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Standard

Vehicle Electronic Programming Stations (VEPS) System Specification for Win32™

2010-02-05

HISTORICAL

J2461_201002

SAE J2461 specifies the recommended practices of a Vehicle Electronics Programming Stations (VEPS) architecture.in a Win32™ environment. This system specification, SAE J2461, was a revision of the requirements for Vehicle Electronics Programming Stations (VEPS) set forth in SAE J2214, Vehicle Electronics Programming Stations (VEPS) System Specification for Programming Components at OEM Assembly Plants (Cancelled Jun 2004). The J2214 standard has been cancelled indicating that it is no longer needed or relevant.

Standard

Vehicle Electronic Programming Stations (VEPS) System Specification for Win32™

2002-08-29

HISTORICAL

J2461_200208

This system specification, SAE J2461, revises the requirements for Vehicle Electronics Programming Stations (VEPS) set forth in SAE J2214, Vehicle Electronics Programming Stations (VEPS) System Specification for Programming Components at OEM Assembly Plants. SAE J2461 specifies the recommended practices for a Win32™ environment while maintaining the core VEPS architecture specified in SAE J2214.

Standard

Vehicle Electronic Programming Stations (VEPS) System Specification for Win32®

2022-11-22

HISTORICAL

J2461_202211

SAE J2461 specifies the recommended practices of a Vehicle Electronics Programming Stations (VEPS) architecture.in a Win32® environment. This system specification, SAE J2461, was a revision of the requirements for Vehicle Electronics Programming Stations (VEPS) set forth in SAE J2214, Vehicle Electronics Programming Stations (VEPS) System Specification for Programming Components at OEM Assembly Plants (Cancelled Jun 2004). The J2214 standard has been cancelled indicating that it is no longer needed or relevant.

Standard

Vehicle Electronic Programming Stations (VEPS) System Specification for Win32®

2013-09-23

HISTORICAL

J2461_201309

SAE J2461 specifies the recommended practices of a Vehicle Electronics Programming Stations (VEPS) architecture.in a Win32® environment. This system specification, SAE J2461, was a revision of the requirements for Vehicle Electronics Programming Stations (VEPS) set forth in SAE J2214, Vehicle Electronics Programming Stations (VEPS) System Specification for Programming Components at OEM Assembly Plants (Cancelled Jun 2004). The J2214 standard has been cancelled indicating that it is no longer needed or relevant.

Standard

Vehicle Electronic Programming Stations (VEPS) System Specification for Programming Components at OEM Assembly Plants

2004-06-01

CURRENT

J2214_200406

The SAE J2214 specification describes the application of the MS-DOS(TM) computer between the OEM and component vendors, defines the required elements comprising a Vehicle Electronics Programming Station, and identifies software interfaces needed between OEM-supplied elements and vendor-supplied elements. The software interfaces are described in SAE J2286 and SAE J1683. By maintaining common elements with J1924, the orderly transition from vendor Communication Programs to Vendor Component Programs will be assured. Beyond clarification of the J1924 document, the changes to VEPS and Vendor Communications Programs are focused on the implementation of a common method for communicating with the vehicle's network for all vendor communications.

Standard

Truck Deformation Classification

2017-02-23

HISTORICAL

J1301_201702

The scope and purpose of this SAE Recommended Practice is to provide a classification system for deformation sustained by trucks involved in collisions on the highway. Application of the document is limited to medium trucks, heavy trucks, and articulated combinations.1 The TDC classifies collision contact deformation, as opposed to induced deformation, so that the deformation is segregated into rather narrow limits or categories. Studies of collision deformation can then be performed on one or many data banks with assurance that data under study are of essentially the same type.2 Many of the features of the SAE J224 MAR80 have been retained in this document, although the characters within specific columns vary. Each document must therefore be applied to the appropriate vehicle type. It is also important to note that the Truck Deformation Classification (TDC) does not identify specific vehicle configurations and body types.

Standard

Truck Deformation Classification

2022-06-02

CURRENT

J1301_202206

The scope and purpose of this SAE Recommended Practice is to provide a classification system for deformation sustained by trucks involved in collisions on the highway. Application of the document is limited to medium trucks, heavy trucks, and articulated combinations.1 The Truck Deformation Classification (TDC) classifies collision contact deformation, as opposed to induced deformation, so that the deformation is segregated into rather narrow limits or categories. Studies of collision deformation can then be performed on one or many data banks with assurance that data under study are of essentially the same type.2 Many of the features of the SAE J224 MAR80 have been retained in this document, although the characters within specific columns vary. Each document must therefore be applied to the appropriate vehicle type. It is also important to note that the TDC does not identify specific vehicle configurations and body types.

Standard

Travel Performance and Rating Procedure, Crawler Mounted Hydraulic Excavators, Material Handlers, Knuckle Boom Log Loaders, and Certain Forestry Equipment

2012-01-06

CURRENT

J1309_201201

This SAE Standard describes a uniform method to calculate and specify travel performance characteristics of hydraulic excavators, material handlers, knuckle boom log loaders, delimbers, feller bunchers, harvesters, processors, and other knuckle boom material handlers. It establishes definitions and specifies machine conditions for calculations and tests. This document applies to crawler mounted machines such as hydraulic excavators as defined in SAE J/ISO 6165 and ISO 7135, and knuckle boom log loaders as defined in SAE J1209 and SAE J2055. This document also applies to certain forestry equipment defined in SAE J1209 and ISO 6814 that have crawler mountings such as delimbers, feller bunchers, harvesters, and processors. Included in the definition of hydraulic excavators are also front shovel, clamshell, and telescoping boom excavators.

