Only the original UN/ECE texts have legal effect under international public law. The status and date of entry into force of this Regulation should be checked in the latest version of the UN/ECE status document TRANS/WP.29/343, available at:

http://www.unece.org/trans/main/wp29/wp29wgs/wp29gen/wp29fdocstts.html

Incorporating all valid text up to:

Supplement 1 to the original version of the Regulation – Date of entry into force: 29 December 2018

CONTENTS

REGULATION

1.

Scope

2.

Definitions

3.

Application for approval

4.

Approval

5.

General requirements

6.

Functional requirements

7.

General test requirements

8.

Assessment of the presence of a category ‘A’ BAS

9.

Assessment of the presence of a category ‘B’ BAS

10.

Modification of vehicle type or BAS and extension of approval

11.

Conformity of production

12.

Penalties for non-conformity of production

13.

Production definitively discontinued

14.

Names and addresses of Technical Services responsible for conducting approval tests, and of Type Approval Authorities

ANNEXES

1.

Communication

2.

Arrangements of approval marks

3.

Method for determination of FABS and aABS

4.

Data processing for the BAS

1.   SCOPE

1.1.   This Regulation applies to the approval of vehicles of category M1 and N1  (1) with regard to their brake assist system.

1.2.   This Regulation does not cover:

1.2.1.

Vehicles with a design speed not exceeding 25 km/h;

1.2.2.

Vehicles fitted for invalid drivers.

2.   DEFINITIONS

For the purposes of this Regulation,

2.1.	‘Approval of a vehicle’ means the approval of a vehicle type with regard to brake assist system.

2.2.

‘Vehicle type’ means a category of vehicles which do not differ in such essential respects as: 2.2.1. The manufacturer's trade name or mark; 2.2.2. Vehicle features which significantly influence the performances of the Brake Assist System (e.g. design of the braking system); 2.2.3. The design of the Brake Assist System.

2.3.	‘Maximum mass’ means the maximum mass stated by the vehicle manufacturer to be technically permissible (this mass may be higher than the ‘permissible maximum mass’ laid down by the national administration).

2.4.	‘The distribution of mass among the axles’ means the distribution of the effect of the gravity on the mass of the vehicle and/or its contents among the axles.

2.5.	‘Wheel/axle load’ means the vertical static reaction (force) of the road surface in the contact area on the wheel/wheels of the axle.

2.6.

‘Brake Assist System (BAS)’ means a function of the braking system that deduces an emergency braking event from a characteristic of the driver's brake demand and, under such conditions: (a) Assists the driver to deliver the maximum achievable braking rate; or (b) Is sufficient to cause full cycling of the Anti-lock Braking System. 2.6.1. ‘Category A Brake Assist System’ means a system which detects an emergency braking condition based primarily (2) on the brake pedal force applied by the driver; 2.6.2. ‘Category B Brake Assist System’ means a system which detects an emergency braking condition based primarily (2) on the brake pedal speed applied by the driver;

3.   APPLICATION FOR APPROVAL

3.1.   The application for approval of a vehicle type with regard to BAS shall be submitted by the vehicle manufacturer or by their duly accredited representative.

3.2.   It shall be accompanied by the under-mentioned documents in triplicate and by the following particulars:

3.2.1.

A description of the vehicle type with regard to the items specified in paragraph 2.2 above. The numbers and/or symbols identifying the vehicle type and the engine type shall be specified;

3.2.2.

A list of the components, duly identified, constituting the BAS system;

3.2.3.

A diagram of the assembled BAS system and an indication of the position of its components on the vehicle;

3.2.4.

Detailed drawings of each component to enable it to be easily located and identified.

3.3.   A vehicle, representative of the vehicle type to be approved, shall be submitted to the Technical Service conducting the approval tests.

4.   APPROVAL

4.1.   If the vehicle type submitted for approval pursuant to this Regulation meets the requirements of paragraphs 5 and 6 below, approval of that vehicle type shall be granted.

4.2.   An approval number shall be assigned to each type approved, its first two digits shall indicate the series of amendments incorporating the most recent major technical amendments made to the Regulation at the time of issue of the approval. The same Contracting Party shall not assign the same number to another vehicle type with regard to Brake Assist System.

4.3.   Notice of approval or of 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 1 to this Regulation and of a summary of the information contained in the documents referred to in paragraphs 3.2.1 to 3.2.4 above, the drawings supplied by the applicant for approval being in a format not exceeding A4 (210 × 297 mm), or folded to that format, and on an appropriate scale.

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 which has granted approval (3), and of

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 prescribed in paragraph 4.4.1 above.

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 above, need not be repeated; in such a case, the Regulation and approval numbers and the additional symbols of all the 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 above.

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.

4.8.   Annex 2 to this Regulation gives examples of arrangements of approval marks.

5.   GENERAL REQUIREMENTS

5.1.   Vehicles shall be equipped with a brake assist system meeting the functional requirements specified in paragraph 6 of this Regulation. Compliance with these requirements shall be demonstrated by meeting the provisions of paragraphs 8 or 9 of this Regulation under the test requirements specified in paragraph 7 of this Regulation. In addition to the requirements of this Regulation, vehicles shall also be equipped with ABS in accordance with the technical requirements of UN Regulation No 13-H.

5.2.   The BAS shall be so designed, constructed and fitted as to enable the vehicle in normal use, despite the vibration to which it may be subjected, to comply with the provisions of this Regulation.

5.3.   In particular, the BAS shall be so designed, constructed and fitted as to be able to resist the corroding and ageing phenomena to which it is exposed.

5.4.   The effectiveness of the BAS shall not be adversely affected by magnetic or electrical fields. This shall be demonstrated by fulfilling the technical requirements and respecting the transitional provisions of Regulation No 10 by applying:

(a)	The 03 series of amendments for vehicles without a coupling system for charging the Rechargeable Electric Energy Storage System (traction batteries);

(b)	The 04 series of amendments for vehicles with a coupling system for charging the Rechargeable Electric Energy Storage System (traction batteries).

5.5.   The assessment of the safety aspects of BAS shall be included in the overall safety assessment of the braking system as specified in Regulation No 13-H requirements associated with complex electronic control systems. This is deemed to be fulfilled on the presentation of a Regulation No 13-H certificate which includes the BAS to be approved.

5.6.   Provisions for the periodic technical inspection of electronic brake assist systems

5.6.1.   It shall be possible at a periodic technical inspection to confirm the correct operational status by visual observation of the warning signals following a power-on.

5.6.2.   At the time of type approval, the means implemented to protect against simple unauthorized modification of the operation of the warning signals shall be confidentially outlined. Alternatively, this protection requirement is fulfilled when a secondary means of checking the correct operational status is available.

6.   FUNCTIONAL REQUIREMENTS

6.1.   General performance characteristics for category ‘A’ BAS systems

When an emergency condition has been sensed by a relative high pedal force, the additional pedal force to cause full cycling of the ABS shall be reduced compared to the pedal force required without the BAS system in operation.

Compliance with this requirement is demonstrated if the provisions of paragraphs 8.1 to 8.3 of this Regulation are met.

6.2.   General performance characteristics for category ‘B’ BAS systems

When an emergency condition has been sensed, at least by a very fast application of the pedal, the BAS system shall raise the pressure to deliver the maximum achievable braking rate or cause full cycling of the ABS.

Compliance with this requirement is demonstrated if the provisions of paragraphs 9.1 to 9.3 of this Regulation are met.

7.   GENERAL TEST REQUIREMENTS

7.1.   Variables

While performing the tests described in this Regulation, the following variables shall be measured:

7.1.1.

Brake pedal force, Fp;

7.1.2.

Vehicle velocity, vx;

7.1.3.

Vehicle deceleration, ax;

7.1.4.

Brake temperature, Td;

7.1.5.

Brake pressure, P, where applicable;

7.1.6.

Brake pedal speed, vp, measured at the centre of the pedal plate or at a position on the pedal mechanism where the displacement is proportional to the displacement at the centre of the pedal plate allowing simple calibration of the measurement.

7.2.   Measuring equipment

7.2.1.   The variables listed in paragraph 7.1 above shall be measured by means of appropriate transducers. Accuracy, operating ranges, filtering techniques, data processing and other requirements are described in ISO Standard 15037-1: 2006.

