SIST EN IEC 61643-01:2025
(Main)Low-voltage surge protective devices - Part 01: General Requirements and test methods (IEC 61643-01:2024)
Low-voltage surge protective devices - Part 01: General Requirements and test methods (IEC 61643-01:2024)
IEC 61643-01: 2024 contains the common requirements for all SPDs. This document is applicable to devices for surge protection against indirect and direct effects of lightning or other transient overvoltages, hereafter referred to as Surge Protective Devices (SPDs). SPDs are intended to be connected to circuits or equipment rated up to 1 000 V AC (RMS) or 1 500 V DC. Performance and safety requirements, tests and ratings are specified in this document. SPDs contain at least one nonlinear component and are intended to limit surge voltages and divert surge currents. This document, together with IEC 61643-11:— (second edition), cancels and replaces the first edition of IEC 61643-11 published in 2011. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the first edition of IEC 61643-11:
a) Clarification on test application either to a complete SPD, to a "mode of protection", or to a complete "SPD assembly";
b) Additional measurement of voltage protection level on "combined modes of protection" between live conductors and PE (see new Annex F);
c) Additional duty test for T1 SPD and T2 SPD with follow current to check for increased follow current at lower impulse current amplitude (see 9.3.5.5);
d) Modified and amended short circuit current test requirements to better cover up-to-date internal SPD disconnector technologies (see 9.3.6.3);
e) Improved dielectric test requirements for the SPD’s main circuits and added dielectric test requirements for "electrically separated circuits" (see 9.3.7 and 9.3.8);
f) Additional clearance requirements for "electrically separated circuits" (see 9.4.4);
g) Additional information and details for SPDs for DC installations.
Überspannungsschutzgeräte für Niederspannung – Teil 1: Allgemeine Anforderungen und Prüfverfahren (IEC 61643-01:2024)
Parafoudres basse tension - Partie 01: Exigences générales et méthodes d’essai (IEC 61643-01:2024)
L'IEC 61643-01:2024 contient les exigences communes à tous les SPD. Le présent document est applicable aux dispositifs de protection contre les effets indirects et directs de la foudre ou contre les surtensions transitoires, ci-après dénommés parafoudres (SPD). Les parafoudres sont destinés à être connectés à des circuits ou à des équipements de tension assignée allant jusqu’à 1 000 V efficaces en courant alternatif ou 1 500 V en courant continu. Les exigences de performance et de sécurité, les essais et les valeurs assignées sont spécifiés dans le présent document. Les parafoudres comportent au moins un composant non linéaire et sont utilisés pour limiter les surtensions et écouler les courants de foudre. Le présent document, conjointement avec l’IEC 61643-11:— (deuxième édition), annule et remplace la première édition de l’IEC 61643-11 parue en 2011. Cette édition constitue une révision technique.
Cette édition inclut les modifications techniques majeures importantes suivantes par rapport à la première édition de l’IEC 61643-11:
a) clarification de l’application des essais soit à un parafoudre complet, soit à un "mode de protection", soit à un "jeu de parafoudre" complet;
b) ajout d’une mesure du niveau de protection en tension sur les "modes de protection combinés" entre les conducteurs actifs et le PE (voir la nouvelle Annexe F);
c) ajout d’un essai de fonctionnement pour les parafoudres T1 et T2 avec courant de suite pour vérifier l’augmentation du courant de suite à une amplitude de courant de choc plus faible (voir 9.3.5.5);
d) modification des exigences relatives à l’essai de comportement vis-à-vis des courants de court-circuit, afin de mieux couvrir les technologies modernes de déconnecteurs internes de parafoudre (voir 9.3.6.3);
e) amélioration des exigences relatives à l’essai diélectrique pour les circuits principaux d’un parafoudre et ajout d’exigences relatives à l’essai diélectrique pour les "circuits électriquement séparés" (voir 9.3.7 et 9.3.8);
f) ajout d’exigences en matière de distance d’isolement pour les "circuits électriquement séparés" (voir 9.4.4);
g) ajout d’informations et de détails concernant les parafoudres pour les installations à courant continu.
Nizkonapetostne naprave za zaščito pred prenapetostnimi udari - 1. del: Splošne zahteve in preskusne metode (IEC 61643-01:2024)
Ta del standarda IEC 61643 vsebuje splošne zahteve za naprave za zaščito pred prenapetostnimi udari (SPD).
Ta dokument se uporablja za naprave za zaščito pred prenapetostnimi udari v primeru posrednih in neposrednih učinkov strele ali drugih prehodnih prenapetosti, v nadaljevanju imenovane naprave za zaščito pred prenapetostnimi udari.
Naprave za zaščito pred prenapetostnimi udari so namenjene za priključitev na tokokroge ali opremo z nazivno napetostjo do 1000 V AC (RMS) ali 1500 V DC. Ta dokument določa zahteve glede delovanja in varnosti, preskuse ter nazivne vrednosti. Naprave za zaščito pred prenapetostnimi udari vsebujejo vsaj eno nelinearno komponento ter so namenjene omejitvi sunkov napetosti in preusmeritvi toka.
General Information
- Status
- Published
- Public Enquiry End Date
- 25-Jan-2024
- Publication Date
- 13-May-2025
- Technical Committee
- POD - Surge aresters
- Current Stage
- 6060 - National Implementation/Publication (Adopted Project)
- Start Date
- 17-Apr-2025
- Due Date
- 22-Jun-2025
- Completion Date
- 14-May-2025
Relations
- Effective Date
- 01-Jun-2025
- Effective Date
- 01-Jun-2025
- Effective Date
- 01-Jun-2025
Overview
EN IEC 61643-01:2025 (aligned with IEC 61643-01:2024) specifies the general requirements and test methods for low-voltage Surge Protective Devices (SPDs). It applies to SPDs intended to protect circuits and equipment from indirect and direct effects of lightning and other transient overvoltages, for systems rated up to 1 000 V AC (RMS) or 1 500 V DC. The standard defines performance, safety, testing and rating principles for SPDs that contain at least one nonlinear component and are designed to limit surge voltages and divert surge currents.
