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SIST EN 60071-5:2015

(Main)

Insulation co-ordination - Part 5: Procedures for high-voltage direct current (HVDC) converter stations

Insulation co-ordination - Part 5: Procedures for high-voltage direct current (HVDC) converter stations

Provides guidance on the procedures for insulation co-ordination of high-voltage direct current (HVDC) converter stations, without prescribing standardized insulation levels. Applies only for HVDC applications in high-voltage a.c. power systems and not for industrial conversion equipment. Principles and guidance given are for insulation co-ordination purposes only. The requirements for human safety are not covered.

Isolationskoordination - Teil 5: Verfahren für Hochspannungs-Gleichstrom-Stromrichterstationen (HGÜ-Stromrichterstationen)

Coordination de l’isolement - Partie 5: Procédures pour les stations de conversion à courant continu haute tension (CCHT)

L'IEC 60071-5:2014 donne des lignes directrices sur les procédures pour la coordination de l'isolement des stations de conversion à courant continu haute tension (CCHT), sans imposer de niveaux d'isolement normalisés. La présente norme s'applique seulement aux applications CCHT dans des systèmes de puissance alternative à haute tension et pas aux matériels de conversion industriels. Les principes et les lignes directrices donnés sont destinés aux seules fins de la coordination de l'isolement. Les exigences concernant la sécurité des personnes ne sont pas couvertes par la présente norme.
La présente Norme internationale annule et remplace l'IEC TS 60071-5 parue en 2002. Suite à l'expérience technique acquise depuis la parution de la spécification technique, un consensus suffisant a émergé concernant la transformation de la Spécification technique en Norme internationale. Le contenu technique est essentiellement le même que celui de la Spécification technique avec des amendements principalement apportés pour la commodité de l'utilisateur. La structure du document a été modifiée pour permettre la division et la subdivision en des parties intégrantes complètes pour faciliter la compréhension et le référencement. Outre les révisions de haut niveau ci-dessus, les modifications techniques majeures suivantes ont été apportées par rapport à l'édition précédente:
- des parafoudres ont été ajoutés à plusieurs emplacements pour refléter une certaine pratique récente du schéma CCHT (courant continu à haute tension) de 800 kV, accompagnés de leur justification, des tensions attendues, des surtensions et des contraintes relatives aux parafoudres en service;
- des modifications majeures ont été apportées à l'Article 8 - tous les paragraphes relatifs aux caractéristiques, aux schémas, aux contraintes et aux spécifications des parafoudres ont été consolidés en une seule entité, l'Article 8;
- les implications d'une bobine d'inductance de lissage et d'un filtre de blocage neutre placé sur une barre de neutre (comme dans certains schémas récents de 800 kV), sur la coordination des parafoudres raccordés à l'extrémité neutre ont été ajoutées;
- l'utilisation possible de parafoudres sacrificiels sur la barre de neutre est introduite pour pourvoir à une énergie excessive des parafoudres dans l'éventualité plutôt peu probable d'un défaut rare particulier;
- tous les paragraphes traitant d'outils d'étude et de détails de modélisation ont été consolidés à l'Article 10;
- les lignes de fuite et les distances d'isolement dans l'air ont été respectivement consolidées à l'Article 11 et à l'Article 12, avec plus de détails ajoutés.

Koordinacija izolacije - 5. del: Postopki za visokonapetostne enosmerne presmerniške postaje

Standard zagotavlja smernice za postopke za koordinacijo izolacije visokonapetostnih enosmernih presmerniških postaj (HDVC), brez določanja standardiziranih izolacijskih ravni. Velja samo za uporabe HDVC v visokonapetostnih sistemih z izmenično napetostjo in ne za industrijsko pretvorno opremo. Podana načela in smernice so namenjeni samo koordinaciji izolacije. Zahteve za varnost ljudi niso obravnavane.