7.2.2.   Accuracy of pedal force and disc temperature measurements shall be as follows:

Variable range system	Typical operating range of the transducers	Recommended maximum recording errors
Pedal force	0 to 2 000 N	± 10 N
Brake temperature	0 – 1 000 °C	± 5 °C
Brake pressure (*1)	0 – 20 MPa (*1)	± 100 kPa (*1)

7.2.3.   Details on analogue and digital data processing of the BAS test procedures are described in Annex 4 to this Regulation. A sampling rate for data acquisition of at least 500 Hz is required.

7.2.4.   Alternative measuring methods to those referred to in paragraph 7.2.3 may be allowed, provided they demonstrate at least an equivalent level of precision.

7.3.   Test conditions

7.3.1.   Test vehicle loading condition: The vehicle shall be unladen. There may be, in addition to the driver, a second person on the front seat who is responsible for noting the results of the tests.

7.3.2.   Braking tests shall be carried out on a dry surface affording good adhesion.

7.4.   Test method

7.4.1.   The tests as described in paragraphs 8 and 9 of this section shall be carried out from a test speed of 100 ± 2 km/h. The vehicle shall be driven at the test speed in a straight line.

7.4.2.   The average temperature of the service brakes on the hottest axle of the vehicle, measured inside the brake linings or on the braking path of the disc or drum, shall be between 65 and 100 °C prior to any brake application.

7.4.3.   For the tests the reference time, t0, is defined as the moment when the brake pedal force reaches 20 N.

Note: For vehicles equipped with a brake system assisted by an energy source, the applied pedal force necessary depends on the energy level that exists in the energy storage device. Therefore, sufficient energy level shall be ensured at the beginning of the test.

8.   ASSESSMENT OF THE PRESENCE OF A CATEGORY ‘A’ BAS

A category ‘A’ BAS shall meet the test requirements contained in paragraphs 8.1 and 8.2.

8.1.   Test 1: Reference test to determine FABS and aABS.

8.1.1.   The reference values FABS and aABS shall be determined in accordance with the procedure described in Annex 3 to this Regulation.

8.2.   Test 2: For activation of BAS

8.2.1.   Once an emergency braking condition has been detected, systems sensitive to pedal force shall show a significant increase in the ratio of:

(a)	Brake line pressure to brake pedal force, where permitted by paragraph 8.2.5; or

(b)	Vehicle deceleration to brake pedal force.

8.2.2.   The performance requirements for a category ‘A’ BAS are met if a specific brake application characteristic can be defined that exhibits a decrease of between 40 per cent and 80 per cent in required brake pedal force for (FABS – FT) compared to (FABS extrapolated – FT).

8.2.3.   FT and aT are threshold force and threshold deceleration as shown in Figure 1. The values of FT and aT shall be supplied to the Technical Service at the time of submission of the type-approval application. The value of aT shall be between 3,5 m/s2 and 5,0 m/s2.

Figure 1a

Pedal force characteristic needed in order to achieve maximum deceleration with category ‘A’ BAS

Deceleration, a

FABS, extrapolated

FABS, max

FABS

FABS, min

Brake pedal force, F

FT

aT

aABS

Between 3,5 and 5,0 m/s2

8.2.4.   A straight line is drawn from the origin through the point FT, aT (as shown in Figure 1a). The value of brake pedal force ‘F’, at the point of intersection between this line and a horizontal line defined by a = aABS, is defined as FABS, extrapolated:

8.2.5.   As an alternative, which can be selected by the manufacturer, in the case of vehicles of category N1, or M1 derived from those N1 vehicles, with a gross vehicle mass GVM > 2 500 kg, the pedal force figures for FT, FABS,min, FABS,max and FABS,extrapolated may be derived from the brake line pressure response characteristic instead of the vehicle deceleration characteristic. This shall be measured as the brake pedal force is increasing.

8.2.5.1.   The pressure, at which ABS cycling commences, shall be determined by making five tests from 100 ± 2 km/h in which the brake pedal is applied up to the level which produces ABS operation and the five pressures at which this occurs as determined from front wheel pressure records, shall be recorded and the mean value obtained as PABS.

8.2.5.2.   The threshold pressure PT shall be stated by the manufacturer and correspond to a deceleration in the range of 2,5 – 4,5 m/s2.

8.2.5.3.   Figure 1b shall be constructed in the manner set out in paragraph 8.2.4, but using line pressure measurements to define the parameters set out in paragraph 8.2.5 of this Regulation where:

Figure 1b

Pedal force characteristic needed in order to achieve maximum deceleration with category ‘A’ BAS

Line pressure, P

FABS, extrapolated

FABS, max

FABS

FABS, min

Brake pedal force, F

FT

PT

PABS

Force change threshold

8.3.   Data evaluation

The presence of a category ‘A’ BAS is proven if

FABS,min ≤ FABS ≤ FABS,max

where:

FABS,max – FT ≤ (FABS,extrapolated – FT) · 0,6

And

FABS,min – FT ≥ (FABS,extrapolated – FT) · 0,2

9.   ASSESSMENT OF THE PRESENCE OF A CATEGORY ‘B’ BAS

A category ‘B’ BAS shall meet the test requirements contained within paragraphs 9.1 and 9.2 of this section.

9.1.   Test 1: Reference test to determine FABS and aABS.

9.1.1.   The reference values FABS and aABS shall be determined in accordance with the procedure described in Annex 3 to this Regulation.

9.2.   Test 2: For activation of BAS

The vehicle shall be driven in a straight line at the test speed specified in paragraph 7.4 of this Regulation. The driver shall apply the brake pedal quickly according to Figure 2, simulating emergency braking so that BAS is activated and ABS is fully cycling.

In order to activate BAS the brake pedal shall be applied as specified by the car manufacturer. The manufacturer shall notify the Technical Service of the required brake pedal input at the time of submission of the application for type-approval. It shall be demonstrated to the satisfaction of the Technical Service that the BAS activates under the conditions specified by the manufacturer in accordance with paragraph 16.1.1 or 16.1.2 of Annex 1.

After t = t0 + 0,8 s and until the vehicle has slowed down to a speed of 15 km/h, the brake pedal force shall be maintained in a corridor between FABS, upper and FABS, lower, where FABS, upper is 0,7 FABS and FABS, lower is 0,5 FABS.

The requirements are also considered to be met if, after t = t0 + 0,8 s, the pedal force falls below FABS, lower provided the requirement of paragraph 9.3 is fulfilled.

9.3.   Data evaluation

The presence of BAS ‘B’ is demonstrated if a mean deceleration (aBAS) of at least 0,85 · aABS is maintained from the time when t = t0 + 0,8 s to the time when the vehicle speed has been reduced to 15 km/h.

Figure 2

Example of test 2 of a category ‘B’ BAS system

Initial pedal force

FABS, lower

FABS, upper

Break pedal force F

t0

Phase of panic pedal application

Phrase of BAS-evaluation (ending at speed of 15 km/h)

t0 + 0,8 seconds

time

Deceleration

aBAS

aABS

Deceleration, ax

Brake pedal force

10.   MODIFICATION OF VEHICLE TYPE OR BAS AND EXTENSION OF APPROVAL

10.1.   Every modification to an existing vehicle type shall be notified to the Type Approval Authority which approved the vehicle type.

The Authority shall then either:

(a)	Decide, in consultation with the manufacturer, that a new type-approval is to be granted; or

(b)	Apply the procedure contained in paragraph 10.1.1 (Revision) and, if applicable, the procedure contained in paragraph 10.1.2 (Extension).

10.1.1.   Revision

When particulars recorded in the information documents have changed and the Type Approval Authority considers that the modifications made are unlikely to have appreciable adverse effects and that in any case the foot controls still meet the requirements, the modification shall be designated a ‘revision’.

In such a case, the Type Approval Authority shall issue the revised pages of the information documents as necessary, marking each revised page to show clearly the nature of the modification and the date of re-issue. A consolidated, updated version of the information documents, accompanied by a detailed description of the modification, shall be deemed to meet this requirement.

10.1.2.   Extension

The modification shall be designated an ‘extension’ if, in addition to the change of the particulars recorded in the information documents,

(a)	Further inspections or tests are required; or

(b)	Any information on the communication document (with the exception of its attachments) has changed; or

(c)	Approval to a later series of amendments is requested after its entry into force.

10.2.   Confirmation or refusal of approval, specifying the alteration, shall be communicated by the procedure specified in paragraph 4.3 above to the Contracting Parties to the Agreement applying this Regulation. In addition, the index to the information documents and to the test reports, attached to the communication document of Annex 1, shall be amended accordingly to show the date of the most recent revision or extension.

10.3.   The competent authority issuing the extension of approval shall assign a serial number to each communication form drawn up for such an extension.

