Commission Implementing Regulation (EU) 2016/799Show full title

Results of manufacturer test performed during integration.

Paper demonstrations.

136, 137, 138*, 139*, 141*, 142, 143

144, 145, 146*, 147*, 148*, 149, 150

90, 134,

151 to 168,

PIC_001, DIS_001

90, 134,

169 to 181, PIC_001, PRT_001 to PRT_014

134, 182 to 191,

PIC_001

Verify functionality through:

• Test according to ISO 16750-4, Chapter 5.1.1.2: Low temperature operation test (72 h @ – 20 °C)

• This test refers to IEC 60068-2-1: Environmental testing - Part 2-1: Tests - Test A: Cold

• Test according to ISO 16750-4: Chapter 5.1.2.2: High temperature operation test (72 h at 70 °C)

• This test refers to IEC 60068-2-2: Basic environmental testing procedures; part 2: tests; tests B: dry heat

• Test according to ISO 16750-4: Chapter 5.3.2: Rapid change of temperature with specified transition duration (– 20 °C/70 °C, 20 cycles, dwell time 2h at each temperature)

  A reduced set of tests (among those defined in section 3 of this table) can be carried out at the lower temperature, the higher temperature and during the temperature cycles

The tests described above are performed on different samples of the equipment type being tested.

Verify that the vehicle unit can withstand a power supply of:

(ISO 16750-2)

Verify that the vehicle unit can withstand an inversion of its power supply

(ISO 16750-2)

Verify that input output signals are protected against short circuits to power supply and ground

(ISO 16750-2)

Compliance with ISO 10605:2008 +

Technical Corrigendum:2010 +

AMD1:2014: +/– 4 kV for contact and +/– 8 kV for air discharge

For 24V versions: compliance with ISO 7637-2 + ECE Regulation No. 10 Rev. 3:

• pulse 1a: Vs=450V Ri=50 ohms

• pulse 2a: Vs=+37V Ri=2 ohms

• pulse 2b: Vs=+20V Ri=0,05 ohms

• pulse 3a: Vs=– 150V Ri=50 ohms

• pulse 3b: Vs=+150V Ri=50 ohms

• pulse 4: Vs=– 16V Va=– 12V t6=100ms

• pulse 5: Vs=+120V Ri=2,2 ohms td=250ms

For 12V versions: compliance with ISO 7637– 1 + ECE Regulation No. 10 Rev. 3:

• pulse 1: Vs=– 75V Ri=10 ohms

• pulse 2a: Vs=+37V Ri=2 ohms

• pulse 2b: Vs=+10V Ri=0,05 ohms

• pulse 3a: Vs=– 112V Ri=50 ohms

• pulse 3b: Vs=+75V Ri=50 ohms

• pulse 4: Vs=– 6V Va=– 5V t6=15ms

• pulse 5: Vs=+65V Ri=3ohms td=100ms

• Pulse 5 shall be tested only for vehicle units designed to be installed in vehicles for which no external common protection against load dump is implemented

For load dump proposal, refer to ISO 16750-2, 4th edition, chapter 4.6.4.

Motion detection

Motion measurement accuracy

Verify functionality (as defined in test No 3.3) in temperature range [– 40°C; + 135°C] through:

• IEC 60068-2-1 test Ad, with a test duration of 96 hours at the lowest temperature To_min,

• IEC 60068-2-2 test Bd, with a test duration of 96 hours at the highest temperature To_max

• Test according to ISO 16750-4: Chapter 5.1.1.2: Low temperature operation test (24 h @ – 40 °C)

  This test refers to IEC 60068-2-1: Environmental testing — Part 2-1: Tests — Test A: Cold IEC 68-2-2 test Bd, with a test duration of 96 hours at the lowest temperature of – 40°C.