General Information

Status
Published
Publication Date
13-Aug-2015
ICS
29.080.01 - Electrical insulation in general
Technical Committee
IIZS - Insulating materials and systems
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
11-Feb-2015
Due Date
18-Apr-2015
Completion Date
14-Aug-2015
Ref Project
EN 60071-5:2015 - Insulation co-ordination - Part 5: Procedures for high-voltage direct current (HVDC) converter stations

Relations

Replaced By
SIST EN IEC 60071-11:2023 - Insulation co-ordination - Part 11:Definitions, principles and rules for HVDC system
Effective Date
01-Nov-2022
Replaced By
SIST EN IEC 60071-12:2023 - Insulation co-ordination - Part 12: Application guidelines for LCC HVDC converter stations
Effective Date
01-Nov-2022

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Standards Content (Sample)

SLOVENSKI STANDARD
SIST EN 60071-5:2015
01-september-2015
Koordinacija izolacije - 5. del: Postopki za visokonapetostne enosmerne
presmerniške postaje
Insulation co-ordination - Part 5: Procedures for high-voltage direct current (HVDC)
converter stations
Isolationskoordination - Teil 5: Verfahren für Hochspannungs-Gleichstrom-
Stromrichterstationen (HGÜ-Stromrichterstationen)
Coordination de l’isolement - Partie 5: Procédures pour les stations de conversion à
courant continu haute tension (CCHT)
Ta slovenski standard je istoveten z: EN 60071-5:2015
ICS:
29.080.01 (OHNWULþQDL]RODFLMDQD Electrical insulation in
VSORãQR general
SIST EN 60071-5:2015 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 60071-5:2015

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SIST EN 60071-5:2015


EUROPEAN STANDARD EN 60071-5

NORME EUROPÉENNE

EUROPÄISCHE NORM
January 2015
ICS 29.080.30

English Version
Insulation co-ordination -
Part 5: Procedures for high-voltage direct current (HVDC)
converter stations
(IEC 60071-5:2014)
Coordination de l'isolement -  Isolationskoordination -
Partie 5: Procédures pour les stations de conversion à Teil 5: Verfahren für Hochspannungs-Gleichstrom-
courant continu haute tension (CCHT) Stromrichterstationen (HGÜ-Stromrichterstationen)
(IEC 60071-5:2014) (IEC 60071-5:2014)
This European Standard was approved by CENELEC on 2014-11-28. CENELEC members are bound to comply with the CEN/CENELEC
Internal Regulations which stipulate the conditions for giving this European Standard the status of a national standard without any alteration.
Up-to-date lists and bibliographical references concerning such national standards may be obtained on application to the CEN-CENELEC
Management Centre or to any CENELEC member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by translation
under the responsibility of a CENELEC member into its own language and notified to the CEN-CENELEC Management Centre has the
same status as the official versions.
CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, Cyprus, the Czech Republic,
Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia,
Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland,
Turkey and the United Kingdom.


European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung
CEN-CENELEC Management Centre: Avenue Marnix 17, B-1000 Brussels
© 2015 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
 Ref. No. EN 60071-5:2015 E

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SIST EN 60071-5:2015
EN 60071-5:2015 - 2 -
Foreword
The text of document 28/218/FDIS, future edition 1 of IEC 60071-5, prepared by IEC/TC 28 "Insulation
co-ordination" was submitted to the IEC-CENELEC parallel vote and approved by CENELEC as
EN 60071-5:2015.

The following dates are fixed:
(dop) 2015-08-28
• latest date by which the document has to be
implemented at national level by
publication of an identical national
standard or by endorsement
• latest date by which the national (dow) 2017-11-28
standards conflicting with the
document have to be withdrawn

Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CENELEC [and/or CEN] shall not be held responsible for identifying any or all such
patent rights.

