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Standard

Automotive Stability Enhancement Systems

2000-12-01
HISTORICAL
J2564_200012
The purpose of this SAE Information Report is to describe currently known automotive active stability enhancement systems, as well as identify common names which can be used to refer to the various systems and common features and functions of the various systems. The primary systems discussed are: a. ABS--Antilock Braking Systems b. TCS--Traction Control Systems c. AYC--Active Yaw Control Systems The document is technical in nature and attempts to remain neutral about specific manufacturer designs, and automobile producer features.
Standard

Automotive Stability Enhancement Systems

2017-11-14
CURRENT
J2564_201711
The purpose of this SAE Information Report is to describe currently known automotive active stability enhancement systems, as well as identify common names which can be used to refer to the various systems and common features and functions of the various systems. The primary systems discussed are: a ABS - Antilock Brake Systems b TCS - Traction Control Systems c ESC - Electronic Stability Control The document is technical in nature and attempts to remain neutral regarding unique features that individual system or vehicle manufacturers may provide.
Standard

Automotive Stability Enhancement Systems

2004-06-07
HISTORICAL
J2564_200406
The purpose of this SAE Information Report is to describe currently known automotive active stability enhancement systems, as well as identify common names which can be used to refer to the various systems and common features and functions of the various systems. The primary systems discussed are: a ABS—Antilock Brake Systems b TCS—Traction Control Systems c ESC—Electronic Stability Control The document is technical in nature and attempts to remain neutral regarding unique features that individual system or vehicle manufacturers may provide.
Standard

New-Vehicle Collision Repair Information

1997-12-01
HISTORICAL
J2376_199712
This SAE Recommended Practice defines the various types of information required by the collision repair industry to properly restore light-duty, highway vehicles to their pre-accident condition. Procedures and specifications are defined for damage- related repairs to body, mechanical, electrical, steering, suspension, and safety systems. The distribution method and publication timeliness are also considered. The purpose of this document is to assist vehicle and equipment manufacturers, and information providers in providing timely information, in user-friendly formats, to facilitate economical, high-quality repair of collision-damaged, light duty, highway vehicles by dealer-owned and independently owned collision repair shops.
Standard

Thermal Containment Efficiency of Sleeve Materials

2008-09-04
HISTORICAL
J2495_200809
This SAE Standard measures the percent thermal efficiency of materials in sleeve form used to contain heat or insulate around a hot component. The percent thermal efficiency (%TE) is determined by measuring the power difference expended by the heat source (cartridge heater) with and without the test sleeve at the specified temperature. See SAE J2302 to measure radiant heat flow of sleeves.
Standard

Wheel Mounting Elements for Industrial and Agricultural Disc Wheels

1986-06-01
HISTORICAL
J714_198606
This SAE Recommended Practice includes wheel mounting elements subject to standardization in a series of industrial and agricultural disc wheels. The disc may be reversible or nonreversible and concave or convex (See Figure 1 and Table 1).
Standard

Vehicle Electromagnetic Immunity--On-Board Transmitter Simulation

2009-08-03
CURRENT
J551/12_200908
This part of SAE J551 specifies on-board transmitter simulation test methods and procedures for testing passenger cars and commercial vehicles. The electromagnetic disturbances considered in this part of SAE J551 are limited to continuous narrow band electromagnetic fields. SAE J551/1 specifies general, definitions, practical use, and basic principles of the test procedure.
Standard

Discharge Signal Lighting System

2008-09-02
HISTORICAL
J2320_200809
This SAE Recommended Practice applies to motor vehicle signaling and marking devices which use light generated by a discharge source. This document provides test methods, requirements, and guidelines applicable to the unique characteristics of discharge lighting systems and their components. These are in addition to those required for signal and marking devices. This document is intended to be a guide to standard practice and is subject to change to reflect additional experience and technical advances.
Standard

Engine and Transmission Dipstick Marking

1977-08-01
HISTORICAL
J614_197708
This SAE Recommended Practice provides information useful in the marking of engine and transmission dipsticks used for fluid level indication.
Standard

Companion Flanges, Type A (External Pilot) and Type S (Internal Pilot)

1991-01-31
HISTORICAL
J1946_199101
This SAE Standard specifies the nominal dimensions and tolerances which affect the interchangeability between companion flanges and mating parts. The flanges covered by this document are designated type A and type S. The type A flanges are equivalent to type A ISO 7646. The type S flanges are equivalent to the type S ISO 7647. Type A is an external (male) pilot construction and type S is an internal (female) pilot construction. These flanges are not interchangeable. Dimensions not specified are left to the discretion of the component manufacturer.
Standard

Life Cycle Testing of Electric Vehicle Battery Modules

1997-01-01
HISTORICAL
J2288_199701
This SAE Recommended Practice defines a standardized test method to determine the expected service life, in cycles, of electric vehicle battery modules. It is based on a set of nominal or baseline operating conditions in order to characterize the expected degradation in electrical performance as a function of life and to identify relevant failure mechanisms where possible. Accelerated aging is not included in the scope of this procedure, although the time compression resulting from continuous testing may unintentionally accelerate battery degradation unless test conditions are carefully controlled. The process used to define a test matrix of accelerated aging conditions based on failure mechanisms, and to establish statistical confidence levels for the results, is considered beyond the scope of this document. Because the intent is to use standard testing conditions whenever possible, results from the evaluation of different technologies should be comparable.
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