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Document 02014R0540-20190527
Regulation (EU) No 540/2014 of the European Parliament and of the Council of 16 April 2014 on the sound level of motor vehicles and of replacement silencing systems, and amending Directive 2007/46/EC and repealing Directive 70/157/EEC (Text with EEA relevance)Text with EEA relevance
Consolidated text: Regulation (EU) No 540/2014 of the European Parliament and of the Council of 16 April 2014 on the sound level of motor vehicles and of replacement silencing systems, and amending Directive 2007/46/EC and repealing Directive 70/157/EEC (Text with EEA relevance)Text with EEA relevance
Regulation (EU) No 540/2014 of the European Parliament and of the Council of 16 April 2014 on the sound level of motor vehicles and of replacement silencing systems, and amending Directive 2007/46/EC and repealing Directive 70/157/EEC (Text with EEA relevance)Text with EEA relevance
02014R0540 — EN — 27.05.2019 — 002.001
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REGULATION (EU) No 540/2014 OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL of 16 April 2014 on the sound level of motor vehicles and of replacement silencing systems, and amending Directive 2007/46/EC and repealing Directive 70/157/EEC (OJ L 158 27.5.2014, p. 131) |
Amended by:
|
|
Official Journal |
||
No |
page |
date |
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COMMISSION DELEGATED REGULATION (EU) 2017/1576 of 26 June 2017 |
L 239 |
3 |
19.9.2017 |
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COMMISSION DELEGATED REGULATION (EU) 2019/839 of 7 March 2019 |
L 138 |
70 |
24.5.2019 |
Corrected by:
REGULATION (EU) No 540/2014 OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL
of 16 April 2014
on the sound level of motor vehicles and of replacement silencing systems, and amending Directive 2007/46/EC and repealing Directive 70/157/EEC
(Text with EEA relevance)
Article 1
Subject matter
This Regulation establishes the administrative and technical requirements for the EU type-approval of all new vehicles of the categories referred to in Article 2 with regard to their sound level, and of replacement silencing systems and components thereof type-approved as separate technical units designed and constructed for vehicles of categories M1 and N1 with a view to facilitating their registration, sale and entry into service within the Union.
Article 2
Scope
This Regulation shall apply to vehicles of categories M1, M2, M3, N1, N2 and N3, as defined in Annex II to Directive 2007/46/EC, and to replacement silencing systems and components thereof type-approved as separate technical units designed and constructed for vehicles of categories M1 and N1.
Article 3
Definitions
For the purposes of this Regulation, the definitions laid down in Article 3 of Directive 2007/46/EC apply.
In addition, the following definitions also apply:
‘type-approval of a vehicle’ means the procedure referred to in Article 3 of Directive 2007/46/EC with regard to sound levels;
‘vehicle type’ means a category of motor vehicles which do not differ in essential respects such as:
for vehicles of categories M1, M2 ≤ 3 500 kg, N1 tested in accordance with point 4.1.2.1 of Annex II:
the shape or materials of the bodywork (particularly the engine compartment and its soundproofing);
the type of engine (e.g. positive or compression ignition, two- or four-stroke, reciprocating or rotary piston), number and capacity of cylinders, number and type of carburettors or injection system, arrangement of valves, or the type of electric motor;
rated maximum net power and corresponding engine speed(s); however if the rated maximum power and the corresponding engine speed differs only due to different engine mappings, those vehicles may be regarded as of the same type;
the silencing system;
for vehicles of categories M2 > 3 500 kg, M3, N2, N3 tested in accordance with point 4.1.2.2 of Annex II:
the shape or materials of the bodywork (particularly the engine compartment and its soundproofing);
the type of engine (e.g. positive or compression ignition, two- or four-stroke, reciprocating or rotary piston), number and capacity of cylinders, type of injection system, arrangement of valves, rated engine speed (S), or the type of electric motor;
vehicles having the same type of engine and/or different overall gear ratios may be regarded as vehicles of the same type.
However, if the differences in point (b) provide for different target conditions, as described in point 4.1.2.2 of Annex II, those differences shall be regarded as a change of type;
‘technically permissible maximum laden mass’ (M) means the maximum mass allocated to a vehicle on the basis of its construction features and its design performance; the technically permissible laden mass of a trailer or of a semi-trailer includes the static mass transferred to the towing vehicle when coupled;
‘rated maximum net power’ (Pn) means the engine power expressed in kW and measured by the UNECE method pursuant to UNECE Regulation No 85 ( 1 ).
If the rated maximum net power is reached at several engine speeds, the highest engine speed shall be used;
‘standard equipment’ means the basic configuration of a vehicle including all features that are fitted without giving rise to any further specifications on configuration or equipment level but equipped with all the features required under the regulatory acts mentioned in Annex IV or Annex XI to Directive 2007/46/EC;
‘mass of the driver’ means a mass rated at 75 kg located at the driver's seating reference point;
‘mass of a vehicle in running order’ (mro) means
in the case of a motor vehicle:
the mass of the vehicle, with its fuel tank(s) filled to at least 90 % of its or their capacity/ies, including the mass of the driver, the fuel and liquids, fitted with the standard equipment in accordance with the manufacturer's specifications and, where they are fitted, the mass of the bodywork, the cabin, the coupling and the spare wheel(s) as well as the tools;
in the case of a trailer:
the mass of the vehicle including the fuel and liquids, fitted with the standard equipment in accordance with the manufacturer's specifications, and, when they are fitted, the mass of the bodywork, additional coupling(s), the spare wheel(s) and the tools;
‘rated engine speed’ (S) means the declared engine speed in min–1 (rpm) at which the engine develops its rated maximum net power pursuant to UNECE Regulation No 85 or, where the rated maximum net power is reached at several engine speeds, the highest one of those speeds;
‘power to mass ratio index’ (PMR) means a numerical quantity calculated in accordance with the formula set out in point 4.1.2.1.1 of Annex II;
‘reference point’ means one of the following points:
in the case of vehicles of categories M1 and N1:
for front engine vehicles, the front end of the vehicle;
for mid engine vehicles, the centre of the vehicle;
for rear engine vehicles, the rear end of the vehicle.
in the case of vehicles of categories M2, M3, N2 and N3, the border of the engine closest to the front of the vehicle.
