 0.1: Interpolation Family Identifier as defined in paragraph 6.2.2. of the same regulation
5	ATCT family ID	Text	--	As reported in paragraph 0.2.3.2. of Annex A1 of UN Regulation No. 154
7	RL family ID of vehicle H or RM family ID	Text	--	As reported in paragraph 0.2.3.4.1. of Annex A1 of UN Regulation No. 154
7a	RL family ID of vehicle L (if relevant)	Text	--	As reported in paragraph 0.2.3.4.2 of Annex A1 of UN Regulation No. 154
7b	RL family ID of vehicle M (if relevant)	Text	--	As reported in UN Regulation No. 154, Annex A1 – Appendix 1, paragraph 1.4.2. Road load parameters
13	Drive wheels of vehicle in family	Enumeration (Front, Rear, 4 Wheel Drive)	--	Paragraph 1.7. of the Addendum to Annex A2 of UN Regulation No. 154
14	Chassis Dyno configuration during TA test	Enumeration (Single Axle, Dual Axle)	--	As in paragraph 2.4.2.4. of Annex B6 to UN Regulation No. 154
18	Driver selectable mode(s) used during the TA tests (pure ICE) or for charge sustaining test (NOVC-HEV, OVC-HEV, NOVC-FCHV)	Possible formats: pdf, jpg.[3] The name of the file shall be a UUID[4], unique inside the package.	--	State and describe mode(s) used in type approval. In cases of predominant mode this will be only one entry. Alternatively the best and worst case modes need to be described. Description of modes that need to be used for TA tests as in paragraph 2.6.6. of Annex B6 to UN Regulation No. 154
19	Driver selectable mode(s) used during the TA tests for charge depleting test (OVC-HEV)	Possible formats: pdf, jpg.13 The name of the file shall be a UUID14, unique inside the package.	--	State and describe mode(s) used in type approval. In cases of predominant mode this will be only one entry. Alternatively the best and worst case modes need to be described. Description of modes that need to be used for TA tests as in paragraph 3.2.3. of Annex B8 to UN Regulation No. 154
20	Idling engine speed for vehicles with manual transmission fuel 1, fuel 2 (if relevant)	Number	rpm	Paragraph 3.2.1.6. of Annex A1 of UN Regulation No. 154
21	No. of gears for vehicles with manual transmission	Number	--	Paragraph 1.13.2. of the Addendum to Annex A2 of UN Regulation No. 154
23	Tyre dimensions of the test vehicle front/rear/middle, for vehicles with manual transmission	Text	--	Paragraph 1.1.8. of Appendix 1 to Annex A1 of UN Regulation No. 154 Use 1 for tyre dimensions of front wheels, 2 for tyre dimensions of rear wheels, 3 for tyre dimensions of middle wheels (if applicable)
24 + 25	Full load power curve with additional safety margin (ASM) for vehicles with manual transmission, fuel 1, fuel 2 (if relevant)	Table values	rpm vs. kW vs. %	The full load power curve over the engine speed range from nidle to nrated or nmax, or ndv(ngvmax) × vmax, whichever is higher together with ASM (if used for gearshift calculation) from paragraph 1.2.4. of Appendix 1 to Annex A1 of UN Regulation No. 154 Example of table values can be found in UNECE Regulation 154, Annex B2, Table A2/1
26	Additional information for gearshift calculation for vehicles with manual transmission, fuel 1, fuel 2 (if relevant)	See table in example	See table in example	Paragraph 1.2.4. of Appendix 1 to Annex A1 of UN Regulation No. 154
29	ATCT FCF fuel 1, fuel 2 (if relevant)	Number	--	One value per each fuel in case of Bi-fuel and Flex-fuel vehicle. Always match Fuel 1 with its ATCT FCF and Fuel 2 with its ATCT FCF. As defined in paragraph 3.8.1. of Annex B6a to UN Regulation No. 154,
30a	Additive Ki factor(s) for vehicles equipped with periodically regenerating systems	Table values	g/km for CO2, mg/km for all the rest	Table defining the values for CO, NOX, PM, THC (mg/km), and for CO2 (g/km). Empty if multiplicative Ki factors are provided or for vehicles that do not have any periodically regenerating systems. Paragraph 2.1.1.1.1. of Appendix 1 to Annex A1 of UN Regulation No. 154 for pollutants and paragraph 2.1.1.2.1. for CO2
