Article 1U.K.Subject matter

This Regulation establishes detailed technical requirements and test procedures for the [F2GB type-approval] of the vehicles referred to in Article 2 of Regulation (EU) 2015/758 in respect of their 112-based eCall in-vehicle systems and of 112-based eCall in-vehicle separate technical units (‘STUs’) and components.

Article 2U.K.Classes of vehicles exempted from the requirement to be equipped with a 112-based eCall in-vehicle system

The classes of vehicles which for technical reasons cannot be fitted with an appropriate eCall triggering mechanism and for that reason are exempted from the requirement to be equipped with a 112-based eCall in-vehicle system are listed in Annex IX.

Article 3U.K.Multi-stage approval of special purpose vehicles

In case of multi-stage type-approval of the special purpose vehicles defined in points 5.1 and 5.5 of part A of [F3Annex I to Regulation (EU) 2018/858] granted at a previous stage in respect of the installation of a 112-based eCall in-vehicle system in the (base) vehicle shall remain valid, provided that the 112-based eCall in-vehicle system and the relevant sensors are not modified.

Article 4U.K.Definitions

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

Article 5U.K.Requirements and test procedures for [F4GB type-approval] of motor vehicles with regard to the installation of 112-based eCall in-vehicle systems

1.[F5GB type-approval] of a vehicle with regard to the installation of a 112-based eCall in-vehicle system shall be subject to the vehicle and its system passing the tests laid down in Annexes I to VIII and complying with the relevant requirements laid down in those Annexes.

2.Where the motor vehicle is fitted with a type of 112-based eCall in-vehicle STU that has been type-approved in accordance with Article 7, the vehicle and its system [F6must] pass the tests laid down in Annexes II, III and V and [F7must] comply with all relevant requirements laid down in those Annexes.

[F82A.Where the motor vehicle is fitted with a type of 112-based eCall in-vehicle STU that has been approved in accordance with Article 7 of Commission Delegated Regulation (EU) 2017/79 as it has effect in EU law, the vehicle and its systems must also pass the tests laid down in Annexes II, III and V of this Regulation, and must comply with all relevant requirements laid down in those Annexes.]

3.Where the 112-based eCall in-vehicle system of the motor vehicle comprises one or more components that have been type-approved in accordance with Article 6, the motor vehicle and its system [F9must] pass the tests laid down in Annexes I to VIII and to comply with all relevant requirements laid down in those Annexes. The assessment of whether the system complies with those requirements may however partly be based on the results of the tests referred [F10must] in Article 6(3).

[F113A.Where the 112-based eCall in-vehicle system of the motor vehicle comprises one or more components that have been type-approved in accordance with Article 6 of Commission Delegated Regulation (EU) 2017/79 as it has effect in EU law, the vehicle and its system must also pass the tests laid down in Annexes I to VIII of this Regulation and must comply with all relevant requirements laid down in those Annexes. The assessment of whether the system complies with those requirements may however partly be based on the results of the tests referred to in Article 6(3) of Commission Delegated Regulation (EU) 2017/79 as it has effect in EU law.]

[F124.GB type-approvals referred to in paragraph 1 that are granted before 1 January 2027 must be extended in accordance with the procedure laid down in Annex X.]

Article 6U.K.Requirements and test procedures for [F13GB type-approval] of 112-based eCall in-vehicle system components

1.[F14GB type-approval] of a 112-based eCall in-vehicle system component shall be subject to the component passing the tests laid down in Annex I and complying with the relevant requirements in that Annex.

2.For the purposes of paragraph 1, only the verification procedure for components laid down in point 2.8 of Annex I shall apply after the individual parts are subjected to the test referred to in point 2.3 of this Annex.

3.Upon request of the manufacturer, a component may additionally be tested by the technical service for compliance with the requirements set out in Annexes IV, VI and VII that are relevant to the functionalities of the component. Compliance with those requirements shall be indicated on the type-approval certificate issued in accordance with Article 3(3) of Commission Implementing Regulation (EU) 2017/78(3).

Article 7U.K.Requirements and test procedures for [F15GB type-approval] of 112-based eCall in-vehicle STUs

1.[F16GB type-approval] of a 112-based eCall in-vehicle STU shall be subject to the STU passing the tests laid down in Annexes I, IV, VI, VII and VIII and complying with the relevant requirements laid down in those Annexes.

2.Where the 112-based eCall in-vehicle STU comprises one or more components that have been type-approved in accordance with Article 6, the STU shall have to pass the tests laid down in Annexes I, IV, VI, VII and VIII and to comply with all relevant requirements laid down in those Annexes. The assessment of whether the STU complies with those requirements may however partly be based on the results of the test referred to in Article 6(3).

Article 8U.K.Obligations of the [F17approval authority]

[F18The approval authority] shall refuse to grant [F19GB type-approval] for new types of motor vehicles that do not comply with the requirements set out in this Regulation.

Article 9U.K.Amendments to Regulation (EU) 2015/758

The second subparagraph of Article 5(8) of Regulation (EU) 2015/758 is replaced by the following:

‘The technical requirements and tests referred to in the first subparagraph shall be based on the requirements set out in paragraphs 2 to 7 and on the available standards relating to eCall, where applicable, including:

Article 10U.K.Entry into force and application

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

It shall apply from 31 March 2018.

TABLE OF CONTENTSU.K.

ANNEX IU.K.Technical requirements and procedures for testing the resistance of eCall in-vehicle systems to severe crashes (high-severity deceleration test)

1.RequirementsU.K.

1.1.Performance requirementsU.K.

1.1.1.The high-severity deceleration test of eCall in-vehicle systems, STUs and components, carried out in accordance with point 2, shall be considered satisfactory if the following requirements are demonstrated post-deceleration/acceleration event.U.K.

1.1.2.MSD emission and encoding: The eCall system or representative arrangement shall be able to successfully transmit an MSD to a PSAP test point.U.K.

1.1.3.Incident time determination: The eCall system or representative arrangement shall be able to determine an up-to-date timestamp for an eCall incident.U.K.

1.1.4.Position determination: The eCall system or representative arrangement shall be able to determine accurately the up-to-date vehicle location.U.K.

1.1.5.Mobile network connectivity: The eCall system or representative arrangement shall be able to connect to and transmit data via the mobile network.U.K.

2.Test procedureU.K.

2.1.Purpose of the high-severity deceleration test procedureU.K.

The purpose of this test is to verify the sustained functionality of the 112-based eCall system after being subjected to inertial loads which may occur during a severe vehicle crash.

2.2.The following tests shall be performed on a representative arrangement of parts (without a vehicle body).U.K.

2.2.1.A representative arrangement shall include all parts required by the eCall system to successfully populate and transmit the MSD in an eCall.U.K.

2.2.2.This shall include the control module and the power source and any other parts required to perform the test eCall.U.K.

2.2.3.This shall include the external antenna for mobile communication.U.K.

2.2.4.The wiring harness may be represented only by the relevant connectors (connected to the tested components) and a length of wire. The length of the wiring harness and its eventual fixation can be decided by the manufacturer in agreement with the technical service referred to in [F21Article 3(38) of Regulation (EU) 2018/858] so that it is representative for the different installation configurations of the eCall system.U.K.