• Test according to ISO 16750-4: Chapter 5.1.2.2: High temperature operation test (96 h @ 135 °C)

  This test refers to IEC 60068-2-2: Basic environmental testing procedures; part 2: tests; tests B: dry heat

Test according to ISO 16750-4: Chapter 5.3.2: Rapid change of temperature with specified transition duration (– 40°C/135 °C, 20 cycles, dwell time 30 min at each temperature)

IEC 60068-2-14: Environmental testing; Part 2-14: Tests; Test N: Change of temperature

ISO 16750-3: Chapter 4.1.2.6: Test VI: Commercial vehicle, engine, gearbox

Mixed mode vibration test including

94 h per axis, including temperature cycle – 20…70°C)

This test refers to IEC 60068-2-80: Environmental testing — Part 2-80: Tests — Test Fi: Vibration — Mixed mode

ISO 16750-3: Chapter 4.2.3: Test VI: Test for devices in or on the gearbox

half-sinusoidal shock, acceleration to be agreed in the range 3 000…15 000 m/s², pulse duration to be agreed, however < 1 ms, number of shocks: to be agreed

This test refers to IEC 60068-2-27: Environmental testing. Part 2: Tests. Test Ea and guidance: Shock

Test according to ISO 20653: Road vehicles — Degree of protection (IP code) — Protection of electrical equipment against foreign objects, water and access

(Target value IP 64)

For 24V versions: compliance with ISO 7637-2 + ECE Regulation No. 10 Rev. 3:

• pulse 1a: Vs = – 450 V Ri = 50 ohms

• pulse 2a: Vs = + 37 V Ri = 2 ohms

• pulse 2b: Vs = + 20 V Ri = 0,05 ohms

• pulse 3a: Vs = – 150 V Ri = 50 ohms

• pulse 3b: Vs = + 150 V Ri = 50 ohms

• pulse 4: Vs= – 16 V Va = – 12 V t6 = 100ms

• pulse 5: Vs = + 120 V Ri = 2,2 ohms td = 250ms

For 12V versions: compliance with ISO 7637-1 + ECE Regulation No. 10 Rev. 3:

• pulse 1: Vs = – 75 V Ri = 10 ohms

• pulse 2a: Vs = + 37 V Ri = 2 ohms

• pulse 2b: Vs = + 10 V Ri = 0,05 ohms

• pulse 3a: Vs = – 112 V Ri = 50 ohms

• pulse 3b: Vs = + 75 V Ri = 50 ohms

• pulse 4: Vs= – 6 V Va=-5 V t6 = 15 ms

• pulse 5: Vs = + 65 V Ri = 3 ohms td = 100 ms

Pulse 5 shall be tested only for vehicle units designed to be installed in vehicles for which no external common protection against load dump is implemented

For load dump proposal, refer to ISO 16750-2, 4th edition, chapter 4.6.4

Make sure that all features for protection and visible data are correctly printed on the card and compliant.

[Designator]

Annex 1C, chapter 4.1 ‘Visible data’, 227)

The front page shall contain:

the words ‘Driver card’ or ‘Control card’ or ‘Workshop card’ or ‘Company card’ printed in capital letters in the official language or languages of the Member State issuing the card, according to the type of the card.

[Member State name]

Annex 1C, chapter 4.1 ‘Visible data’, 228)

The front page shall contain:

the name of the Member State issuing the card (optional).

[Sign]

Annex 1C, chapter 4.1 ‘Visible data’, 229)

The front page shall contain:

the distinguishing sign of the Member State issuing the card, printed in negative in a blue rectangle and encircled by 12 yellow stars.

[Enumeration]

Annex 1C, chapter 4.1 ‘Visible data’, 232)

The reverse page shall contain:

an explanation of the numbered items which appear on the front page of the card.

[Colour]

Annex 1C, chapter 4.1 ‘Visible data’, 234)

Tachograph cards shall be printed with the following background predominant colours:

• driver card: white,

• workshop card: red,

• control card: blue,

• company card: yellow.

[Security]

Annex 1C, chapter 4.1 ‘Visible data’, 235)

Tachograph cards shall bear at least the following features for protection of the card body against counterfeiting and tampering:

• a security design background with fine guilloche patterns and rainbow printing,

• at least one two-coloured microprint line.

[Markings]

Annex 1C, chapter 4.1 ‘Visible data’, 236)

Member States may add colours or markings, such as national symbols and security features.

[Approval mark]

Tachograph cards shall contain an approval mark.