30b	Multiplicative Ki factors(s) for vehicles equipped with periodically regenerating systems	Table values	no units	Table defining the values for CO, NOX, PM, THC, and for CO2. Empty if additive Ki factors are provided or for vehicles that do not have any periodically regenerating systems. Paragraph 2.1.1.1.1. of Appendix 1 to Annex A1 of UN Regulation No. 154 for pollutants and paragraph 2.1.1.2.1. for CO2
31a	Additive Deterioration Factors (DF) fuel 1, fuel 2 (if relevant)	Table values	(mg/km except for PN which is #/km)	Table defining deterioration factors per each pollutant. 1. CO, PM, PN, NOX, NMHC and THC for monofuel gasoline vehicles and all bi-fuel and flexifuel vehicles. 2. CO, NOX, NMHC and THC for monofuel LPG and NG vehicles. 3. NOX for monofuel H2 vehicles. 4. NOX, THC+NOX, CO, PM and PN for all diesel vehicles. 5. Empty if multiplicative DF factors are provided. Paragraph 2.1.1.1.1. of Appendix 1 to Annex A1 of UN Regulation No. 154
31b	Multiplicative Deterioration Factors (DF) fuel 1, fuel 2 (if relevant)	Table values	no units	Table defining deterioration factors per each pollutant. 1. CO, PM, PN, NOX, NMHC and THC for monofuel gasoline vehicles and all bi-fuel and flexifuel vehicles. 2. CO, NOX, NMHC and THC for monofuel LPG and NG vehicles. 3. NOX for monofuel H2 vehicles. 4. NOX, THC+NOX, CO, PM and PN for all diesel vehicles. Empty if additive DF factors are provided. Paragraph 2.1.1.1.1. of Appendix 1 to Annex A1 of UN Regulation No. 154
32	Battery voltage for all REESS	Number	V	As defined in paragraph 4.1. of Appendix 2 to Annex B6 of UN Regulation No. 154 (DIN EN 60050-482)
33	K correction coefficient only for NOVC and OVC-HEVs	Table	(g/km)/ (Wh/km)	For NOVC and OVC-HEVs correction of CS CO2 emissions as defined in paragraph 2. of Appendix 2 to Annex B8 of UN Regulation No. 154
42	Regeneration recognition	Document pdf or jpg13 The name of the file shall be a UUID14, unique inside the package.		Description by vehicle manufacturer on how to recognize that a regeneration occurred during a test
43	Regeneration completion	Document pdf or jpg13 The name of the file shall be a UUID14, unique inside the package.	-	Description of the procedure to complete the regeneration
44a	Index Number of the transition cycle for VL	Number	-	For OVC-HEV vehicles only. Number of CD tests performed until break-off criteria is met. Paragraph 2.1.1.4.1.4. of Appendix 1 to Annex A1 of UN Regulation No. 154
49	Propulsion Type	Enumeration Pure ICE, OVC-HEV, NOVC-HEV	--	Propulsion type as defined in paragraph 6.3.1.2.(a) of UN Regulation No. [xxx] on RDE
50	Ignition Type	Enumeration Positive ignition, Compression ignition	--	Ignition Type as reported in paragraph 3.2.1.1. of Annex A1 of UN Regulation No. 154
51	Fuel Operating Mode	Enumeration(Mono-fuel, Bi-fuel, Flex-fuel)	--	Vehicle Fuel Type as reported in paragraph 3.2.2.4. of Annex A1 of UN Regulation No. 154
52	Fuel Type fuel 1, fuel 2 (if relevant)	Enumeration (Petrol, Diesel, LPG, NG/Biomethane, Ethanol (E85), Hydrogen).	--	Fuel Type as reported in paragraph 3.2.2.1. of Annex A1 of UN Regulation No. 154. In the case of Bi-fuel and Flex-fuel vehicle list both fuels.
53	Transmission type	Enumeration (Manual, Automatic, CVT)	--	Transmission Type as reported in paragraph 4.5.1. of Annex A1 of UN Regulation No. 154
54	Engine Capacity	Number	cm3	Engine Capacity as reported in paragraph 3.2.1.3. of Annex A1 of UN Regulation No. 154
55	Method of engine fuelling fuel 1, fuel 2 (if relevant)	Enumeration Direct/Indirect/Direct and Indirect		Method of engine fuelling as declared by OEM. Paragraph 1.10.2. of the Addendum to Annex A2 of UN Regulation No. 154