Textual Amendments

F21Words in Annex 1 point 2.2.4 substituted (31.12.2022 at 11.00 p.m.) by The Road Vehicles and Non-Road Mobile Machinery (Type-Approval) (Amendment and Transitional Provisions) (EU Exit) Regulations 2022 (S.I. 2022/1273), regs. 1(2), 79(6)

2.3.Deceleration/acceleration procedureU.K.

2.3.1.The following conditions shall apply:U.K.

2.3.2.The tested parts shall be connected to the test fixture by the intended mountings provided for the purpose of attaching them to a vehicle. If the intended mountings of the power source are specifically designed to break in order to release the power source in an impact event, they shall not be included in the test. The technical service shall verify that such release in a real-life high-severity crash event shall not impair the functionality of the system (e.g. no disconnection from the power source).U.K.

2.3.3.If additional brackets or fixtures are used as part of the deceleration/acceleration facility, these shall provide a sufficiently rigid connection to the deceleration/acceleration facility to not affect the outcome of the test.U.K.

2.3.4.The eCall system shall be decelerated or accelerated in compliance with the pulse corridor that is specified in the Table and Figure. The acceleration/deceleration shall be measured at a rigid part of the deceleration/acceleration facility and filtered at CFC-60.U.K.

2.3.5.The test pulse shall be within the minimum and maximum values as specified in the Table. The maximum velocity change ΔV shall be 70 km/h [+ 0/– 2 km/h]. However, if with the agreement of the manufacturer, the test was performed at a higher acceleration or deceleration level, a higher ΔV and/or longer duration the test shall be considered satisfactory.U.K.

2.3.6.The parts referred to in point 2.2 shall be tested in a worst case configuration. Their position and orientation on the sled shall correspond to the installation recommendations of the manufacturer and shall be indicated in the type-approval certificate issued under Implementing Regulation (EU) 2017/78.U.K.

2.3.7.Description of the test pulseU.K.

FigureMinimum and maximum curve of the test pulse (pulse corridor)U.K.

2.4.Verification procedureU.K.

2.4.1.Verify that no cable connectors were unplugged during the event.U.K.

2.4.2.The performance requirements shall be verified by performing a test call using the power source subjected to the high-severity deceleration.U.K.

2.4.3.Before performing the test call, ensure that:U.K.

2.4.4.Perform a test call (push mode) by applying a trigger according to the instructions of the manufacturer.U.K.

2.4.5.Verify each of the following items:U.K.

2.4.6.Clear down the test call using the appropriate PSAP test point command (e.g. hang up).U.K.

2.5.Positioning test procedureU.K.

2.5.1.The sustained functionality of the GNSS components shall be verified by comparing the location input and the location output of the system.U.K.

2.5.2.The ‘IVS location’ (φ_IVS, λ_IVS) shall be: The location contained in an MSD transmitted to a PSAP test point while the GNSS antenna is in open sky conditions (real or simulated).U.K.

2.5.3.The ‘true location’ (φ_true, λ_true) shall be:U.K.

2.5.4.The deviation between IVS location and true location, d_IVS shall be calculated using the following equations:U.K.

• Δφ = φ_IVS – φ_true

• Δλ = λ_IVS – λ_true

• 
• 

where:

Note:; 1 mas = 4,8481368 · 10^{– 9} radU.K.

2.5.5.The positioning test procedure may be repeated if the eCall system failed to achieve a GNSS position fix before the test.U.K.

2.6.Antenna test procedureU.K.

2.6.1.If the connection procedure applied for the test call did not make use of over-the-air data transmission, the sustained functionality of the mobile network antenna shall be verified by checking the antenna tuning status after the deceleration event according to the following procedure.U.K.

2.6.2.Measure the voltage standing wave ratio,, of the external mobile network antenna after the deceleration event at a frequency within the antenna's specified frequency band.U.K.

2.6.2.1.The measurement shall be performed with a power meter, antenna analyser or SWR meter as close as possible to the antenna feed point.U.K.

2.6.2.2.If a power meter is used, shall be calculated using the following equation:U.K.

where:

2.6.3.Verify that satisfies the specifications prescribed by the manufacturer for new antennas.U.K.

2.7.Connection proceduresU.K.

2.7.1.Simulated Mobile Network ProcedureU.K.

2.7.1.1.It shall be ensured that a TS12 call emitted by the 112-based system will be performed over-the-air via a non-public (i.e. simulated) mobile network and routed to the dedicated PSAP test point.U.K.

2.7.1.2.The dedicated PSAP test point during the test procedures shall be a PSAP simulator under the control of the technical service, compliant with the applicable EN standards and certified in accordance with EN 16454. It shall be equipped with an audio interface to allow voice communication tests.U.K.

2.7.1.3.If applicable, it shall be ensured that a TS11 call emitted by the TPS system will be performed over-the-air via a non-public (i.e. simulated) mobile network and routed to the TPSP test point.U.K.

2.7.1.4.The TPSP test point shall be a dedicated TPSP answering point simulator under the control of the technical service or a genuine TPSP answering point (permission by TPSP required).U.K.

2.7.1.5.Mobile network coverage of at least – 99 dBm or equivalent is recommended for this procedure.U.K.

2.7.2.Public Mobile Network ProcedureU.K.

2.7.2.1.It shall be ensured that a TS11 call to a long number will be emitted by the 112-based system (instead of a TS12 call) and will be performed over-the-air via a public mobile network and routed to the dedicated PSAP test point.U.K.

2.7.2.2.The dedicated PSAP test point during the test procedures shall be a PSAP simulator under the control of the technical service, compliant with the applicable EN standards and certified in accordance with EN 16454. It shall be equipped with an audio interface to allow voice communication tests.U.K.

2.7.2.3.If applicable, it shall be ensured that a TS11 call emitted by the TPS system will be performed over-the-air via a public mobile network and routed to the TPSP test point.U.K.

2.7.2.4.The TPSP test point shall be a dedicated TPSP answering point simulator under the control of the technical service or a genuine TPSP answering point (permission by TPSP required).U.K.

2.7.2.5.Mobile network coverage of at least – 99 dBm or equivalent is recommended for this procedure.U.K.

2.7.3.Wired Transmission ProcedureU.K.

2.7.3.1.It shall be ensured that a TS12 call emitted by the 112-based system will only be performed via a wired connection with a dedicated network simulator (bypassing any mobile network antenna) and routed to the dedicated PSAP test point.U.K.

2.7.3.2.The dedicated PSAP test point during the test procedures shall be a PSAP simulator under the control of the technical service, compliant with the applicable EN standards and certified in accordance with EN 16454. It shall be equipped with an audio interface to allow voice communication tests.U.K.

2.7.3.3.If applicable, it shall be ensured that a TS11 call emitted by the TPS system will be performed via a wired connection with a dedicated network simulator (bypassing any mobile network antenna) and routed to the dedicated TPSP test point.U.K.

2.7.3.4.The TPSP test point shall be a dedicated TPSP answering point simulator under the control of the technical service or a genuine TPSP answering point (permission by TPSP required).U.K.

2.8.Verification procedures for componentsU.K.

2.8.1.These procedures shall apply for the purposes of type-approval of a 112-based eCall in-vehicle system component in accordance with Article 5 of this Regulation.U.K.

