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Standard

STANDARD FOR D.C. BRUSH MOTOR - HVAC BLOWERS

2020-11-19

CURRENT

USCAR6-1

This standard sets forth the performance and durability requirements for 12-volt, D.C. brush-type electric motors used for automobile Heating, Ventilation, and Air Conditioning (HVAC) blowers and outlines Production Validation and Continuing Conformance testing.

Standard

STANDARD FOR D.C. BRUSH MOTOR – HVAC BLOWERS

1999-02-01

HISTORICAL

USCAR6

This standard sets forth the performance and durability requirements for 12-volt, D.C. brush-type electric motors used for automobile Heating, Ventilation, and Air Conditioning (HVAC) blowers and outlines Production Validation and Continuing Conformance testing.

Standard

NEW FINISH DEVELOPMENT DOCUMENT

2020-11-19

CURRENT

USCAR32-1

This standard lists variables that shall be investigated and reported as an initial investigation into new or revised surface finishes intended for use on fasteners. This standard provides instruction for producing a final report that will be used to determine if further investigation of a surface finish is justified. Further investigation may include tests and evaluations specific to an individual OEM prior to introduction/approval of the surface finish. The final report shall include the results, observations, and conclusions for all of the variables. The final report may be made up of several individual reports covering each variable. In all cases the laboratory performing the test, the test date and the report approver shall be included in the final report.

Standard

NEW FINISH DEVELOPMENT DOCUMENT

2007-03-13

HISTORICAL

USCAR32

This standard lists variables that shall be investigated and reported as an initial investigation into new or revised surface finishes intended for use on fasteners. This standard provides instruction for producing a final report that will be used to determine if further investigation of a surface finish is justified. Further investigation may include tests and evaluations specific to an individual OEM prior to introduction/approval of the surface finish. The final report shall include the results, observations, and conclusions for all of the variables. The final report may be made up of several individual reports covering each variable. In all cases the laboratory performing the test, the test date and the report approver shall be included in the final report.

Standard

ROAD VEHICLES – 60 V AND 600 V SINGLE CORE (ISO/METRIC) CABLES – DIMENSIONS, TEST METHODS AND REQUIREMENTS

2017-07-13

CURRENT

USCAR23-1

This International Standard specifies the dimensions, test methods, and requirements for single core 60 V cables intended for use in road vehicle applications where the nominal system voltage is ≤ (60 V DC or 25 V AC). It also specifies additional test methods and/or requirements for 600 V cables intended for use in road vehicle applications where the nominal system voltage is > (60 V DC or 25 V AC) to ≤ (600 V DC or 600 V AC). It also applies to individual cores in multi-core cables. See ISO 6722 for “Temperature Class Ratings”.

Standard

ROAD VEHICLES – 60 V AND 600 V SINGLE CORE (ISO/METRIC) CABLES – DIMENSIONS, TEST METHODS AND REQUIREMENTS

2002-09-09

HISTORICAL

USCAR23

This International Standard specifies the dimensions, test methods, and requirements for single core 60 V cables intended for use in road vehicle applications where the nominal system voltage is ≤ (60 V DC or 25 V AC). It also specifies additional test methods and/or requirements for 600 V cables intended for use in road vehicle applications where the nominal system voltage is > (60 V DC or 25 V AC) to ≤ (600 V DC or 600 V AC). It also applies to individual cores in multi-core cables. See ISO 6722 for “Temperature Class Ratings”.

Standard

SPECIFICATION FOR TESTING AUTOMOTIVE MINIATURE BULBS

2022-03-15

CURRENT

USCAR3-4

The procedures contained in this specification cover the laboratory testing of miniature incandescent bulbs for use in automotive illumination and signaling applications. The following tests shall be run whenever the following occurs: New bulb design Design or process change made to an existing bulb, which could affect the outcome of the test. The completion of one calendar year as noted in the following Test Schedule Table. Process control data is acceptable.