Endorsement notice
The text of the International Standard IEC 60071-5:2014 was approved by CENELEC as a European
Standard without any modification.
In the official version, for Bibliography, the following notes have to be added for the standards indicated:

1)
IEC 60099-5:1996 NOTE Harmonized as EN 60099-5:1996 (modified).
IEC 60505:2011 NOTE Harmonized as EN 60505:2011 (not modified).
IEC 60721-3-0:1984 NOTE Harmonized as EN 60721-3-0:1993 (not modified).
IEC/TR 60919-2:2008 NOTE Harmonized as CLC/TR 60919-2:2010 (not modified).
IEC 60700-1:1998 NOTE Harmonized as EN 60700-1:1998 (not modified).
IEC 60700-1:1998/A1:2003 NOTE Harmonized as EN 60700-1:1998/A1:2003 (not modified).
IEC 60700-1:1998/A2:2008 NOTE Harmonized as EN 60700-1:1998/A2:2008 (not modified).

1)
Superseded by EN 60099-5:2013 (IEC 60099-5:2013) - DOW = 2016-06-26.

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SIST EN 60071-5:2015
- 3 - EN 60071-5:2015
Annex ZA
(normative)

Normative references to international publications
with their corresponding European publications

The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any amendments) applies.

NOTE 1 When an International Publication has been modified by common modifications, indicated by (mod), the relevant
EN/HD applies.

NOTE 2 Up-to-date information on the latest versions of the European Standards listed in this annex is available here:
www.cenelec.eu

Publication Year Title EN/HD Year

IEC 60060-1 -  High-voltage test techniques - EN 60060-1 -
Part 1: General definitions and test
requirements
IEC 60071-1 2006 Insulation co-ordination - EN 60071-1 2006
Part 1: Definitions, principles and rules
IEC 60071-2 1996 Insulation co-ordination - EN 60071-2 1997
Part 2: Application guide
IEC 60099-4 (mod) 2004 Surge arresters - EN 60099-4 2004
Part 4: Metal-oxide surge arresters
without gaps for a.c. systems
IEC 60633 -  Terminology for high-voltage EN 60633 -
direct current (HVDC) transmission
IEC/TS 60815-1 2008 Selection and dimensioning
of high-voltage insulators intended
for use in polluted conditions -
Part 1: Definitions, information and general
principles
IEC/TS 60815-2 2008 Selection and dimensioning of high-voltage - -
insulators intended for use in polluted
conditions -
Part 2: Ceramic and glass insulators for
a.c. systems
IEC/TS 60815-3 2008 Selection and dimensioning of high-voltage - -
insulators intended for use in polluted
conditions -
Part 3: Polymer insulators for a.c. systems

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SIST EN 60071-5:2015

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SIST EN 60071-5:2015




IEC 60071-5

®


Edition 1.0 2014-10




INTERNATIONAL



STANDARD




NORME



INTERNATIONALE
colour

inside










Insulation co-ordination –

Part 5: Procedures for high-voltage direct current (HVDC) converter stations




Coordination de l’isolement –

Partie 5: Procédures pour les stations de conversion à courant continu haute

tension (CCHT)















INTERNATIONAL

ELECTROTECHNICAL

COMMISSION


COMMISSION

ELECTROTECHNIQUE

PRICE CODE
INTERNATIONALE

CODE PRIX XD


ICS 29.080.30 ISBN 978-2-8322-1887-7



Warning! Make sure that you obtained this publication from an authorized distributor.

Attention! Veuillez vous assurer que vous avez obtenu cette publication via un distributeur agréé.

® Registered trademark of the International Electrotechnical Commission
Marque déposée de la Commission Electrotechnique Internationale