‘target acceleration’ means acceleration at a partial throttle condition in urban traffic as derived from statistical investigations;
‘engine’ means the power source without detachable accessories;
‘reference acceleration’ means the required acceleration during the acceleration test on the test track;
‘gear ratio weighting factor’ (k) means a dimensionless numerical quantity used to combine the test results of two gear ratios for the acceleration test and the constant speed test;
‘partial power factor’ (kP) means a numerical quantity with no dimension used for the weighted combination of the test results of the acceleration test and the constant speed test for vehicles;
‘pre-acceleration’ means the application of an acceleration control device prior to AA' for the purpose of achieving stable acceleration between AA' and BB' as referred to in Figure 1 of the Appendix to Annex II;
‘locked gear ratios’ means the control of transmission such that the transmission gear cannot change during a test;
‘silencing system’ means a complete set of components necessary for limiting the noise produced by an engine and its exhaust;
‘silencing system of different types’ means silencing systems which significantly differ in respect of at least one of the following:
trade names or trade marks of their components;
the characteristics of the materials constituting their components, except for the coating of those components;
the shape or size of their components;
the operating principles of at least one of their components;
the assembly of their components;
the number of exhaust silencing systems or components;
‘design family of silencing system or silencing system components’ means a group of silencing systems, or components thereof, in which all of the following characteristics are the same:
the presence of net gas flow of the exhaust gases through the absorbing fibrous material when in contact with that material;
the type of the fibres;
where applicable, binder material specifications;
average fibre dimensions;
minimum bulk material packing density in kg/m3;
maximum contact surface between the gas flow and the absorbing material;
‘replacement silencing system’ means any part of the silencing system, or components thereof, intended for use on a vehicle, other than a part of the type fitted to the vehicle when submitted for EU type-approval pursuant to this Regulation;
‘Acoustic Vehicle Alerting System’ (AVAS) means a system for hybrid electric and pure electric vehicles which provides sound to signal the vehicle's presence to pedestrians and other road users;
‘point of sale’ means a location where vehicles are stored and offered for sale to consumers;
‘technical promotional material’ means technical manuals, brochures, leaflets and catalogues, whether they appear in printed, electronic or online form, as well as websites, and the purpose of which is to promote vehicles to the general public.
Article 4
General obligations of Member States
Member States shall continue to grant EU type-approval, under the terms of Directive 70/157/EEC, to a replacement silencing system, or components thereof, as a separate technical unit intended for vehicles type-approved before the dates of phases of application set out in Annex III to this Regulation.
Member States shall permit the sale and entry into service of replacement silencing systems, or components thereof, holding an EU type-approval as a separate technical unit under the terms of Directive 70/157/EEC intended for vehicles type-approved before the dates of phases of application set out in Annex III to this Regulation.
Article 5
General obligations of manufacturers
Article 6
Additional sound emission provisions (ASEP)
Paragraphs 1 to 6 shall not apply to vehicles of category N1 if one of the following conditions is met:
the engine capacity does not exceed 660 cm3 and the power-to-mass ratio calculated by using the technically permissible maximum laden mass does not exceed 35;
the payload is at least 850 kg and the power-to-mass ratio calculated by using the technically permissible maximum laden mass does not exceed 40.
Article 7
Consumer information and labelling
Vehicle manufacturers and distributors shall endeavour to ensure that the sound level of each vehicle in decibels (dB(a)), measured in accordance with this Regulation, is displayed in a prominent position at the point of sale and in technical promotional material.
In the light of the experience gained in the application of this Regulation, the Commission shall, by 1 July 2018 carry out a comprehensive impact assessment on labelling conditions applicable to air and noise pollution levels and on consumer information. The Commission shall report on the findings of that assessment to the European Parliament and to the Council and, if appropriate, submit a legislative proposal.
Article 8
Acoustic Vehicle Alerting System (AVAS)
Manufacturers shall install AVAS meeting the requirements set out in Annex VIII in new types of hybrid electric and pure electric vehicles by 1 July 2019. Manufacturers shall install AVAS in all new hybrid electric and pure electric vehicles by 1 July 2021. Before those dates, where manufacturers choose to install AVAS in vehicles, they shall ensure that those AVAS comply with the requirements set out in Annex VIII.
The Commission shall be empowered to adopt delegated acts in accordance with Article 10 in order to review Annex VIII and to include more detailed requirements on the performance of AVAS or of active safety systems, taking into account the UNECE work on that issue, by 1 July 2017.
Article 9
Amendment of the annexes
The Commission shall be empowered to adopt delegated acts in accordance with Article 10 to amend Annexes I, IV, VIII and X to adapt them to technical progress.
Article 10
Exercise of the delegation
Article 11
Revision clause
The Commission shall carry out and publish a detailed study on sound level limits by 1 July 2021. The study shall be based on vehicles meeting the latest regulatory requirements. On the basis of the conclusions of that study, the Commission shall, where appropriate, submit a legislative proposal.
Article 12
Amendments to Directive 2007/46/EC
Annexes IV, VI and XI to Directive 2007/46/EC shall be amended in accordance with Annex XI to this Regulation.
Article 13
Transitional provisions
Article 14
Repeal
Article 15
Entry into force
This Regulation shall be binding in its entirety and directly applicable in all Member States.
LIST OF ANNEXES
Annex I |
EU type-approval in respect of the sound level of a vehicle type |
Appendix 1: |
Information document |
Appendix 2: |
Model EU type-approval certificate |
Annex II |
Methods and instruments for measuring the noise made by motor vehicles |
Appendix: |
Figures |
Annex III |
Limit values |
Annex IV |
Silencing systems containing acoustically absorbing fibrous materials |
Appendix: |
Figure 1 — Test apparatus for conditioning by pulsation |
Annex V |
Compressed air noise |
Appendix: |
Figure 1 — Microphone positions for measurement of compressed air noise |
Annex VI |
Checks on conformity of production for vehicles |
Annex VII |
Measuring method to evaluate compliance with the Additional Sound Emission Provisions |
Appendix: |
Model statement of compliance with the Additional Sound Emission Provisions |
Annex VIII |
Measures concerning the Acoustic Vehicle Alerting System (AVAS) |
Annex IX |
EU type-approval in respect of the sound level of silencing systems as separate technical units (replacement silencing systems) |
Appendix 1: |
Information document |
Appendix 2: |
Model EU type-approval certificate |
Appendix 3: |
Model for the EU type-approval mark |
Appendix 4: |
Test apparatus |
Appendix 5: |
Measuring points — back pressure |
Annex X |
Checks on conformity of production for replacement silencing system as a separate technical unit |
Annex XI |
Amendments to Directive 2007/46/EC |
Annex XII |
Correlation table |
ANNEX I
EU TYPE-APPROVAL IN RESPECT OF THE SOUND LEVEL OF A VEHICLE TYPE
1. APPLICATION FOR EU TYPE-APPROVAL OF A VEHICLE TYPE
1.1. |
The application for EU type-approval pursuant to Article 7(1) and (2) of Directive 2007/46/EC of a vehicle type with regard to its sound level shall be submitted by the vehicle manufacturer. |
1.2. |
A model for the information document is contained in Appendix 1. |
1.3. |
A vehicle representative of the type in respect of which type-approval is sought shall be submitted by the vehicle manufacturer to the technical service responsible for the tests. In selecting the vehicle representative of the type, the technical service responsible for the tests shall do so to the satisfaction of the approval authority. Virtual testing methods may be used to aid decision-making during the selection process. |
1.4. |
At the request of the technical service, a specimen of the silencing system and an engine of at least the same cylinder capacity and rated maximum power as that fitted to the vehicle in respect of which type-approval is sought shall also be submitted. |
2. MARKINGS
2.1. |
The exhaust and intake system components, excluding fixing hardware and pipes, shall bear the following markings:
|
2.2. |
The markings referred to in points 2.1.1 and 2.1.2 shall be clearly legible and indelible, even when the system is fitted to the vehicle. |
3. GRANTING OF EU TYPE-APPROVAL OF A VEHICLE TYPE
3.1. |
If the relevant requirements are satisfied, EU type-approval pursuant to Article 9(3) and, if applicable, Article 10(4) of Directive 2007/46/EC shall be granted. |
3.2. |
A model for the EU type-approval certificate is contained in Appendix 2. |
3.3. |
An approval number in accordance with Annex VII to Directive 2007/46/EC shall be assigned to each vehicle type approved. The same Member State shall not assign the same number to another vehicle type.
|
4. AMENDMENTS TO EU TYPE-APPROVALS
In the case of amendments to the type approved pursuant to this Regulation, Articles 13, 14, 15, 16 and Article 17(4) of Directive 2007/46/EC shall apply.
