ДСТУ EN 62752:2019 Устройство контроля и защиты, встроенное в кабель для подзарядки электрических транспортных средств в режиме 2 (IC-CPD) (EN 62752:2016, IDT; IEC 62752:2016, IDT)

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ПІДТВЕРДЖУВАЛЬНЕ ПОВІДОМЛЕННЯ

Державне підприємство
«Український науково-дослідний і навчальний центр
проблем стандартизації, сертифікації та якості»
(ДП «УкрНДНЦ»)

Наказ від 20.12.2019 № 463

EN 62752:2016

In-cable control and protection device
for mode 2 charging of electric road vehicles (IC-CPD)

прийнято як національний стандарт
методом підтвердження за позначенням

ДСТУ EN 62752:2019
(EN 62752:2016, IDT; IEC 62752:2016, IDT)

Пристрій контролювання та захисту, убудований у кабель,
для заряджання електричних дорожніх
транспортних засобів у режимі 2 (IC-CPD)

З наданням чинності від 2020–01–01

Відповідає офіційному тексту

З питань придбання офіційного видання звертайтесь
до національного органу стандартизації
(ДП «УкрНДНЦ» http://uas.org.ua)

CONTENTS

FOREWORD

INTRODUCTION

1 Scope

2 Normative references

3 Terms and definitions

3.1 Terms and definitions relating to plugs and socket-outlets

3.2 Terms and definitions relating to terminals

3.3 Terms and definitions relating to residual current functions

3.4 Terms and definitions relating to tests

3.5 Terms and definitions relating to construction

4 Classification

4.1 According to the supply

4.2 According to the construction

4.3 According to the method of connecting the cable(s)

4.4 Classification according to the protective conductor path

4.5 Classification according to behaviour in case of open protective conductor

5 Characteristics of IC-CPDs

5.1 Summary of characteristics

5.2 Rated quantities and other characteristics

5.3 Standard and preferred values

6 Marking and other product information

6.1 Data to be marked on the IC-CPD

6.2 Information to be provided to the end-user

7 Standard conditions for operation in service and for installation

7.1 Standard conditions

7.2 Conditions for installations

8 Requirements for construction and operation

8.1 Mechanical design

8.2 Pluggable electrical connections of pluggable IC-CPDs according to 4.3.4

8.3 Construction

8.4 Electrical performance

8.5 Protection against electric shock

8.6 Dielectric properties

8.7 Temperature rise

8.8 Operating characteristics

8.9 Mechanical and electrical endurance

8.10 Performance at short-circuit currents

8.11 Resistance to mechanical shock and impact

8.12 Resistance to heat

8.13 Resistance to abnormal heat and to fire

8.14 Performance of the test function

8.15 Behaviour in case of loss of the supply voltage

8.16 Resistance of IC-CPDs against unwanted tripping due to surge currents to earth resulting from impulse voltages

8.17 Control pilot function controller

8.18 Reliability

8.19 Resistance to tracking

8.20 Electromagnetic compatibility (EMC)

8.21 Behaviour of the IC-CPD at low ambient air temperature

8.22 Operation with supply failure and hazardous live protective conductor conditions

8.23 Verification of a standing current in the protective conductor in normal service

8.24 Behaviour at specific environmental conditions

8.25 Resistance to vibration and shock

9 Tests

9.1 General

9.2 Test conditions

9.3 Test of indelibility of marking

9.4 Verification of protection against electric shock

9.5 Test of dielectric properties

9.6 Temperature-rise test

9.7 Verification of the operating characteristic

9.8 Verification of mechanical and electrical endurance

9.9 Verification of the behaviour of the IC-CPD under overcurrent conditions

9.10 Verification of resistance to mechanical shock and impact

9.11 Test of resistance to heat

9.12 Resistance of insulating material to abnormal heat and to fire

9.13 Verification of the self test

9.14 Verification of the behaviour of IC-CPDs in case of loss of the supply voltage

9.15 Verification of the limiting values of the non-operating current under overcurrent conditions

9.16 Verification of resistance against unwanted tripping due to surge currents to earth resulting from impulse voltages

9.17 Verification of reliability

9.18 Resistance to ageing

9.19 Resistance to tracking

9.20 Test on pins provided with insulating sleeves

9.21 Test of mechanical strength of non-solid pins of plugs

9.22 Verification of the effects of strain on the conductors

9.23 Checking of the torque exerted by IC-CPDs on fixed socket-outlets

9.24 Tests of the cord anchorage

9.25 Flexing test of non-rewirable IC-CPDs

9.26 Verification of the electromagnetic compatibility (EMC)

9.27 Tests replacing verifications of creepage distances and clearances

9.28 Verifications for single electronic components used in IC-CPDs

9.29 Chemical loads

9.30 Heat test under solar radiation

9.31 Resistance to ultra-violet (UV) radiation

9.32 Damp and salt mist test for marine and coastal environments

9.33 Hot damp test for tropical environments

9.34 Vehicle drive-over

9.35 Low storage temperature test

9.36 Vibration and shock test

Annex A (normative) Test sequences and number of samples to be submitted for verification of conformity to this standard

Annex B (normative) Routine tests

Annex C (normative) Determination of clearances and creepage distances

Annex D (informative) Switched-protective conductor application

Annex E (informative) Example of IC-CPD for mode 2 charging

Annex F (informative) Types of IC-CPD according to construction and assembly

Annex G (informative) Methods for determination of short-circuit power factor

Bibliography

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