2.8.1.1.These procedures shall apply after the individual parts are subjected to the deceleration test under point 2.3 of this Annex.U.K.

2.8.2.Control module including its connectors and wire harness as described in point 2.2.4 of this Annex.U.K.

2.8.2.1.Verify that no cable connectors are unplugged during the event.U.K.

2.8.2.2.The performance requirements shall be verified by performing a test call.U.K.

2.8.2.3.Before performing the test call, ensure that:U.K.

2.8.2.4.Perform a test call (push mode) by applying a trigger according to the instructions of the manufacturer.U.K.

2.8.2.5.Verify each of the following items:U.K.

2.8.2.6.Clear down the test call using the appropriate PSAP test point command (e.g. hang up).U.K.

2.8.3.Mobile network antenna including its connectors and wire harness as described in point 2.2.4 of this AnnexU.K.

2.8.3.1.Verify that no cable connectors were unplugged during the event.U.K.

2.8.3.2.Measure the voltage standing wave ratio, VSWR, of the external mobile network antenna after the deceleration event at a frequency within the antenna's specified frequency band.U.K.

2.8.3.3.The measurement shall be performed with a power meter, antenna analyser or SWR meter as close as possible to the antenna feed point.U.K.

2.8.3.4.If a power meter is used, VSWR shall be calculated using the following equation:U.K.

where:

2.8.3.5.Verify that VSWR satisfies the specifications prescribed by the manufacturer for new antennas.U.K.

2.8.4.Power supply (if not part of the control module) including its connectors and wire harness as described in point 2.2.4 of this AnnexU.K.

2.8.4.1.Verify that no cable connectors are unplugged during the event.U.K.

2.8.4.2.Measure if the voltage corresponds to the manufacturer's specification.U.K.

ANNEX IIU.K.Full-scale impact test assessment

1.RequirementsU.K.

1.1.Performance requirementsU.K.

1.1.1.The full-scale impact assessment of vehicles with eCall in-vehicle systems installed, carried out in accordance with point 2, shall be considered satisfactory if the following requirements are demonstrated post-impact.U.K.

1.1.2.Automatic triggering: The eCall system shall automatically initiate an eCall after an impact in accordance with UN Regulation No 94 (Annex 3) as well as UN Regulation No 95 (Annex 4), as applicable.U.K.

1.1.3.Call status indication: The eCall system shall inform the occupants about the current status of the eCall (status indicator) using a visual and/or audible signal.U.K.

1.1.4.MSD emission and encoding: The eCall system shall be able to successfully transmit an MSD to a PSAP test point via the mobile network.U.K.

1.1.5.Vehicle-specific data determination: The eCall system shall be able to populate accurately the mandatory vehicle-specific data fields of the MSD.U.K.

1.1.6.Position determination: The eCall system shall be able to determine accurately the up-to-date vehicle location.U.K.

2.Test procedureU.K.

2.1.Purpose of the full-scale impact test procedureU.K.

The purpose of this test is to verify the automatic triggering function and the sustained functionality of the 112-based eCall in-vehicle system in vehicles that are subjected to a frontal impact or a side impact.

2.2.The following tests shall be performed on a vehicle with an eCall in-vehicle system installed.U.K.

2.3.Impact test procedureU.K.

2.3.1.Impact tests shall be carried out in accordance with the tests defined in UN Regulation No 94, Annex 3 for frontal impact as well as UN Regulation No 95, Annex 4 for side impact, as applicable.U.K.

2.3.2.The test conditions defined in UN Regulation No 94 or UN Regulation No 95 shall apply.U.K.

2.3.3.Before performing the impact tests, ensure that:U.K.

2.4.Verification procedureU.K.

2.4.1.The performance requirements shall be verified by performing a test call from the vehicle after the impact using the 112-based eCall in-vehicle system: An automatically triggered eCall following the impact test.U.K.

2.4.2.Perform a test call (push mode) by applying an automatic trigger.U.K.

2.4.3.Verify each of the following items in at least one of the test calls:U.K.

2.4.4.Clear down the test call using the appropriate PSAP test point command (e.g. hang up).U.K.

2.4.5.If the automatic test call could not be performed successfully due to vehicle-external factors, it shall be permissible to verify the automatic trigger following the impact via the internal record transaction function of the in-vehicle system. This register shall be capable to store received trigger signals in non-volatile memory. The test engineer shall have access to the data stored in the in-vehicle system and shall verify that no record of automatic trigger signal is stored before the impact event and that a record of an automatic trigger signal is stored after the impact event.U.K.

2.4.6.If the test call was performed with the vehicle connected to an off-vehicle power supply (in cases where the impact test was carried out with the standard vehicle power supply not installed), verify that the on-board electrical system feeding the eCall in-vehicle system remained intact. This shall be verified by a record of a test engineer confirming a successful check of the integrity of the on-board electrical system including the dummy in-vehicle power source (visual inspection for mechanical damage to either the power source's mounting bracket or its structure) and the connections via its terminals.U.K.

2.5.Positioning test procedureU.K.

The positioning test procedure defined in point 2.5 of Annex I to this Regulation shall apply.

2.6.Antenna test procedureU.K.

2.6.1.If the connection procedure applied for the test call did not make use of over-the-air data transmission (point 2.7.3 of Annex I to this Regulation), the sustained functionality of the mobile network antenna shall be verified by checking the antenna tuning status after the full-scale impact test according to the procedure defined in point 2.6 of Annex I to this Regulation. In addition, it shall be verified that no wire breakage or short-circuit of the antenna feed line occurred by checking the electrical resistance between the end points of the wire and between the wire and vehicle ground.U.K.

2.7.Connection proceduresU.K.

The connection procedures defined in point 2.7 of Annex I to this Regulation shall apply.

ANNEX IIIU.K.Crash resistance of audio equipment

1.RequirementsU.K.

1.1.Performance requirementsU.K.

1.1.1.The assessment of the crash resistance of the eCall audio equipment of vehicles with eCall in-vehicle systems installed, carried out in accordance with point 2, shall be considered satisfactory if the following requirements are demonstrated post-impact as regards the frontal impact test as well as the side impact test, as applicable.U.K.

1.1.2.Reconnection of audio equipment: The eCall system shall reconnect the loudspeaker(s) and microphone(s) after being disconnected during an eCall for MSD transmission.U.K.

1.1.3.Voice communication: The eCall system shall allow hands-free voice communication (send and receive direction) of sufficient intelligibility between vehicle occupants and an operator.U.K.

2.Test procedureU.K.

2.1.Purpose of the audio equipment crash resistance test procedureU.K.

The purpose of this test is to verify that loudspeaker(s) and microphone(s) are successfully reconnected after being disconnected for MSD transmission and that the audio equipment remained functional after the vehicle has been subjected to the frontal impact or the side impact test.

2.2.The following verification test shall be performed on a vehicle with the eCall in-vehicle system installed that has been subjected to a full-scale impact according to Regulation No 94, Annex 3 for frontal impact or UN Regulation No 95, Annex 4 for side impact, as set out in point 1.1.1 above.U.K.

2.3.Overview of test procedureU.K.