11.   CONFORMITY OF PRODUCTION

The conformity of production procedures shall comply with those set out in the Agreement, Appendix 2 (E/ECE/324-E/ECE/TRANS/505/Rev.2) with the following requirements:

11.1.   A vehicle approved to this Regulation shall be so manufactured as to conform to the type approved by meeting the requirements set forth in paragraphs 5 and 6 above.

11.2.   The authority which has granted type approval may at any time verify the conformity control methods applied in each production facility. The normal frequency of these verifications shall be once every two years.

12.   PENALTIES FOR NON-CONFORMITY OF PRODUCTION

12.1.   The approval granted in respect of a vehicle type pursuant to this Regulation may be withdrawn if the requirements laid down in paragraph 11.1 above are not complied with.

12.2.   If a Contracting Party to the Agreement 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 copy of the communication form conforming to the model in Annex 1 to this Regulation.

13.   PRODUCTION DEFINITIVELY DISCONTINUED

If the holder of the approval completely ceases to manufacture a type of vehicle approved in accordance with this Regulation, they shall so inform the authority which granted the approval. Upon receiving the relevant communication, that authority shall inform thereof the other Contracting Parties to the Agreement applying this Regulation by means of copies of a communication form conforming to the model in Annex 1 to this Regulation.

14.   NAMES AND ADDRESSES OF THE TECHNICAL SERVICES CONDUCTING APPROVAL TESTS, AND OF TYPE APPROVAL AUTHORITIES

The Contracting Parties to the Agreement applying 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.

---

(1)  M1 and N1 categories of vehicles are defined in the Consolidated Resolution on the Construction of Vehicles (R.E.3.), document ECE/TRANS/WP.29/78/Rev.4, para. 2 - www.unece.org/trans/main/wp29/wp29wgs/wp29gen/wp29resolutions.html

(2)  As declared by the vehicle manufacturer.

(3)  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. 4, Annex 3 - www.unece.org/trans/main/wp29/wp29wgs/wp29gen/wp29resolutions.html

(*1)  Applicable as specified in paragraph 8.2.5.

Only the original UN/ECE texts have legal effect under international public law. The status and date of entry into force of this Regulation should be checked in the latest version of the UN/ECE status document TRANS/WP.29/343, available at:

http://www.unece.org/trans/main/wp29/wp29wgs/wp29gen/wp29fdocstts.html

Incorporating all valid text up to:

Supplement 2 to the original version of the Regulation — Date of entry into force: 29 December 2018

CONTENTS

REGULATION

1.

Scope

2.

Definitions

3.

Application for approval

4.

Approval

5.

General requirements

6.

Functional requirements

7.

Performance requirements

8.

Test conditions

9.

Test procedure

10.

Modification of vehicle type or ESC system and extension of approval

11.

Conformity of production

12.

Penalties for non-conformity of production

13.

Production definitively discontinued

14.

Names and addresses of Technical Services responsible for conducting approval tests, and of Type Approval Authorities

ANNEXES

1.

Communication

2.

Arrangements of approval marks

3.

Use of the dynamic stability simulation

4.

Dynamic stability simulation tool and its validation

5.

Vehicle stability function simulation tool test report

1.   SCOPE

1.1.   This Regulation applies to the approval of vehicles of category M1 and N1  (1) with regard to their electronic stability control system.

1.2.   This Regulation does not cover:

1.2.1.

Vehicles with a design speed not exceeding 25 km/h;

1.2.2.

Vehicles fitted for invalid drivers.

2.   DEFINITIONS

For the purposes of this Regulation,

2.1.	‘Approval of a vehicle’ means the approval of a vehicle type with regard to electronic stability control.

2.2.

‘Vehicle type’ means a category of vehicles which do not differ in such essential respects as: 2.2.1. The manufacturer's trade name or mark; 2.2.2. Vehicle features which significantly influence the performances of the Electronic Stability Control system (e.g. maximum mass, centre of gravity position, track width, distance between axles, tyres dimension and the design of the braking system); 2.2.3. The design of the Electronic Stability Control system.

2.3.	‘Maximum mass’ means the maximum mass stated by the vehicle manufacturer to be technically permissible (this mass may be higher than the ‘permissible maximum mass’ laid down by the national administration).

2.4.	‘The distribution of mass among the axles’ means the distribution of the effect of the gravity on the mass of the vehicle and/or its contents among the axles.

2.5.	‘Wheel/axle load’ means the vertical static reaction (force) of the road surface in the contact area on the wheel/wheels of the axle.

2.6.	‘Ackermann steer angle’ means the angle whose tangent is the wheelbase divided by the radius of the turn at a very low speed.

2.7.

‘Electronic Stability Control (ESC) System’ means a system that has all of the following attributes: 2.7.1. That improves vehicle directional stability by at least having the ability to automatically control individually the braking torques of the left and right wheels on each axle (2) to induce a correcting yaw moment based on the evaluation of actual vehicle behaviour in comparison with a determination of vehicle behaviour demanded by the driver; 2.7.2. That is computer controlled with the computer using a closed-loop algorithm to limit vehicle oversteer and to limit vehicle understeer based on the evaluation of actual vehicle behaviour in comparison with a determination of vehicle behaviour demanded by the driver; 2.7.3. That has a means to determine directly the value of the vehicle's yaw rate and to estimate its side-slip or side-slip derivative with respect to time; 2.7.4. That has a means to monitor driver steering inputs; and 2.7.5. That has an algorithm to determine the need, and a means to modify propulsion torque, as necessary, to assist the driver in maintaining control of the vehicle.

2.8.	‘Lateral acceleration’ means the component of the acceleration vector of a point in the vehicle perpendicular to the vehicle x axis (longitudinal) and parallel to the road plane.

2.9.	‘Oversteer’ means a condition in which the vehicle's yaw rate is greater than the yaw rate that would occur at the vehicle's speed as a result of the Ackermann steer angle.

2.10.

‘Side-slip or side-slip angle’ means the arctangent of the ratio of the lateral velocity to the longitudinal velocity of the centre of gravity of the vehicle.

2.11.

‘Understeer’ means a condition in which the vehicle's yaw rate is less than the yaw rate that would occur at the vehicle's speed as a result of the Ackermann steer angle.

2.12.

‘Yaw rate’ means the rate of change of the vehicle's heading angle measured in degrees/second of rotation about a vertical axis through the vehicle's centre of gravity.

2.13.

‘Peak braking coefficient (PBC)’: means the measure of tyre to road surface friction based on the maximum deceleration of a rolling tyre.

2.14.

‘Common space’ means an area on which more than one tell-tale, indicator, identification symbol, or other message may be displayed but not simultaneously.

2.15.

‘Static stability factor’ means one-half the track width of a vehicle divided by the height of its centre of gravity, also expressed as SSF = T/2H, where: T = track width (for vehicles with more than one track width the average is used; for axles with dual wheels, the outer wheels are used when calculating ‘T’) and H = height of the centre of gravity of the vehicle.

3.   APPLICATION FOR APPROVAL

3.1.   The application for approval of a vehicle type with regard to ESC shall be submitted by the vehicle manufacturer or by his duly accredited representative.

3.2.   It shall be accompanied by the under-mentioned documents in triplicate and by the following particulars:

3.2.1.

A description of the vehicle type with regard to the items specified in paragraph 2.2 above. The numbers and/or symbols identifying the vehicle type and the engine type shall be specified;

3.2.2.

A list of the components, duly identified, constituting the ESC system;

3.2.3.

A diagram of the assembled ESC system and an indication of the position of its components on the vehicle;

3.2.4.

Detailed drawings of each component to enable it to be easily located and identified.

3.3.   A vehicle, representative of the vehicle type to be approved, shall be submitted to the Technical Service conducting the approval tests.

4.   APPROVAL

4.1.   If the vehicle type submitted for approval pursuant to this Regulation meets the requirements of paragraphs 5, 6 and 7 below, approval of that vehicle type shall be granted.

4.2.   An approval number shall be assigned to each type approved, its first two digits shall indicate the series of amendments incorporating the most recent major technical amendments made to the regulation at the time of issue of the approval. The same Contracting Party shall not assign the same number to another vehicle type with regard to electronic stability control.

4.3.   Notice of approval or of 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 1 to this Regulation and of a summary of the information contained in the documents referred to in paragraphs 3.2.1 to 3.2.4 above, the drawings supplied by the applicant for approval being in a format not exceeding A4 (210 × 297 mm), or folded to that format, and on an appropriate scale.