5. CONFORMITY OF PRODUCTION ARRANGEMENTS
5.1. |
Measures to ensure the conformity of production arrangements shall be taken in accordance with the requirements laid down in Article 12 of Directive 2007/46/EC. |
5.2. |
Special provisions:
|
Appendix 1
Information document No … pursuant to Annex I of Directive 2007/46/EC relating to EU type-approval of a vehicle with respect to the permissible sound level
The following information, if applicable, shall be supplied in triplicate and include a list of contents. Any drawings shall be supplied in appropriate scale and in sufficient detail on size A4 or on a folder of A4 format. Photographs, if any, shall show sufficient detail.
If the systems, components or separate technical units have electronic controls, information concerning their performance shall be supplied.
0. GENERAL
0.1. Make (trade name of manufacturer):
0.2. Type:
0.3. Means of identification of type, if marked on the vehicle (b):
0.3.1. Location of that marking:
0.4. Category of vehicle (c):
0.5. Company name and address of manufacturer:
0.8. Name(s) and address(es) of assembly plant(s):
0.9. Name and address of the manufacturer's representative (if any):
1. GENERAL CONSTRUCTION CHARACTERISTICS OF THE VEHICLE
1.1. Photographs and/or drawings of a representative vehicle:
1.3. Number of axles and wheels (4):
1.3.3. Powered axles (number, position, interconnection):
1.6. Position and arrangement of the engine:
2. MASSES AND DIMENSIONS (f) (g) (7) (IN KG AND MM) (REFER TO DRAWING WHERE APPLICABLE)
2.4. Range of vehicle dimensions (overall):
2.4.1. For chassis without bodywork:
2.4.1.1. Length (g5):
2.4.1.2. Width (g7):
2.4.2. For chassis with bodywork:
2.4.2.1. Length (g5):
2.4.2.2. Width (g7):
2.6. Mass in running order (h)
minimum and maximum for each variant:
mass of each version (a matrix shall be provided):
2.8. Technically permissible maximum laden mass stated by the manufacturer (i) (3):
3. POWER PLANT (q)
3.1. Manufacturer of the engine:
3.1.1. Manufacturer's engine code (as marked on the engine, or other means of identification):
3.2. Internal combustion engine
3.2.1.1. Working principle: positive ignition/compression ignition, cycle four-stroke/two-stroke/rotary (1)
3.2.1.2. Number and arrangement of cylinders:
3.2.1.2.3. Firing order:
3.2.1.3. Engine capacity (m): … cm3
3.2.1.8. Maximum net power (n): … kW at … min–1 (manufacturer's declared value)
3.2.4. Fuel feed
3.2.4.2. By fuel injection (compression ignition only): yes/no (1)
3.2.4.2.2. Working principle: Direct injection/pre-chamber/swirl chamber (1)
3.2.4.2.4. Governor
3.2.4.2.4.1. Type:
3.2.4.2.4.2.1. Speed at which cut-off starts under load: … min–1
3.2.4.3. By fuel injection (positive ignition only): yes/no (1)
3.2.4.3.1. Working principle: Intake manifold (single-/multi-point (1))/direct injection/other (specify) (1)
3.2.8. Intake system
3.2.8.1. Pressure charger: yes/no (1)
3.2.8.4.2. Air filter, drawings: or
3.2.8.4.2.1. Make(s):
3.2.8.4.2.2. Type(s):
3.2.8.4.3. Intake silencer, drawings: or
3.2.8.4.3.1. Make(s):
3.2.8.4.3.2. Type(s):
3.2.9. Silencing system
3.2.9.2. Description and/or drawing of the silencing system:
3.2.9.4. Exhaust silencer(s):
Type, marking of exhaust silencer(s):
Where relevant for exterior noise, reducing measures in the engine compartment and on the engine:
3.2.9.5. Location of the exhaust outlet:
3.2.9.6. Exhaust silencer containing fibrous materials:
3.2.12.2.1. Catalytic convertor: yes/no (1)
3.2.12.2.1.1. Number of catalytic convertors and elements (provide the information below for each separate unit):
3.2.12.2.6. Particulate trap: yes/no (1)
3.3. Electric motor
3.3.1. Type (winding, excitation):
3.3.1.1. Maximum hourly output: … kW
3.3.1.2. Operating voltage: … V
3.4. Engines or motors or combinations thereof
3.4.1. Hybrid electric vehicle: yes/no (1)
3.4.2. Category of hybrid electric vehicle: off-vehicle charging/non off-vehicle charging (1)
3.4.3 Operating mode switch: with/without (1)
3.4.3.1. Selectable modes
3.4.3.1.1. Pure electric: yes/no (1)
3.4.3.1.2. Pure fuel consuming: yes/no (1)
3.4.3.1.3. Hybrid modes: yes/no (1) (if yes, short description):
3.4.5. Electric motor (describe each type of electric motor separately)
3.4.5.1. Make:
3.4.5.2. Type:
3.4.5.4. Maximum power: … kW
4. TRANSMISSION (P)
4.2. Type (mechanical, hydraulic, electric, etc.):
4.6. Gear ratios
Gear |
Internal gearbox ratios (ratios of engine to gearbox output shaft revolutions) |
Final drive ratio(s) (ratio of gearbox output shaft to driven wheel revolutions) |
Total gear ratios |
Maximum for CVT (*1) 1 2 3 … Minimum for CVT (*1) Reverse |
|
|
|
(*1)
Continuously variable transmission |
4.7. Maximum vehicle design speed (in km/h) (q):
6. SUSPENSION
6.6. Tyres and wheels
6.6.1. Tyre/wheel combination(s)
for tyres indicate size designation, load-capacity index and speed category symbol,
for wheels indicate rim size(s) and off-set(s).
6.6.2. Upper and lower limits of rolling radii
6.6.2.1. Axle 1:
6.6.2.2. Axle 2:
6.6.2.3. Axle 3:
6.6.2.4. Axle 4:
etc.
9. BODYWORK
9.1. Type of bodywork using the codes defined in Part C of Annex II to Directive 2007/46/EC:
9.2. Materials used and method of construction:
12. MISCELLANEOUS
12.5. Details of any non-engine devices designed to reduce noise (if not covered by other items):
▼M2 —————
12.9. AVAS
12.9.1. |
Approval number of a type of vehicle with regard to its sound emission pursuant to UNECE Regulation No 138 (1) or |
12.9.2. |
Complete reference to the test results of AVAS sound emission levels, measured in accordance with Regulation (EU) No 540/2014 (1). |
Date:
Signed:
Position in company:
Appendix 2
Model EU type-approval certificate
(Maximum Format: A4 (210 × 297 mm))
Stamp of approval authority
Communication concerning the
type-approval ( 2 )
extension of type-approval (2)
refusal of type-approval (2)
withdrawal of type-approval (2)
of a type of a vehicle with regard to the sound level (Regulation (EU) No 540/2014).