Key topics and requirements
- Scope and classification: definitions, SPD types, number of ports, modes of protection (voltage switching, voltage limiting, combination), environment (indoor/outdoor), mounting and accessibility.
- Electrical performance: continuous current, measured limiting voltage, protective conductor current, operating duty and behaviour under temporary overvoltages.
- Safety and end-of-life: open-circuit (OCM) and short-circuit (SCM) end-of-life modes, internal/external disconnector locations, and safety performance for overstressed SPDs.
- Mechanical and environmental requirements: enclosures (IP code), air clearances and creepage distances, heat/fire resistance, tracking resistance and EMC considerations.
- Tests and test methods: routine and acceptance tests, dielectric withstand, short-circuit current tests, and specific duty tests for T1/T2 SPDs.
- Marking and documentation: product information, status indicators and manufacturer-declared parameters.
- Significant technical updates (from previous edition): clarification of test application scope; measurement of protection level for combined modes to PE (Annex F); additional follow-current duty tests for T1/T2; revised short-circuit test rules for modern disconnector technologies; enhanced dielectric testing and clearance rules for electrically separated circuits; extra guidance for DC installations.
Applications and users
- Who uses it: SPD manufacturers, test laboratories, electrical designers, installers, building services engineers, substation and power distribution professionals, and safety/regulatory bodies.
- Practical uses:
- Designing and certifying SPDs for residential, commercial, industrial and DC installations.
- Performing type and routine tests to demonstrate compliance with performance and safety criteria.
- Specifying SPD selection and installation requirements for power distribution panels, substations, telecommunications and renewable-energy systems.
- Integrating SPDs into product documentation, marking, and performance declarations for compliance and procurement.
Related standards
- IEC/EN series referenced in the standard (for example IEC 61643-11 family documents and IEC 60364 series) - consult the bibliography in EN IEC 61643-01:2025 for harmonized and complementary standards applicable to SPD testing, installation and coordination.
Keywords: EN IEC 61643-01:2025, low-voltage surge protective devices, SPDs, surge protection, test methods, transient overvoltages, lightning protection.
Frequently Asked Questions
SIST EN IEC 61643-01:2025 is a standard published by the Slovenian Institute for Standardization (SIST). Its full title is "Low-voltage surge protective devices - Part 01: General Requirements and test methods (IEC 61643-01:2024)". This standard covers: IEC 61643-01: 2024 contains the common requirements for all SPDs. This document is applicable to devices for surge protection against indirect and direct effects of lightning or other transient overvoltages, hereafter referred to as Surge Protective Devices (SPDs). SPDs are intended to be connected to circuits or equipment rated up to 1 000 V AC (RMS) or 1 500 V DC. Performance and safety requirements, tests and ratings are specified in this document. SPDs contain at least one nonlinear component and are intended to limit surge voltages and divert surge currents. This document, together with IEC 61643-11:— (second edition), cancels and replaces the first edition of IEC 61643-11 published in 2011. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the first edition of IEC 61643-11: a) Clarification on test application either to a complete SPD, to a "mode of protection", or to a complete "SPD assembly"; b) Additional measurement of voltage protection level on "combined modes of protection" between live conductors and PE (see new Annex F); c) Additional duty test for T1 SPD and T2 SPD with follow current to check for increased follow current at lower impulse current amplitude (see 9.3.5.5); d) Modified and amended short circuit current test requirements to better cover up-to-date internal SPD disconnector technologies (see 9.3.6.3); e) Improved dielectric test requirements for the SPD’s main circuits and added dielectric test requirements for "electrically separated circuits" (see 9.3.7 and 9.3.8); f) Additional clearance requirements for "electrically separated circuits" (see 9.4.4); g) Additional information and details for SPDs for DC installations.
IEC 61643-01: 2024 contains the common requirements for all SPDs. This document is applicable to devices for surge protection against indirect and direct effects of lightning or other transient overvoltages, hereafter referred to as Surge Protective Devices (SPDs). SPDs are intended to be connected to circuits or equipment rated up to 1 000 V AC (RMS) or 1 500 V DC. Performance and safety requirements, tests and ratings are specified in this document. SPDs contain at least one nonlinear component and are intended to limit surge voltages and divert surge currents. This document, together with IEC 61643-11:— (second edition), cancels and replaces the first edition of IEC 61643-11 published in 2011. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the first edition of IEC 61643-11: a) Clarification on test application either to a complete SPD, to a "mode of protection", or to a complete "SPD assembly"; b) Additional measurement of voltage protection level on "combined modes of protection" between live conductors and PE (see new Annex F); c) Additional duty test for T1 SPD and T2 SPD with follow current to check for increased follow current at lower impulse current amplitude (see 9.3.5.5); d) Modified and amended short circuit current test requirements to better cover up-to-date internal SPD disconnector technologies (see 9.3.6.3); e) Improved dielectric test requirements for the SPD’s main circuits and added dielectric test requirements for "electrically separated circuits" (see 9.3.7 and 9.3.8); f) Additional clearance requirements for "electrically separated circuits" (see 9.4.4); g) Additional information and details for SPDs for DC installations.
SIST EN IEC 61643-01:2025 is classified under the following ICS (International Classification for Standards) categories: 29.120.50 - Fuses and other overcurrent protection devices; 29.240.10 - Substations. Surge arresters. The ICS classification helps identify the subject area and facilitates finding related standards.
SIST EN IEC 61643-01:2025 has the following relationships with other standards: It is inter standard links to SIST EN 61643-11:2012/A11:2018, SIST EN 61643-11:2012, SIST EN IEC 61643-01:2025/A11:2025. Understanding these relationships helps ensure you are using the most current and applicable version of the standard.
