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Standard

Life Test for Heavy-Duty Storage Batteries (Lead Acid Type only)

2018-01-24
CURRENT
J2185_201801
This SAE Standard applies to lead-acid 12 V heavy-duty storage batteries as described in SAE J537 and SAE J930 for uses in starting, lighting and ignition (SLI) applications on motor vehicles and/or off-road machines. These applications have some of the following characteristics: a High levels of power are required to start the vehicle’s internal combustion engine. The need to supply this power limits the maximum depth of discharge to a fraction of the total capacity of the battery.
Standard

Life Test for Heavy-Duty Storage Batteries (Lead Acid Type only)

2012-02-21
HISTORICAL
J2185_201202
This SAE Standard applies to lead-acid 12 V heavy-duty storage batteries as described in SAE J537 and SAE J930 for uses in starting, lighting and ignition (SLI) applications on motor vehicles and/or off-road machines. These applications have some of the following characteristics: a High levels of power are required to start the vehicle’s internal combustion engine. The need to supply this power limits the maximum depth of discharge to a fraction of the total capacity of the battery.
Standard

STORAGE BATTERIES FOR OFF-ROAD SELF-PROPELLED WORK MACHINES

1995-06-01
HISTORICAL
J930_199506
This SAE Standard applies to all types of heavy-duty storage batteries for use on off-road machines as described in SAE J1116. Included are definitions of industry terms, test procedures, general requirements, application recommendations, standard sizes, overall dimensions, and electrical values.
Standard

Storage Batteries for Off-Road Self-Propelled Work Machines

2016-05-10
CURRENT
J930_201605
This SAE Standard applies to all types of heavy-duty storage batteries for use on off-road machines as described in SAE J1116. Included are definitions of industry terms, test procedures, general requirements, application recommendations, standard sizes, overall dimensions, and electrical values.
Standard

Storage Batteries for Off-Road Work Machines

1984-08-01
HISTORICAL
J930_198408
This SAE Standard applies to all types of heavy-duty storage batteries for use on off-road machines as described in SAE J1116. Included are definitions of industry terms, test procedures, general requirements, application recommendations, standard sizes, overall dimensions, and electrical values.
Standard

Storage Batteries for Off-Road Work Machines

1976-06-01
HISTORICAL
J930B_197606
This SAE Standard applies to all types of heavy-duty storage batteries for use on off-road machines as described in SAE J1116. Included are definitions of industry terms, test procedures, general requirements, application recommendations, standard sizes, overall dimensions, and electrical values.
Standard

Storage Batteries

1978-06-01
HISTORICAL
J537J_197806
This SAE Standard serves as a guide for testing procedures of automotive 12 V storage batteries and as a publication providing information on container holddown configuration and terminal geometry. The ratings submitted are to be based on procedures described in this document. The ratings submitted must be of a level that when any subsequent significant sample is tested in accordance with this document, that at least 90% of the batteries shall meet the ratings. The choice of 90% compliance recognizes that batteries consist of many plates and require chemical-electrical formation procedures and small variations in test conditions and procedures can affect the performance of individual batteries. Future Considerations - In order to expedite the release of this revision of the Standard, several topic areas were deferred for consideration in future revisions.
Standard

Storage Batteries

1982-06-01
HISTORICAL
J537_198206
This SAE Standard serves as a guide for testing procedures of automotive 12 V storage batteries and as a publication providing information on container holddown configuration and terminal geometry. The ratings submitted are to be based on procedures described in this document. The ratings submitted must be of a level that when any subsequent significant sample is tested in accordance with this document, that at least 90% of the batteries shall meet the ratings. The choice of 90% compliance recognizes that batteries consist of many plates and require chemical-electrical formation procedures and small variations in test conditions and procedures can affect the performance of individual batteries. Future Considerations - In order to expedite the release of this revision of the Standard, several topic areas were deferred for consideration in future revisions.
Standard

Storage Batteries

1970-06-01
HISTORICAL
J537F_197006
This SAE Standard serves as a guide for testing procedures of automotive 12 V storage batteries and as a publication providing information on container holddown configuration and terminal geometry. The ratings submitted are to be based on procedures described in this document. The ratings submitted must be of a level that when any subsequent significant sample is tested in accordance with this document, that at least 90% of the batteries shall meet the ratings. The choice of 90% compliance recognizes that batteries consist of many plates and require chemical-electrical formation procedures and small variations in test conditions and procedures can affect the performance of individual batteries. Future Considerations - In order to expedite the release of this revision of the Standard, several topic areas were deferred for consideration in future revisions.
Standard

Storage Batteries

1977-10-01
HISTORICAL
J537H_197710
This SAE Standard serves as a guide for testing procedures of automotive 12 V storage batteries and as a publication providing information on container holddown configuration and terminal geometry. The ratings submitted are to be based on procedures described in this document. The ratings submitted must be of a level that when any subsequent significant sample is tested in accordance with this document, that at least 90% of the batteries shall meet the ratings. The choice of 90% compliance recognizes that batteries consist of many plates and require chemical-electrical formation procedures and small variations in test conditions and procedures can affect the performance of individual batteries. Future Considerations - In order to expedite the release of this revision of the Standard, several topic areas were deferred for consideration in future revisions.
Standard