---------------------- Page: 7 ----------------------

SIST EN 60071-5:2015
– 2 – IEC 60071-5:2014 © IEC 2014

CONTENTS
FOREWORD . 6
INTRODUCTION . 8
1 General . 9
1.1 Scope . 9
1.2 Additional background . 9
2 Normative references . 10
3 Terms and definitions. 10
4 Symbols and abbreviations . 16
4.1 General . 16
4.2 Subscripts . 16
4.3 Letter symbols . 16
4.4 Abbreviations . 17
5 Typical HVDC converter station schemes . 17
6 Principles of insulation co-ordination . 21
6.1 General . 21
6.2 Essential differences between a.c. and d.c. systems . 21
6.3 Insulation co-ordination procedure . 21
6.4 Comparison of withstand voltage selection in a.c. and d.c. systems . 22
7 Voltages and overvoltages in service . 24
7.1 Continuous operating voltages at various locations in the converter station . 24
7.2 Peak continuous operating voltage (PCOV) and crest continuous operating
voltage (CCOV) . 28
7.3 Sources and types of overvoltages . 30
7.4 Temporary overvoltages . 31
7.4.1 General . 31
7.4.2 Temporary overvoltages on the a.c. side . 31
7.4.3 Temporary overvoltages on the d.c. side . 31
7.5 Slow-front overvoltages . 31
7.5.1 General . 31
7.5.2 Slow-front overvoltages on the a.c. side . 31
7.5.3 Slow-front overvoltages on the d.c. side . 32
7.6 Fast-front, very-fast-front and steep-front overvoltages . 33
8 Arrester characteristics and stresses. 34
8.1 Arrester characteristics . 34
8.2 Arrester specification. 35
8.3 Arrester stresses . 35
8.3.1 General . 35
8.3.2 AC bus arrester (A) . 36
8.3.3 AC filter arrester (FA) . 37
8.3.4 Transformer valve winding arresters (T) . 37
8.3.5 Valve arrester (V) . 37
8.3.6 Bridge arrester (B) . 40
8.3.7 Converter unit arrester (C) . 41
8.3.8 Mid-point d.c. bus arrester (M) . 41
8.3.9 Converter unit d.c. bus arrester (CB) . 42
8.3.10 DC bus and d.c. line/cable arrester (DB and DL/DC) . 42

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SIST EN 60071-5:2015
IEC 60071-5:2014 © IEC 2014 – 3 –
8.3.11 Neutral bus arrester (E, EL, EM in Figure 3, EB, E1, EL, EM in Figure 1) . 42
8.3.12 DC reactor arrester (DR) . 43
8.3.13 DC filter arrester (FD) . 44
8.3.14 Earth electrode station arrester . 44
8.4 Protection strategy . 44
8.4.1 General . 44
8.4.2 Insulation directly protected by a single arrester . 44
8.4.3 Insulation protected by more than one arrester in series . 45
8.4.4 Valve side neutral point of transformers . 45
8.4.5 Insulation between phase conductors of the converter transformer . 45
8.4.6 Summary of protection strategy . 45
8.5 Summary of events and stresses . 47
9 Design procedure of insulation co-ordination . 49
9.1 General . 49
9.2 Arrester requirements. 49
9.3 Characteristics of insulation. 51
9.4 Representative overvoltages (U ) . 51
rp
9.5 Determination of the co-ordination withstand voltages (U ) . 52
cw
9.6 Determination of the required withstand voltages (U ) . 52
rw
9.7 Determination of the specified withstand voltage (U ) . 54
w
10 Study tools and system modelling . 54
10.1 General . 54
10.2 Study approach and tools . 54
10.3 System details . 55
10.3.1 Modelling and system representation . 55
10.3.2 AC network and a.c. side of the HVDC converter station . 57
10.3.3 DC overhead line/cable and earth electrode line details . 58
10.3.4 DC side of an HVDC converter station details . 58
11 Creepage distances . 59
11.1 General . 59
11.2 Base voltage for creepage distance . 59
11.3 Creepage distance for outdoor insulation under d.c. voltage . 59
11.4 Creepage distance for indoor insulation under d.c. or mixed voltage . 60
11.5 Creepage distance of a.c. insulators . 60
12 Clearances in air . 60
Annex A (informative) Example of insulation co-ordination for conventional HVDC
converters . 62
A.1 General . 62
A.2 Arrester protective scheme . 62
A.3 Arrester stresses, protection and insulation levels. 62
A.3.1 General . 62
A.3.2 Slow-front overvoltages transferred from the a.c. side . 63
A.3.3 Earth fault between valve and upper bridge transformer bushing . 63
A.4 Transformer valve side withstand voltages . 66
A.4.1 Phase-to-phase . 66
A.4.2 Upper bridge transformer phase-to-earth (star). 67
A.4.3 Lower bridge transformer phase-to-earth (delta) . 67
A.5 Air-insulated smoothing reactors withstand voltages . 67
A.5.1 Terminal-to-terminal slow-front overvoltages . 67