The approval mark shall be made up of:

• a rectangle, within which shall be placed the letter ‘e’ followed by a distinguishing number or letter for the country which has issued the approval,

• an approval number corresponding to the number of the approval certificate for a tachograph card, placed at any point within the immediate proximity of this rectangle.

[Card size]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[5] Dimension of card,

[5.1] Card size,

[5.1.1] Card dimensions and tolererances,

card type ID-1 Unused card

[Card edges]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[5] Dimension of card,

[5.1] Card size,

[5.1.2] Card edges

[Card construction]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[6] Card construction

[Card materials]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[7] Card materials

[Bending stiffness]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[8] Card characteristics,

[8.1] Bending stiffness

[Toxicity]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[8] Card characteristics,

[8.3] Toxicity

[Resistance to chemicals]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[8] Card characteristics,

[8.4] Resistance to chemicals

[Card stability]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[8] Card characteristics,

[8.5] Card dimensional stability and warpage with temperature and humidity

[Light]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[8] Card characteristics,

[8.6] Light

[Durability]

Annex 1C, chapter 4.4 ‘Environmental and electrical specifications’, 241)

Tachograph cards shall be capable of operating correctly for a five-year period if used within the environmental and electrical specifications.

[Peel strength]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[8] Card characteristics,

[8.8] Peel strength

[Adhesion or blocking]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[8] Card characteristics,

[8.9] Adhesion or blocking

[Warpage]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[8] Card characteristics,

[8.11] Overall card warpage

[Resistance to heat]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[8] Card characteristics,

[8.12] Resistance to heat

[Surface distortions]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[8] Card characteristics,

[8.13] Surface distortions

[Contamination]

Tachograph cards must conform to standard

ISO/IEC 7810, Identification cards — Physical characteristics,

[8] Card characteristics,

[8.14] Contamination and interaction of card components

240, 243

ISO/IEC 7810

[Bending]

Tachograph cards must conform to standard

ISO/IEC 7810:2003/Amd. 1:2009, Identification cards — Physical characteristics, Amendment 1: Criteria for cards containing integrated circuits

[9.2] Dynamic bending stress

Total number of bending cycles: 4 000.

[Torsion]

Tachograph cards must conform to standard

ISO/IEC 7810:2003/Amd. 1:2009, Identification cards — Physical characteristics, Amendment 1: Criteria for cards containing integrated circuits

[9.3] Dynamic torsional stress

Total number of torsion cycles: 4 000.

Module is the chip encapsulation and the contact plate.

[Surface profile]

Tachograph cards must conform to standard

ISO/IEC 7816-1:2011, Identification cards — Integrated circuit cards — Part 1: Cards with contacts — Physical characteristics

[4.2] Surface profile of contacts

[Mechanical strength]

Tachograph cards must conform to standard

ISO/IEC 7816-1:2011, Identification cards — Integrated circuit cards — Part 1: Cards with contacts — Physical characteristics

[4.3] Mechanical strength (of a card and contacts)

[Electrical resistance]

Tachograph cards must conform to standard

ISO/IEC 7816-1:2011, Identification cards — Integrated circuit cards — Part 1: Cards with contacts — Physical characteristics

[4.4] Electrical resistance (of contacts)

[Dimension]

Tachograph cards must conform to standard

ISO/IEC 7816-2:2007, Identification cards — Integrated circuit cards — Part 2: Cards with contacts — Dimension and location of the contacts

[3] Dimension of the contacts

[Location]

Tachograph cards must conform to standard

ISO/IEC 7816-2:2007, Identification cards — Integrated circuit cards — Part 2: Cards with contacts — Dimension and location of the contacts

[4] Number and location of the contacts

In case of modules with six contacts, contact ‘C4’ and ‘C8’ are not part of this test requirement.

[Operating temperature]

The Tachograph card chip shall operate in an ambient temperature range between – 25 °C and + 85 °C.

[Temperature and humidity]

Annex 1C, chapter 4.4 ‘Environmental and electrical specifications’, 241)

Tachograph cards shall be capable of operating correctly in all the climatic conditions normally encountered in Community territory and at least in the temperature range – 25°C to + 70°C with occasional peaks of up to + 85°C, ‘occasional’ meaning not more than 4 hours each time and not over 100 times during the life time of the card.