Type-approval number:
Reason for extension:
SECTION I
0.1. Make (trade name of manufacturer):
0.2. Type:
0.3. Means of identification of type if marked on the vehicle ( 3 ):
0.3.1. Location of that marking:
0.4. Category of vehicle ( 4 ):
0.5. Company name and address of manufacturer:
0.8. Name(s) and address(es) of assembly plant(s):
0.9. Name and address of the manufacturer's representative (if any):
SECTION II
1. Additional information (where applicable): See Addendum
2. Technical service responsible for carrying out the tests:
3. Date of test report:
4. Number of test report:
5. Remarks (if any): See Addendum
6. Place:
7. Date:
8. Signature:
Attachments: |
Information package |
|
Test report (for systems)/Test results (for whole vehicles) |
Addendum
to EU type-approval certificate No …
1. Additional information
1.1. Power plant
1.1.1. Manufacturer of the engine:
1.1.2. Manufacturer's engine code:
1.1.3. Maximum net power (g): … kW at … min -1 or maximum continuous rated power (electric motor) … kW ( 5 )
1.1.4. Pressure charger(s), make and type:
1.1.5. Air filter, make and type:
1.1.6. Intake silencer(s), make and type:
1.1.7. Exhaust silencer(s), make and type:
1.1.8. Catalyst(s), make and type:
1.1.9. Particulate trap(s), make and type:
1.2. Transmission
1.2.1. Type (mechanical, hydraulic, electric, etc.):
1.3. Non-engine devices designed to reduce noise:
2. Test results
2.1. Sound level of moving vehicle: … dB(A)
2.2. Sound level of stationary vehicle: … dB(A) at … min-1
2.2.1. Sound level of compressed air, service brake: … dB(A)
2.2.1. Sound level of compressed air, parking brake: … dB(A)
2.2.1. Sound level of compressed air, during the pressure regulator actuation: … dB(A)
2.3. Data to facilitate in-use compliance test of hybrid electric vehicles, where an internal combustion engine cannot operate when the vehicle is stationary
2.3.1. Gear (i) or position of the gear selector chosen for the test:
2.3.2. Position of the operating switch during measurement Lwot,(i) (if switch is fitted)
2.3.3. Pre-acceleration length lPA … m
2.3.4. Vehicle speed at the beginning of the acceleration … km/h
2.3.5. Sound pressure level Lwot,(i) … dB(A)
3. AVAS fitted: yes/no (1)
4. Remarks…
ANNEX II
METHODS AND INSTRUMENTS FOR MEASURING THE NOISE MADE BY MOTOR VEHICLES
1. METHODS OF MEASUREMENT
1.1. |
The noise made by the vehicle type submitted for EU type-approval shall be measured by the two methods described in this Annex for the vehicle in motion and for the vehicle when stationary. In the case of a hybrid electric vehicle where an internal combustion engine cannot operate when the vehicle is stationary, the emitted noise shall only be measured in motion. Vehicles having a technically permissible maximum laden mass exceeding 2800 kg shall be subjected to an additional measurement of the compressed air noise with the vehicle stationary in accordance with the specifications of Annex V, if the corresponding brake equipment is part of the vehicle. |
1.2. |
The values measured in accordance with the tests set out in point 1.1 of this Annex shall be entered in the test report and on a form conforming to the model contained in Appendix 2 to Annex I. |
2. MEASURING INSTRUMENTS
2.1. Acoustic measurements
The apparatus used for measuring the sound level shall be a precision sound-level meter or equivalent measurement system meeting the requirements of class 1 instruments (inclusive of the recommended windscreen, if used). Those requirements are described in ‘IEC 61672-1:2002: Precision sound level meters’, second edition, of the International Electrotechnical Commission (IEC).
Measurements shall be carried out using the ‘fast’ response of the acoustic measurement instrument and the ‘A’ weighting curve also described in ‘IEC 61672-1:2002’. When using a system that includes a periodic monitoring of the A-weighted sound pressure level, a reading shall be made at a time interval not greater than 30 ms (milliseconds).
The instruments shall be maintained and calibrated in accordance with the instructions of the instrument manufacturer.
2.2. Compliance with requirements
Compliance of the acoustic measurement instrumentation shall be verified by the existence of a valid certificate of compliance. A certificate of compliance shall be deemed to be valid if certification of compliance with the standards was conducted within the previous 12-month period for the sound calibration device and within the previous 24-month period for the instrumentation system. All compliance testing shall be conducted by a laboratory, which is authorised to perform calibrations traceable to the appropriate standards.
2.3. Calibration of the entire Acoustic Measurement System for measurement session
At the beginning and at the end of every measurement session, the entire acoustic measurement system shall be checked by means of a sound calibrator that complies with the requirements for sound calibrators of precision class 1 as set out in IEC 60942: 2003. Without any further adjustment the difference between the readings shall be less than or equal to 0,5 dB. If that value is exceeded, the results of the measurements obtained after the previous satisfactory check shall be discarded.
2.4. Instrumentation for speed measurements
The engine speed shall be measured with instrumentation having an accuracy of ± 2 % or better at the engine speeds required for the measurements being performed.
The road speed of the vehicle shall be measured with instrumentation having an accuracy of at least ± 0,5 km/h, when using continuous measurement devices.
If testing uses independent measurements of speed, this instrumentation shall meet specification limits of at least ± 0,2 km/h.