SIST EN IEC 61643-01:2025 is associated with the following European legislation: EU Directives/Regulations: 2014/35/EU; Standardization Mandates: M/511. When a standard is cited in the Official Journal of the European Union, products manufactured in conformity with it benefit from a presumption of conformity with the essential requirements of the corresponding EU directive or regulation.
You can purchase SIST EN IEC 61643-01:2025 directly from iTeh Standards. The document is available in PDF format and is delivered instantly after payment. Add the standard to your cart and complete the secure checkout process. iTeh Standards is an authorized distributor of SIST standards.
Standards Content (Sample)
SLOVENSKI STANDARD
01-junij-2025
Nadomešča:
SIST EN 61643-11:2012
SIST EN 61643-11:2012/A11:2018
Nizkonapetostne naprave za zaščito pred prenapetostnimi udari - 1. del: Splošne
zahteve in preskusne metode (IEC 61643-01:2024)
Low-voltage surge protective devices - Part 01: General Requirements and test methods
(IEC 61643-01:2024)
Überspannungsschutzgeräte für Niederspannung – Teil 1: Allgemeine Anforderungen
und Prüfverfahren (IEC 61643-01:2024)
Parafoudres basse tension - Partie 01: Exigences générales et méthodes d’essai (IEC
61643-01:2024)
Ta slovenski standard je istoveten z: EN IEC 61643-01:2025
ICS:
29.120.50 Varovalke in druga Fuses and other overcurrent
nadtokovna zaščita protection devices
29.240.10 Transformatorske postaje. Substations. Surge arresters
Prenapetostni odvodniki
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.
EUROPEAN STANDARD EN IEC 61643-01
NORME EUROPÉENNE
EUROPÄISCHE NORM April 2025
ICS 29.240.10 Supersedes EN 61643-11:2012 (partially)
English Version
Low-voltage surge protective devices - Part 01: General
Requirements and test methods
(IEC 61643-01:2024)
Parafoudres basse tension - Partie 01: Exigences Überspannungsschutzgeräte für Niederspannung - Teil 1:
générales et méthodes d'essai Allgemeine Anforderungen und Prüfverfahren
(IEC 61643-01:2024) (IEC 61643-01:2024)
This European Standard was approved by CENELEC on 2025-01-24. 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, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the
Netherlands, Norway, Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland,
Türkiye and the United Kingdom.
European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung
CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2025 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
Ref. No. EN IEC 61643-01:2025 E
European foreword
The text of document 37A/419/FDIS, future edition 1 of IEC 61643-01, prepared by SC 37A "Low-
voltage surge protective devices" of IEC/TC 37 "Surge arresters" was submitted to the IEC-CENELEC
parallel vote and approved by CENELEC as EN IEC 61643-01:2025.
The following dates are fixed:
• latest date by which the document has to be implemented at national (dop) 2026-04-30
level by publication of an identical national standard or by endorsement
• latest date by which the national standards conflicting with the (dow) 2028-04-30
document have to be withdrawn
This document partially supersedes EN 61643-11:2012 and all of its amendments and corrigenda (if
any).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CENELEC shall not be held responsible for identifying any or all such patent rights.
This document has been prepared under a standardization request addressed to CENELEC by the
European Commission. The Standing Committee of the EFTA States subsequently approves these
requests for its Member States.
For the relationship with EU Legislation, see informative Annex ZZ, which is an integral part of
Any feedback and questions on this document should be directed to the users’ national committee. A
complete listing of these bodies can be found on the CENELEC website.
Endorsement notice
The text of the International Standard IEC 61643-01:2024 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 standard indicated:
IEC 60038 NOTE Approved as EN 60038
IEC 60060-2:2010 NOTE Approved as EN 60060-2:2011 (not modified)
IEC 60060-3:2006 NOTE Approved as EN 60060-3:2006 (not modified)
IEC 60269-1:2006 NOTE Approved as EN 60269-1:2007 (not modified)
IEC 60269-1:2006/A1:2009 NOTE Approved as EN 60269-1:2007/A1:2009 (not modified)
IEC 60269-1:2006/A2:2014 NOTE Approved as EN 60269-1:2007/A2:2014 (not modified)
IEC 60269-2:2013 NOTE Approved as HD 60269-2:2013
IEC 60269-2:2013/A1:2016 NOTE Approved as HD 60269-2:2013/A1:2022 (not modified)
IEC 60320 series NOTE Approved as EN 60320 series
IEC 60364 series NOTE Approved as HD 60364 series
IEC 60364-4-44:2007 NOTE Approved as HD 60364-4-442:2012
IEC 60364-5-51 NOTE Approved as HD 60364-5-51
IEC 60603 series NOTE Approved as EN 60603 series
IEC 60947-1 NOTE Approved as EN IEC 60947-1
IEC 60947-5-1 NOTE Approved as EN 60947-5-1
IEC 61008-1 NOTE Approved as EN 61008-1
IEC 61083-2:2013 NOTE Approved as EN 61083-2:2013 (not modified)
IEC 61083-3:2020 NOTE Approved as EN IEC 61083-3:2021 (not modified)
IEC 61140:2016 NOTE Approved as EN 61140:2016 (not modified)
IEC 61643-12 NOTE Approved as CLC/TS 61643-12
IEC 61643-21 NOTE Approved as EN 61643-21
IEC 61643-311:2013 NOTE Approved as EN 61643-311:2013 (not modified)
IEC 61643-312:2013 NOTE Approved as EN 61643-312:2013 (not modified)
IEC 61643-321:2001 NOTE Approved as EN 61643-321:2002 (not modified)
IEC 61643-331:2020 NOTE Approved as EN IEC 61643-331:2020 (not modified)
IEC 61643-341:2020 NOTE Approved as EN IEC 61643-341:2020 (not modified)
IEC 61643-351:2016 NOTE Approved as EN 61643-351:2017 (not modified)