Storage Batteries

1992-06-01
HISTORICAL
J537_199206
This SAE Standard serves as a guide for testing procedures of automotive 12 V storage batteries and as a publication providing information on container holddown configuration and terminal geometry. The ratings submitted are to be based on procedures described in this document. The ratings submitted must be of a level that when any subsequent significant sample is tested in accordance with this document, that at least 90% of the batteries shall meet the ratings. The choice of 90% compliance recognizes that batteries consist of many plates and require chemical-electrical formation procedures and small variations in test conditions and procedures can affect the performance of individual batteries. Future Considerations - In order to expedite the release of this revision of the Standard, several topic areas were deferred for consideration in future revisions.
Standard

Storage Batteries

1986-06-01
HISTORICAL
J537_198606
This SAE Standard serves as a guide for testing procedures of automotive 12 V storage batteries and as a publication providing information on container holddown configuration and terminal geometry. The ratings submitted are to be based on procedures described in this document. The ratings submitted must be of a level that when any subsequent significant sample is tested in accordance with this document, that at least 90% of the batteries shall meet the ratings. The choice of 90% compliance recognizes that batteries consist of many plates and require chemical-electrical formation procedures and small variations in test conditions and procedures can affect the performance of individual batteries. Future Considerations - In order to expedite the release of this revision of the Standard, several topic areas were deferred for consideration in future revisions.
Standard

Storage Batteries

2011-05-23
HISTORICAL
J537_201105
This SAE Standard serves as a guide for testing procedures of automotive 12 V storage batteries and as a publication providing information on container holddown configuration and terminal geometry.
Standard

Storage Batteries

2016-04-05
CURRENT
J537_201604
This SAE Standard serves as a guide for testing procedures of automotive 12 V storage batteries.
Standard

Storage Batteries

1966-12-01
HISTORICAL
J537D_196612
This SAE Standard serves as a guide for testing procedures of automotive 12 V storage batteries and as a publication providing information on container holddown configuration and terminal geometry. The ratings submitted are to be based on procedures described in this document. The ratings submitted must be of a level that when any subsequent significant sample is tested in accordance with this document, that at least 90% of the batteries shall meet the ratings. The choice of 90% compliance recognizes that batteries consist of many plates and require chemical-electrical formation procedures and small variations in test conditions and procedures can affect the performance of individual batteries. Future Considerations - In order to expedite the release of this revision of the Standard, several topic areas were deferred for consideration in future revisions.
Standard

Storage Batteries

1970-01-01
HISTORICAL
J537F_197001
This SAE Standard serves as a guide for testing procedures of automotive 12 V storage batteries and as a publication providing information on container holddown configuration and terminal geometry. The ratings submitted are to be based on procedures described in this document. The ratings submitted must be of a level that when any subsequent significant sample is tested in accordance with this document, that at least 90% of the batteries shall meet the ratings. The choice of 90% compliance recognizes that batteries consist of many plates and require chemical-electrical formation procedures and small variations in test conditions and procedures can affect the performance of individual batteries. Future Considerations - In order to expedite the release of this revision of the Standard, several topic areas were deferred for consideration in future revisions.
Standard

Life Test for Automotive Storage Batteries

2012-12-03
CURRENT
J240_201212
This SAE Standard applies to 12 V, flooded lead acid automotive storage batteries of 180 minutes or less reserve capacity using cast positive grid technology only. This life test simulates automotive service when the battery operates in a voltage regulated charging system. It subjects the battery to charge and discharge cycles comparable to those encountered in automotive service. Other performance and dimensional information is contained in the latest issue of SAE J537. This document is intended as a guide toward standard practice, but may be subject to change to keep pace with experience and technical advances.
Standard

Test Procedure for Battery Flame Retardant Venting Systems

2018-11-12
CURRENT
J1495_201811
This SAE Standard details procedures for testing lead-acid SLI (starting, lighting, and ignition), heavy-duty, EV (electric vehicle), and RV (recreational vehicle) batteries, to determine the effectiveness of the battery venting system to retard the propagation of an externally ignited flame of battery gas into the interior of the battery under sustained overcharge conditions. NOTE: At this time, 2018, there is no known comparable ISO Standard.
Standard

Test Procedure for Battery Flame Retardant Venting Systems

2012-08-06
HISTORICAL
J1495_201208
This SAE Standard details procedures for testing lead-acid SLI (starting, lighting, and ignition), Heavy-Duty, EV (electric vehicle) and RV (recreational vehicle) batteries to determine the effectiveness of the battery venting system to retard the propagation of an externally ignited flame of battery gas into the interior of the battery where an explosive mixture can be present. NOTE: At this time 2011, there is no known comparable ISO Standard.
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