2.3.1.The sustained functionality of the audio equipment shall be verified by performing a test call after the impact test and using the voice communication channel between the vehicle and the PSAP test point.U.K.

2.3.2.Two test engineers, positioned in the vehicle (near-end tester) and at the PSAP test point (far-end tester) respectively, successively transmit (read and listen) pre-defined, phonetically balanced sentences in single talk mode.U.K.

2.3.3.The testers are required to assess whether they were able to understand the meaning of the transmission in the send and receive directions.U.K.

2.4.Arrangement of testersU.K.

2.4.1.The test shall be performed in a quiet environment, with a background noise level of not more than 50 dB(A) and that is free from any noise sources that might otherwise disrupt the tests.U.K.

2.4.2.The near-end tester shall be positioned so that his head is close to a normal seating position on the driver's seat of the impacted vehicle. The tester shall use the in-vehicle audio equipment in the original arrangement.U.K.

2.4.3.The far-end tester shall be positioned away from the vehicle with sufficient separation so that speech in normal loudness from one tester cannot be understood without any aids by the other tester.U.K.

2.5.Test setupU.K.

2.5.1.Before performing the test call, ensure that:U.K.

2.5.2.Where it is possible to adapt the volume setting, the maximum volume control setting in send and receive direction at the near-end and at the far-end shall be chosen. The volume control settings at the far-end may be decreased during the test if required for better intelligibility.U.K.

2.5.3.If possible, no mobile networks that have an influence on the hands-free performance (e.g. echo, AGC, noise reduction, etc.) should be chosen for the connection. For simulated networks, if possible, DTX shall be switched off, the full rate codec shall be used (for GSM standard) and the highest bit rate of 12,2 kbit/s shall be used (for AMR codecs).U.K.

2.6.Test callU.K.

2.6.1.Perform a test call (push mode) by applying a manual trigger via the in-vehicle HMI and wait until the loudspeaker(s) and microphone(s) are reconnected for voice communication after completed MSD transmission.U.K.

2.6.2.Exchange of test messagesU.K.

2.6.2.1.Receive directionU.K.

2.6.2.1.1.The far-end tester shall select and read one sentence pair of the list provided in the Appendix. The tester shall read the sentences in a normal volume as used in phone calls.U.K.

2.6.2.1.2.The near-end tester shall assess whether the voice transmission in the receive direction was intelligible: The test in receive direction is passed if the near-end tester, resting in his original seating position, was able, with any feasible effort, to understand the full meaning of the transmission.U.K.

2.6.2.1.3.If required for the assessment, the near-end tester can request from the far-end tester to transmit additional sentence pairs.U.K.

2.6.2.2.Send directionU.K.

2.6.2.2.1.The near-end tester shall select and, resting in his original seating position, read one sentence pair of the list provided in the Appendix. The tester shall read the sentences in a normal volume as used in phone calls.U.K.

2.6.2.2.2.The far-end tester shall assess whether the voice transmission in the send direction was intelligible: The test in send direction is passed if the far-end tester was able, with any feasible effort, to understand the full meaning of the transmission.U.K.

2.6.2.2.3.If required for the assessment, the far-end tester can request from the near-end tester to transmit additional sentence pairs.U.K.

2.6.3.Clear down the test call using the appropriate PSAP test point command (e.g. hang up).U.K.

2.6.4.If the requirements cannot be fulfilled due to impairments introduced by the PSAP test point or the transmission medium, the test call may be repeated, if required in an adapted test setup.U.K.

2.7.Connection proceduresU.K.

2.7.1.The connection procedures defined in point 2.7 of Annex I to this Regulation shall apply.U.K.

AppendixTest sentences

1.The following test sentence pairs, as defined in ITU-T P.501, Annex B, shall be used for the exchange of test messages in the send and receive directions.U.K.

2.Test sentence pairs in the language most commonly spoken by the testers shall be selected from the list below. If the testers are not familiar with any of the languages, alternative sentences in a familiar language, preferably phonetically balanced, shall be used.U.K.

3.Test sentence pairsU.K.

3.1.DutchU.K.

3.2.EnglishU.K.

3.3.FinnishU.K.

3.4.FrenchU.K.

3.5.GermanU.K.

3.6.ItalianU.K.

3.7.PolishU.K.

3.8.SpanishU.K.

ANNEX IVU.K.Co-existence of third party services (TPS) with the 112-based eCall in-vehicle systems

1.RequirementsU.K.

1.1.The following requirements apply to 112-based eCall in-vehicle systems, STUs and (optionally for) components that shall be used in conjunction with a TPS eCall in-vehicle system.U.K.

1.2.Performance requirementsU.K.

1.2.1.The 112-based system shall be deactivated as long as the TPS system is active and does function.U.K.

1.2.2.The 112-based system shall be automatically triggered in the event that the TPS system is triggered but does not function.U.K.

1.3.Documentation requirementsU.K.

1.3.1.The manufacturer shall provide the technical service with an explanation of the design provisions built into the TPS system to ensure automatic triggering of the 112-based system (‘fall-back procedure’) in the event that the TPS system does not function. This documentation shall describe the principles of the changeover mechanism.U.K.

1.3.2.The documentation shall be supported by an analysis which shows, in overall terms, any hardware or software failure conditions that would result in an inability of the TPS system to perform a successful call and how the TPS system will behave on the occurrence of these.U.K.

This may be based on a Failure Mode and Effect Analysis (FMEA), a Fault Tree Analysis (FTA) or any appropriate similar process as agreed between the technical service and the manufacturer.

The chosen analytical approach(es) shall be established and maintained by the manufacturer and shall be made open for inspection by the technical service at the time of the type-approval.

2.Test procedureU.K.

2.1.Purpose of the TPS co-existence test procedureU.K.

The purpose of this test procedure is to verify for eCall in-vehicle systems that shall be used in conjunction with a TPS eCall in-vehicle system, that there is only one system active at a time and that the 112-based system is triggered automatically in the event that the TPS system does not function.

2.2.The following tests shall be performed either on a vehicle with an eCall in-vehicle system installed or on a representative arrangement of parts.U.K.

2.3.The deactivation of the 112-based system while the TPS system is active shall be verified by performing a manually triggered test call.U.K.

2.3.1.Before performing the test call, ensure:U.K.

2.3.2.Perform a test call by applying a manual trigger of the TPS system (push mode).U.K.

2.3.3.Verify:U.K.

2.3.4.Clear down the test call using the appropriate PSAP test point command (e.g. hang up).U.K.

2.3.5.If the call attempt of the TPS system fails during the test, the test procedure may be repeated.U.K.

2.4.The fall-back procedure shall be verified by performing a manually triggered test call to a dedicated PSAP test point in a condition where the TPS system does not function.U.K.

2.4.1.Modify the TPS system to simulate a failure, selected at the discretion of the type-approval authority that shall result in a fall-back procedure based on the documentation provided by the manufacturer.U.K.

2.4.2.Before performing the test call, ensure:U.K.

2.4.3.Perform a test call by applying a manual trigger of the TPS system (push mode).U.K.

2.4.4.Verify that an eCall was established by the 112-based system by a record of the PSAP test point showing that it did receive an eCall initiation signal.U.K.

2.4.5.Clear down the test call using the appropriate PSAP test point command (e.g. hang up).U.K.