IEC 61643-352:2018 NOTE Approved as EN IEC 61643-352:2018 (not modified)
IEC 62305 series NOTE Approved as EN IEC 62305 series
IEC 62475:2010 NOTE Approved as EN 62475:2010 (not modified)
ISO 2039-2:1987 NOTE Approved as EN ISO 2039-2:1999 (not modified)
ISO 4892-2:2013 NOTE Approved as EN ISO 4892-2:2013 (not modified)
IEC 61643-01 ®
Edition 1.0 2024-12
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
colour
inside
Low-voltage surge protective devices –
Part 01: General Requirements and test methods
Parafoudres basse tension –
Partie 01: Exigences générales et méthodes d’essai
INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
COMMISSION
ELECTROTECHNIQUE
INTERNATIONALE
ICS 29.240.10 ISBN 978-2-8322-4974-1
– 2 – IEC 61643-01:2024 IEC 2024
CONTENTS
FOREWORD . 7
INTRODUCTION . 9
1 Scope . 10
2 Normative references . 10
3 Terms, definitions, abbreviated terms and symbols . 11
3.1 Terms and definitions . 11
3.2 Abbreviated terms and symbols . 22
4 Classification . 23
4.1 General . 23
4.2 Number of ports . 23
4.2.1 One . 23
4.2.2 Two . 23
4.3 SPD design . 23
4.3.1 Voltage switching. 23
4.3.2 Voltage limiting . 23
4.3.3 Combination . 23
4.4 Mode of protection design . 23
4.4.1 Voltage switching. 23
4.4.2 Voltage limiting . 23
4.4.3 Combination . 23
4.5 Type of SPD . 24
4.6 Environment . 24
4.6.1 Indoor . 24
4.6.2 Outdoor . 24
4.6.3 Non submersible SPDs . 24
4.6.4 Submersible SPDs . 24
4.7 Accessibility . 24
4.7.1 Accessible . 24
4.7.2 Inaccessible . 24
4.8 Mounting method . 24
4.8.1 Fixed . 24
4.8.2 Portable . 24
4.9 Location of disconnector (including overcurrent protection) . 25
4.9.1 Internal . 25
4.9.2 External . 25
4.9.3 Both (internal and external) . 25
4.9.4 None . 25
4.10 Degree of protection provided by enclosures according to IEC 60529 (IP
code) . 25
4.11 Temperature and humidity range . 25
4.11.1 Normal. 25
4.11.2 Extended . 25
4.12 SPD modes of protection . 25
4.12.1 SPD providing a single mode of protection . 25
4.12.2 Multimode SPD . 25
4.13 End-of-life mode of the SPDA . 25
4.13.1 Open-circuit mode (OCM) . 25
IEC 61643-01:2024 IEC 2024 – 3 –
4.13.2 Short-circuit mode (SCM) . 25
4.14 Short-Circuit protection function for OCM end-of-life mode . 25
4.14.1 Internal . 25
4.14.2 External . 26
5 Void . 26
6 Marking and other product information . 26
6.1 General . 26
6.2 List of items . 26
6.3 Information about status indicator . 28
7 Service conditions . 28
7.1 Voltage . 28
7.2 Air pressure and altitude . 29
7.3 Temperatures . 29
7.4 Humidity . 29
8 Requirements . 29
8.1 General requirements . 29
8.2 Marking . 29
8.3 Electrical requirements . 30
8.3.1 Protection against electric shock . 30
8.3.2 Continuous current I . 30
C
8.3.3 Protective conductor current I . 30
PE
8.3.4 Measured limiting voltage . 31
8.3.5 Operating duty . 31
8.3.6 Safety performance of overstressed SPDs . 31
8.3.7 Insulation resistance . 32
8.3.8 Dielectric withstand . 33
8.3.9 Behaviour under temporary overvoltages . 33
8.4 Mechanical requirements . 33
8.4.1 General . 33
8.4.2 Screws, current carrying parts and connections . 33
8.4.3 External connections . 33
8.4.4 Air clearances and creepage distances . 35
8.4.5 Mechanical strength. 35
8.5 Environmental and material requirements . 35
8.5.1 Protection provided by enclosure (IP code) . 35
8.5.2 Heat resistance . 35
8.5.3 Resistance to abnormal heat and fire . 35
8.5.4 Tracking resistance . 36
8.5.5 Ageing behaviour under damp heat . 36
8.5.6 Electromagnetic compatibility . 36
8.6 Additional requirements for specific SPD designs . 36
8.6.1 Two port SPDs and one port SPDs with separate input/output
connections . 36
8.6.2 Environmental stress for outdoor SPDs . 37
8.6.3 SPDs with electrically separated circuits . 37
8.6.4 Total Discharge Current I , if declared by the manufacturer . 37
Total
8.6.5 Two port SPDs . 37
8.6.6 Short-circuiting SPDs . 38
– 4 – IEC 61643-01:2024 IEC 2024
8.7 Routine and acceptance tests . 38
9 Tests . 38
9.1 Type testing procedures . 38
9.1.1 General . 38
9.1.2 Impulse discharge current . 43
9.1.3 8/20 current impulse . 44
9.1.4 1,2/50 voltage impulse . 45
9.1.5 Combination wave . 45
9.2 Indelibility of markings . 47
9.3 Electrical tests . 48
9.3.1 Protection against direct contact . 48
9.3.2 Continuous current I . 48
C
9.3.3 Protective conductor current I . 49
PE
9.3.4 Measured limiting voltage . 49
9.3.5 Operating duty test . 52
9.3.6 Safety performance of overstressed SPDs . 58
9.3.7 Insulation resistance . 65
9.3.8 Dielectric withstand . 66
9.3.9 Behaviour under temporary overvoltages (TOVs) . 73
9.4 Mechanical tests . 73
9.4.1 General . 73
9.4.2 Reliability of screws, current-carrying parts and connections . 73
9.4.3 Tests for external connections for copper conductors . 75
9.4.4 Verification of air clearances and creepage distances . 78
9.4.5 Mechanical strength. 83
9.5 Environmental and material tests . 86
9.5.1 Resistance to ingress of solid objects and to harmful ingress of water . 86
9.5.2 Heat resistance . 86
9.5.3 Resistance to abnormal heat and fire . 88
9.5.4 Tracking resistance . 89
9.5.5 Life test under damp heat . 89
9.6 Additional tests for specific SPD designs . 89
9.6.1 Tests for two-port SPDs and one-port SPDs with separate input/output
connections . 89
9.6.2 Environmental tests for outdoor SPDs . 95
9.6.3 SPDs with separated circuits . 96
9.6.4 Total discharge current test for multimode SPDs . 96
9.6.5 Tests for two port SPDs only . 96
Annex A (normative) Routine and acceptance tests . 99
A.1 Routine tests. 99
A.2 Acceptance tests . 99
Annex B (normative) Tests to determine on SPD modes of protection with or without