2.5. Meteorological instrumentation
The meteorological instrumentation used to monitor the environmental conditions during the test shall include the following devices, which meet at least the accuracies listed below:
3. CONDITIONS OF MEASUREMENT
3.1. Test Site and ambient conditions
3.1.1. |
The surface of the test track and the dimensions of the test site shall be in accordance with ISO 10844:2011. The surface of the site shall be free of powdery snow, tall grass, loose soil or cinders. There shall be no obstacle which could affect the sound field within the vicinity of the microphone and the sound source. The observer carrying out the measurements shall so position himself as not to affect the readings of the measuring instrument. |
3.1.2. |
Measurements shall not be made under adverse weather conditions. It shall be ensured that the results are not affected by gusts of wind. The meteorological instrumentation shall be positioned adjacent to the test area at a height of 1,2 m ± 0,02 m. The measurements shall be made when the ambient air temperature is between + 5 °C and + 40 °C. The tests shall not be carried out if the wind speed, including gusts, at microphone height exceeds 5 m/s, during the noise measurement interval. A value representative of temperature, wind speed and direction, relative humidity, and barometric pressure shall be recorded during the noise measurement interval. Any noise peak which appears to be unrelated to the characteristics of the general sound level of the vehicle shall be ignored in taking the readings. The background noise shall be measured for a duration of 10 seconds immediately before and after a series of vehicle tests. The measurements shall be made with the same microphones and microphone locations used during the test. The A-weighted maximum noise pressure level shall be reported. The background noise (including any wind noise) shall be at least 10 dB below the A-weighted noise pressure level produced by the vehicle under test. If the difference between the ambient noise and the measured noise is between 10 and 15 dB(A), the appropriate correction shall be subtracted from the readings on the noise-level meter in order to calculate the test results, as in the following table:
|
3.2. Vehicle
3.2.1. |
The vehicle tested shall be representative of vehicles to be put on the market and selected by the manufacturer in agreement with the technical service, to comply with the requirements of this Regulation. Measurements shall be made without any trailer, except in the case of non-separable vehicles. At the request of the manufacturer, measurements may be made on vehicles with lift axle(s) in a raised position. Measurements shall be made on vehicles at the test mass mt specified in accordance with the following table:
|
3.2.2. |
At the applicant's request, the vehicle of a category M2, M3, N2 or N3 shall be deemed representative of its completed type if the tests are carried out on an incomplete vehicle not having bodywork. In the test of an incomplete vehicle, all relevant soundproofing materials, panels and noise reduction components and systems shall be fitted on the vehicle as designed by the manufacturer except a part of bodywork which is built at a later stage. No new test shall be required due to the fitting of a supplement fuel tank or re-location of the original fuel tank on the condition that other parts or structures of the vehicle apparently affecting sound emissions have not been altered. |
3.2.3. |
Tyre rolling sound emissions are laid down in Regulation (EC) No 661/2009. The tyres to be used for the test shall be representative for the vehicle and shall be selected by the vehicle manufacturer and recorded in Addendum to Appendix 2 to Annex I to this Regulation. They shall correspond to one of the tyre sizes designated for the vehicle as original equipment. The tyre is or will be commercially available on the market at the same time as the vehicle ( 6 ). The tyres shall be inflated to the pressure recommended by the vehicle manufacturer for the test mass of the vehicle. The tyres shall have at least 1,6 mm tread depth. |
3.2.4. |
Before the measurements are started, the engine shall be brought to its normal operating conditions. |
3.2.5. |
If the vehicle is fitted with more than two-wheel drive, it shall be tested in the drive which is intended for normal road use. |
3.2.6. |
If the vehicle is fitted with one or more fans having an automatic actuating mechanism, this system shall not be interfered with during the measurements. |
3.2.7. |
If the vehicle is equipped with a silencing system containing fibrous materials, the exhaust system is to be conditioned before the test in accordance with Annex IV. |
4. METHODS OF TESTING
4.1. Measurement of noise of vehicles in motion
4.1.1. General test conditions
Two lines, AA' and BB', parallel to line PP' and situated respectively 10 m forward and 10 m rearward of line PP' shall be marked out on the test runway.
At least four measurements shall be made on each side of the vehicle and for each gear. Preliminary measurements may be made for adjustment purposes, but shall be disregarded.
The microphone shall be located at a distance of 7,5 m ± 0,05 m from the reference line CC' of the track and 1,2 m ± 0,02 m above the ground.
The reference axis for free field conditions (see IEC 61672-1:2002) shall be horizontal and directed perpendicularly towards the path of the vehicle line CC'.
4.1.2. Specific test conditions for vehicles
4.1.2.1. Vehicles of category M1, M2 ≤ 3 500 kg, N1
The path of the centreline of the vehicle shall follow line CC' as closely as possible throughout the entire test, from the approach to line AA' until the rear of the vehicle passes line BB'. If the vehicle is fitted with more than two-wheel drive, it shall be tested in the drive selection which is intended for normal road use.
If the vehicle is fitted with an auxiliary manual transmission or a multi-gear axle, the position used for normal urban driving shall be used. In all cases, the gear ratios for slow movements, parking or braking shall be excluded.
The test mass of the vehicle shall be that set out in the Table in point 3.2.1.
The test speed vtest is 50 km/h ± 1 km/h. The test speed shall be reached when the reference point is at line PP'.
4.1.2.1.1. Power to mass ratio index (PMR)
PMR is calculated using the following formula:
PMR = (Pn/mt) × 1 000 where Pn is measured in kW and mt is measured in kg in accordance with point 3.2.1 of this Annex.
PMR, with no dimension, is used for the calculation of acceleration.
4.1.2.1.2. Calculation of acceleration
Acceleration calculations are applicable to M1, N1 and M2 ≤ 3 500 kg categories only.
All accelerations are calculated using different speeds of the vehicle on the test track. The formulae given are used for the calculation of awot i, awot i+1 and awot test. The speed either at AA' or PP' is defined as the vehicle speed when the reference point passes AA' (vAA') or PP' (vPP'). The speed at BB' is defined when the rear of the vehicle passes BB' (vBB'). The method used for calculating the acceleration shall be indicated in the test report.
Due to the definition of the reference point for the vehicle, the length of the vehicle (lveh) is considered differently in the formula below. If the reference point is in the front of the vehicle, then l = lveh, mid: l = 1/2 lveh and rear: l = 0.
4.1.2.1.2.1 |
The calculation procedure for vehicles with manual transmission, automatic transmission, adaptive transmissions and continuous variable transmissions (CVTs) tested with locked gear ratios is as follows: awot test = ((vBB'/3,6)2 – (vAA'/3,6)2)/(2*(20+l)) awot test used in the determination of gear selection shall be the average of the four awot test, i during each valid measurement run. Pre-acceleration may be used. The point of depressing the accelerator before line AA' shall be reported in the test report. |
4.1.2.1.2.2. |
The calculation procedure for vehicles with automatic transmissions, adaptive transmissions and CVTs tested with non-locked gear ratios is as follows: awot test used in the determination of gear selection shall be the average of the four awot test, i during each valid measurement run. Where devices or measures described in point 4.1.2.1.4.2 can be used to control transmission operation for the purpose of achieving test requirements, awot test shall be calculated using the following formula: awot test = ((vBB'/3,6)2 – (vAA'/3,6)2)/(2*(20+l)) Pre-acceleration may be used: Where devices or measures described in point 4.1.2.1.4.2 are not used, awot test shall be calculated using the following formula: awot_testPP-BB = ((vBB'/3,6)2 – (vPP'/3,6)2)/(2*(10+l)) awot_test PP-BB : acceleration between point PP and BB Pre-acceleration shall not be used. The location of depressing the accelerator shall be where the reference point of the vehicle passes line AA'. |
4.1.2.1.2.3 |
Target acceleration The target acceleration a urban defines the typical acceleration in urban traffic and is derived from statistical investigations. It is a function depending on the PMR of a vehicle. The target acceleration a urban shall be calculated using the following formula: a urban = 0,63 * log10 (PMR) – 0,09 |
4.1.2.1.2.4. |
Reference acceleration The reference acceleration awot ref defines the required acceleration during the acceleration test on the test track. It is a function depending on the PMR of a vehicle. That function is different for specific vehicle categories. The reference acceleration awot ref shall be calculated using the following formula: a wot ref = 1,59 * log10 (PMR) –1,41 for PMR ≥ 25
a wot ref = a urban = 0,63 * log10 (PMR) – 0,09 for PMR < 25
|
4.1.2.1.3. Partial power factor kP
The partial power factor kP (see point 4.1.3.1) is used for the weighted combination of the test results of the acceleration test and the constant speed test for vehicles of category M1 and N1.
In cases other than a single gear test, a wot ref shall be used instead of a wot test (see point 4.1.3.1).
4.1.2.1.4. Gear ratio selection
The selection of gear ratios for the test depends on their specific acceleration potential awot under full throttle condition, in accordance with the reference acceleration awot ref required for the full throttle acceleration test.