The Tachograph cards are exposed in consecutive steps to the following temperatures and humidities for the given time. After each step the Tachograph cards are tested for electrical functionality.

[Humidity]

Annex 1C, chapter 4.4 ‘Environmental and electrical specifications’, 242)

Tachograph cards shall be capable of operating correctly in the humidity range 10 % to 90 %.

[Electromagnetic compatibility — EMC]

Annex 1C, chapter 4.4 ‘Environmental and electrical specifications’ 244)

During operation, Tachograph cards shall conform to ECE R10 related to electromagnetic compatibility.

[Static electricity]

Annex 1C, chapter 4.4 ‘Environmental and electrical specifications’, 244)

During operation, Tachograph cards shall be protected against electrostatic discharges.

Tachograph cards must conform to standard

ISO/IEC 7810:2003/Amd. 1:2009, Identification cards — Physical characteristics, Amendment 1: Criteria for cards containing integrated circuits

[9.4] Static electricity

[9.4.1] Contact IC cards

Test voltage: 4 000 V.

[X-rays]

Tachograph cards must conform to standard

ISO/IEC 7810:2003/Amd. 1:2009, Identification cards — Physical characteristics, Amendment 1: Criteria for cards containing integrated circuits

[9.1] X-rays

[Ultraviolet light]

ISO/IEC 10373-1:2006, Identification cards — Test methods — Part 1: General characteristics

[5.11] Ultraviolet light

[3-wheel]

Tachograph cards must conform to standard

ISO/IEC 10373-1:2006/Amd. 1:2012, Identification cards — Test methods — Part 1: General characteristics, Amendment 1

[5.22] ICC — Mechanical strength: 3 wheel test for ICCs with contacts

[Wrapping]

Tachograph cards must conform to standard

MasterCard CQM V2.03:2013

[11.1.3] R-L3-14-8: Wrapping Test Robustness

[13.2.1.32] TM-422: Mechanical Reliability: Wrapping Test

241 to 244

ECE R10

ISO/IEC 7810

ISO/IEC 10373

[Bending]

Tachograph cards must conform to standard

ISO/IEC 7810:2003/Amd. 1:2009, Identification cards — Physical characteristics, Amendment 1: Criteria for cards containing integrated circuits

[9.2] Dynamic bending stress

Total number of bending cycles: 4 000.

[Torsion]

Tachograph cards must conform to standard

ISO/IEC 7810:2003/Amd. 1:2009, Identification cards — Physical characteristics, Amendment 1: Criteria for cards containing integrated circuits

[9.3] Dynamic torsional stress

Total number of torsion cycles: 4 000.

ISO/IEC 7816-3

TCS_14, TCS_17, TCS_18

ISO/IEC 7816-3

TCS_11, TCS_12, TCS_13, TCS_15

ISO/IEC 7816-3

TCS_12, TCS_19, TCS_20, TCS_21

ISO/IEC 7816-3

TCS_11, TCS_13, TCS_16

TCS_22 to TCS_28

TCS_140 to TCS_179

Test at least once each allowed usage of each command (ex: test the UPDATE BINARY command with CLA = ‘00’, CLA = ‘0C’ and with different P1,P2 and Lc parameters)

Check that the operations have actually been performed in the card (ex: by reading the file the command has been performed on)

Test at least once each error message (as specified in Appendix 2) for each command

Test at least once every generic error (except ‘6400’ integrity errors checked during security certification)

Annex 1C, chapter 4.1 ‘Visible data’, 230)

The front page shall contain:

information specific to the card issued.

Annex 1C, chapter 4.1 ‘Visible data’, 231)

The front page shall contain:

dates using a ‘dd/mm/yyyy’ or ‘dd.mm.yyyy’ format (day, month, year).

Annex 1C, chapter 4.1 ‘Visible data’, 235)

Tachograph cards shall bear at least the following features for protection of the card body against counterfeiting and tampering:

• in the area of the photograph, the security design background and the photograph shall overlap.