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 which has granted approval (3), and of

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 prescribed in paragraph 4.4.1 above.

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 above, need not be repeated; in such a case, the regulation and approval numbers and the additional symbols of all the 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 above.

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.

4.8.   Annex 1 to this Regulation gives examples of arrangements of approval marks.

5.   GENERAL REQUIREMENTS

5.1.   Vehicles shall be equipped with an ESC system that meets the functional requirements specified in paragraph 6 and the performance requirements in paragraph 7 under the test procedures specified in paragraph 9 and under the test conditions specified in paragraph 8 of this Regulation.

5.1.1.   As an alternative to the requirements of paragraph 5.1, vehicles of categories M1 and N1 with a mass in running order of more than 1 735 kg may be equipped with a vehicle stability function which includes roll-over control and directional control and meets the technical requirements and transitional provisions of Regulation No 13, Annex 21. These vehicles do not need to meet the functional requirements specified in paragraph 6 and the performance requirements specified in paragraph 7 under the test procedures specified in paragraph 9 and under the test conditions specified in paragraph 8 of this Regulation.

5.2.   The ESC shall be so designed, constructed and fitted as to enable the vehicle in normal use, despite the vibration to which it may be subjected, to comply with the provisions of this Regulation.

5.3.   In particular, the ESC shall be so designed, constructed and fitted as to be able to resist the corroding and ageing phenomena to which it is exposed.

5.4.   The effectiveness of the ESC shall not be adversely affected by magnetic or electrical fields. This shall be demonstrated by fulfilling the technical requirements and respecting the transitional provisions of Regulation No 10 by applying:

(a)	The 03 series of amendments for vehicles without a coupling system for charging the Rechargeable Electric Energy Storage System (traction batteries);

(b)	The 04 series of amendments for vehicles with a coupling system for charging the Rechargeable Electric Energy Storage System (traction batteries).

5.5.   The assessment of the safety aspects of ESC, with respect to its direct effect on the braking system, shall be included in the overall safety assessment of the braking system as specified in Regulation No 13-H requirements associated with complex electronic control systems. This is deemed to be fulfilled on the presentation of a Regulation No 13-H certificate which includes the ESC system to be approved.

5.6.   Provisions for the periodic technical inspection of ESC systems

5.6.1.   It shall be possible at a periodic technical inspection to confirm the correct operational status by visual observation of the warning signals following a power-on.

5.6.2.   At the time of type approval, the means implemented to protect against simple unauthorised modification of the operation of the warning signals shall be confidentially outlined. Alternatively, this protection requirement is fulfilled when a secondary means of checking the correct operational status is available.

6.   FUNCTIONAL REQUIREMENTS

Each vehicle submitted for approval pursuant to this Regulation shall be equipped with an Electronic Stability Control (ESC) system that:

6.1.   Is capable of applying braking torques individually to all four wheels (4) and has a control algorithm that utilises this capability;

6.2.   Is operational over the full speed range of the vehicle, during all phases of driving including acceleration, coasting, and deceleration (including braking), except:

6.2.1.

When the driver has disabled ESC;

6.2.2.

When the vehicle speed is below 20 km/h;

6.2.3.

While the initial start-up self-test and plausibility checks are completed, not to exceed two minutes when driven under the conditions of paragraph 9.10.2;

6.2.4.

When the vehicle is being driven in reverse.

6.3.   Remains capable of activation even if the antilock braking system or traction control system is also activated.

7.   PERFORMANCE REQUIREMENTS

During each test performed under the test conditions of paragraph 8. and the test procedure of paragraph 9.9, the vehicle with the ESC system engaged shall satisfy the directional stability criteria of paragraphs 7.1 and 7.2, and it shall satisfy the responsiveness criterion of paragraph 7.3 during each of those tests conducted with a commanded steering wheel (5) angle of 5A or greater but limited as per paragraph 9.9.4, where A is the steering wheel angle computed in paragraph 9.6.1.

Where a vehicle has been physically tested in accordance with paragraph 8, the compliance of versions or variants of that same vehicle type may be demonstrated by a computer simulation, which respects the test conditions of paragraph 8 and the test procedure of paragraph 9.9. The use of the simulator is defined in Annex 4 to this Regulation.

7.1.   The yaw rate measured 1 second after completion of the Sine with Dwell steering input (time T0 + 1 in Figure 1) shall not exceed 35 per cent of the first peak value of yaw rate recorded after the steering wheel angle changes sign (between first and second peaks) (

in Figure 1) during the same test run.

Figure 1

Steering wheel position and yaw velocity information used to assess lateral stability

Text of image

7.2.   The yaw rate measured 1,75 seconds after completion of the Sine with Dwell steering input shall not exceed twenty per cent of the first peak value of yaw rate recorded after the steering wheel angle changes sign (between first and second peaks) during the same test run.

7.3.   The lateral displacement of the vehicle centre of gravity with respect to its initial straight path shall be at least 1,83 m for vehicles with a GVM of 3 500 kg or less, and 1,52 m for vehicles with a maximum mass greater than 3 500 kg when computed 1,07 seconds after the Beginning of Steer (BOS). BOS is defined in paragraph 9.11.6.

7.3.1.   The computation of lateral displacement is performed using double integration with respect to time of the measurement of lateral acceleration at the vehicle centre of gravity, as expressed by the formula:

An alternative measuring method may be allowed for type approval testing, provided it demonstrates at least an equivalent level of precision as the double integration method.

7.3.2.   Time t = 0 for the integration operation is the instant of steering initiation, known as the Beginning of Steer (BOS). BOS is defined in paragraph 9.11.6.

7.4.   ESC malfunction detection

The vehicle shall be equipped with a tell-tale that provides a warning to the driver of the occurrence of any malfunction that affects the generation or transmission of control or response signals in the vehicle's electronic stability control system.

7.4.1.   The ESC malfunction tell-tale:

7.4.1.1.

Shall fulfil the relevant technical requirements of Regulation No 121;

7.4.1.2.

Except as provided in paragraph 7.4.1.3, the ESC malfunction tell-tale shall illuminate when a malfunction exists and shall remain continuously illuminated under the conditions specified in paragraph 7.4 for as long as the malfunction exists, whenever the ignition locking system is in the ‘On’ (‘Run’) position;

7.4.1.3.

Except as provided in paragraph 7.4.2, each ESC malfunction tell-tale shall be activated as a check of lamp function either when the ignition locking system is turned to the ‘On’ (‘Run’) position when the engine is not running, or when the ignition locking system is in a position between ‘On’ (‘Run’) and ‘Start’ that is designated by the manufacturer as a check position;

7.4.1.4.

Shall extinguish at the next ignition cycle after the malfunction has been corrected in accordance with paragraph 9.10.4;

7.4.1.5.

May also be used to indicate the malfunction of related systems/functions, including traction control, trailer stability assist, corner brake control, and other similar functions that use throttle and/or individual torque control to operate and share common components with ESC.

7.4.2.   The ESC malfunction tell-tale need not be activated when a starter interlock is in operation.

7.4.3.   The requirement of paragraph 7.4.1.3 does not apply to tell-tales shown in a common space.

7.4.4.   The manufacturer may use the ESC malfunction tell-tale in a flashing mode to indicate the interventions of ESC and/or ESC-related systems (as listed in paragraph 7.4.1.5), the ESC intervention on the steering angle of one or more wheels for the purpose of vehicle stability.

7.5.   ESC Off and other system controls

The manufacturer may include an ‘ESC Off’ control, which shall be illuminated when the vehicle's headlamps are activated, and which has a purpose to place the ESC system in a mode in which it will no longer satisfy the performance requirements of paragraphs 7, 7.1, 7.2 and 7.3. Manufacturers may also provide controls for other systems that have an ancillary effect upon ESC operation. Controls of either kind that place the ESC system in a mode in which it may no longer satisfy the performance requirements of paragraphs 7, 7.1, 7.2 and 7.3 are permitted, provided that the system also meets the requirements of paragraphs 7.5.1, 7.5.2 and 7.5.3.

7.5.1.   The vehicle's ESC system shall always return to the manufacturer's original default mode that satisfies the requirements of paragraphs 6 and 7 at the initiation of each new ignition cycle, regardless of what mode the driver had previously selected. However, the vehicle's ESC system need not return to a mode that satisfies the requirements of paragraphs 7 through 7.3 at the initiation of each new ignition cycle if:

7.5.1.1.

The vehicle is in a four-wheel drive configuration which has the effect of locking the drive gears at the front and rear axles together and providing an additional gear reduction between the engine speed and vehicle speed of at least 1,6, selected by the driver for low-speed, off-road driving; or

7.5.1.2.