Some vehicles may have different software programs or modes for the transmission (e.g. sporty, winter, adaptive). Where the vehicle has different modes leading to valid accelerations, the vehicle manufacturer shall prove to the satisfaction of the technical service, that the vehicle is tested in the mode which achieves an acceleration closest to a wot ref.
4.1.2.1.4.1. |
Vehicles with manual transmissions, automatic transmissions, adaptive transmissions or CVTs tested with locked gear ratios The following conditions for selection of gear ratios are possible:
(a)
if one specific gear ratio gives an acceleration in a tolerance band of ± 5 % of the reference acceleration awot ref, not exceeding 2,0 m/s2, test with that gear ratio.
(b)
if none of the gear ratios give the required acceleration, then choose a gear ratio i, with an acceleration higher and a gear ratio i + 1, with an acceleration lower than the reference acceleration. If the acceleration value in gear ratio i does not exceed 2,0 m/s2, use both gear ratios for the test. The weighting ratio in relation to the reference acceleration awot ref is calculated by: k = (a wot ref – a wot (i+1))/(a wot (i) – a wot (i+1))
(c)
if the acceleration value of gear ratio i exceeds 2,0 m/s2, the first gear ratio that gives an acceleration below 2,0 m/s2 shall be used unless gear ratio i + 1 provides an acceleration less than aurban. In this case, two gears, i and i + 1 shall be used, including the gear i with the acceleration exceeding 2,0 m/s2. In other cases, no other gear shall be used. The achieved acceleration awot test during the test shall be used for the calculation of the partial power factor kP instead of awot ref.
(d)
if the vehicle has a transmission in which there is only one selection for the gear ratio, the acceleration test shall be carried out in this vehicle gear selection. The achieved acceleration is then used for the calculation of the partial power factor kP instead of awot ref.
(e)
if rated engine speed is exceeded in a gear ratio before the vehicle passes BB' the next higher gear shall be used. |
4.1.2.1.4.2. |
Vehicles with automatic transmission, adaptive transmissions and CVTs tested with non-locked gear ratios The gear selector position for full automatic operation shall be used. The acceleration value awot test shall be calculated as defined in point 4.1.2.1.2.2. The test may then include a gear change to a lower range and a higher acceleration. A gear change to a higher range and a lower acceleration is not allowed. A gear shifting to a gear ratio which is not used in urban traffic shall be avoided. Therefore, it shall be permitted to establish and use electronic or mechanical devices, including alternate gear selector positions, to prevent a downshift to a gear ratio which is typically not used at the specified test condition in urban traffic. The achieved acceleration awot test shall be greater or equal to aurban. If possible, the manufacturer shall take measures to avoid an acceleration value awot test greater than 2,0 m/s2. The achieved acceleration a wot test shall then be used for the calculation of the partial power factor kp (see point 4.1.2.1.3) instead awot ref. |
4.1.2.1.5. Acceleration test
The manufacturer shall define the position of the reference point in front of line AA' of fully depressing the accelerator. The accelerator shall be fully depressed (as rapidly as is practicable) when the reference point of the vehicle reaches the defined point. The accelerator shall be kept in this depressed condition until the rear of the vehicle reaches line BB'. The accelerator shall then be released as rapidly as possible. The point of fully depressing the accelerator shall be reported in the test report. The technical service shall have the possibility of pre-testing.
In the case of articulated vehicles consisting of two non-separable units regarded as a single vehicle, the semi-trailer shall be disregarded in determining when line BB' is crossed.
4.1.2.1.6. Constant speed test
The constant speed test shall be carried out with the same gear(s) specified for the acceleration test and a constant speed of 50 km/h with a tolerance of ± 1 km/h between AA' and BB'. During the constant speed test, the acceleration control shall be positioned to maintain a constant speed between AA' and BB' as specified. If the gear is locked for the acceleration test, the same gear shall be locked for the constant speed test.
The constant speed test is not required for vehicles with a PMR < 25.
4.1.2.2. Vehicles of categories M2 > 3 500 kg, M3, N2, N3
The path of the centreline of the vehicle shall follow line CC' as closely as possible throughout the entire test, from the approach to line AA' until the rear of the vehicle passes line BB'. The test shall be conducted without a trailer or semi-trailer. If a trailer is not readily separable from the towing vehicle, the trailer shall not be taken into consideration when assessing the crossing of line BB'. If the vehicle incorporates equipment such as a concrete mixer, a compressor, etc., this equipment shall not be in operation during the test. The test mass of the vehicle shall be set out in the table set out in point 3.2.1.
Target conditions of category M2 > 3 500 kg, N2
When the reference point passes line BB', the engine speed nBB' shall be between 70 % and 74 % of speed S, at which the engine develops its rated maximum power, and the vehicle speed shall be 35 km/h ± 5 km/h. Between line AA' and line BB' a stable acceleration condition shall be ensured.
Target conditions of category M3, N3:
When the reference point passes line BB', the engine speed nBB' shall be between 85 % and 89 % of speed S, at which the engine develops its rated maximum power, and the vehicle speed shall be 35 km/h ± 5 km/h. Between line AA' and line BB' a stable acceleration condition shall be ensured.
4.1.2.2.1. Gear ratio selection
4.1.2.2.1.1. Vehicles with manual transmissions
Stable acceleration conditions shall be ensured. The gear choice shall be determined by the target conditions. If the difference in speed exceeds the given tolerance, then two gears shall be tested, one above and one below the target speed.
If more than one gear fulfils the target conditions, the gear which is closest to 35 km/h shall be used. If no gear fulfils the target condition for vtest, two gears shall be tested, one above and one below vtest. The target engine speed shall be reached under all conditions.
A stable acceleration condition shall be ensured. If a stable acceleration cannot be ensured in a gear, that gear shall be disregarded.
4.1.2.2.1.2. Vehicles with automatic transmissions, adaptive transmissions and CVTs
The gear selector position for full automatic operation shall be used. The test may then include a gear change to a lower range and a higher acceleration. A gear change to a higher range and a lower acceleration shall not be permitted. A gear shifting to a gear ratio which is not used in urban traffic, at the specified test condition, shall be avoided. Therefore, it shall be permitted to establish and use electronic or mechanical devices to prevent a downshift to a gear ratio which is typically not used at the specified test condition in urban traffic.
If the vehicle includes a transmission design, which provides only a single gear selection (drive), which limits engine speed during the test, the vehicle shall be tested using only a target vehicle speed. If the vehicle uses an engine and transmission combination that does not comply with the requirements set out in point 4.1.2.2.1.1, the vehicle shall be tested using only the target vehicle speed. The target vehicle speed (vBB') for the test is = 35 km/h ± 5km/h. A gear change to a higher range and a lower acceleration is allowed after the reference point of the vehicle passes line PP'. Two tests shall be performed, one with the end speed of vtest = vBB' + 5 km/h, and one with the end speed of vtest = vBB' – 5 km/h. The reported sound level shall be the result of the test with the highest engine speed obtained during the test from AA' to BB'.
4.1.2.2.2. Acceleration test
When the reference point of the vehicle reaches the line AA' the accelerator control shall be fully depressed (without operating the automatic downshift to a lower range than normally used in urban driving) and held fully depressed until the rear of the vehicle passes BB', but the reference point shall be at least 5 m behind BB'. The accelerator control shall then be released.
In the case of articulated vehicles consisting of two non-separable units regarded as a single vehicle, the semi-trailer shall be disregarded in determining when line BB' is crossed.