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SIST EN 60071-5:2015
– 4 – IEC 60071-5:2014 © IEC 2014

A.5.2 Terminal-to-earth . 68
A.6 Results . 68
Annex B (informative) Example of insulation co-ordination for capacitor commutated
converters (CCC) and controlled series capacitor converters (CSCC) . 72
B.1 General . 72
B.2 Arrester protective scheme . 72
B.3 Arrester stresses, protection and insulation levels. 72
B.3.1 General . 72
B.3.2 Transferred slow-front overvoltages from the a.c. side . 73
B.3.3 Earth fault between valve and upper bridge transformer bushing . 74
B.4 Transformer valve side withstand voltages . 77
B.4.1 Phase-to-phase . 77
B.4.2 Upper bridge transformer phase-to-earth (star). 77
B.4.3 Lower bridge transformer phase-to-earth (delta) . 77
B.5 Air-insulated smoothing reactors withstand voltages . 78
B.5.1 Slow-front terminal-to-terminal overvoltages . 78
B.5.2 Terminal-to-earth . 78
B.6 Results . 79
Annex C (informative) Considerations for insulation co-ordination of some special
converter configurations . 87
C.1 Procedure for insulation co-ordination of back-to-back type of HVDC links . 87
C.2 Procedure for insulation co-ordination of parallel valve groups . 87
C.2.1 General . 87
C.2.2 AC bus arrester (A) . 88
C.2.3 AC filter arrester (FA) . 88
C.2.4 Valve arrester (V) . 88
C.2.5 Bridge arrester (B) and converter unit arrester (C) . 88
C.2.6 Mid-point arrester (M) . 88
C.2.7 Converter unit d.c. bus arrester (CB) . 88
C.2.8 DC bus and d.c. line/cable arrester (DB and DL) . 89
C.2.9 Neutral bus arrester (E) . 89
C.2.10 DC reactor arrester (DR) . 89
C.2.11 DC filter arrester (FD) . 89
C.2.12 New converter stations with parallel valve groups . 89
C.3 Procedure for insulation co-ordination of upgrading existing systems with
series-connected valve groups . 89
C.3.1 General . 89
C.3.2 AC bus arrester (A) . 90
C.3.3 AC filter arrester (FA) . 90
C.3.4 Valve arrester (V) . 90
C.3.5 Bridge arrester (B) and converter unit arrester (C) . 90
C.3.6 Mid-point arrester (M) . 90
C.3.7 Converter unit d.c. bus arrester (CB), d.c. bus and d.c. line/cable
arrester (DB and DL) . 91
C.3.8 Neutral bus arrester (E) . 91
C.3.9 DC reactor arrester (DR) . 91
C.3.10 DC filter arrester (FD) . 91
C.4 Overvoltages in the a.c. network due to closely coupled HVDC links . 91
C.5 Effect of gas-insulated switchgear on insulation co-ordination of HVDC
converter stations . 92

---------------------- Page: 10 ----------------------

SIST EN 60071-5:2015
IEC 60071-5:2014 © IEC 2014 – 5 –
Annex D (informative) Typical arrester characteristics . 93
Bibliography . 94