Table 2

Transparency list 2

Field	Type of data	Description
TVV	Text	Unique identifier of the Type, Variant, Version of the vehicle
PEMS Family ID	Text	Paragraph 6.5.2. of UN Regulation No. 168 on RDE
Make	Text	Trade name of manufacturer
Commercial name	Text	Commercial names of the TVV
Other name	Text	Free text
Category and class	Enumeration (M1, N1 class I, N1 class II, N1 class III, M2)	Category and class of vehicle
Bodywork	Enumeration (AA Saloon; AB Hatchback, AC Station Wagon, AD Coupe, AE Convertible, AF Multi-purpose vehicle AG Truck station wagon BA Lorry, BB Van, BC Tractor unit for semi-trailer BD Road tractor BE Pick-up track BX Chassis-cab or chassis-cowl)	Type of bodywork
Emission TA Number	Text	UN Regulation No.154 approval number; UN Regulation No. 168 on RDE approval number (if applicable)
WVTA Number	Text	Identifier of the Whole Vehicle Type Approval
Evap family ID	Text	As reported in paragraph 0.2.3.7. of Appendix 1 to Annex A1 of UN Regulation No. 154
Rated Engine Power fuel 1, fuel 2 (if relevant)	Number	Paragraph 3.2.1.8. of Annex A1 of UN Regulation No. 154
Twin tyres	Yes/No	Declared by OEM
Fuel Tank Capacities (discreet values)	Number	Fuel tank(s) capacity(ies)
Sealed tank	Yes/No	Paragraph 3.2.12.2.5.5.3. of Annex A1 to UN Regulation No. 154
WMI used in this WVTA+TVV	Text	Declared by the OEM (ISO 3779)

Annex 8

Type 6 test

(Verifying the average exhaust emissions of carbon monoxide and hydrocarbons after a cold start at low ambient temperature)

1. Introduction

This annex applies only to vehicles with positive ignition engines. It describes the equipment required and the procedure for the Type 6 test defined in paragraph 5.3.5. of this Regulation in order to verify the emissions of carbon monoxide and hydrocarbons at low ambient temperatures. Topics addressed in this Regulation include:

(a) Equipment requirements;

(b) Test conditions;

2. Test equipment

2.1. Summary

2.1.1. This chapter deals with the equipment needed for low ambient temperature exhaust emission tests of positive ignition engined vehicles. Equipment required and specifications are equivalent to the requirements for the NEDC based Type I test as specified Annex 4a to the 07 series of amendments to this Regulation, with appendices, if specific requirements for the Type 6 test are not prescribed. Paragraphs 2.2. to 2.6. of this annex describe deviations applicable to Type 6 low ambient temperature testing.

2.2. Chassis dynamometer

2.2.1. The requirements of Appendix 1 to Annex 4a to the 07 series of amendments to this Regulation apply. The dynamometer shall be adjusted to simulate the operation of a vehicle on the road at 266 K (-7 °C). Such adjustment may be based on a determination of the road load force profile at 266 K (-7 °C). Alternatively the driving resistance determined according to Appendix 7 to Annex 4a to the 07 series of amendments to this Regulation may be adjusted for a 10 per cent decrease of the coast-down time. The Technical service may approve the use of other methods of determining the driving resistance.

2.2.2. For calibration of the dynamometer the provisions of Appendix 1 to Annex 4a to the 07 series of amendments to this Regulation apply.

2.3. Sampling system

2.3.1. The provisions of Appendix 2 and Appendix 3 to Annex 4a to the 07 series of amendments to this Regulation apply.

2.4. Analytical equipment

2.4.1. The provisions of Appendix 3 to Annex 4a to the 07 series of amendments to this Regulation apply, but only for carbon monoxide, carbon dioxide, and total hydrocarbon testing.

2.4.2. For calibrations of the analytical equipment the provisions of Annex 4a to the 07 series of amendments to this Regulation apply.

2.5. Gases

2.5.1. The provisions of paragraph 3. of Appendix 3 to Annex 4a to the 07 series of amendments to this Regulation apply, where they are relevant.

2.6. Additional equipment

2.6.1. For equipment used for the measurement of volume, temperature, pressure and humidity the provisions in paragraph 4.6. of Annex 4a to the 07 series of amendments to this Regulation apply.

3. Test sequence and fuel

3.1. General requirements

3.1.1. The test sequence in Figure A8/1 shows the steps encountered as the test vehicle undergoes the procedures for the Type 6 test. Ambient temperature levels encountered by the test vehicle shall average: 266 K (-7 °C) 3 K and shall not be less than 260 K (-13 °C), or more than 272 K (-1 °C).

The temperature may not fall below 263 K (-10 °C), or exceed 269 K (-4 °C) for more than three consecutive minutes.