follow current . 100
B.1 SPDs modes of protection and follow current . 100
B.2 Follow current determination for SPD’s combination mode of protection
according to 4.4.3.1 . 100
Annex C (normative) Temperature rise limits . 101
Annex D (normative) Environmental tests for outdoor SPDs . 103
IEC 61643-01:2024 IEC 2024 – 5 –
D.1 Non submersible SPDs . 103
D.1.1 Accelerated aging test with UV radiation . 103
D.1.2 Temperature cycling test . 103
D.1.3 Verification of resistance to corrosion . 104
D.2 Submersible SPDs . 104
D.2.1 Water immersion test . 104
D.2.2 Dielectric test . 105
Annex E (normative) Short-circuiting SPDs . 106
E.1 General . 106
E.2 Transition surge current rating test . 106
E.2.1 General . 106
E.2.2 Test to reach the short-circuit mode of a short-circuiting SPD . 107
E.2.3 Impulse withstand test (in short-circuited condition) . 107
Annex F (normative) Reduced test procedure for series connection of SPD’s modes of
protection . 108
F.1 General . 108
F.2 Reduced test procedure . 108
Annex G (normative) Test procedures for SPDs according to 4.14.1.4 . 109
G.1 General . 109
G.2 Sample preparation and preconditioning for the short-circuit current
behaviour test . 109
G.2.1 Sample preparation . 109
G.2.2 Preconditioning procedure . 110
G.2.3 Pass criteria . 111
G.3 Specific overstress test . 111
G.3.1 Sample preparation . 111
G.3.2 General test procedure . 112
G.3.3 Pass criteria . 113
Bibliography . 114
Figure 1 – I/U characteristics for linear power source . 39
Figure 2 – Metallic screen test setup . 41
Figure 3 – Example of a decoupling network for single-phase power . 46
Figure 4 – Example of a decoupling network for three-phase power . 47
Figure 5 – Alternate test for the measured limiting voltage . 47
Figure 6 – Flow chart of testing to check the voltage protection level U . 50
p
Figure 7 – Flow chart for the operating duty tests according 9.3.5.3, 9.3.5.4 and 9.3.5.6 . 53
Figure 8 – Example of test set-up for operating duty test . 54
Figure 9 – Operating duty test timing diagram for T1 SPDs and T2 SPDs . 55
Figure 10 – Additional duty test timing diagram for T1 SPD . 56
Figure 11 – Flow chart for the additional test for SPDs with follow current . 57
Figure 12 – Example for test circuit for thermal protection test . 61
Figure 13 – Test apparatus for impact test . 83
Figure 14 – Striking element of the pendulum hammer . 84
Figure 15 – Ball pressure test arrangement. 87
Figure 16 – Pressure ball of loading device . 87
– 6 – IEC 61643-01:2024 IEC 2024
Figure 17 – Examples of appropriate test circuits for the rated load current test . 91
Figure 18 – Examples for appropriate test circuits of the load side short-circuit test(s) . 95
Figure 19 – Example of test set-up for load side surge operating duty test . 97
Figure E.1 – Differences in test procedure for short circuiting SPDs. 106
Figure G.1 – Sample preparation for preconditioning test . 110
Figure G.2 – Example of test setup for preconditioning . 110
Figure G.3 – Example of test setup for specific overstress test . 112
Figure G.4 – Typical timing diagram for specific overstress test . 113
Table 1 – List of abbreviated terms and symbols . 22
Table 2 – Type of SPD . 24
Table 3 – Pass criteria for type tests . 42
Table 4 – Example parameters for impulse discharge current . 44
Table 5 – Tests to be performed to determine the measured limiting voltage . 51
Table 6 – Prospective short circuit current to be applied depending on the maximum
overcurrent protection specified, for fuses of the gG type . 63
Table 7 – Dielectric impulse withstand test voltages for SPD main circuits . 67
Table 8 – Dielectric AC test voltages for SPD main circuits . 68
Table 9 – Dielectric AC test voltages for SPD main circuits . 68
Table 10 – Dielectric impulse withstand test voltages for separated circuits . 69
Table 11 – Dielectric AC test voltages for separated circuits . 70
Table 12 – Dielectric AC test voltages for separated circuits . 71
Table 13 – Dielectric AC test voltages between circuits with protective separation
(double/reinforced insulation) according to 9.3.7.2 c) and d) . 72
Table 14 – Impulse test voltages for verifying clearances at different altitudes . 73
Table 15 – Screw thread diameters and applied torques . 74
Table 16 – Cross-sections of copper conductors for screw-type or screwless terminals . 75
Table 17 – Conductor dimensions . 76
Table 18 – Pulling forces (screw terminals and bolted connections) . 76
Table 19 – Pulling forces (screwless terminals). 77
Table 20 – Air clearances for SPD main circuit(s) . 79
Table 21 – Air clearances for electrically separated circuits . 80
Table 22 – Creepage distances for SPDs . 81
Table 23 – Relationship between material groups and classifications . 82
Table 24 – Fall distances for impact requirements . 85
Table 25 – Test conductors for rated load current test . 92
Table 26 – Trip current factor k for overload behaviour . 93
Table 27 – Tolerances for proportional impulse currents . 96
Table C.1 – Temperature-rise limits . 102
Table F.1 – Reduced test procedure for the mode of protection provided by a series
connection of modes of protection according to F.1 . 108
IEC 61643-01:2024 IEC 2024 – 7 –
INTERNATIONAL ELECTROTECHNICAL COMMISSION
____________
LOW-VOLTAGE SURGE PROTECTIVE DEVICES –
Part 01: General requirements and test methods
FOREWORD
1) The International Electrotechnical Commission (IEC) is a worldwide organization for standardization comprising
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6) All users should ensure that they have the latest edition of this publication.