2.5.Connection proceduresU.K.

The connection procedures defined in point 2.7 of Annex I to this Regulation shall apply.

ANNEX VU.K.Automatic triggering mechanism

1.RequirementsU.K.

1.1.The following requirements apply to vehicles with eCall in-vehicle systems installed.U.K.

1.2.Documentation requirementsU.K.

1.2.1.The manufacturer shall provide a statement which affirms that the strategy chosen to trigger an automatic eCall ensures triggering also in accident configurations dissimilar from and/or of a lower severity than the collisions simulated in the applicable full-scale crash tests in UN Regulation No 94 and UN Regulation No 95.U.K.

1.2.2.The manufacturer shall choose the collision typology and severity and will demonstrate that it is significantly different than the full-scale crash tests.U.K.

1.2.3.The manufacturer shall provide the type-approval authority with an explanation and technical documentation which shows, in overall terms, how this is achieved.U.K.

1.2.3.1.Documentation that shows, to the satisfaction of the type-approval authority, that the activation of supplemental restraint systems and the severity level, chosen at the discretion of the manufacturer, also induces an automatic eCall shall be considered satisfactory.U.K.

1.2.3.2.Documentation that shows, to the satisfaction of the type-approval authority, the strategy to prevent unjustified eCalls from being made in case of impacts of a severity level that is not considered a severe accident. Moreover, failure mode analysis shall be provided which shows that any hardware or software faults shall not result in automatic triggering of an eCall.U.K.

1.2.3.3.Airbag control unit specification drawings, specification data notes, sensitivity drawings, relevant circuit diagrams or similar documents considered equivalent by the type-approval authority would be suitable means to demonstrate this connection.U.K.

1.2.3.4.The extended documentation package shall remain strictly confidential. It may be kept by the approval authority, or, at the discretion of the approval authority, may be retained by the manufacturer. In case the manufacturer retains the documentation package, that package shall be identified and dated by the approval authority once reviewed and approved. It shall be made available for inspection by the approval authority at the time of approval or at any time during the validity of the approval.U.K.

ANNEX VIU.K.Technical requirements for compatibility of eCall in-vehicle systems with the positioning services provided by the Galileo and the EGNOS systems

1.RequirementsU.K.

1.1.Compatibility requirementsU.K.

1.1.1.The ‘Galileo system compatibility’ shall be: the reception and processing of the signals from the Open Service of Galileo, using it in the computation of the final position.U.K.

1.1.2.The ‘EGNOS system compatibility’ shall be: the reception of the corrections from the Open Service of EGNOS and its application to the GNSS signals, in particular GPS.U.K.

1.1.3.The compatibility of the eCall in-vehicle systems with the positioning services provided by the Galileo and the EGNOS systems shall be compliant with respect to positioning capabilities in section 1.2 and demonstrated by performing the test methods in section 2.U.K.

1.1.4.The testing procedures in section 2.2 can be performed either on the eCall unit including post processing ability or directly on the GNSS receiver being a part of the eCall.U.K.

1.2.Performance requirementsU.K.

1.2.1.The GNSS receiver shall be able to output the navigation solution in a NMEA-0183 protocol format (RMC, GGA, VTG, GSA and GSV message). The eCall setup for NMEA-0183 messages output shall be described in the operation manual.U.K.

1.2.2.The GNSS receiver being a part of the eCall shall be capable of receiving and processing individual GNSS signals in L1/E1 band from at least two global navigation satellite systems, including Galileo and GPS.U.K.

1.2.3.The GNSS receiver being a part of the eCall shall be capable of receiving and processing combined GNSS signals in L1/E1 band from at least two global navigation satellite systems, including Galileo and GPS; and SBAS.U.K.

1.2.4.The GNSS receiver being a part of the eCall shall be able to provide positioning information in WGS-84 coordinate system.U.K.

1.2.5.Horizontal position error shall not exceed:U.K.

• under open sky conditions: 15 metres at confidence level 0,95 probability with Position Dilution of Precision (PDOP) in the range from 2,0 to 2,5;

• in urban canyon conditions: 40 metres at confidence level 0,95 probability with Position Dilution of Precision (PDOP) in the range from 3,5 to 4,0.

1.2.6.The specified requirements for accuracy shall be provided:U.K.

• at speed range from 0 to [140] km/h;

• linear acceleration range from 0 to [2] G.

1.2.7.Cold start time to first fix shall not exceedU.K.

• 60 seconds for signal level down to minus 130 dBm;

• 300 seconds for signal level down to minus 140 dBm.

1.2.8.GNSS signal re-acquisition time after block out of 60 seconds at signal level down to minus 130 dBm shall not exceed 20 seconds after recovery of the navigation satellite visibility.U.K.

1.2.9.Sensitivity at receiver input shall be:U.K.

• GNSS signals detection (cold start) do not exceed 3 600 seconds at signal level on the antenna input of the eCall of minus 144 dBm;

• GNSS signals tracking and navigation solution calculation is available for at least 600 seconds at signal level on the antenna input of the eCall of minus 155 dBm;

• Re-acquisition of GNSS signals and calculation of the navigation solution is possible and does not exceed 60 seconds at signal level on the antenna input of the eCall of minus 150 dBm.

1.2.10.The GNSS receiver shall be able to obtain a position fix at least every second.U.K.

2.Test methodsU.K.

2.1.Test conditionsU.K.

2.1.1.The test object is the eCall, which includes a GNSS receiver and a GNSS antenna, specifying navigation characteristics and features of the tested system.U.K.

2.1.2.The number of the eCall test samples shall be at least 3 pieces and can be tested in parallel.U.K.

2.1.3.The eCall is provided for the test with the installed SIM-card, operation manual and the software (provided on electronic media).U.K.

2.1.4.The attached documents shall contain the following data:U.K.

• device serial number;

• hardware version;

• software version;

• device provider identification number;

• relevant technical documentation to perform the tests.

2.1.5.Tests are carried out in normal climatic conditions in accordance with standard ISO 16750-1:2006:U.K.

• air temperature 23 (± 5) °C;

• relative air humidity of 25 % to 75 %.

2.1.6.Tests of the eCall in respect of its GNSS receiver shall be performed with the test and auxiliary equipment specified in Table 1.U.K.

2.1.7.Unless otherwise specified, GNSS signal simulation shall follow ‘Open sky’ pattern as shown in Figure 1.U.K.

Figure 1

Open sky definition

Zone	Elevation range (degrees)	Azimuth range (degrees)
A	0 – 5	0 – 360
Background	Area out of Zone A

2.1.8.Open Sky plot — Attenuation:U.K.

2.2.Test proceduresU.K.

2.2.1.NMEA-0183 messages output test.U.K.

2.2.1.1.Make connections according to Figure 2.U.K.

Figure 2

Diagram of test stand

2.2.1.2.Prepare and turn on the eCall. By means of operation manual and developer software, set up the GNSS receiver for receiving signals from Galileo, GPS and SBAS. Set up the GNSS receiver to output NMEA-0183 messages (messages RMC, GGA, VTG, GSA and GSV).U.K.

2.2.1.3.Set up the simulator according to the simulator user guide. Initialize simulator script with the parameters, given in Table 2 for Galileo, GPS and SBAS signals.U.K.