3.1.2. The test cell temperature monitored during testing shall be measured at the output of the cooling fan (paragraph 5.2.1. of this annex). The ambient temperature reported shall be an arithmetic average of the test cell temperatures measured at constant intervals no more than one minute apart.

3.2. Test procedure

The Part One, urban driving cycle, according to Figure A4a/1 in Annex 4a to the 07 series of amendments to this Regulation, consists of four elementary urban cycles which together make a complete Part One cycle.

3.2.1. Start of engine, start of the sampling and the operation of the first cycle shall be in accordance with Table A4a/1 and Figure A4a/1 in Annex 4a to the 07 series of amendments to this Regulation.

3.3. Preparation for the test

3.3.1. For the test vehicle the provisions of paragraph 3.2. of Annex 4a to the 07 series of amendments to this Regulation apply. For setting the equivalent inertia mass on the dynamometer the provisions of paragraph 6.2.1. of Annex 4a to the 07 series of amendments to this Regulation apply.

Figure A8/1

Procedure for low ambient temperature test

A flow chart to describe the procedure for low ambient temperature tests. From the start, if necessary, drain fuel and refill; the next step is preconditioning; following this there are two options: ambient cold soak, or forced cool down, followed by a cold soak; following this the low temperature emission test occurs. The flow chart ends.

3.4. Test fuel

3.4.1. The test fuel shall comply with the specifications given in paragraph 2. of Annex 10 to this Regulation.

3.5. The road load coefficients to be used shall be those for vehicle low (VL). If VL does not exist then the vehicle high (VH) road load shall be used. In that case VH shall be defined in accordance with point 4.2.1.1.1. of Annex B4 to UN Regulation No. 154. In case the interpolation method is used VL and VH shall be specified in accordance with point 4.2.1.1.2. of Annex B4 to UN Regulation No. 154. The dynamometer shall be adjusted to simulate the operation of a vehicle on the road at – 7 °C. Such adjustment may be based on a determination of the road load force profile at – 7 °C. Alternatively, the driving resistance determined may be adjusted for a 10 per cent decrease of the coast-down time. The Technical service may approve the use of other methods for determining the driving resistance.

4. Vehicle preconditioning

4.1. Summary

4.1.1. To ensure reproducible emission tests, the test vehicles shall be conditioned in a uniform manner. The conditioning consists of a preparatory drive on a chassis dynamometer followed by a soak period before the emission test according to paragraph 4.3. of this annex.

4.2. Preconditioning

4.2.1. The fuel tank(s) shall be filled with the specified test fuel. If the existing fuel in the fuel tank(s) does not meet the specifications contained in paragraph 3.4.1. of this annex, the existing fuel shall be drained prior to the fuel fill. The test fuel shall be at a temperature less than or equal to 289 K (+16 °C). For the above operations the evaporative emission control system shall neither be abnormally purged nor abnormally loaded.

4.2.2. The vehicle is moved to the test cell and placed on the chassis dynamometer.

4.2.3. The preconditioning consists of one complete driving cycle, Parts One and Two, according to Tables A4a/1 and A4a/2 and Figure A4a/1 of Annex 4a to the 07 series of amendments to this Regulation. At the request of the manufacturer, vehicles with a positive ignition engine may be preconditioned with one Part One and two Part Two driving cycles.

4.2.4. During the preconditioning the test cell temperature shall remain relatively constant and not be higher than 303 K (30 °C)

4.2.5. The drive-wheel tyre pressure shall be set in accordance with the provisions of paragraph 6.2.3. of Annex 4a to the 07 series of amendments to this Regulation.

4.2.6. Within ten minutes of completion of the preconditioning, the engine shall be switched off.

4.2.7. If requested by the manufacturer and approved by the Technical service, additional preconditioning may in exceptional cases be allowed. The Technical service may also choose to conduct additional preconditioning. The additional preconditioning consists of one or more driving schedules of the Part One cycle as described in Table A4a/1 and Figure A4a/1 of Annex 4a to the 07 series of amendments to this Regulation. The extent of such additional preconditioning shall be recorded in the test report.

4.3. Soak methods

4.3.1. One of the following two methods, to be selected by the manufacturer, shall be utilised to stabilise the vehicle before the emission test.

4.3.2. Standard method

The vehicle is stored for not less than 12 hours nor for more than 36 hours prior to the low ambient temperature exhaust emission test. The ambient temperature (dry bulb) during this period shall be maintained at an average temperature of:

266 K (-7 °C) 3 K during each hour of this period and shall not be less than 260 K (-13 °C) nor more than 272 K (-1 °C). In addition, the temperature may not fall below 263 K (-10 °C) nor more than 269 K (-4 °C) for more than three consecutive minutes.