The vehicle is in a four-wheel drive configuration selected by the driver that is designed for operation at higher speeds on snow-, sand-, or dirt-packed roads and that has the effect of locking the drive gears at the front and rear axles together, provided that in this mode the vehicle meets the stability performance requirements of paragraphs 7.1 and 7.2 under the test conditions specified in paragraph 8. However, if the system has more than one ESC mode that satisfies the requirements of paragraphs 7.1 and 7.2 within the drive configuration selected for the previous ignition cycle, the ESC shall return to the manufacturer's original default ESC mode for that drive configuration at the initiation of each new ignition cycle.

7.5.2.   A control, whose only purpose is to place the ESC system in a mode in which it will no longer satisfy the performance requirements of paragraphs 7, 7.1, 7.2 and 7.3, shall fulfil the relevant technical requirements of Regulation No 121.

7.5.3.   A control for an ESC system whose purpose is to place the ESC system in different modes, at least one of which may no longer satisfy the performance requirements of paragraphs 7, 7.1, 7.2, and 7.3, shall fulfil the relevant technical requirements of Regulation No 121.

Alternatively, in the case where the ESC system mode is controlled by a multi-functional control, the driver display shall identify clearly to the driver the control position for this mode using the ‘off’ symbol for electronic stability control system as defined in Regulation No 121.

7.5.4.   A control for another system that has the ancillary effect of placing the ESC system in a mode in which it no longer satisfies the performance requirements of paragraphs 7, 7.1, 7.2 and 7.3 need not be identified by the ‘ESC Off’ symbol of paragraph 7.5.2.

7.6.   ESC Off tell-tale

If the manufacturer elects to install a control to turn off or reduce the performance of the ESC system under paragraph 7.5, the tell-tale requirements of paragraphs 7.6.1 to 7.6.4 shall be met in order to alert the driver to the inhibited or reduced state of ESC system functionality. This requirement does not apply for the driver-selected mode referred to in paragraph 7.5.1.2.

7.6.1.   The vehicle manufacturer shall provide a tell-tale indicating that the vehicle has been put into a mode that renders it unable to satisfy the requirements of paragraphs 7, 7.1, 7.2 and 7.3, if such a mode is provided.

7.6.2.   The ‘ESC Off’ tell-tale:

7.6.2.1.

Shall fulfil the relevant technical requirements of Regulation No 121.

7.6.2.2.

Shall remain continuously illuminated for as long as the ESC is in a mode that renders it unable to satisfy the requirements of paragraphs 7, 7.1, 7.2 and 7.3;

7.6.2.3.

Except as provided in paragraphs 7.6.3 and 7.6.4 each ‘ESC Off’ tell-tale shall be activated as a check of lamp function either when the ignition locking system is turned to the ‘On’ (‘Run’) position when the engine is not running, or when the ignition locking system is in a position between ‘On’ (‘Run’) and ‘Start’ that is designated by the manufacturer as a check position.

7.6.2.4.

Shall extinguish after the ESC system has been returned to the manufacturer's original default mode.

7.6.3.   The ‘ESC Off’ tell-tale need not be activated when a starter interlock is in operation.

7.6.4.   The requirement of paragraph 7.6.2.3 of this section does not apply to tell-tales shown in a common space.

7.6.5.   The manufacturer may use the ‘ESC Off’ tell-tale to indicate an ESC level of function other than the manufacturer's original default mode even if the vehicle would meet paragraphs 7, 7.1, 7.2 and 7.3 of this section at that level of ESC function.

7.7.   ESC system technical documentation

The documentation package shall, as confirmation that the vehicle is equipped with an ESC system that meets the definition of an ‘ESC System’ as in paragraph 2.7 to this Regulation, include the vehicle manufacturer's documentation as specified in paragraphs 7.7.1 to 7.7.4 below.

7.7.1.   System diagram identifying all ESC system hardware. The diagram shall identify those components that are used to generate brake torques at each wheel, determine vehicle yaw rate, estimated side-slip or the side-slip derivative and driver steering inputs.

7.7.2.   A brief written explanation sufficient to describe the ESC system's basic operational characteristics. This explanation shall include the outline description of the system's capability to apply braking torques at each wheel and how the system modifies propulsion torque during ESC system activation, and show that the vehicle yaw rate is directly determined even under the conditions where no wheel speed information is available. The explanation shall also specify the vehicle speed range and the driving phases (acceleration, deceleration, coasting, during activation of the ABS or traction control) under which the ESC system can activate.

7.7.3.   Logic diagram. This diagram supports the explanation provided under paragraph 7.7.2.

7.7.4.   Understeer information. An outline description of the pertinent inputs to the computer that control ESC system hardware and how they are used to limit vehicle understeer.

8.   TEST CONDITIONS

8.1.   Ambient conditions

8.1.1.   The ambient temperature is between 0 °C and 45 °C.

8.1.2.   The maximum wind speed is no greater than 10 m/s for vehicles with SSF > 1,25, and 5 m/s for vehicles with SSF ≤ 1,25.

8.2.   Road test surface

8.2.1.   Tests are conducted on a dry, uniform, solid-paved surface. Surfaces with irregularities and undulations, such as dips and large cracks, are unsuitable.

8.2.2.   The road test surface has a nominal (6) peak braking coefficient (PBC) of 0,9, unless otherwise specified, when measured using either:

8.2.2.1.

The American Society for Testing and Materials (ASTM) E1136 standard reference test tyre, in accordance with ASTM Method E1337-90, at a speed of 40 mph; or

8.2.2.2.

The k-test method specified in Appendix 2 to Annex 6 of Regulation No 13-H.

8.2.3.   The test surface has a consistent slope between level and 1 per cent.

8.3.   Vehicle conditions

8.3.1.   The ESC system is enabled for all testing.

8.3.2.   Vehicle mass. The vehicle is loaded with the fuel tank filled to at least 90 per cent of capacity, and a total interior load of 168 kg comprised of the test driver, approximately 59 kg of test equipment (automated steering machine, data acquisition system and the power supply for the steering machine), and ballast as required to make up for any shortfall in the weight of test drivers and test equipment. Where required, ballast shall be placed on the floor behind the passenger front seat or if necessary in the front passenger foot well area. All ballast shall be secured in a way that prevents it from becoming dislodged during testing.

8.3.3.   Tyres. The tyres are inflated to the vehicle manufacturer's recommended cold inflation pressure(s) e.g. as specified on the vehicle's placard or the tyre inflation pressure label. Tubes may be installed to prevent tyre de-beading.

8.3.4.   Outriggers. Outriggers may be used for testing if deemed necessary for test drivers' safety. In this case, the following applies for vehicles with a Static Stability Factor (SSF) ≤ 1,25:

8.3.4.1.

Vehicles with a mass in running order under 1 588 kg shall be equipped with ‘lightweight’ outriggers. Lightweight outriggers shall be designed with a maximum mass of 27 kg and a maximum roll moment of inertia of 27 kg · m2.

8.3.4.2.

Vehicles with a mass in running order between 1 588 kg and 2 722 kg shall be equipped with ‘standard’ outriggers. Standard outriggers shall be designed with a maximum mass of 32 kg and a maximum roll moment of inertia of 35,9 kg · m2.

8.3.4.3.

Vehicles with a mass in running order equal to or greater than 2 722 kg shall be equipped with ‘heavy’ outriggers. Heavy outriggers shall be designed with a maximum mass of 39 kg and a maximum roll moment of inertia of 40,7 kg · m2.

8.3.5.   Automated steering machine. A steering robot programmed to execute the required steering pattern shall be used in paragraphs 9.5.2, 9.5.3, 9.6 and 9.9. The steering machine shall be capable of supplying steering torques between 40 to 60 Nm. The steering machine shall be able to apply these torques when operating with steering wheel velocities up to 1 200 degrees per second.

9.   TEST PROCEDURES

9.1.   Inflate the vehicles' tyres to the manufacturer's recommended cold inflation pressure(s) e.g. as provided on the vehicle's placard or the tyre inflation pressure label.

9.2.   Tell-tale bulb check. With the vehicle stationary and the ignition locking system in the ‘Lock’ or ‘Off’ position, switch the ignition to the ‘On’ (‘Run’) position or, where applicable, the appropriate position for the lamp check. The ESC malfunction tell-tale shall be illuminated as a check of lamp function, as specified in paragraph 7.4.1.3, and if equipped, the ‘ESC Off’ tell-tale shall also be illuminated as a check of lamp function, as specified in paragraph 7.6.2.3. The tell-tale bulb check is not required for a tell-tale shown in a common space as specified in paragraphs 7.4.3 and 7.6.4.