Figure 1 – Possible arrester locations in a pole with two 12-pulse converters in series . 19
Figure 2 – Possible arrester locations for a back-to-back converter station . 20
Figure 3 – HVDC converter station with one 12-pulse converter bridge per pole . 25
Figure 4 – Continuous operating voltages at various locations (location identification
according to Figure 3) . 27
Figure 5 – Operating voltage of a valve arrester (V), rectifier operation . 29
Figure 6 – Operating voltage of a mid-point arrester (M), rectifier operation . 29
Figure 7 – Operating voltage of a converter bus arrester (CB), rectifier operation . 30
Figure 8 – One pole of an HVDC converter station . 57
Figure A.1 – AC and d.c. arresters . 69
Figure A.2 – Valve arrester stresses for slow-front overvoltages from a.c. side . 69
Figure A.3 – Arrester V2 stress for slow-front overvoltage from a.c. side . 70
Figure A.4 – Valve arrester stresses for earth fault between valve and upper bridge
transformer bushing . 70
Figure A.5 – Arrester V1 stress for earth fault between valve and upper bridge
transformer bushing . 71
Figure B.1 – AC and d.c. arresters for CCC and CSCC converters . 80
Figure B.2 – Valve arrester stresses for slow-front overvoltages from a.c. side . 81
Figure B.3 – Arrester V2 stress for slow-front overvoltage from a.c. side . 82
Figure B.4 – Valve arrester stresses for earth fault between valve and upper bridge
transformer bushing . 84
Figure B.5 – Arrester V1 stress for earth fault between valve and upper bridge
transformer bushing . 85
Figure B.6 – Stresses on capacitor arresters C and C during earth fault between
cc sc
valve and upper bridge transformer bushing . 86
Figure C.1 – Expanded HVDC converter with parallel valve groups . 88
Figure C.2 – Upgraded HVDC converter with series valve group . 90
Figure D.1 – Typical arrester V-I characteristics . 93

Table 1 – Classes and shapes of overvoltages, standard voltage shapes and standard
withstand voltage tests . 11
Table 2 – Symbol description. 20
Table 3 – Comparison of the selection of withstand voltages for a.c. equipment with
that for HVDC converter station equipment . 23
Table 4 – Arrester protection on the d.c. side: Single 12-pulse converter (Figure 3) . 46
Table 5 – Arrester protection on the d.c. side: Two 12-pulse converters (Figure 1) . 46
Table 6 – Events stressing arresters: Single 12-pulse converter (Figure 3). 48
Table 7 – Types of arrester stresses for different events: Single 12-pulse converter
(Figure 3) . 48
Table 8 – Arrester requirements . 50
Table 9 – Representative overvoltages and required withstand voltages. 51
Table 10 – Indicative values of ratios of required impulse withstand voltage to impulse

protective level . 54
Table 11 – Origin of overvoltages and associated frequency ranges. 56

---------------------- Page: 11 ----------------------

SIST EN 60071-5:2015
– 6 – IEC 60071-5:
...

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Insulation co-ordination - Part 11:Definitions, principles and rules for HVDC system
EN IEC 60071-11:2022

IEC 60071-11:2022 applies to high-voltage direct current (HVDC) systems. It specifies the principles on the procedures for the determination of the specified withstand voltages, creepage distance and air clearances for the equipment and the installations of these systems.
This document gives the insulation co-ordination principles related to line commutated converter (LCC) and voltage sourced converters (VSC) HVDC systems. The main principles of this document also apply to other special converter configurations of LCC, such as the capacitor commutated converter (CCC) as well as the controlled series compensated converter (CSCC), etc.
This document applies to insulation co-ordination of equipment connected between the converter AC bus (including the AC harmonic filters, the converter transformer, the circuit breakers) and the DC line side. The line and cable terminations in so far as they influence the insulation co-ordination of converter station equipment are also covered.
This document applies only for HVDC applications in power systems and not for industrial conversion equipment. Principles and guidance given are for insulation co-ordination purposes only. The requirements for human safety are not covered by this document.
This international standard replaces, in conjunction with IEC 60071-12, IEC 60071-5 published in 2014.
This edition includes the following significant technical changes with respect to IEC 60071‑5:2014:


       
  1. This standard applies to both LCC and VSC HVDC systems whereas IEC 60071-5 only dealt with LCC HVDC system;

    2.    
  2. Annex C (normative) gives the recommended specified withstand voltage (LI and SI);

    3.    
  3. Annex C (normative) gives the minimum air clearances;

    4.    
  4. Annex E shows the correlation of clauses between this standard and IEC 60071-5:2014.