4.3.3. Forced method

The vehicle shall be stored for not more than 36 hours prior to the low ambient temperature exhaust emission test.

4.3.3.1. The vehicle shall not be stored at ambient temperatures which exceed 303 K (30 °C) during this period.

4.3.3.2. Vehicle cooling may be accomplished by force-cooling the vehicle to the test temperature. If cooling is augmented by fans, the fans shall be placed in a vertical position so that the maximum cooling of the drive train and engine is achieved and not primarily the sump. Fans shall not be placed under the vehicle.

4.3.3.3. The ambient temperature need only be stringently controlled after the vehicle has been cooled to 266 K (-7 °C)  2 K, as determined by a representative bulk oil temperature.

A representative bulk oil temperature is the temperature of the oil measured near the middle of the oil sump, not at the surface or at the bottom of the oil sump. If two or more diverse locations in the oil are monitored, they shall all meet the temperature requirements.

4.3.3.4. The vehicle shall be stored for at least one hour after is has been cooled to 266 K (-7 °C)  2 K, prior to the low ambient temperature exhaust emission test. The ambient temperature (dry bulb) during this period shall average 266 K (-7 °C)  3 K, and shall not be less than 260 K (-13 °C) or more than 272 K (-1 °C).

In addition, the temperature may not fall below 263 K (-10 °C) or exceed 269 K (-4 °C), for more than three consecutive minutes.

4.3.4. If the vehicle is stabilised at 266 K (-7 °C), in a separate area and is moved through a warm area to the test cell, the vehicle shall be destabilised in the test cell for at least six times the period the vehicle is exposed to warmer temperatures. The ambient temperature (dry bulb) during this period shall average 266 K (-7 °C)  3 K and shall not be less than 260 K (-13 °C) nor more than 272 K (-1 °C).

In addition, the temperature may not fall below 263 K (-10 °C) or exceed 269 K (-4 °C), for more than three consecutive minutes.

5. Dynamometer procedure

5.1. Summary

5.1.1. The emission sampling is performed over a test procedure consisting of the Part One cycle (Annex 4a to the 07 series of amendments to this Regulation, Table A4a/1 and Figure A4a/1). Engine start-up, immediate sampling, operation over the Part One cycle and engine shut-down make a complete low ambient temperature test, with a total test time of 780 seconds. The exhaust emissions are diluted with ambient air and a continuously proportional sample is collected for analysis. The exhaust gases collected in the bag are analysed for hydrocarbons, carbon monoxide, and carbon dioxide. A parallel sample of the dilution air is similarly analysed for carbon monoxide, total hydrocarbons and carbon dioxide.

5.2. Dynamometer operation

5.2.1. Cooling fan

5.2.1.1. A cooling fan is positioned so that cooling air is appropriately directed to the radiator (water cooling) or to the air intake (air-cooling) and to the vehicle.

5.2.1.2. For front-engined vehicles, the fan shall be positioned in front of the vehicle, within 300 mm of it. In the case of rear-engined vehicles or if the above arrangement is impractical, the cooling fan shall be positioned so that sufficient air is supplied to cool the vehicle.

5.2.1.3. The fan speed shall be such that, within the operating range of 10 km/h to at least 50 km/h, the linear velocity of the air at the blower outlet is within 5 km/h of the corresponding roller speed. The final selection of the blower shall have the following characteristics:

(a) Area: at least 0.2 m2;

(b) Height of the lower edge above ground: approximately 20 cm.

As an alternative the blower linear air speed shall be at least 6 m/s (21.6 km/h). At the request of the manufacturer, for special vehicles (e.g. vans, off-road) the height of the cooling fan may be modified.

5.2.1.4. The vehicle speed as measured from the dynamometer roll(s) shall be used (paragraph 1.2.6. of Appendix 1 to Annex 4a to the 07 series of amendments to this Regulation).

5.2.2. Reserved

5.2.3. Preliminary testing cycles may be carried out if necessary, to determine how best to actuate the accelerator and brake controls so as to achieve a cycle approximating to the theoretical cycle within the prescribed limits, or to permit sampling system adjustment. Such driving shall be carried out before "START" according to Figure A8/1.