2.2.1.4.By means of corresponding serial interface, set the connection between the eCall and PC. Control the possibility of receiving navigation information via NMEA-0183 protocol. The value of field 6 in the GGA messages is set to ‘2’.U.K.

2.2.1.5.Test results are considered successful if navigation information via NMEA-0183 protocol is received in all the eCall samples.U.K.

2.2.1.6.The test of NMEA-0183 messages output and the assessment of the positioning accuracy in autonomous static mode can be combined.U.K.

2.2.2.Assessment of positioning accuracy in autonomous static mode.U.K.

2.2.2.1.Make connections according to Figure 2.U.K.

2.2.2.2.Prepare and turn on the eCall. By means of developer software, make sure that the GNSS receiver is set up for receiving Galileo, GPS and SBAS combined signals. Set up the GNSS receiver to output messages according to the NMEA-0183 protocol (GGA, RMC, VTG, GSA and GSV messages).U.K.

2.2.2.3.Set up the simulator in accordance with its operational manual. Start simulation of combined Galileo, GPS and SBAS signals script with the set parameters given in Table 2.U.K.

2.2.2.4.Set up the recording of NMEA-0183 messages after receiving the navigation solution. Up to the moment the simulation script is complete, the NMEA-0183 messages are output by the GNSS receiver to a file.U.K.

2.2.2.5.Upon receiving the navigation solution set up recording of NMEA-0183 messages output by the GNSS receiver to a file, up to the moment the simulation script is complete.U.K.

2.2.2.6.Extract coordinates: latitude (B) and longitude (L) contained in GGA (RMC) messages.U.K.

2.2.2.7.Calculate the systematic inaccuracy of coordinate's determination on stationary intervals according to formulas (1), (2), for example for latitude coordinate (B):U.K.

(1)	ΔB(j) = B(j) – Btruej ,
(2)	,

• B_truej is the actual value of B coordinate in j time moment, in arc-seconds.

• B(j) is the determined value of B coordinate in j time moment by the GNSS receiver, in arc-seconds.

• N is the amount of GGA (RMC) messages, received during the test of GNSS receiver.

2.2.2.8.Similarly calculate the systematic inaccuracy of L (longitude) coordinate.U.K.

2.2.2.9.Calculate standard deviation (SD) value according to formula (3) for B coordinate:U.K.

(3)

,

2.2.2.10.Similarly calculate the SD value for L (longitude) coordinate.U.K.

2.2.2.11.Convert calculated coordinates and SD values of latitude and longitude determination from arc-seconds to meters according to formulas (4) – (5).U.K.

2.2.2.12.For latitude:U.K.

(4-1)	,
(4-2)	,

2.2.2.13.For longitude:U.K.

(5-1)	,
(5-2)	,

2.2.2.14.Calculate horizontal position error according to formula (6):U.K.

(6)

,

2.2.2.15.Repeat test procedures according to 2.2.2.3 – 2.2.2.14 for GNSS Galileo signals with simulation parameters, given in Table 2.U.K.

2.2.2.16.Repeat test procedures according to 2.2.2.3 – 2.2.2.14 only for GPS GNSS signals with simulation parameters, given in Table 2.U.K.

2.2.2.17.Repeat test procedures according to 2.2.2.3 – 2.2.2.16 with other eCall samples, provided for the test.U.K.

2.2.2.18.Determine average values according to (6) obtained for all tested eCall samples.U.K.

2.2.2.19.Tests results are considered satisfactory if horizontal position errors as defined by formula (6) obtained with all eCall samples do not exceed 15 metres under open sky conditions at confidence level 0,95 probability for all simulation scripts.U.K.

2.2.3.Assessment of positioning accuracy in autonomous dynamic mode.U.K.

2.2.3.1.Repeat test procedures described in section 2.2.2, but 2.2.2.15 – 2.2.2.16 with simulation script for manoeuvring movement, given in Table 3.U.K.

2.2.3.2.Determine average values according to (6) obtained for all tested eCall samples.U.K.

2.2.3.3.Tests results are considered satisfactory if horizontal position errors obtained with all eCall samples do not exceed 15 metres under open sky conditions at confidence level 0,95 probability.U.K.

2.2.4.Movement in shadow areas, areas of intermittent reception of navigation signals and urban canyons.U.K.

2.2.4.1.Repeat test procedures described in section 2.2.3 for simulation script for movement in shadow areas and areas of intermittent reception of navigation signals (given in Table 4) with an urban canyon signal pattern described in Figure 3.U.K.

Figure 3

Urban canyon definition

Zone	Elevation range (degrees)	Azimuth range (degrees)
A	0 – 5	0 – 360
B	5 – 30	210 – 330
C	5 – 30	30 – 150
Background	Area out of Zone A, B, C

2.2.4.2.Urban canyon plot- Attenuation:U.K.

2.2.4.3.Tests results are considered satisfactory if horizontal position errors obtained with all eCall samples do not exceed 40 metres in urban canyon conditions at confidence level 0,95 probability.U.K.

2.2.5.Cold start time to first fix test.U.K.

2.2.5.1.Prepare and turn on the eCall. By means of developer software, make sure that GNSS module is set to receive Galileo and GPS signals.U.K.

2.2.5.2.Delete all position, velocity, time, almanac and ephemeris data from the GNSS receiver.U.K.

2.2.5.3.Set up the simulator according to the simulator user guide. Initialize simulator script with the parameters, given in Table 2 for Galileo and GPS signals with signal level minus 130 dBm.U.K.

2.2.5.4.By means of a stopwatch, measure time interval between signal simulation start and the first navigation solution result.U.K.

2.2.5.5.Conduct test procedures according to 2.2.5.2 – 2.2.5.4 at least 10 times.U.K.

2.2.5.6.Calculate average time to first fix in cold start mode based on measurements for all eCall samples, provided for the test.U.K.

2.2.5.7.The test result is considered to be positive, if average values of time to first fix calculated as described in 2.2.5.6, do not exceed 60 seconds for signal level down to minus 130 dBm for all the simulated signals.U.K.

2.2.5.8.Repeat test procedure according to 2.2.5.1 – 2.2.5.5 with signal level minus 140 dBm.U.K.

2.2.5.9.The test result according to 2.2.5.8 is considered to be positive, if average values of time to first fix, calculated as described in 2.2.5.6 do not exceed 300 seconds for signal level down to minus 140 dBm for all the simulated signals.U.K.

2.2.6.Test of re-acquisition time of tracking signals after block out of 60 seconds.U.K.

2.2.6.1.Prepare and turn on the eCall according to operational manual. By means of the developer software, make sure that GNSS receiver is set up to receive Galileo and GPS signals.U.K.

2.2.6.2.Set up the simulator according to the simulator user guide. Initialize simulator script with the parameters, given in Table 2 for Galileo and GPS signals with signal level minus 130 dBm.U.K.

2.2.6.3.Wait for 15 minutes and make sure the GNSS receiver has calculated eCall position.U.K.

2.2.6.4.Disconnect the GNSS antenna cable from the eCall and connect it again after time interval of 60 seconds. By means of stopwatch, determine time interval between cable connection moment and restoration of satellites tracking and calculation of the navigation solution.U.K.