9.3.    ‘ESC Off’ control check. For vehicles equipped with an ‘ESC Off’ control, with the vehicle stationary and the ignition locking system in the ‘Lock’ or ‘Off’ position, switch the ignition locking system to the ‘On’ (‘Run’) position. Activate the ‘ESC Off’ control and verify that the ‘ESC Off’ tell-tale is illuminated, as specified in paragraph 7.6.2. Turn the ignition locking system to the ‘Lock’ or ‘Off’ position. Again, switch the ignition locking system to the ‘On’ (‘Run’) position and verify that the ‘ESC Off’ tell-tale has extinguished indicating that the ESC system has been restored as specified in paragraph 7.5.1.

9.4.   Brake conditioning

Condition the vehicle brakes in the manner described in paragraphs 9.4.1 to 9.4.4.

9.4.1.   Ten stops are performed from a speed of 56 km/h, with an average deceleration of approximately 0,5 g.

9.4.2.   Immediately following the series of ten 56 km/h stops, three additional stops are performed from 72 km/h at higher deceleration.

9.4.3.   When executing the stops in paragraph 9.4.2, sufficient force is applied to the brake pedal to bring the vehicle's antilock braking system (ABS) into operation for a majority of each braking event.

9.4.4.   Following completion of the final stop in 9.4.2, the vehicle is driven at a speed of 72 km/h for five minutes to cool the brakes.

9.5.   Tyre Conditioning

Condition the tyres using the procedure of paragraphs 9.5.1 to 9.5.3 to wear away mould sheen and achieve operating temperature immediately before beginning the test runs of paragraphs 9.6 and 9.9.

9.5.1.   The test vehicle is driven around a circle 30 meters in diameter at a speed that produces a lateral acceleration of approximately 0,5 to 0,6 g for three clockwise laps followed by three anticlockwise laps.

9.5.2.   Using a sinusoidal steering pattern at a frequency of 1 Hz, a peak steering wheel angle amplitude corresponding to a peak lateral acceleration of 0,5 to 0,6 g, and a vehicle speed of 56 km/h, the vehicle is driven through four passes performing 10 cycles of sinusoidal steering during each pass.

9.5.3.   The steering wheel angle amplitude of the final cycle of the final pass shall be twice that of the other cycles. The maximum time permitted between each of the laps and passes is five minutes.

9.6.   Slowly increasing steer procedure

The vehicle is subjected to two series of runs of the slowly increasing steer test using a constant vehicle speed of 80 ± 2 km/h and a steering pattern that increases by 13,5 degrees per second until a lateral acceleration of approximately 0,5 g is obtained. Three repetitions are performed for each test series. One series uses anticlockwise steering, and the other series uses clockwise steering. The maximum time permitted between each test run is five minutes.

9.6.1.   From the slowly increasing steer tests, the quantity ‘A’ is determined. ‘A’ is the steering wheel angle in degrees that produces a steady state lateral acceleration (corrected using the methods specified in paragraph 9.11.3) of 0,3 g for the test vehicle. Utilising linear regression, A is calculated, to the nearest 0,1 degrees, from each of the six slowly increasing steer tests. The absolute value of the six A values calculated is averaged and rounded to the nearest 0,1 degrees to produce the final quantity, A, used below.

9.7.   After the quantity A has been determined, without replacing the tyres, the tyre conditioning procedure described in paragraph 9.5 is performed again immediately prior to conducting the Sine with Dwell test of paragraph 9.9. Initiation of the first Sine with Dwell test series shall begin within two hours after completion of the slowly increasing steer tests of paragraph 9.6.

9.8.   Check that the ESC system is enabled by ensuring that the ESC malfunction and ‘ESC Off’ (if provided) tell-tales are not illuminated.

9.9.   Sine with Dwell test of oversteer intervention and responsiveness

The vehicle is subjected to two series of test runs using a steering pattern of a sine wave at 0,7 Hz frequency with a 500 ms delay beginning at the second peak amplitude as shown in Figure 2 (the Sine with Dwell tests). One series uses anticlockwise steering for the first half cycle, and the other series uses clockwise steering for the first half cycle. The vehicle is allowed to cool-down between each test runs for a period of 1,5 to 5 minutes, with the vehicle stationary.

Figure 2

Sine with Dwell

Text of image

9.9.1.   The steering motion is initiated with the vehicle coasting in high gear at 80 ± 2 km/h.

9.9.2.   The steering amplitude for the initial run of each series is 1,5 A, where A is the steering wheel angle determined in paragraph 9.6.1.

9.9.3.   In each series of test runs, the steering amplitude is increased from run to run, by 0,5 A, provided that no such run will result in a steering amplitude greater than that of the final run specified in paragraph 9.9.4.

9.9.4.   The steering amplitude of the final run in each series is the greater of 6,5 A or 270 degrees, provided the calculated magnitude of 6,5 A is less than or equal to 300 degrees. If any 0,5 A increment, up to 6,5 A, is greater than 300 degrees, the steering amplitude of the final run shall be 300 degrees.

9.9.5.   Upon completion of the two series of test runs, post processing of yaw rate and lateral acceleration data is done as specified in paragraph 9.11.

9.10.   ESC malfunction detection

9.10.1.   Simulate one or more ESC malfunction(s) by disconnecting the power source to any ESC component, or disconnecting any electrical connection between ESC components (with the vehicle power off). When simulating an ESC malfunction, the electrical connections for the tell-tale lamp(s) and/or optional ESC system control(s) are not to be disconnected.

9.10.2.   With the vehicle initially stationary and the ignition locking system in the ‘Lock’ or ‘Off’ position, switch the ignition locking system to the ‘Start’ position and start the engine. Drive the vehicle forward to obtain a vehicle speed of 48 ± 8 km/h. 30 seconds, at the latest, after the engine has been started and within the next two minutes at this speed, conduct at least one left and one right smooth turning manoeuvre without losing directional stability and one brake application. Verify that the ESC malfunction indicator illuminates in accordance with paragraph 7.4 by the end of these manoeuvres.

9.10.3.   Stop the vehicle, switch the ignition locking system to the ‘Off’ or ‘Lock’ position. After a five-minute period, switch the vehicle's ignition locking system to the ‘Start’ position and start the engine. Verify that the ESC malfunction indicator again illuminates to signal a malfunction and remains illuminated as long as the engine is running or until the fault is corrected.

9.10.4.   Switch the ignition locking system to the ‘Off’ or ‘Lock’ position. Restore the ESC system to normal operation, switch the ignition system to the ‘Start’ position and start the engine. Re-perform the manoeuvre described in paragraph 9.10.2 and verify that the tell-tale has extinguished within this time or immediately afterwards.

9.11.   Post data processing — calculations for performance metrics

Yaw rate and lateral displacement measurements and calculations shall be processed utilising the techniques specified in paragraphs 9.11.1 to 9.11.8.

9.11.1.   Raw steering wheel angle data is filtered with a 12-pole phaseless Butterworth filter and a cut-off frequency of 10 Hz. The filtered data is then zeroed to remove sensor offset utilising static pre-test data.

9.11.2.   Raw yaw rate data is filtered with a 12-pole phaseless Butterworth filter and a cut-off frequency of 6 Hz. The filtered data is then zeroed to remove sensor offset utilising static pre-test data.

9.11.3.   Raw lateral acceleration data is filtered with a 12-pole phaseless Butterworth filter and a cut-off frequency of 6 Hz. The filtered data is then zeroed to remove sensor offset utilising static pre-test data. The lateral acceleration data at the vehicle centre of gravity is determined by removing the effects caused by vehicle body roll and by correcting for sensor placement via the use of coordinate transformation. For data collection, the lateral accelerometer shall be located as close as possible to the position of the vehicle's longitudinal and lateral centres of gravity.

9.11.4.   Steering wheel velocity is determined by differentiating the filtered steering wheel angle data. The steering wheel velocity data is then filtered with a moving 0,1 second running average filter.

9.11.5.   Lateral acceleration, yaw rate and steering wheel angle data channels are zeroed utilising a defined ‘zeroing range’. The methods used to establish the zeroing range are defined in paragraphs 9.11.5.1 and 9.11.5.2.