Verify functionality through:

• Test according to ISO 16750-4, Chapter 5.1.1.2: Low temperature operation test (72 h @ – 20 °C)

  This test refers to IEC 60068-2-1: Environmental testing — Part 2-1: Tests — Test A: Cold

• Test according to ISO 16750-4: Chapter 5.1.2.2: High temperature operation test (72 h @ 70 °C)

  This test refers to IEC 60068-2-2: Basic environmental testing procedures; part 2: tests; tests B: dry heat

• Test according to ISO 16750-4: Chapter 5.3.2: Rapid change of temperature with specified transition duration (– 20 °C/70 °C, 20 cycles, dwell time 1 h at each temperature)

  A reduced set of tests (among those defined in section 3 of this table) can be carried out at the lower temperature, the higher temperature and during the temperature cycles

The tests described above are performed on different samples of the equipment type being tested.

Verify that the vehicle unit can withstand an inversion of its power supply

(ISO 16750-2, chapter 4.7)

Verify that input output signals are protected against short circuits to power supply and ground

(ISO 16750-2, chapter 4.10])

For 24V versions: compliance with ISO 7637-2 + ECE Regulation No. 10 Rev. 3:

• pulse 1a: Vs = – 450V Ri = 50 ohms

• pulse 2a: Vs= + 37V Ri = 2 ohms

• pulse 2b: Vs= + 20V Ri = 0,05 ohms

• pulse 3a: Vs= – 150V Ri = 50 ohms

• pulse 3b: Vs=+ 150V Ri = 50 ohms

• pulse 4: Vs = – 16 V Va = – 12V t6 = 100 ms

• pulse 5: Vs= + 120 V Ri = 2,2 ohms td = 250 ms

For 12V versions: compliance with ISO 7637-1 + ECE Regulation No. 10 Rev. 3:

• pulse 1: Vs= – 75V Ri=10 ohms

• pulse 2a: Vs= + 37V Ri=2 ohms

• pulse 2b: Vs= + 10V Ri=0,05 ohms

• pulse 3a: Vs= – 112V Ri=50 ohms

• pulse 3b: Vs= + 75V Ri=50 ohms

• pulse 4: Vs= – 6V Va=-5V t6=15ms

• pulse 5: Vs= + 65V Ri=3ohms td=100ms

Pulse 5 shall be tested only for vehicle units designed to be installed in vehicles for which no external common protection against load dump is implemented

For load dump proposal, refer to ISO 16750-2, 4th edition, chapter 4.6.4.

Verify functionality through:

• Test according to ISO 16750-4, Chapter 5.1.1.2: Low temperature operation test (72 h @ – 20 °C)

  This test refers to IEC 60068-2-1: Environmental testing - Part 2-1: Tests - Test A: Cold

• Test according to ISO 16750-4: Chapter 5.1.2.2: High temperature operation test (72 h @ 70 °C)

  This test refers to IEC 60068-2-2: Basic environmental testing procedures; part 2: tests; tests B: dry heat

• Test according to ISO 16750-4: Chapter 5.3.2: Rapid change of temperature with specified transition duration (– 20 °C/70 °C, 20 cycles, dwell time 1 h at each temperature)

  A reduced set of tests (among those defined in section 3 of this table) can be carried out at the lower temperature, the higher temperature and during the temperature cycles

For 24V versions: compliance with ISO 7637-2 + ECE Regulation No. 10 Rev. 3:

• pulse 1a: Vs=– 450V Ri=50 ohms

• pulse 2a: Vs=+37V Ri=2 ohms

• pulse 2b: Vs=+20V Ri=0,05 ohms

• pulse 3a: Vs=– 150V Ri=50 ohms

• pulse 3b: Vs=+150V Ri=50 ohms

• pulse 4: Vs=– 16V Va=-12V t6=100ms

• pulse 5: Vs=+120V Ri=2,2 ohms td=250ms

For 12V versions: compliance with ISO 7637-1 + ECE Regulation No. 10 Rev. 3:

• pulse 1: Vs=-75V Ri=10 ohms

• pulse 2a: Vs=+37V Ri=2 ohms

• pulse 2b: Vs=+10V Ri=0,05 ohms

• pulse 3a: Vs=– 112V Ri=50 ohms

• pulse 3b: Vs=+75V Ri=50 ohms

• pulse 4: Vs=– 6V Va=– 5V t6=15ms

• pulse 5: Vs=+65V Ri=3ohms td=100ms

• Pulse 5 shall be tested only for vehicle units designed to be installed in vehicles for which no external common protection against load dump is implemented

For load dump proposal, refer to ISO 16750-2, 4th edition, chapter 4.6.4.