4.1.3. Interpretation of results
The maximum A-weighted sound pressure level indicated during each passage of the vehicle between the two lines AA' and BB' shall be noted. If a noise peak obviously out of character with the general sound pressure level is observed, the measurement shall be discarded. At least four measurements for each test condition shall be made on each side of the vehicle and for each gear ratio. Left and right side may be measured simultaneously or sequentially. The first four valid consecutive measurement results, within 2 dB(A), allowing for the deletion of non valid results (see point 3.1), shall be used for the calculation of the final result for the given side of the vehicle. The results of each side shall be averaged separately. The intermediate result is the higher value of the two averages mathematically rounded to the first decimal place.
The speed measurements at AA', BB', and PP' shall be noted and used in calculations to the first significant digit after the decimal place.
The calculated acceleration awot test shall be noted to the second digit after the decimal place.
4.1.3.1. Vehicles of categories M1, N1 and M2 ≤ 3 500 kg
The calculated values for the acceleration test and the constant speed test are given by:
Where k = (awot ref – awot (i+1))/(awot (i) – awot (i+1))
In the case of a single gear ratio test, the values are the test result of each test.
The final result is calculated by combining Lwot rep and Lcrs rep. The equation is:
Lurban = Lwot rep – kP * (Lwot rep – Lcrs rep)
The weighting factor kP, gives the partial power factor for urban driving. In cases other than a single gear test kP is calculated by:
kP = 1 – (aurban/awot ref)
If only one gear was specified for the test kP is given by:
kP = 1 – (aurban/awot test)
In cases where awot test is less than aurban:
kP = 0
4.1.3.2. Vehicles of categories M2 > 3 500 kg, M3, N2, N3
When one gear is tested, the final result shall be equal to the intermediate result. When two gears are tested the arithmetic mean of the intermediate results shall be calculated.
4.2. Measurement of noise emitted by stationary vehicles
4.2.1. Sound level in the vicinity of vehicles
The measurement results shall be entered into the test report referred to in the Addendum to Appendix 2 to Annex I.
4.2.2. Acoustic measurements
A precision sound level meter, or equivalent measuring system, as defined in point 2.1 shall be used for the measurements
4.2.3. |
Test site — local conditions as referred to in Figures 2 and 3a to 3d of the Appendix.
|
4.2.4. |
Disturbance sound and wind interference Readings on the measuring instruments produced by ambient noise and wind shall be at least 10 dB(A) below the sound level to be measured. A suitable windscreen may be fitted to the microphone provided that account is taken of its effect on the sensitivity of the microphone (see point 2.1). |
4.2.5. |
Measuring method 4.2.5.1. Nature and number of measurements The maximum sound level expressed in A-weighted decibels (dB(A)) shall be measured during the operating period referred to in point 4.2.5.3.2.1. At least three measurements shall be taken at each measuring point. 4.2.5.2. Positioning and preparation of the vehicle The vehicle shall be located in the centre part of the test area with the gear selector in the neutral position and the clutch engaged. If the design of the vehicle does not allow this, the vehicle shall be tested in conformity with the manufacturer's prescriptions for stationary engine testing. Before each series of measurements, the engine shall be brought to its normal operating condition, as specified by the manufacturer. If the vehicle is fitted with a fan or fans having an automatic actuating mechanism, this system shall not be interfered with during the sound level measurements. The engine hood or compartment cover, if so fitted, shall be closed.
|
4.2.6. |
Results At least three measurements for each test position shall be made. The maximum A-weighted sound pressure level indicated during each of the three measurements shall be recorded. The first three valid consecutive measurement results, within 2 dB(A), allowing for the deletion of non valid results (taking into account the specifications of the test site as referred to in point 3.1), shall be used for the determination of the final result for the given measurement position. The maximum sound level, for all measurement positions, and of the three measurement results, shall constitute the final result. |
5. |
Noise from hybrid electric vehicles of categories M1 in motion, where an internal combustion engine cannot operate when the vehicle is stationary (data reported to facilitate testing of the vehicle in use).
|
Appendix
Figures
Figure 1: Measuring positions for vehicles in motion
Figure 2: Reference point
T |
= |
top view |
S |
= |
side view |
A |
= |
metered pipe |
B |
= |
bent down pipe |
C |
= |
straight pipe |
D |
= |
vertical pipe |
1 |
= |
reference point |
2 |
= |
road surface |
Figure 3a
Figure 3b
Figure 3c
Figure 3d
Figures 3 a — d |
: |
Examples of the position of the microphone, depending on the location of the exhaust pipe |
ANNEX III
LIMIT VALUES
The sound level measured in accordance with the provisions of Annex II, mathematically rounded to the nearest integer value, shall not exceed the following limits:
Vehicle category |
Description of vehicle category |
Limit values expressed in dB(A) [decibels (A)] |
||
|
|
Phase 1 applicable for new vehicle types from 1 July 2016 |
Phase 2 applicable for new vehicle type from 1 July 2020 and for first registration from 1 July 2022 |
Phase 3 applicable for new vehicle type from 1 July 2024 and for first registration from 1 July 2026 |
M |
Vehicles used for the carriage of passengers |
|
|
|
M1 |
power to mass ratio ≤ 120 kW/1 000 kg |
72 (1) |
70 (1) |
68 (1) |
M1 |
120 kW/1 000 kg < power to mass ratio ≤ 160 kW/1 000 kg |
73 |
71 |
69 |
M1 |
160 kW/1 000 kg < power to mass ratio |
75 |
73 |
71 |
M1 |
power to mass ratio > 200 kW/1 000 kg number of seats ≤ 4 R point of driver seat ≤ 450 mm from the ground |
75 |
74 |
72 |
M2 |
mass ≤ 2 500 kg |
72 |
70 |
69 |
M2 |
2500 kg < mass ≤ 3 500 kg |
74 |
72 |
71 |
M2 |
3500 kg < mass ≤ 5 000 kg; rated engine power ≤ 135 kW |
75 |
73 |
72 |
M2 |
3500 kg < mass ≤ 5 000 kg; rated engine power > 135 kW |
75 |
74 |
72 |
M3 |
rated engine power ≤ 150 kW |
76 |
74 |
73 (2) |
M3 |
150 kW <rated engine power ≤ 250 kW |
78 |
77 |
76 (2) |
M3 |
rated engine power > 250 kW |
80 |
78 |
77 (2) |
N |
Vehicles used for the carriage of goods |
|
|
|
N1 |
mass ≤ 2 500 kg |
72 |
71 |
69 |
N1 |
2 500 kg < mass ≤ 3 500 kg |
74 |
73 |
71 |
N2 |
rated engine power ≤ 135 kW |
77 |
75 (2) |
74 (2) |
N2 |
rated engine power > 135 kW |
78 |
76 (2) |
75 (2) |
N3 |
rated engine power ≤ 150 kW |
79 |
77 |
76 (2) |
N3 |
150 kW < rated engine power ≤ 250 kW |
81 |
79 |
77 (2) |
N3 |
rated engine power > 250 kW |
82 |
81 |
79 (2) |
(1)
M1 vehicles derived from N1 vehicles: M1 vehicles with an R point > 850 mm from the ground and a total permissible laden mass more than 2 500 kg have to fulfil the limit values of N1 (2 500 kg < mass ≤ 3 500 kg).