7) No liability shall attach to IEC or its directors, employees, servants or agents including individual experts and
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8) Attention is drawn to the Normative references cited in this publication. Use of the referenced publications is
indispensable for the correct application of this publication.
9) IEC draws attention to the possibility that the implementation of this document may involve the use of (a)
patent(s). IEC takes no position concerning the evidence, validity or applicability of any claimed patent rights in
respect thereof. As of the date of publication of this document, IEC had not received notice of (a) patent(s), which
may be required to implement this document. However, implementers are cautioned that this may not represent
the latest information, which may be obtained from the patent database available at https://patents.iec.ch. IEC
shall not be held responsible for identifying any or all such patent rights.
IEC 61643-01 has been prepared by subcommittee SC37A Low-voltage surge protective
devices, of IEC technical committee 37: Surge arresters. It is an International Standard.
This document, together with IEC 61643-11:— (second edition), cancels and replaces the first
edition of IEC 61643-11 published in 2011. This edition constitutes a technical revision.
___________
Under preparation. Stage at the time of publication: IEC/AFDIS 61643-11:2024.
– 8 – IEC 61643-01:2024 IEC 2024
This edition includes the following significant technical changes with respect to the first edition
of IEC 61643-11:
a) Clarification on test application either to a complete SPD, to a "mode of protection", or to a
complete "SPD assembly";
b) Additional measurement of voltage protection level on "combined modes of protection"
between live conductors and PE (see new Annex F);
c) Additional duty test for T1 SPD and T2 SPD with follow current to check for increased follow
current at lower impulse current amplitude (see 9.3.5.5);
d) Modified and amended short circuit current test requirements to better cover up-to-date
internal SPD disconnector technologies (see 9.3.6.3);
e) Improved dielectric test requirements for the SPD’s main circuits and added dielectric test
requirements for "electrically separated circuits" (see 9.3.7 and 9.3.8);
f) Additional clearance requirements for "electrically separated circuits" (see 9.4.4);
g) Additional information and details for SPDs for DC installations.
The text of this International Standard is based on the following documents:
Draft Report on voting
37A/419/FDIS 37A/422/RVD
Full information on the voting for its approval can be found in the report on voting indicated in
the above table.
The language used for the development of this International Standard is English.
This document was drafted in accordance with ISO/IEC Directives, Part 2, and developed in
accordance with ISO/IEC Directives, Part 1 and ISO/IEC Directives, IEC Supplement, available
at www.iec.ch/members_experts/refdocs. The main document types developed by IEC are
described in greater detail at www.iec.ch/publications.
A list of all parts in the IEC 61643 series, published under the general title Low-voltage surge
protective devices, can be found on the IEC website.
The committee has decided that the contents of this document will remain unchanged until the
stability date indicated on the IEC website under webstore.iec.ch in the data related to the
specific document. At this date, the document will be
• reconfirmed,
• withdrawn, or
• revised.
IMPORTANT – The "colour inside" logo on the cover page of this document indicates
that it contains colours which are considered to be useful for the correct understanding
of its contents. Users should therefore print this document using a colour printer.
IEC 61643-01:2024 IEC 2024 – 9 –
INTRODUCTION
It has been assumed in the drafting of this International Standard that the execution of its
provisions is entrusted to appropriately qualified and experienced persons.
This document is a product family standard dealing with the safety and performance of Surge
Protective Devices (SPDs) and takes precedence over horizontal and generic standards
covering the same subject.
This part of IEC 61643 addresses the general safety and performance tests for SPDs.
This document recognizes the internationally accepted level of protection against hazards such
as electrical, mechanical, thermal, fire and radiation of SPDs when operated as in normal use
taking into account the manufacturer's instructions. It also covers abnormal situations that can
be expected in practice.
This document takes into account the requirements of IEC 60364 as far as possible so that
there is compatibility with the wiring rules when the SPD is connected to the supply mains.
However, national wiring rules might differ.
If the intended applications of an SPD are covered by different parts of the IEC 61643-X1 series
of standards, all relevant parts are applied.
This document is only to be applied together with the latest edition of one or more of the
subsequent parts of the IEC 61643-X1 series of standards.
SPDs containing additional features or functions not addressed in this document and the
relevant subsequent part(s) can require additional consideration and tests to ensure the main
SPD function is not adversely affected and no hazards can arise from these additional features
or functions. If appropriate standards exist to cover such functions, they are to be applied.
There are three SPD Types for SPDs intended to be installed in power systems:
T1 SPDs are subjected to impulses simulating conducted partial lightning currents.
T2 SPDs and T3 SPDs are subjected to impulses of shorter duration.
– 10 – IEC 61643-01:2024 IEC 2024
LOW-VOLTAGE SURGE PROTECTIVE DEVICES –
Part 01: General requirements and test methods
1 Scope
This part of IEC 61643 contains the common requirements for all SPDs.