5.2.4. Humidity in the air shall be kept low enough to prevent condensation on the dynamometer roll(s).

5.2.5. The dynamometer shall be thoroughly warmed as recommended by the dynamometer manufacturer, and using procedures or control methods that assure stability of the residual frictional power.

5.2.6. The time between dynamometer warming and the start of the emission test shall be no longer than 10 minutes if the dynamometer bearings are not independently heated. If the dynamometer bearings are independently heated, the emission test shall begin no longer than 20 minutes after dynamometer warming.

5.2.7. If the dynamometer power is to be adjusted manually, it shall be set within one hour prior to the exhaust emission test phase. The test vehicle may not be used to make the adjustment. The dynamometer, using automatic control of pre-selectable power settings, may be set at any time prior to the beginning of the emission test.

5.2.8. Before the emission test driving schedule may begin, the test cell temperature shall be 266 K (-7 °C)  2 K, as measured in the air stream of the cooling fan with a maximum distance of 1.5 m from the vehicle.

5.2.9. During operation of the vehicle the heating and defrosting devices shall be shut off.

5.2.10. The total driving distance or roller revolutions measured are recorded.

5.2.11. A four-wheel drive vehicle shall be tested in a two-wheel drive mode of operation. The determination of the total road force for dynamometer setting is performed while operating the vehicle in its primary designed driving mode. At the request of the manufacturer a four-wheel drive vehicle shall be tested in its primary drive mode of operation.

5.3. Performing the test

5.3.1. The provisions of paragraph 6.4., excluding 6.4.1.2., of Annex 4a to the 07 series of amendments to this Regulation apply in respect of starting the engine, carrying out the test and taking the emission samples. The sampling begins before or at the initiation of the engine start-up procedure and ends on conclusion of the final idling period of the last elementary cycle of the Part One (urban driving cycle), after 780 seconds.

The first driving cycle starts with a period of 11 seconds idling as soon as the engine has started.

5.3.2. For the analysis of the sampled emissions the provisions of paragraph 6.5., excluding paragraph 6.5.2., of Annex 4a to the 07 series of amendments to this Regulation apply. In performing the exhaust sample analysis the Technical service shall exercise care to prevent condensation of water vapour in the exhaust gas sampling bags.

5.3.3. For the calculations of the mass emissions the provisions of paragraph 6.6. of Annex 4a to the 07 series of amendments to this Regulation apply.

5.4. Additional requirements for Hybrid Electric Vehicles

5.4.1. For OVC vehicles, the measurements of emissions of pollutants shall be carried out under the same conditions as specified for condition B of the NEDC based Type I test (paragraphs 3.1.3. and 3.2.3. of Annex 14 to the 07 series of amendments to this Regulation) .

5.4.2. For NOVC vehicles, the measurements of emissions of pollutants shall be carried out under the same conditions as in the NEDC based Type I test as set out in Annex 4a to the 07 series of amendments to this Regulation.

6. Other requirements

6.1. Irrational emission control strategy

6.1.1. Any irrational emission control strategy which results in a reduction in effectiveness of the emission control system under normal operating conditions at low temperature driving, so far as not covered by the standardised emission tests, may be considered a defeat device.

Annex 10

Specifications of reference fuels

1. Specifications of reference fuels for testing vehicles to the emission limits

1.1 The specification for the reference fuels to be used shall be those set out in Annex B3 of UN Regulation No. 154.

2. Specifications of reference fuel to be used for testing vehicles equipped with positive ignition engines at low ambient temperature – Type 6 Test

Type: Petrol (E10)

Parameter	Unit	Limits 1			Test method
Parameter	Unit	Minimum		Maximum	Test method
Research octane number, RON 2		95.0		98.0	EN ISO 5164
Motor octane number, MON 2		85.0		89.0	EN ISO 5163
Density at 15 °C	kg/m3	743.0		756.0	EN ISO 12185
Vapour pressure (DVPE)	kPa	56.0		95.0	EN 13016-1
Water content		max 0.05 Appearance at -7 °C: Clear & Bright			EN 12937
Distillation:
– evaporated at 70 °C	% v/v	34.0	46.0		EN ISO 3405
– evaporated at 100 °C	% v/v	54.0	62.0		EN ISO 3405
– evaporated at 150 °C	% v/v	86.0	94.0		EN ISO 3405
– final boiling point	°C	170	195		EN ISO 3405
Residue	% v/v	—	2.0		EN ISO 3405
Hydrocarbon analysis:
– olefins	% v/v	6.0	13.0		EN 22854
– aromatics	% v/v	25.0	32.0		EN 22854
– benzene	% v/v	-	1.00		EN 22854 EN 238
– saturates	% v/v	report			EN 22854
Carbon/hydrogen ratio		report
Carbon/oxygen ratio		report
Induction period 3	minutes	480		—	EN ISO 7536
Oxygen content 4	% m/m	3.3		3.7	EN 22854
Solvent washed gum (Existent gum content)	mg/100ml	—		4	EN ISO 6246
Sulphur content 5	mg/kg	—		10	EN ISO 20846 EN ISO 20884
Copper corrosion 3hrs, 50 °C		—		Class 1	EN ISO 2160
Lead content	mg/l	—		5	EN 237
Phosphorus content 6	mg/l	—		1.3	ASTM D 3231
Ethanol 4	% v/v	9.0		10.0	EN 22854