(2)
+ two years for new vehicle type and + one year for new vehicles registration. Limit values shall be increased by 1dB (2 dB(A) for N3 and M3 categories) for vehicles that meet the relevant definition for off-road vehicles set out in point 4 of Part A of Annex II to Directive 2007/46/EC. For M1 vehicles the increased limit values for off-road vehicles are only valid if the technically permissible maximum laden mass > 2 tonnes. Limit values shall be increased by 2 db(A) for wheelchair accessible vehicles and armoured vehicles, as defined in Annex II to Directive 2007/46/EC. |
ANNEX IV
SILENCING SYSTEMS CONTAINING ACOUSTICALLY ABSORBING FIBROUS MATERIALS
1. GENERAL
Sound absorbing fibrous materials may be used in silencing systems, or components thereof, where either of the following conditions are fulfilled:
the exhaust gas is not in contact with the fibrous materials; or
the silencing system, or components thereof, are of the same design family as systems or components for which it has been proven, in the course of EU type-approval process in accordance with the requirements of this Regulation for another vehicle-type, that they are not subject to deterioration.
Where neither the condition in point (a) nor in point (b) of the first subparagraph is fulfilled, the complete silencing system, or components thereof, shall be submitted to a conventional conditioning using one of three installations and procedures described in points 1.1, 1.2 and 1.3.
For the purposes of point (b) of the first subparagraph, a group of silencing system, or components thereof, shall be considered as being of the same design family when all of the following characteristics are the same:
the presence of net gas flow of the exhaust gases through the absorbing fibrous material when in contact with that material;
the type of the fibres;
where applicable, binder material specifications;
average fibre dimensions;
minimum bulk material packing density in kg/m3;
maximum contact surface between the gas flow and the absorbing material.
1.1. Continuous road operation for 10 000 km.
1.1.1. |
50 ± 20 % of this operation shall consist of urban driving and the remaining operation shall be long-distance runs at high speed; continuous road operation may be replaced by a corresponding test-track programme. |
1.1.2. |
The two speed regimes shall be alternated at least twice. |
1.1.3. |
The complete test programme shall include a minimum of 10 breaks of at least three hours duration in order to reproduce the effects of cooling and any condensation which may occur. |
1.2. Conditioning on a test bench
1.2.1. |
Using standard parts and observing the vehicle manufacturer's instructions, the silencing system, or components thereof, shall be fitted to the vehicle referred to in point 1.3 of Annex I or the engine referred to in point 1.4 of Annex I. In the case of the vehicle referred to in point 1.3 of Annex I, the vehicle shall be mounted on a roller dynamometer. In the case of an engine referred to in point 1.4 of Annex I, the engine shall be coupled to a dynamometer. |
1.2.2. |
The test shall be conducted in six six-hour periods with a break of at least 12 hours between each period in order to reproduce the effects of cooling and any condensation which may occur. |
1.2.3. |
During each six-hour period, the engine shall be run, under the following conditions in turn:
(a)
five minutes at idling speed;
(b)
one-hour sequence under 1/4 load at 3/4 of rated maximum speed (S);
(c)
one-hour sequence under 1/2 load at 3/4 of rated maximum speed (S);
(d)
10-minute sequence under full load at 3/4 of rated maximum speed (S);
(e)
15-minute sequence under 1/2 load at rated maximum speed (S);
(f)
30-minute sequence under 1/4 load at rated maximum speed (S). Total duration of the six sequences: three hours. Each period shall comprise two sequenced sets of those conditions in consecutive order from (a) to (f). |
1.2.4. |
During the test, the silencing system, or components thereof, shall not be cooled by a forced draught simulating normal airflow around the vehicle. Nevertheless, at the request of the manufacturer, the silencing system or components thereof may be cooled in order not to exceed the temperature recorded at its inlet when the vehicle is running at maximum speed. |
1.3. Conditioning by pulsation
1.3.1. |
The silencing system or components thereof shall be fitted to the vehicle referred to in point 1.3 of Annex I or the engine referred to in point 1.4 of Annex I. In the former case the vehicle shall be mounted on a roller dynamometer. In the second case, the engine shall be mounted on a dynamometer. The test apparatus, a detailed diagram of which is shown in Figure 1 of the Appendix to this Annex shall be fitted at the outlet of the silencing system. Any other apparatus providing equivalent results shall be acceptable. |
1.3.2. |
The test apparatus shall be adjusted in such a way that the exhaust-gas flow is alternatively interrupted and re-established by the quick-action valve for 2 500 cycles. |
1.3.3. |
The valve shall open when the exhaust-gas back pressure, measured at least 100 mm downstream of the intake flange, reaches a value of between 0,35 and 0,40 kPa. It shall close when this pressure does not differ by more than 10 % from its stabilized value with the valve open. |
1.3.4. |
The time-delay switch shall be set for the duration of gas exhaust resulting from the provisions laid down in point 1.3.3. |
1.3.5 |
Engine speed shall be 75 % of the speed (S) at which the engine develops maximum power. |
1.3.6. |
The power indicated by the dynamometer shall be 50 % of the full-throttle power measured at 75 % of engine speed (S). |
1.3.7. |
Any drain holes shall be closed off during the test. |
1.3.8. |
The entire test shall be completed within 48 hours. If necessary, one cooling period shall be observed after each hour. |
Appendix
Figure 1
Test apparatus for conditioning by pulsation
Inlet flange or sleeve for connection to the rear of the test silencing system.
Hand-operated regulating valve.
Compensating reservoir with a maximum capacity of 40 l and a filling time of not less than one second.
Pressure switch with an operating range of 0,05 to 2,5 bar.
Time delay switch
Pulse counter
Quick-acting valve, such as exhaust brake valve 60 mm in diameter, operated by a pneumatic cylinder with an output of 120 N at 4 bar. The response time, both when opening and closing, shall not exceed 0,5 second.
Exhaust gas evacuation.
Flexible pipe.
Pressure gauge.
ANNEX V
COMPRESSED AIR NOISE
1. METHOD OF MEASUREMENT
The measurement is performed at microphone positions 2 and 6 as shown in Figure 1 of the Appendix, with the vehicle stationary. The highest A-weighted sound level shall be registered during venting the pressure regulator and during ventilating after the use of both the service and parking brakes.
The noise during venting the pressure regulator is measured with the engine at idling speed. The ventilating noise is registered while operating the service and parking brakes; before each measurement, the air-compressor unit has to be brought up to the highest permissible operating pressure, and then the engine switched off.
2. EVALUATION OF THE RESULTS
For all microphone positions two measurements are taken. In order to compensate for inaccuracies of the measuring equipment, the metre reading is reduced by 1 dB(A), and the reduced value is taken as the result of measurement. The results are taken as valid if the difference between the measurements at one microphone position does not exceed 2 dB(A). The highest value measured is taken as the result. If this value exceeds the sound level limit by 1 dB(A), two additional measurements are to be taken at the corresponding microphone position. In this case, three out of the four results of measurement obtained at this position have to comply with the sound level limit.
3. LIMITING VALUE
The sound level shall not exceed the limit of 72 dB(A).
Appendix
Figure 1: Microphone positions for measurement of compressed air noise