2.2.6.5.Repeat test procedure according to 2.2.6.4 at least 10 times.U.K.

2.2.6.6.Calculate average value of re-acquisition time of satellite tracking signals by the eCall for all performed measurements and all eCall samples provided for the test.U.K.

2.2.6.7.The test result is considered to be positive, if average values of re-acquisition time after block out of 60 seconds measured as described in 2.2.6.6, do not exceed 20 seconds.U.K.

2.2.7.Test of GNSS receiver sensitivity in cold start mode, tracking mode, and re-acquisition scenario.U.K.

2.2.7.1.Turn on the vector network analyser. Calibrate the vector network analyser according to its operational manual.U.K.

2.2.7.2.Set up the diagram according to Figure 4.U.K.

Figure 4

Diagram of path calibration

2.2.7.3.Set zero signal path attenuation on attenuators. Measure the frequency response for a given signal path in the E1/L1 band of Galileo/GPS, respectively. Record the average path transmission factor in [dB] in this frequency band.U.K.

2.2.7.4.Assemble the circuit shown in Figure 5.U.K.

Figure 5

Arrangement for evaluation of GNSS module sensitivity

2.2.7.5.Prepare and turn on eCall according to operational manual. By means of developer software make sure that GNSS receiver is set to receive Galileo and GPS signals. Clear the GNSS receiver RAM such that the ‘cold’ start mode of the GNSS receiver of the eCall is achieved. Check that the position, velocity and time information is reset.U.K.

2.2.7.6.Prepare GNSS signals simulator according to its operation manual. Start Galileo and GPS signals simulation script, with parameters given in Table 2. Set output power level of the simulator to minus 144 dBm.U.K.

2.2.7.7.By means of a stopwatch, measure time interval between signal simulation start and the first navigation solution result.U.K.

2.2.7.8.Set the signal path attenuation on attenuators such that the signal on eCall antenna input is equal to minus 155 dBm.U.K.

2.2.7.9.By means of a stopwatch, verify that the eCall still provides navigation solution for at least 600 seconds.U.K.

2.2.7.10.Set the signal path attenuation on attenuators such that the signal on eCall antenna input is equal to minus 150 dBm.U.K.

2.2.7.11.Disconnect the GNSS antenna cable from the eCall and connect it again after time interval of 20 seconds.U.K.

2.2.7.12.By means of stopwatch, determine time interval between cable connection moment and restoration of satellites tracking and calculation of the navigation solution.U.K.

2.2.7.13.The test result is considered to be positive in case:U.K.

• the value of time to first fix in ‘cold’ start mode, as measured in 2.2.7.7, do not exceed 3 600 seconds at signal level on the antenna input of the eCall of minus 144 dBm in all the eCall samples;

• the GNSS navigation solution is available for at least 600 seconds at signal level on the antenna input of the eCall of minus 155 dBm as measured in 2.2.7.9 in all the eCall samples;

• and re-acquisition of GNSS signals and calculation of the navigation solution at signal level on the antenna input of the eCall of minus 150 dBm is possible and time interval measured in 2.2.7.12 does not exceed 60 seconds in all the eCall samples.

ANNEX VIIU.K.In-vehicle system self-test

1.RequirementsU.K.

1.1.The following requirements apply to vehicles with eCall in-vehicle system installed, STUs and (optionally for) components.U.K.

1.2.Performance requirementsU.K.

1.2.1.The eCall system shall carry out a self-test at each system power-up.U.K.

1.2.2.The self-test function shall monitor at least the technical items listed in the Table.U.K.

1.2.3.A warning in form of either a visual tell-tale or a warning message in a common space shall be provided in case a failure is detected by the self-test function.U.K.

1.2.3.1.It shall remain activated while the failure is present.U.K.

1.2.3.2.It may be cancelled temporarily, but shall be repeated whenever the ignition or vehicle master control switch is being activated.U.K.

1.3.Documentation requirementsU.K.

1.3.1.The manufacturer shall provide the type-approval authorities with documentation in accordance with the Table, which shall contain for each item the technical principle applied to monitor the item.U.K.

2.Test procedureU.K.

2.1.Self-test function verification testU.K.

2.1.1.The following test shall be performed on the vehicle with an eCall in-vehicle system installed in accordance with Article 4, on the STU in accordance with Article 6 or (optionally for) the component, that is made part of a complete system for the purpose of the test, in accordance with Article 5.U.K.

2.1.2.Simulate a malfunction of the eCall system by introducing a critical failure in one or more of the items monitored by the self-test function according to the technical documentation provided by the manufacturer. The item(s) shall be selected at the discretion of the type-approval authority.U.K.

2.1.3.Power the eCall system up (e.g. by switching the ignition ‘on’ or activating the vehicle's master control switch, as applicable) and verify that the malfunction indicator illuminates shortly afterwards.U.K.

2.1.4.Power the eCall system down (e.g. by switching the ignition ‘off’ or deactivating the vehicle's master control switch, as applicable) and restore it to normal operation.U.K.

2.1.5.Power the eCall system up and verify that the malfunction indicator does not illuminate or extinguishes shortly after illuminating initially.U.K.

3.Modification of type of 112-based eCall in-vehicle system or STUU.K.

3.1.When the manufacturer submits an application for revision or extension of an existing type-approval for the purpose of including an alternative GNSS antenna, electronic control unit, mobile network antenna and/or power source components, no retesting of 112-based eCall in-vehicle system components shall be required for the purpose of fulfilling the requirements of this Annex, provided that those type-approved components possess at least the same functional features and that they are indeed covered by this Annex in accordance with Article 5(3).U.K.

ANNEX VIIIU.K.Technical requirements and test procedures related to privacy and data protection

PART IU.K.Procedure for verifying the lack of traceability of an eCall in-vehicle system or STU

1.PurposeU.K.

1.1.This test procedure is to ensure that a 112-based eCall in-vehicle system or STU is not traceable and is not subject to any constant tracking in its normal operational status.U.K.

2.RequirementsU.K.

2.1.The 112-based eCall in-vehicle system or STU is not available for communication with the PSAP if the PSAP test point initiates the communication.U.K.

2.2.Failure to establish the connection can be attributed to the 112-based eCall in-vehicle system not being registered on the network.U.K.

3.Test procedureU.K.

3.1.The following tests shall be performed on a representative arrangement of parts (without a vehicle body).U.K.

3.2.This test shall be performed after successful connection of the eCall IVS with the network and registration of the device so as to facilitate transmission of the MSD.U.K.

3.2.1.The initial emergency call must have been ‘cleared down’ and deregistered from the network prior to this test (e.g. hang up), otherwise the PSAP test point will be enabled to connect.U.K.

3.2.2.Before performing the test, ensure that:U.K.

3.2.3.Leave the 112-based eCall IVS powered.U.K.

3.2.4.Via the PSAP test point, attempt to connect to the 112-based eCall IVS.U.K.

4.AssessmentU.K.

4.1.The requirement is determined to have been passed if the 112-based eCall in-vehicle system is not available for communication with the PSAP when the PSAP test point attempts to connect.U.K.

4.2.The establishment of connection with the 112-based eCall IVS when the PSAP test point initiates the communication constitutes a failure.U.K.