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SIST
SIST EN IEC 61557-12:2022/A1:2022/AC:2022(Corrigendum)
Electrical safety in low voltage distribution systems up to 1 000 V AC and 1 500 V DC - Equipment for testing, measuring or monitoring of protective measures - Part 12: Power metering and monitoring devices (PMD) (IEC 61557-12:2018/A1:2021/COR1:2022)
EN IEC 61557-12:2022/A1:2022/AC:2022-09

IEC Corrected Version

  • Corrigendum
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SIST
SIST EN IEC 61557-12:2022/AC:2022(Corrigendum)
Electrical safety in low voltage distribution systems up to 1 000 V AC and 1 500 V DC - Equipment for testing, measuring or monitoring of protective measures - Part 12: Power metering and monitoring devices (PMD) (IEC 61557-12:2018/COR1:2022)
EN IEC 61557-12:2022/AC:2022-09

IEC Corrected Version

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SIST EN IEC 61557-3:2022(Main)
Electrical safety in low voltage distribution systems up to 1 000 V AC and 1 500 V DC - Equipment for testing, measuring or monitoring of protective measures - Part 3: Loop impedance (IEC 61557-3:2019)
EN IEC 61557-3:2022

This part of IEC 61557 specifies the requirements applicable to equipment for measuring the
loop impedance between a line conductor and protective conductor; between a line conductor
and neutral; or between two line conductors by using the voltage drop when the circuit under
test is loaded.

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SIST
SIST EN IEC 61557-11:2022(Main)
Electrical safety in low voltage distribution systems up to 1 000 V AC and 1 500 V DC - Equipment for testing, measuring or monitoring of protective measures - Part 11: Effectiveness of residual current monitors (RCM) in TT, TN and IT systems (IEC 61557-11:2020)
EN IEC 61557-11:2022

IEC 61557-11:2009 specifies the requirements for testing equipment applied to the testing of the effectiveness of residual current monitors (RCMs) of type A and type B, which are already installed in distribution systems. This test equipment can be used in any kind of network like a TN, TT or IT system. The test equipment may also be used for testing directionally discriminating RCMs in IT-Systems.This part is to be used in conjunction with IEC 61557-1:2007, Part 1: General requirements.

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SIST
SIST EN IEC 61557-7:2022(Main)
Electrical safety in low voltage distribution systems up to 1 000 V a.c. and 1 500 V d.c. - Equipment for testing, measuring or monitoring of protective measures - Part 7: Phase sequence (IEC 61557-7:2019)
EN IEC 61557-7:2022

This part of IEC 61557 specifies the requirements applicable to measuring equipment for
testing the phase sequence in three-phase distribution systems. Indication of the phase
sequence can be mechanical, visual and/or audible.
This document does not apply to additional measurements for other quantities. It does not
apply to monitoring relays.
NOTE Common worldwide three-phase distribution systems are depicted in IEC 61010-1.

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SIST EN IEC 61557-6:2022(Main)
Electrical safety in low voltage distribution systems up to 1 000 V a.c. and 1 500 V d.c. - Equipment for testing, measuring or monitoring of protective measures - Part 6: Effectiveness of residual current devices (RCD) in TT, TN and IT systems (IEC 61557-6:2019)
EN IEC 61557-6:2021

This part of IEC 61557 specifies the requirements applicable to measuring equipment for
testing the effectiveness of protective measures of residual current devices (RCD) installed in
TT, TN and IT systems.
It is not the purpose of this document to verify the RCD according to their product standards.
NOTE Applicable tripping tests for time and current of RCD are listed in Annex A, Table A.1

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SIST EN IEC 61557-2:2022(Main)
Electrical safety in low voltage distribution systems up to 1 000 V a.c. and 1 500 V d.c. - Equipment for testing, measuring or monitoring of protective measures - Part 2: Insulation resistance (IEC 61557-2:2019)
EN IEC 61557-2:2021

This part of IEC 61557 specifies the requirements applicable to equipment for measuring the
insulation resistance of equipment and installations in the de-energized state.

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