9.11.5.1.   Using the steering wheel rate data calculated using the methods described in paragraph 9.11.4, the first instant that the steering wheel rate exceeds 75 deg/sec is identified. From this point, steering wheel rate shall remain greater than 75 deg/sec for at least 200 ms. If the second condition is not met, the next instant that the steering wheel rate exceeds 75 deg/sec is identified and the 200 ms validity check applied. This iterative process continues until both conditions are ultimately satisfied.

9.11.5.2.   The ‘zeroing range’ is defined as the 1,0 second time period prior to the instant the steering wheel rate exceeds 75 deg/sec (i.e. the instant the steering wheel velocity exceeds 75 deg/sec defines the end of the ‘zeroing range’).

9.11.6.   The Beginning of Steer (BOS) is defined as the first instance when the filtered and zeroed steering wheel angle data reaches -5 degrees (when the initial steering input is anticlockwise) or +5 degrees (when the initial steering input is clockwise) after a time defining the end of the ‘zeroing range.’ The value for time at the BOS is interpolated.

9.11.7.   The Completion of Steer (COS) is defined as the time the steering wheel angle returns to zero at the completion of the Sine with Dwell steering manoeuvre. The value for time at the zero degree steering wheel angle is interpolated.

9.11.8.   The second peak yaw rate is defined as the first local yaw rate peak produced by the reversal of the steering wheel. The yaw rates at 1,0 and 1,75 seconds after COS are determined by interpolation.

9.11.9.   Determine lateral velocity by integrating corrected, filtered and zeroed lateral acceleration data. Zero lateral velocity at the BOS point. Determine lateral displacement by integrating zeroed lateral velocity. Zero lateral displacement at the BOS point. The lateral displacement measurement is made at 1,07 seconds after BOS point and is determined by interpolation.

10.   MODIFICATION OF VEHICLE TYPE OR ESC SYSTEM AND EXTENSION OF APPROVAL

10.1.   Every modification to an existing vehicle type shall be notified to the Type Approval Authority which approved the vehicle type.

The Authority shall then either:

(a)	Decide, in consultation with the manufacturer, that a new type-approval is to be granted; or

(b)	Apply the procedure contained in paragraph 10.1.1 (Revision) and, if applicable, the procedure contained in paragraph 10.1.2 (Extension).

10.1.1.   Revision

When particulars recorded in the information documents have changed and the Type Approval Authority considers that the modifications made are unlikely to have appreciable adverse effects and that in any case the foot controls still meet the requirements, the modification shall be designated a ‘revision’.

In such a case, the Type Approval Authority shall issue the revised pages of the information documents as necessary, marking each revised page to show clearly the nature of the modification and the date of re-issue. A consolidated, updated version of the information documents, accompanied by a detailed description of the modification, shall be deemed to meet this requirement.

10.1.2.   Extension

The modification shall be designated an ‘extension’ if, in addition to the change of the particulars recorded in the information documents,

(a)	Further inspections or tests are required; or

(b)	Any information on the communication document (with the exception of its attachments) has changed; or

(c)	Approval to a later series of amendments is requested after its entry into force.

10.2.   Confirmation or refusal of approval, specifying the alteration, shall be communicated by the procedure specified in paragraph 4.3 above to the Contracting Parties to the Agreement applying this Regulation. In addition, the index to the information documents and to the test reports, attached to the communication document of Annex 1, shall be amended accordingly to show the date of the most recent revision or extension.

10.3.   The competent authority issuing the extension of approval shall assign a serial number to each communication form drawn up for such an extension.'

11.   CONFORMITY OF PRODUCTION

The conformity of production procedures shall comply with those set out in the Agreement, Appendix 2 (E/ECE/324-E/ECE/TRANS/505/Rev.2) with the following requirements:

11.1.

A vehicle approved to this Regulation shall be so manufactured as to conform to the type approved by meeting the requirements set forth in paragraphs 5, 6 and 7 above.

11.2.

The Type Approval Authority which has granted type approval may at any time verify the conformity control methods applied in each production facility. The normal frequency of these verifications shall be once every two years.

12.   PENALTIES FOR NON-CONFORMITY OF PRODUCTION

12.1.   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 above are not complied with.

12.2.   If a Contracting Party to the Agreement 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 copy of the communication form conforming to the model in Annex 1 to this Regulation.

13.   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 Authority which granted the approval. Upon receiving the relevant communication, that Authority shall inform thereof the other Contracting Parties to the Agreement applying this Regulation by means of copies of a communication form conforming to the model in Annex 5 to this Regulation.

14.   NAMES AND ADDRESSES OF THE TECHNICAL SERVICES CONDUCTING APPROVAL TESTS, AND OF TYPE APPROVAL AUTHORITIES

The Contracting Parties to the Agreement applying 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.

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(1)  M1 and N1 categories of vehicles are defined in the Consolidated Resolution on the Construction of Vehicles (R.E.3.), document ECE/TRANS/WP.29/78/Rev. 4, para. 2 — www.unece.org/trans/main/wp29/wp29wgs/wp29gen/wp29resolutions.html

(2)  An axle group shall be treated as a single axle and dual wheels shall be treated as a single wheel.

(3)  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. 4, Annex 3 — www.unece.org/trans/main/wp29/wp29wgs/wp29gen/wp29resolutions.html

(4)  An axle group shall be treated as a single axle and dual wheels shall be treated as a single wheel.

(5)  The text in this Regulation assumes that the vehicle steering is controlled by means of a steering wheel. Vehicles using other types of steering control may also be approved to this annex provided the manufacturer is able to demonstrate to the Technical Service that the performance requirements of this Regulation can be met using equivalent steering inputs to the steering inputs stipulated under paragraph 7. of this Regulation.

(6)  The ‘nominal’ value is understood as being the theoretical target value.

Only the original UN/ECE texts have legal effect under international public law. The status and date of entry into force of this Regulation should be checked in the latest version of the UN/ECE status document TRANS/WP.29/343, available at:

http://www.unece.org/trans/main/wp29/wp29wgs/wp29gen/wp29fdocstts.html

Date of entry into force: 22 January 2017

CONTENTS

REGULATION

1.

Scope

2.

Definitions

3.

Application for approval

4.

Approval

5.

Specifications and tests

6.

Supplementary information

7.

Modifications and extension of approval of the vehicle type

8.

Conformity of production

9.

Penalties for non-conformity of production

10.

Production definitively discontinued

11.

Names and addresses of Technical Services responsible for conducting approval tests, and of Type Approval Authorities

ANNEXES

1.

Communication

2.

Arrangements of approval marks

3.

Test requirements for Tyre Pressure Monitoring Systems (TPMS)

1.   SCOPE

This Regulation applies to the approval of vehicles of category M1 up to a maximum mass of 3 500 kg and N1  (1) when equipped with a tyre pressure monitoring system, except for vehicles fitted with dual wheels on an axle.

2.   DEFINITIONS

For the purposes of this Regulation:

2.1.	‘Approval of a vehicle’ means the approval of a vehicle type with regard to its tyre pressure monitoring system.

2.2.	‘Vehicle type’ means vehicles which do not differ significantly in such essential aspects as: (a) The manufacturer's trade name or mark; (b) Vehicle features which significantly influence the performances of the tyre pressure monitoring system; (c) The design of the tyre pressure monitoring system.

2.3.	‘Wheel’ means a complete wheel consisting of a rim and a wheel disc;

2.4.

‘Tyre’ means a pneumatic tyre, being a reinforced flexible envelope that is provided with, or forms in conjunction with the wheel on which it is mounted, a continuous, essentially toroidal, closed chamber containing a gas (usually air) or a gas and liquid, that is intended normally to be used at a pressure greater than atmospheric pressure;

2.5.	‘Maximum mass’ means the maximum value of the vehicle stated by the manufacturer to be technically permissible (this mass may be higher than the ‘permissible maximum mass’ laid down by the national administration);

2.6.

‘Maximum axle load’ means the maximum value, as indicated by the manufacturer, of the total vertical force between the contact surfaces of the tyres or tracks of one axle and the ground and resulting from the part of the vehicle mass supported by that axle; this load may be higher than the ‘authorized axle load’ laid down by the national administration. The sum of the axle loads may be greater than the value corresponding to the total mass of the vehicle;

2.7.	‘Tyre Pressure Monitoring System (TPMS)’ means a system fitted on a vehicle, able to perform a function to evaluate the inflation pressure of the tyres or the variation of this inflation pressure over time and to transmit corresponding information to the user while the vehicle is running;

2.8.	‘Cold tyre inflation pressure’ means the tyre pressure at ambient temperature, in the absence of any pressure build-up due to tyre usage;

2.9.	‘Recommended cold inflation pressure (Prec)’ means the pressure recommended for each tyre position by the vehicle manufacturer, for the intended service conditions (e.g. speed and load) of the given vehicle, as defined on the vehicle placard and/or the vehicle owner's manual;

2.10.