This document is applicable to devices for surge protection against indirect and direct effects
of lightning or other transient overvoltages, hereafter referred to as Surge Protective Devices
(SPDs).
SPDs are intended to be connected to circuits or equipment rated up to 1 000 V AC (RMS) or
1 500 V DC. Performance and safety requirements, tests and ratings are specified in this
document. SPDs contain at least one nonlinear component and are intended to limit surge
voltages and divert surge currents.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements of
...
La norme SIST EN IEC 61643-01:2025 présente un cadre exhaustif pour les dispositifs de protection contre les surtensions basse tension, en intégrant des exigences générales et des méthodes d'essai adaptées aux appareils utilisés contre les effets directs et indirects de la foudre ainsi que d'autres surtensions transitoires. Cela en fait un document essentiel pour tous les concepteurs et fabricants de Dispositifs de Protection contre les Surtensions (SPD) qui visent à protéger des circuits ou des équipements fonctionnant jusqu'à 1 000 V AC ou 1 500 V DC. Parmi ses points forts, cette norme se distingue par ses exigences de performance et de sécurité précises, qui sont cruciales pour garantir le fonctionnement adéquat des SPDs. La clarification sur l'application des tests, qu'ils soient appliqués à un SPD complet, à un mode de protection ou à un assemblage de SPD, permet d'assurer une compréhension uniforme et une mise en œuvre des tests dans divers contextes d'utilisation. Une autre avancée notable est l'inclusion d'exigences de test supplémentaires, telles que le niveau de protection de tension pour les modes de protection combinés, fournissant ainsi une approche plus robuste pour le test et la validation des SPDs. Les modifications apportées aux exigences de test de court-circuit, ainsi que l'ajout de tests de durée pour les SPD de type T1 et T2, illustrent un alignement avec les technologies modernes de déconnexion interne, garantissant que les équipements de protection répondent aux exigences les plus actuelles. De plus, les exigences améliorées relatives aux tests diélectriques, tant pour les circuits principaux des SPDs que pour les circuits électriquement séparés, renforcent encore la sécurité et la fiabilité de ces dispositifs critiques. Les nouvelles exigences concernant les distances de séparation pour ces circuits et les informations détaillées sur les SPDs utilisés dans des installations DC enrichissent cette norme, la rendant plus pertinente dans le contexte des technologies émergentes. Dans son ensemble, la norme SIST EN IEC 61643-01:2025 représente un outil indispensable pour les professionnels du secteur de l'électricité, offrant un cadre normatif nécessaire pour le développement de dispositifs de protection efficaces, garantissant ainsi la sécurité des installations électriques face aux surtensions.
SIST EN IEC 61643-01:2025 は、低電圧雷サージ防護装置に関する重要な標準であり、その包括的な範囲と明確な要求事項が特長です。このドキュメントは、雷やその他の過渡過電圧による間接および直接の影響からの保護を提供するために設計されたサージ保護装置(SPD)に適用されます。特に、1000 V AC(RMS)または1500 V DCまでの回路や機器に接続されることを意図しています。 この標準の強みは、性能と安全性の要件、試験方法および評価が詳細に規定されている点にあります。特に、1次版からの技術的改訂がなされた今回のエディションでは、試験適用の明確化、保護モードの測定、T1およびT2 SPDのフォロー電流試験、短絡電流試験要件の修正など、具体的な改善が施されています。このような技術的な進化は、現代の内部SPD切断技術をより適切にカバーするためのものです。 文書は、新しい附属書Fを通じて「結合保護モード」における電圧保護レベルの測定を追加した点でも意義深いと言えます。また、主回路および「電気的に分離された回路」に対する誘導試験要件の向上は、SPDの信頼性向上に寄与しています。これにより、システム全体の安全性と性能が向上し、使用者にとって価値ある情報が提供されます。 加えて、「電気的に分離された回路」に対する追加のクリアランス要件や、DCインスタレーションにおけるSPDに関する詳細情報も含まれています。これらの改良は、現代の技術ニーズへの適合と、安全な電力システム運用における重要性を反映しています。 この試験方法と要件が体系化されたSIST EN IEC 61643-01:2025は、サージ保護装置の開発と認証において重要な指針となることは間違いありません。その結果、特に高性能が求められる現代の電気設備において、SPDsの役割が一層重要視されるようになります。
The standard SIST EN IEC 61643-01:2025 outlines the comprehensive requirements and test methods for Low-voltage Surge Protective Devices (SPDs). This document is pivotal in setting a consistent framework for surge protection measures applicable to circuits or equipment rated up to 1,000 V AC (RMS) or 1,500 V DC, thereby enhancing safety against both indirect and direct effects of lightning and other transient overvoltages. One of the key strengths of this standard is its inclusive scope which addresses all SPDs through a detailed specification of performance and safety requirements. By defining these criteria, the standard ensures that SPDs, which contain nonlinear components intended to limit surge voltages and divert surge currents, meet uniform operational benchmarks. Significant technical updates incorporated in this revision, such as the clarification of test applications to a complete SPD or specific modes of protection, reflect an adaptive approach that responds to evolving technological advancements in surge protection. The introduction of additional measurement protocols, particularly concerning voltage protection levels in combined modes of protection and newly specified duty tests for T1 and T2 SPDs, enriches the reliability and efficiency of SPDs under varied operational conditions. Furthermore, the modified short circuit current test requirements ensure relevance to contemporary SPD disconnector technologies, enhancing the compliance and safety of installations. Improved dielectric test requirements for the main circuits of SPDs, alongside new regulations for electrically separated circuits, represent a proactive measure to accommodate modern electrical installations and their associated risks. The standard’s consolidation of these advancements not only bolsters the design and functional integrity of surge protective devices but also fosters greater assurance among users regarding their performance in real-world applications. The inclusion of detailed guidelines for SPDs designed specifically for DC installations signifies a recognition of the growing significance of DC systems in current and future energy solutions. In summary, SIST EN IEC 61643-01:2025 stands out as a critical resource for manufacturers and users of surge protective devices, ensuring high safety standards, reliability in performance, and alignment with contemporary technological practices within the electrical industry. Its comprehensive scope and detailed requirements are essential for effective surge protection solutions, making it highly relevant in today’s electrical infrastructure landscape.