Standard

STANDARD FOR IN-TANK ELECTRIC FUEL PUMPS

1999-08-15

HISTORICAL

USCAR13

This standard covers the operational characteristics, environment, durability procedures, and test procedures for in-tank electric fuel pumps for automotive gasoline applications. Specific performance and test criteria used in conjunction with this procedure are specified on the pump drawing. Particular sections of this document may be required for all applications. This standard is intended to evaluate specific characteristics as a supplement to normal material inspections, dimensional checking, and in-process controls, and should in no way adversely influence other inspection operations.

Standard

STANDARD FOR IN-TANK ELECTRIC FUEL PUMPS

2020-11-19

CURRENT

USCAR13-1

This standard covers the operational characteristics, environment, durability procedures, and test procedures for in-tank electric fuel pumps for automotive gasoline applications. Specific performance and test criteria used in conjunction with this procedure are specified on the pump drawing. Particular sections of this document may be required for all applications. This standard is intended to evaluate specific characteristics as a supplement to normal material inspections, dimensional checking, and in-process controls, and should in no way adversely influence other inspection operations.

Standard

USCAR INFLATOR TECHNICAL REQUIREMENTS AND VALIDATION

2013-04-30

HISTORICAL

USCAR24-2

This specification establishes the performance, and validation requirements for the inflator assembly used in airbag modules. Seatbelt Pretensioners are covered as a reference only.

Standard

USCAR INFLATOR TECHNICAL REQUIREMENTS AND VALIDATION

2004-06-24

HISTORICAL

USCAR24

This specification establishes the performance, and validation requirements for the inflator assembly used in airbag modules. Pretensioners are covered only in respect to their effluents as included in Section 3.2.3, Effluents and their autoignition performance as included in Section 3.2.5, Autoignition, High Temperature Oven Performance/Autoignition of Heat Aged Inflators

Standard

Dimensional and Performance Specification for After-Market Gasoline Engine Oil Filters

2013-01-30

HISTORICAL

USCAR36

This specification defines the dimensional and performance requirements for aftermarket spin-on oil filters intended for use on gasoline engines. Filters meeting this specification may also be suitable for use on some diesel applications. Filters meeting these dimensional limits are intended to meet the oil filter fit and package requirements for engine and vehicle designs. Filters meeting the performance requirements are intended to maintain sufficient durability to support many of the OEM's recommended oil change intervals. Some OEM engines may require special filters for which this specification would not support.

Standard

DIMENSIONAL AND PERFORMANCE SPECIFICATION FOR AFTER-MARKET GASOLINE ENGINE OIL FILTERS

2021-05-13

CURRENT

USCAR36-1

This specification defines the dimensional and performance requirements for aftermarket spin-on oil filters intended for use on gasoline engines. Filters meeting this specification may also be suitable for use on some diesel applications. Filters meeting these dimensional limits are intended to meet the oil filter fit and package requirements for engine and vehicle designs. Filters meeting the performance requirements are intended to maintain sufficient durability to support typical 10000 mile oil change intervals. Some OEM engines may require special filters for which this specification would not support. Filters that meet or exceed this specification requirements for both dimensional and performance can claim “Conformance to SAE/USCAR - 36 Specifications.” Filters that meet just the performance specifications (ie. may have different thread) can claim “Aligns to SAE/USCAR - 36 Performance Specifications.”

Standard

SPECIFICATION FOR TESTING AUTOMOTIVE HALOGEN LIGHT SOURCES

2022-03-15

CURRENT

USCAR14-3

The procedures contained in this specification cover the laboratory testing of replaceable halogen incandescent bulbs for use in automotive road illumination. The following tests are intended to be run under the following conditions. New bulb design Design or process change made to an existing bulb, which could affect the outcome of the test The completion of one calendar year, accept as noted in the following Test Schedule Table. Test Title Yearly Physical Dimensions X Mean Spherical Candela (MSCD) X External Visual Examination X Color X Leak/Sealability Through Terminals and Seals X Deflection X Fluid Compatibility Terminal Retention X Resonant Frequencies Aged Resonant Frequency Salt Spray Outgassing Temperatures Requirement Laboratory Life at 14.0 VDC X Luminous Intensity Maintenance X Vibration Durability Shock Aged Vibration Durability Terminal Requirements DRL (SAE J2087)