‘In service operating pressure (Pwarm)’ means the inflation pressure for each tyre position elevated from the cold pressure (Prec) by temperature effects during vehicle usage;

2.11.

‘Test Pressure (Ptest)’ means the actual pressure of the tyre(s) selected for each tyre position after deflation during the test procedure.

3.   APPLICATION FOR APPROVAL

3.1.   The application for approval of a vehicle type with regard to its tyre pressure monitoring system shall be submitted by the vehicle manufacturer or by his duly accredited representative;

3.2.   It shall be accompanied, in triplicate, by a description of the vehicle type with regard to the items specified in Annex 1 to this Regulation:

3.3.   A vehicle representative of the vehicle type to be approved shall be submitted to the Type Approval Authority or the Technical Service responsible for conducting the approval tests.

3.4.   The Type Approval Authority shall verify the existence of satisfactory arrangements for ensuring effective control of the conformity of production before type approval is granted.

4.   APPROVAL

4.1.   If the vehicle submitted for approval pursuant to this Regulation meets all the requirements of paragraph 5. below, approval of that vehicle type shall be granted.

4.2.   An approval number shall be assigned to each type approved. Its first two digits (at present 00 for the regulation in its original form) shall indicate the series of amendments incorporating the most recent major technical amendments made to the regulation at the time of issue of the approval. The same Contracting Party may not assign the same number to another type of vehicle.

4.3.   Notice of approval or of extension or of 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 1 to this Regulation.

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 which granted approval; (2)

4.4.2.

The number of this Regulation, followed by the letter ‘R’, a dash and the approval number to the right of the markings prescribed in paragraph 4.4.1.

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

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 affixed by the manufacturer.

4.8.   Annex 2 to this Regulation gives examples of approval marks.

5.   SPECIFICATIONS AND TESTS

5.1.   General

5.1.1.   Any vehicle of categories M1 up to 3,500 kg and N1, in both cases with all axles equipped with single tyres, and fitted with a tyre pressure monitoring system complying with the definition of paragraph 2.7 shall meet the performance requirements contained in paragraphs 5.1.2 to 5.5.5 of this Regulation over a wide range of road and environmental conditions encountered within the territory of the Contacting Parties.

5.1.2.   The effectiveness of the tyre pressure monitoring system fitted on a vehicle shall not be adversely affected by magnetic or electrical fields. This shall be demonstrated by fulfilling the technical requirements and respecting the transitional provisions of Regulation No 10 by applying:

(a)	The 03 series of amendments for vehicles without a coupling system for charging the Rechargeable Electric Energy Storage System (traction batteries);

(b)	The 04 series of amendments for vehicles with a coupling system for charging the Rechargeable Electric Energy Storage System (traction batteries)

5.1.3.   The system shall operate from a speed of 40 km/h or below, up to the vehicle's maximum design speed.

5.1.4.   The vehicle shall fulfil the tests (puncture, diffusion and malfunction) as specified in Annex 3.

5.2.   Tyre pressure detection for incident-related pressure loss.

5.2.1.   The TPMS shall illuminate the warning signal described in paragraph 5.5 within not more than ten minutes of cumulative driving time after the in service operating pressure in one of the vehicle's tyres has been reduced by twenty per cent or it is at a minimum pressure of 150 kPa, whatever is higher.

5.3.   Detection for a tyre pressure level significantly below the recommended pressure for optimum performance including fuel consumption and safety.

5.3.1.   The TPMS shall illuminate the warning signal described in paragraph 5.5 within not more than sixty minutes of cumulative driving time after the in-service operating pressure in any of the vehicle's tyres, up to a total of four tyres, has been reduced by twenty per cent or it is at a minimum pressure of 150 kPa, whatever is higher.

5.4.   Malfunction detection.

5.4.1.   The TPMS shall illuminate the warning signal described in paragraph 5.5 not more than 10 minutes after the occurrence of a malfunction that affects the generation or transmission of control or response signals in the vehicle's tyre pressure monitoring system.

5.5.   Warning indication.

5.5.1.   The warning indication shall be by means of an optical warning signal conforming to Regulation No 121.

5.5.2.   The warning signal shall be activated when the ignition (start) switch is in the ‘on’ (run) position (bulb check). This requirement does not apply to tell-tales shown in a common space.

5.5.3.   The warning signal must be visible even by daylight; the satisfactory condition of the signal must be easily verifiable by the driver from the driver's seat.

5.5.4.   The malfunction indication may be the same warning signal as the one used to indicate under-inflation. If the warning signal described in paragraph 5.5.1 is used to indicate both under-inflation and a malfunction of the TPMS, the following shall apply: with the ignition (start) switch in the ‘on’ (run) position the warning signal shall flash to indicate a malfunction. After a short period of time the warning signal shall remain continuously illuminated as long as the malfunction exists and the ignition (start) switch is in the ‘on’ (run) position. The flashing and illumination sequence shall be repeated each time the ignition (start) switch is in the ‘on’ (run) position until the malfunction has been corrected.

5.5.5.   The tell-tale of the warning described in paragraph 5.5.1 may be used in a flashing mode in order to provide information about the reset status of the tyre pressure monitoring system in accordance with the owner's manual of the vehicle.

6.   SUPPLEMENTARY INFORMATION

6.1.   The owner's manual, if any, of the vehicle shall contain at least the following information:

6.1.1.

A statement that the vehicle is equipped with such a system (and information how to reset the system, if the actual system includes such a feature).

6.1.2.

An image of the tell-tale symbol described in paragraph 5.5.1 (and an image of the malfunction tell-tale symbol, if a dedicated tell-tale is used for this function).

6.1.3.

Additional information about the significance of the low tyre pressure warning tell-tale illuminating and a description of the corrective action to be undertaken if this happens.

6.2.   If no owner's manual is supplied with the vehicle, the information required in paragraph 6.1 above shall be displayed in a prominent place on the vehicle.

7.   MODIFICATIONS AND EXTENSION OF APPROVAL OF THE VEHICLE TYPE

7.1.   Every modification of the vehicle type as defined in paragraph 2.2 of this Regulation shall be notified to the Type Approval Authority which approved the vehicle type. The Type Approval Authority may then either:

7.1.1.

Consider that the modifications made do not have an adverse effect on the conditions of the granting of the approval and grant an extension of approval;

7.1.2.

Consider that the modifications made affect the conditions of the granting of the approval and require further tests or additional checks before granting an extension of approval.

7.2.   Confirmation or refusal of approval, specifying the alterations, shall be communicated by the procedure specified in paragraph 4.3 above to the Contracting Parties to the Agreement applying this Regulation.

7.3.   The Type Approval Authority shall inform the other Contracting Parties of the extension by means of the communication form which appears in Annex 1 to this Regulation. It shall assign a serial number to each extension, to be known as the extension number.

8.   CONFORMITY OF PRODUCTION

8.1.   The conformity of production procedures shall comply with those set out in Appendix 2 of the Agreement (E/ECE/324–E/ECE/TRANS/505/Rev.2), with the following requirements:

8.2.   The Type Approval Authority which has granted type approval, may at any time verify the conformity of production in each production facility. The normal frequency of these verifications shall be at least once per year.

9.   PENALTIES FOR NON-CONFORMITY OF PRODUCTION

9.1.   The approval granted in respect of a vehicle type pursuant to this Regulation may be withdrawn if the requirements laid down in paragraph 8 are not complied with.

9.2.   If a Contracting Party to the Agreement, 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 copy of the approval form bearing at the end, in large letters, the signed and dated annotation ‘APPROVAL WITHDRAWN’.

10.   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 authority which granted the approval. Upon receiving the relevant communication that authority shall inform thereof the other Contracting Parties to the Agreement applying this Regulation by means of a copy of the approval form bearing at the end, in large letters, the signed and dated annotation ‘PRODUCTION DISCONTINUED’.

11.   NAMES AND ADDRESSES OF TECHNICAL SERVICES RESPONSIBLE FOR CONDUCTING APPROVAL TESTS, AND OF TYPE APPROVAL AUTHORITIES

The Contracting Parties to the 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.

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(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/trans/main/wp29/wp29wgs/wp29gen/wp29resolutions.html.

(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/trans/main/wp29/wp29wgs/wp29gen/wp29resolutions.html