SIST EN IEC 61643-01:2025 표준 문서는 서지 보호 장치(SPD)에 대한 일반 요구 사항과 시험 방법을 포함하고 있으며, 이는 스파이크 전압 및 낙뢰와 같은 일시적인 과전압으로부터 보호하는 데 중점을 두고 있습니다. 이 표준은 1,000 V AC(RMS) 또는 1,500 V DC 등급의 회로 및 장비에 연결될 수 있는 장치에 적용되며, 서지 전압 및 서지 전류를 제한하고 분산시키기 위해 최소한 하나의 비선형 구성 요소를 포함합니다. 이 문서의 강점은 다음과 같습니다. 첫째, SPDs의 성능 및 안전 요구 사항을 명확히 하여 효율적인 보호 기능을 보장합니다. 둘째, 시험 적용 방식에 대한 명확한 지침을 제공하여 전체 SPD, 보호 모드, 또는 SPD 조립체에 대한 시험을 체계적으로 진행할 수 있습니다. 셋째, 새로운 기술 검토에 의해 단락 전류 시험 요구 사항이 현대화되어, 최신 내부 SPD 차단 기술을 잘 반영하고 있습니다. 추가적으로, 이 표준은 전압 보호 수준 및 전기적으로 분리된 회로에 대한 요구 사항을 명확히 하여, 사용자의 안전을 높이고 설치의 신뢰성을 강화합니다. DC 설치를 위한 SPDs에 대한 추가 정보와 세부사항을 포함하고 있어, 다양한 환경에서의 응용 가능성을 더욱 확대합니다. 이는 서지 보호 장치의 현대 요구 사항을 충족하고, 사용자와 장비를 보호하는 데 있어 중요성을 더욱 강조합니다. 전반적으로 SIST EN IEC 61643-01:2025는 서지 보호 장치(SPD)의 획기적인 기술 개정이며, 사용자와 설치자에게 안전하고 효율적인 서지 보호 솔루션을 제공하는 데 기여하는 표준입니다.
Die Norm SIST EN IEC 61643-01:2025 legt die allgemeinen Anforderungen und Prüfmethoden für Überspannungsschutzgeräte (SPDs) fest. Der Anwendungsbereich dieser Norm ist von großer Bedeutung, da sie Anforderungen für Geräte definiert, die sowohl direkte als auch indirekte Auswirkungen von Blitzeinschlägen oder anderen transienten Überspannungen berücksichtigen. Dies macht die Norm essenziell für die Gewährleistung der Sicherheit und Zuverlässigkeit elektrischer Systeme, die bis zu 1.000 V AC (RMS) oder 1.500 V DC bewertet sind. Ein hervorhebenswerter Aspekt der Norm sind die umfassenden Anforderungen an die Leistung und Sicherheit der SPDs. Die klare Definition von Tests und Bewertungen ermöglicht eine einheitliche Überprüfung der Geräte und ihre Leistungsfähigkeit unter verschiedenen Bedingungen. Dies trägt zu einer erhöhten Sicherheit bei, indem es sicherstellt, dass die SPDs die erwarteten Schutzlevel erfüllen und bei Überspannungen stabil bleiben. Besonders bemerkenswert sind die technischen Änderungen in dieser Auflage im Vergleich zur vorherigen Version. Eine der wichtigsten Neuerungen ist die Klarstellung zur Testanwendung, die sowohl für ein komplettes SPD als auch für spezifische „Schutzmodi“ gilt. Dies verbessert die Klarheit und die Anwendbarkeit der Tests auf unterschiedliche SPD-Konfigurationen. Zusätzlich führt die Norm neue Anforderungen bezüglich der Messung des Spannungsschutzniveaus bei „kombinierten Schutzmodi“ zwischen lebenden Leitern und dem Erdungssystem ein. Dies stellt sicher, dass die SPDs in komplexen Systemen weiterhin effektiven Schutz bieten. Ein weiteres bedeutendes Update ist der zusätzliche Belastungstest für T1 und T2 SPDs, der die aktuelle Situation bei Impulsströmen besser widerspiegelt. Die angepassten Anforderungen für Kurzschlussschutztests berücksichtigen moderne Technologien, die in den internen SPD-Trennvorrichtungen eingesetzt werden. Dies ist besonders wichtig, um die Leistungsfähigkeit der aktuellen Schutzvorrichtungen sicherzustellen. Darüber hinaus wurden die Anforderungen an die dielektrischen Prüfungen verbessert, was eine umfassendere Sicherheit in den Hauptschaltkreisen der SPDs gewährleistet. Die neuen Vorgaben zu „elektrisch getrennten Schaltkreisen“ erweitern den Anwendungsbereich der Norm und liefern zusätzliche Informationen, die für moderne Installationen von großer Bedeutung sind. Dies zeigt die Relevanz der Norm in Bezug auf aktuelle Entwicklungen in der Technik und den Schutzmaßnahmen. Insgesamt ist die SIST EN IEC 61643-01:2025 eine umfassende, klar strukturierte und technisch gründliche Norm, die sowohl die Anforderungen als auch die Prüfmethoden für Überspannungsschutzgeräte präzisiert. Ihre Relevanz erstreckt sich über verschiedene Anwendungsbereiche, was sie zu einem unverzichtbaren Dokument für Fachleute im Bereich der Elektrotechnik macht. Die Stärke der Norm liegt nicht nur in ihrer detaillierten technischen Ausarbeitung, sondern auch in ihrer Anpassungsfähigkeit an zukünftige Entwicklungen im Bereich des Überspannungsschutzes.
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