1 The values quoted in the specifications are ‘true values’. In establishment of their limit values the terms of ISO 4259 Petroleum products - Determination and application of precision data in relation to methods of test have been applied and in fixing a minimum value, a minimum difference of 2R above zero has been taken into account; in fixing a maximum and minimum value, the minimum difference is 4R (R = reproducibility). Notwithstanding this measure, which is necessary for technical reasons, the manufacturer of fuels shall nevertheless aim at a zero value where the stipulated maximum value is 2R and at the mean value in the case of quotations of maximum and minimum limits. Should it be necessary to clarify whether a fuel meets the requirements of the specifications, the terms of ISO 4259 shall be applied.

2 A correction factor of 0.2 for MON and RON shall be subtracted for the calculation of the final result in accordance with EN 228:2008.

3 The fuel may contain oxidation inhibitors and metal deactivators normally used to stabilise refinery gasoline streams, but detergent/dispersive additives and solvent oils shall not be added.

4 Ethanol is the only oxygenate that shall be intentionally added to the reference fuel. The Ethanol used shall conform to EN 15376.

5 The actual sulphur content of the fuel used for the Type 6 test shall be reported.

6 There shall be no intentional addition of compounds containing phosphorus, iron, manganese, or lead to this reference fuel

Type: Ethanol (E75)

Parameter	Unit	Limits 1		Test method 2
Parameter	Unit	Minimum	Maximum	Test method 2
Research octane number, RON		95	-	EN ISO 5164
Motor octane number, MON		85	-	EN ISO 5163
Density at 15 °C	kg/m3	report		EN ISO 12185
Vapour pressure	kPa	50	60	EN ISO 13016-1 (DVPE)
Sulphur content 3, 4	mg/kg	-	10	EN ISO 20846 EN ISO 20884
Oxidation stability	minutes	360	-	EN ISO 7536
Existent gum content (solvent washed)	mg/100ml	-	4	EN ISO 6246
Appearance shall be determined at ambient temperature or 15 °C whichever is higher.		Clear and bright, visibly free of suspended or precipitated contaminants		Visual inspection
Ethanol and higher alcohols 7	% (V/V)	70	80	EN 1601 EN 13132 EN 14517
Higher alcohols (C3 - C8)	% (V/V)	-	2
Methanol		-	0.5
Petrol 5	% (V/V)	Balance		EN 228
Phosphorus	mg/l	0.36		EN 15487 ASTM D 3231
Water content	% (V/V)	-	0.3	ASTM E 1064 EN 15489
Inorganic chloride content	mg/1	-	1	ISO 6227 - EN 15492
pHe		6.5	9	ASTM D 6423 EN 15490
Copper strip corrosion (3h at 50 °C)	Rating	Class I		EN ISO 2160
Acidity (as acetic acid CH3COOH)	% (m/m)		0.005	ASTM D 1613 EN 15491
Acidity (as acetic acid CH3COOH)	mg/1		40	ASTM D 1613 EN 15491
Carbon/hydrogen ratio		report
Carbon/oxygen ratio		report

1 The values referred to in the specifications are "true values". When establishing the value limits, the terms of ISO 4259 Petroleum products - Determination and application of precision data in relation to methods of test were applied. When fixing a minimum value, a minimum difference of 2R above zero was taken into account. When fixing a maximum and minimum value, the minimum difference used was 4R (R = reproducibility). Notwithstanding this procedure, which is necessary for technical reasons, fuel manufacturers shall aim for a zero value where the stipulated maximum value is 2R and for the mean value for quotations of maximum and minimum limits. Where it is necessary to clarify whether fuel meets the requirements of the specifications, the ISO 4259 terms shall be applied.

2 In cases of dispute, the procedures for resolving the dispute and interpretation of the results based on test method precision, described in EN ISO 4259 shall be used.