PART IIU.K.Procedure for verifying the length of time an eCall log file is stored by the eCall in-vehicle system or STU

1.PurposeU.K.

1.1.This test procedure aims to ensure that personal data processed pursuant to Regulation (EU) 2015/758 is not retained by the eCall in-vehicle system longer than necessary for the purpose of handling the emergency situation and is fully deleted as soon as no longer necessary for that purpose.U.K.

1.2.This is to demonstrate the automatic deletion by proving that eCall log files are not kept beyond 13 hours from the point of initiating an eCall.U.K.

2.RequirementsU.K.

2.1.When interrogated, the eCall in-vehicle system or STU shall not maintain any record of an eCall in its memory beyond 13 hours from the point of initiating an eCall.U.K.

3.Test conditionsU.K.

3.1.The Technical Service shall be facilitated to have access to the part of the system where the eCall log files are stored in the IVS.U.K.

3.2.The following test shall be performed on a representative arrangement of parts.U.K.

4.Test MethodU.K.

4.1.The tests as described in point 2.7 of Annex I shall be carried out. They require that a test call is placed in order for functionality checks to be made.U.K.

4.2.13 hours after a test call has been placed, the Technical Service tester shall be facilitated with access to where the eCall log files are stored in the IVS. This will involve the potential to download from the IVS any log files so that they can be viewed by the tester.U.K.

5.AssessmentU.K.

5.1.The requirement is determined to have been passed if no log files are present in the eCall in-vehicle system memory.U.K.

5.2.The presence of a log file pertaining to an eCall that has occurred more than 13 hours ago constitutes a failure.U.K.

PART IIIU.K.Procedure for verifying the automatic and continuous removal of data in the internal memory of an eCall in-vehicle system or STU

1.PurposeU.K.

1.1.This test procedure aims to ensure that personal data is only used for the purpose of handling the emergency situation and is automatically and continuously removed from the internal memory of the eCall in-vehicle system or STU.U.K.

1.2.This is to be proved by demonstrating that in the internal memory of the 112 based eCall in-vehicle system or STU, maximum of last three locations of the vehicle are retained.U.K.

2.RequirementsU.K.

2.1.When interrogated, the eCall in-vehicle system or STU shall not maintain more than three recent locations of the vehicle.U.K.

3.Test conditionsU.K.

3.1.The Technical Service shall be facilitated to have access to the part of the system where the vehicle location data are stored in the IVS internal memory.U.K.

3.2.The following test shall be performed on a representative arrangement of parts.U.K.

4.Test MethodU.K.

4.1.The Technical Service tester shall be facilitated with access to where the vehicle location data are stored in the IVS internal memory. This will involve the potential to download from the IVS any stored locations so that they can be viewed by the tester.U.K.

5.AssessmentU.K.

5.1.The requirement is determined to have been passed if maximum of last three locations are present in the eCall in-vehicle system memory.U.K.

5.2.The presence of more than three locations constitutes a failure.U.K.

PART IVU.K.Procedure for verifying the non- exchange of personal data between an eCall in-vehicle system or STU and third party services systems

1.PurposeU.K.

1.1.This test procedure shall ensure that the 112-based eCall in-vehicle system or STU and any additional system functionality providing TPS eCall or an added-value service are designed in such a way that no exchange of personal data between them is possible at any time.U.K.

2.RequirementsU.K.

2.1.The following requirements apply to eCall in-vehicle systems or STUs that shall be used in conjunction with a TPS eCall in-vehicle system functionality.U.K.

2.2.Performance requirementsU.K.

2.2.1.There is no exchange of personal data between the 112-based eCall in-vehicle system or STU and any additional system functionality providing TPS eCall or an added-value service.U.K.

2.2.2.Following an eCall made via the 112-based eCall in-vehicle system or STU, no log of this eCall shall be recorded in the memory of the TPS eCall or added-value service system.U.K.

3.Test procedureU.K.

3.1.The following tests shall be performed either on a vehicle with an eCall in-vehicle system installed or on a representative arrangement of parts.U.K.

3.2.The TPS system shall be disabled for the duration of the test call.U.K.

3.2.1.Before performing the test call, ensure that:U.K.

3.2.2.Perform a test call by applying a manual trigger of the system (push mode) with the TPS disabled.U.K.

3.2.3.Verify that a call was established with the PSAP test point by a record of the PSAP test point showing that it received a call initiation signal or by a successful voice connection to the PSAP test point.U.K.

3.2.4.Clear down the test call using the appropriate PSAP test point command (e.g. hang up).U.K.

3.2.5.If the call attempt of the 112-based system fails during the test, the test procedure may be repeated.U.K.

3.3.The lack of a log file in the TPS system shall be verified via access to the part of the system where eCall log files are stored.U.K.

3.3.1.The Technical Service tester shall be facilitated with access to where the eCall log files are stored in the IVS. This will involve the potential to download from the IVS any log files so that they can be viewed by the tester.U.K.

3.3.2.The requirement is determined to have been passed if no log files are present in the TPS system in-vehicle system memory.U.K.

3.3.3.The presence of a log file in the TPS system pertaining to an eCall that has occurred via the 112-based system constitutes a failure.U.K.

3.4.Connection proceduresU.K.

The connection procedures defined in point 2.7 of Annex I to this Regulation shall apply.

ANNEX IXU.K.Classes of vehicles referred to in Article 2

Armoured vehicles of categories M₁ and N₁, as defined in point 5.2 of Part A of [F22Annex I to Regulation (EU) 2018/858], equipped with armoured security glazing class BR 7 according to the classification under European standard EN 1063:2000 (Test and Classification for Ballistic Security Glazing) and with body parts complying with European standard EN 1522:1999 (Bullet Resistance in Windows, Doors, Shutters and Blinds), where those vehicles, due to their special purpose, cannot meet the requirements of Regulation (EU) 2015/758 and of this Regulation.

[F23ANNEX XU.K.Procedure for the extension of GB type-approvals granted in accordance with this Regulation to 112-based eCall in-vehicle systems operating over circuit-switched mobile networks

1.This Annex applies for the purposes of extending GB type-approval of 112-based eCall in-vehicle systems.

2.A vehicle which meets the requirements in paragraph 3 is exempt from the requirement to comply with Article 5(1) so far as it relates to Annex II (full-scale impact assessment) and Annex III (crash-resistance of audio equipment).

3.The requirements referred to in paragraph 2 are as follows.

3.1. The extension of GB type-approval is for modifications made to a component of an eCall in-vehicle system which is designed to facilitate or enable hands-free voice communications between vehicle occupants and an operator.

3.2.The modifications to which the extension relates do not impact any other component of an eCall in-vehicle system.

4.Where an extension of GB type-approval is granted in accordance with this Annex, differences between the modified eCall in-vehicle system and the eCall in-vehicle system as originally type-approved must be documented and explained to the technical service and the appropriate authority.

5.Where a crash test is required for the purpose of extending the GB type-approval of a component of an eCall in-vehicle system other than a component which is designed to facilitate or enable hands-free voice communications between vehicle occupants and an operator, the technical service shall conduct a full-scale impact test assessment in accordance with Annex II and an audio equipment crash resistance assessment in accordance with Annex III.]