29.220 - Galvanic cells and batteries
Galvanic cells and batteries
Galvanische Zellen. Batterien
Piles galvaniques et accumulateurs
Galvanski členi in baterije
General Information
IEC 62485-5:2020 applies to the installation of one or more stationary secondary batteries having a maximum aggregate DC voltage of 1 500 V to any DC part of the power network, and describes the principal measures for protections during normal operation or under expected fault conditions against hazards generated from:
– electricity,
– short-circuits,
– electrolyte,
– gas emission,
– fire,
– explosion.
This document provides requirements on safety aspects associated with the installation,...view more
- Standard76 pagesEnglish and French language
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IEC 63193:2020 is applicable to lead-acid batteries powering electric two-wheelers (mopeds) and three-wheelers (e-rickshaws and delivery vehicles), and also to golf cars and similar light utility and multi-passenger vehicles.
The document specifies methods of tests tailored to batteries destined for the above‑referenced types of vehicles so as to ensure satisfactory and safe battery performance in the intended application.
This document does not apply for example to lead-acid cells and batteri...view more
- Standard115 pagesEnglish and French language
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IEC TR 61431:2020 is an informative document relating to aspects of automatic monitor systems as utilized in lead-acid traction battery applications. It lists the characteristics and features that need to be monitored and evaluated to properly assess the operative status of a traction battery. Guidance concerning the accuracy and reliability of the generated information is also provided.
- Technical report18 pagesEnglish language
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This part of IEC 62984 specifies performance requirements and test procedures for
hightemperature
batteries based on sodium for mobile and/or stationary use and whose rated
voltage does not exceed 1 500 V.
Sodium based batteries include sodium-sulphur batteries and sodium-nickel chloride batteries;
both are high-temperature batteries and use a solid, sodium conducting electrolyte. Additional
information on sodiumbased
batteries technology, their chemistries and construction are given
in ...view more
- Standard37 pagesEnglish language
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This part of IEC 61960 specifies performance tests, designations, markings, dimensions and
other requirements for coin secondary lithium cells and batteries for portable applications and
backup power supply such as memory backup applications.
The objective of this document is to provide the purchasers and users of coin secondary lithium
cells and batteries with a set of criteria with which they can assess the performance of coin
secondary lithium cells and batteries offered by various manuf...view more
- Standard19 pagesEnglish language
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- Corrigendum3 pagesEnglish language
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TAN - // IEC Corrigendum
- Corrigendum3 pagesFrench language
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This part of IEC 62932 applies to flow battery systems for stationary applications and their
installations with a maximum voltage not exceeding 1 500 V DC in compliance with
IEC 62932-1.
This document defines the requirements and test methods for risk reduction and protection
measures against significant hazards relevant to flow battery systems, to persons, property and
the environment, or to a combination of them.
This document is applicable to stationary flow battery systems intended for...view more
- Standard33 pagesEnglish language
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IEC 62973-2:2020 applies to NiCd rechargeable batteries for auxiliary power supply systems used on railway vehicles. It is an extension of IEC 62973-1:2018 which specifies common requirements for all battery technologies of other parts of IEC 62973. Unless otherwise specified, the requirements of IEC 62973-1:2018 apply.
Battery systems described in this document are used in conjunction with charging systems onboard rolling stock, as described in IEC 62973-1:2018. Charging systems (e.g. LVPS, co...view more
- Standard34 pagesEnglish language
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EN-IEC 63115-1 specifies the marking, designation, tests and requirements for sealednickelmetalhydride cells and batteries used in industrial applications, including stationaryapplications. When an IEC International Standard specifying test conditions and requirements for cellsused in special applications is in conflict with this document, the former takes precedence (e.g.IEC 62675).The following are some examples of applications that utilize the cells and batteries fallingunder the scope of thi...view more
- Standard31 pagesEnglish language
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EN-IEC 60086-6 applies to all chemistries of portable primary cells and batteriesstandardized in the 60086 series.The purpose of this document is to provide guidance on the proper scientific protocols fortesting the environmental performance of batteries; the symbols used to convey messages forcollection, recycling, or other ideas; and the aspects and functional unit(s) to be included inassessing the environmental impact of batteries with modern life-cycle analysis techniques.
- Standard36 pagesEnglish language
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- Standard3 pagesEnglish and French language
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IEC 61960-4:2020 specifies performance tests, designations, markings, dimensions and other requirements for coin secondary lithium cells and batteries for portable applications and backup power supply such as memory backup applications.
The objective of this document is to provide the purchasers and users of coin secondary lithium cells and batteries with a set of criteria with which they can assess the performance of coin secondary lithium cells and batteries offered by various manufacturers.
...view more
- Standard32 pagesEnglish and French language
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IEC 62932-2-2:2020 applies to flow battery systems for stationary applications and their installations with a maximum voltage not exceeding 1 500 V DC in compliance with IEC 62932-1. This document defines the requirements and test methods for risk reduction and protection measures against significant hazards relevant to flow battery systems, to persons, property and the environment, or to a combination of them. This document is applicable to stationary flow battery systems intended for indoor an...view more
- Standard33 pagesEnglish language
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IEC 62984-3:2020 specifies performance requirements and test procedures for high-temperature batteries based on sodium for mobile and/or stationary use and whose rated voltage does not exceed 1 500 V.
Sodium based batteries include sodium-sulphur batteries and sodium-nickel chloride batteries; both are high-temperature batteries and use a solid, sodium conducting electrolyte. Additional information on sodium-based batteries technology, their chemistries and construction are given in Annex B.
...view more
- Standard70 pagesEnglish and French language
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IEC 60086-6:2020 applies to all chemistries of portable primary cells and batteries standardized in the 60086 series. The purpose of this document is to provide guidance on the proper scientific protocols for testing the environmental performance of batteries; the symbols used to convey messages for collection, recycling, or other ideas; and the aspects and functional unit(s) to be included in assessing the environmental impact of batteries with modern life-cycle analysis techniques
- Standard36 pagesEnglish language
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IEC 63056:2020 specifies requirements and tests for the product safety of secondary lithium cells and batteries used in electrical energy storage systems (Figure 2) with a maximum DC voltage of 1 500 V (nominal).
Basic safety requirements for the secondary lithium cells and batteries used in industrial applications are included in IEC 62619. This document provides additional or specific requirements for electrical energy storage systems.
Since this document covers batteries for various electri...view more
- Standard37 pagesEnglish and French language
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IEC 63115-1:2020 specifies the marking, designation, tests and requirements for sealed nickelmetal hydride cells and batteries used in industrial applications, including stationary applications. When an IEC International Standard specifying test conditions and requirements for cells used in special applications is in conflict with this document, the former takes precedence (e.g. IEC 62675). The following are some examples of applications that utilize the cells and batteries falling under the sc...view more
- Standard31 pagesEnglish language
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IEC 62984-1:2020 specifies general aspects, definitions and tests for high-temperature secondary batteries for mobile and/or stationary use and whose nominal voltage does not exceed 1 500 V.
This document does not cover aircraft batteries, which are covered by IEC 60952 (all parts), or batteries for the propulsion of electric road vehicles, covered by IEC 61982 (all parts).
- Standard71 pagesEnglish and French language
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IEC 62984-2:2020 specifies safety requirements and test procedures for high-temperature batteries for mobile and/or stationary use and whose rated voltage does not exceed 1 500 V.
This document does not cover aircraft batteries, which are covered by IEC 60952 (all parts), and batteries for the propulsion of electric road vehicles, covered by IEC 61982 (all parts).
- Standard74 pagesEnglish and French language
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