3 In cases of national dispute concerning sulphur content, either EN ISO 20846 or EN ISO 20884 shall be called up similar to the reference in the national annex of EN 228.

4 The actual sulphur content of the fuel used for the Type 6 test shall be reported.

5 The unleaded petrol content may be determined as 100 minus the sum of the percentage content of water and alcohols.

6 There shall be no intentional addition of compounds containing phosphorus, iron, manganese, or lead to this reference fuel.

7 Ethanol to meet specification of EN 15376 is the only oxygenate that shall be intentionally added to this reference fuel.

[*]The category code may also be in the format L1, L2, L3 etc

[1] As defined in the Consolidated Resolution on the Construction of Vehicles (R.E.3.), document ECE/TRANS/WP.29/78/Rev.6, para. 2. -
www.unece.org/transport/vehicle-regulations/wp29/resolutions

[2] The distinguishing numbers of the Contracting Parties to the 1958 Agreement are reproduced in Annex 3 to the Consolidated Resolution on the Construction of Vehicles (R.E.3), document ECE/TRANS/WP.29/78/Rev.6 – Annex 3, www.unece.org/transport/vehicle-regulations/wp29/resolutions

[3] This communication shall be done via the “343-app” that is available at: https://apps.unece.org/WP29_application

[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 document, such characters shall be represented in the documentation by the symbol '?' (e.g. ABC??123??).

[5] As defined in the Consolidated Resolution on the Construction of Vehicles (R.E.3.), document ECE/TRANS/WP.29/78/Rev.3, para. 2. -
https://unece.org/transport/standards/transport/vehicle-regulations-wp29/resolutions.

[6] 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.

[7] The mass of the driver and, if applicable, of the crew member is assessed at 75 kg (subdivided into 68 kg occupant mass and 7 kg luggage mass according to ISO Standard 2416 – 1992), the fuel tank is filled to 90 per cent and the other liquid containing systems (except those for used water) to 100 per cent of the capacity s specified by the manufacturer.

[8] 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 technical permissible mass.

[9] Please fill in here the upper and lower values for each variant.

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

[11] Mono-fuel gas vehicles will be regarded for the test as vehicles which can only run a gaseous fuel.

[13] The specified particulars are to be given for any proposed variants.

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

[16] Document ECE/TRANS/WP.19/1121

https://unece.org/fileadmin/DAM/trans/main/wp29/wp29resolutions/ECE-TRANS-WP29-1121e.pdf

[2] 1 Distinguishing number of the country which has granted/extended/refused/withdrawn approval (see approval provisions in the Regulation).

2 Strike out what does not apply.

[3] 3 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 document, such characters shall be represented in the documentation by the symbol '?' (e.g. ABC??123??).

[4] 4 As defined in the Consolidated Resolution on the Construction of Vehicles (R.E.3.), document ECE/TRANS/WP.29/78/Rev.3, para. 2. -
https://unece.org/transport/standards/transport/vehicle-regulations-wp29/resolutions.

[17] In the case of vehicles equipped with automatic-shift gearboxes, give all pertinent technical data.

[18] Smoke opacity values according to provisions laid out in Regulation No. 24.

Index	Internal gearbox ratios (ratios of engine to gearbox output shaft revolutions)	Final drive ratios (ratio of gearbox output shaft to driven wheel revolutions)	Total gear ratios
Maximum for Continuously Variable Transmission (CVT)
1
2
3
4, 5, others
Minimum for CVT
Reverse

Test	CO value (per cent vol.)	Lambda*	Engine speed (min -1)	Engine oil temperature (°C)
Low idle test		N/A
High idle test
* Lambda formula: see paragraph 5.3.7.3. of this Regulation.

Character	Emission standard	Vehicle category	Engine type	OBD
EA	Euro 6e	M1, M2, N1, N2	PI, CI	OBD thresholds (see Table 4A in paragraph 6.8. of UN Regulation No. 154)
EB	Euro 6e-bis	M1, M2, N1, N2	PI, CI
EC	Euro 6e-bis-FCM	M1, M2, N1, N2	PI, CI

Condition number	Vehicle speed (km/h)
1	Idling
2	50 2 (in 3rd gear or "drive")
3	50 2 (in 3rd gear or "drive")

Condition number	Power absorbed by the brake
1	Nil
2	That corresponding to the setting for Type 1 test, as specified in UN Regulation No. 154, at 50 km/h
3	That for conditions No. 2, multiplied by a factor of 1.7