Standard

SPECIFICATION FOR TESTING AUTOMOTIVE HALOGEN LIGHT SOURCES

2002-04-15

HISTORICAL

USCAR14-1

The procedures contained in this specification cover the laboratory testing of replaceable halogen incandescent bulbs for use in automotive road illumination. The following tests are intended to be run under the following conditions. New bulb design Design or process change made to an existing bulb, which could affect the outcome of the test The completion of one calendar year, accept as noted in the following Test Schedule Table. Test Title Yearly Physical Dimensions X Mean Spherical Candela (MSCD) X External Visual Examination X Color X Leak /Sealability Through Terminals and Seals X Deflection X Fluid Compatibility Terminal Retention X Resonant Frequencies Aged Resonant Frequency Salt Spray Outgassing Temperatures Requirement Laboratory Life at 14.0 VDC X Luminous Intensity Maintenance Vibration Durability Shock Aged Vibration Durability Terminal Requirements DRL (SAE J2087)

Standard

Ergonomics Specification for Electrical Connections

2016-02-15

HISTORICAL

USCAR25-2

This document describes the design relative to assembly force, and hand clearance guidelines for conventional hand-plug, mechanical assist and twist lock electrical connectors, as well as Connector Position Assurances (CPAs). The minimum values associated with this design guide need to be evaluated against other critical characteristics that impact quality, efficiency and other traits of assembly feasibility. All possible designs and applications could not be anticipated in creating these guidelines. Where there are questions of adherence to this document, such as use of an “off-the-shelf” design, always consult the responsible Ergonomics Department.

Standard

Ergonomics Specification for Electrical Connections

2016-03-10

CURRENT

USCAR25-3

This document describes the design relative to assembly force, and hand clearance guidelines for conventional hand-plug, mechanical assist and twist lock electrical connectors, as well as Connector Position Assurances (CPAs). The minimum values associated with this design guide need to be evaluated against other critical characteristics that impact quality, efficiency and other traits of assembly feasibility. All possible designs and applications could not be anticipated in creating these guidelines. Where there are questions of adherence to this document, such as use of an “off-the-shelf” design, always consult the responsible Ergonomics Department.

Standard

ELECTRICAL CONNECTOR ASSEMBLY ERGONOMIC DESIGN CRITERIA

2008-09-26

HISTORICAL

USCAR25-1

This document describes the design, assembly force, and packaging guidelines for conventional hand-plug, mechanical assist and twist lock electrical connectors, as well as Connector Position Assurances (CPAs). All possible designs and applications could not be anticipated in creating these guidelines. Where there are questions of adherence to this document, such as use of an “off-the-shelf” design, always consult the responsible Ergonomics Department. Refer to SAE/USCAR-12 Wiring Component Design Guidelines for additional guidelines.

Standard

ELECTRICAL CONNECTOR ASSEMBLY ERGONOMIC DESIGN CRITERIA

2003-05-03

HISTORICAL

USCAR25

This document describes the design and assembly force guidelines for conventional and mechanical assist (lever and slide-lock) electrical connectors and CPA’s. All possible designs and applications cannot be anticipated in creating these guidelines. Where there are questions of adherence to this document, such as use of an “off-the-shelf” design, always consult the responsible Ergonomics department. Refer to SAE/USCAR-12 Wiring Component Design Guidelines for additional guidelines.

Standard

PERFORMANCE SPECIFICATION FOR AUTOMOTIVE WIRE HARNESS RETAINER CLIPS

2017-05-10

HISTORICAL

USCAR44

This specification describes a method and acceptance criteria for testing automotive wire harness retainer clips. Retainer clips are plastic parts that hold a wire harness or electrical connector in a specific position. Typical plastic retainers work by having a set of “branches” that can be inserted into a hole sized to be easy to install but provide acceptable retention. This specification tests retainer clips for mechanical retention when exposed to the mechanical and environmental stresses typically found in automotive applications over a 15-year service life. This specification has several test options to allow the test to match to the expected service conditions. The variability of applications typically arises a) from different ambient temperatures near the clip, different proximity to automotive fluids, different exposure to standing water or water spray and different thicknesses of the holes that the clip is inserted into.