Inspection of printouts

Demonstrated by test reports and test protocols by manufacturer.

All homologation number(s) of tachographs with which the printer paper may be used are imprinted on the paper.

Visual inspection: Field for signature of the driver is available.

Fields for additional other handwritten entries are available.

Paper's face and reverse side may feature additional details and information.

These additional details and information may not interfere with the legibility of the printouts.

Visual inspection.

Preconditioning: 16 hours at + 23 °C ± 2 °C/55 % ± 3 % relative humidity

Test environment: 72 hours at + 70 °C ± 2 °C

Recovery: 16 hours at + 23 °C ± 2 °C/55 % ± 3 % relative humidity

176, 178

IEC 60068-2-2-Bb

Preconditioning: 16 hours at + 23 °C ± 2 °C/55 % ±3 % relative humidity

Test environment: 144 hours at + 55 °C ± 2 °C and 93 % ± 3 % r.h.

Recovery: 16 hours at + 23 °C ± 2 °C/55 % ± 3 % relative humidity

176, 178

IEC 60068-2-78-Cab

Preconditioning: 16 hours at + 23 °C ± 2 °C/55 % ±3 % relative humidity

Test environment: 144 hours at + 55 °C ± 2 °C and 93 % ± 3 % r.h.

Recovery: 16 hours at + 23 °C ± 2 °C/55 % ± 3 % relative humidity

176, 178

IEC 60068-2-78-Cab

Preconditioning: 24 hours at + 40 °C ± 2 °C/93 % ± 3 % relative humidity

Test environment: printout produced at + 23 °C ± 2 °C

Recovery: 16 hours at + 23 °C ± 2 °C/55 % ± 3 % relative humidity

Preconditioning: 16 hours at + 23 °C ± 2 °C/55 % ± 3 % relative humidity

Test environment: 2 hours at + 70 °C ± 2 °C, dry heat

Recovery: 16 hours at + 23 °C ± 2 °C/55 % ± 3 % relative humidity

176, 178

IEC 60068-2-2-Bb

Preconditioning: 16 hours at + 23 °C ± 2 °C/55 % ± 3 % relative humidity

Test environment: 24 hours – 20 °C ± 3 °C, dry cold

Recovery: 16 hours at + 23 °C ± 2 °C/55 % ± 3 % relative humidity

176, 178

ISO 60068-2-1-Ab

Preconditioning: 16 hours at + 23 °C ± 2 °C/55 % ± 3 % relative humidity

Test environment: 100 hours under 5 000 Lux illumination at + 23 °C ± 2 °C/55 % ± 3 % relative humidity

Recovery: 16 hours at + 23 °C ± 2 °C/55 % ± 3 % relative humidity

Execute a typical activity scenario on the vehicle unit. The scenario shall be adapted to the type of card being tested and involve writings in as many EFs as possible in the card

Verify through a vehicle unit downloading that all corresponding recordings have been properly made

Verify through a card downloading that all corresponding recordings have been properly made

Verify through daily printouts that all corresponding recordings can be properly read

Execute a typical activity scenario on the motion sensor. The scenario shall involve a normal activity and creating as many events or faults as possible.

Verify through a vehicle unit downloading that all corresponding recordings have been properly made

Verify through a card downloading that all corresponding recordings have been properly made

Verify through a daily printout that all corresponding recordings can be properly read

Execute a typical activity scenario on the external GNSS facility. The scenario shall involve a normal activity and creating as many events or faults as possible.

Verify through a vehicle unit downloading that all corresponding recordings have been properly made

Verify through a card downloading that all corresponding recordings have been properly made

Verify through a daily printout that all corresponding recordings can be properly read]