Standard

Tire Size Differential - Articulated Wheel Loader

2019-11-20

CURRENT

J2204_201911

This SAE Standard applies to the usage of tires of the same nominal size and tread type, but with different outside diameter for articulated front-end loaders. Articulated four-wheel-drive front-end loader performance and component life can be affected by excessive differences in the tire outside circumference and/or diameter. The purpose is to provide specific guidelines for the usage of tires with different outside circumference and/or diameter on articulated front-end loaders.

Standard

Tests for Signal and Marking Devices Used on Vehicles 2032 mm or More in Overall Width

2014-12-02

CURRENT

J2139_201412

This SAE Recommended Practice provides standardized laboratory tests, test methods, and performance requirements applicable to signal and marking devices used on vehicles 2032 mm or more in overall width.

Standard

Technical Publications for Off-Road Self-Propelled Work Machines

2013-10-29

CURRENT

J920_201310

This Recommended Practice applies to technical publications which present instructions for the proper unloading, set-up, installations, pre-delivery inspection, operation, and servicing of off-road self-propelled work machines as categorized in SAE J1116. Advertising/marketing and other pre-purchase publications are not included.

Standard

Technical Publications for Off-Road Self-Propelled Work Machines

2021-04-14

WIP

J920

This Recommended Practice applies to technical publications which present instructions for the proper unloading, set-up, installations, pre-delivery inspection, operation, and servicing of off-road self-propelled work machines as categorized in SAE J1116. Advertising/marketing and other pre-purchase publications are not included.

Standard

TRUCK IDENTIFICATION TERMINOLOGY

1981-12-01

HISTORICAL

J1229_198112

This SAE Recommended Practice is intended to provide uniform nomenclature and definitions for the primary levels of vehicle identification, with particular application to trucks.

Standard

TRUCK IDENTIFICATION TERMINOLOGY

1978-05-01

HISTORICAL

J1229_197805

This SAL Recommended Practice is intended to provide uniform nomenclature and definitions for the primary levels of vehicle identification, with particular application to trucks. While this specific terminology applies only to trucks, work is in progress to develop supplementary nomenclature and definitions pertaining to other commercial vehicle terms and to terms presently used interchangeably in passenger car, truck, or other commercial vehicle applications. The supplementary terms will be covered in subsequent revisions to this recommended practice.

Standard

TIRE SIZE DIFFERENTIAL—ARTICULATED WHEEL LOADER

1994-05-01

HISTORICAL

J2204_199405

This SAE Standard applies to the usage of tires of the same nominal size and tread type, but with different outside diameter for articulated front-end loaders. Articulated four-wheel-drive front-end loader performance and component life can be affected by excessive differences in the tire outside circumference and/or diameter. The purpose is to provide specific guidelines for the usage of tires with different outside circumference and/or diameter on articulated front-end loaders.

Standard

Structural Testing of Passenger Car and Truck Disc Brakes

2014-11-15

CURRENT

J1713_201411

This SAE Recommended Practices specifies a procedure for determining structural strength and fatigue life of disc-brake caliper assemblies which are satisfactory for vehicle usage. It is applicable to new caliper assemblies which are employed in passenger car and truck brake systems utilizing hydraulic brake fluids. Brake design and vehicle performance requirements are not included. Specification limits are left to the discretion of the responsible manufacturer. This procedure was developed for base brake operation and does not consider some unusual effects of ABS (Anti-Lock-Brake System) or Traction Control systems which may have a significant effect on the caliper. Careful analysis of the particular type ABS and/or Traction Control should be made and additional tests may be required which are not included in this document.

Standard

Steel Products for Rollover Protective Structures (ROPS) and Falling Object Protective Structures (FOPS)

2008-04-14

HISTORICAL

J1119_200804

The purpose of this SAE Information Report is to provide concepts for rational selection and application of materials for Rollover Protective Structures (ROPS) and Falling Object Protective Structures (FOPS) and to provide information about the properties that should be considered in selecting and utilizing material in protective structures. While other materials could conceivably be used successfully, this report is limited to a consideration of steel with discussion on its mechanical properties and processing characteristics. Emphasis is placed on the toughness aspect (ability to resist brittle fracture) as this property is of paramount importance to structure integrity. It is emphasized that specific values for material properties have relevance to performance only in conjunction with specific design considerations such as structure size or weld joint detail and location.

Standard

Steel Products for Rollover Protective Structures (ROPS) and Falling Object Protective Structures (FOPS)

2002-09-20

HISTORICAL

J1119_200209

The purpose of this SAE Information Report is to provide concepts for rational selection and application of materials for Rollover Protective Structures (ROPS) and Falling Object Protective Structures (FOPS) and to provide information about the properties that should be considered in selecting and utilizing material in protective structures. While other materials could conceivably be used successfully, this report is limited to a consideration of steel with discussion on its mechanical properties and processing characteristics. Emphasis is placed on the toughness aspect (ability to resist brittle fracture) as this property is of paramount importance to structure integrity. It is emphasized that specific values for material properties have relevance to performance only in conjunction with specific design considerations such as structure size or weld joint detail and location.

Standard

Spherical and Flanged Sleeve (Compression) Tube Fittings

2022-01-12

CURRENT

J246_202201

This SAE Standard covers complete general and dimensional specifications for tube fittings of the spherical and flanged sleeve compression types for use in the piping of air brake systems on automotive vehicles. The spherical sleeve compression type Figures 1A to 5 and Tables 1 to 3 is intended for use with annealed copper alloy tubing per SAE J1149, Type 1. The flanged sleeve compression type Figures 6A to 11 and Tables 4 to 6 is intended for use with nylon tubing per SAE J844. It is not intended to restrict or preclude other designs of a tube fitting for use with SAE J844, air brake tubing. Performance requirements for SAE J844 are covered in SAE J1131. See SAE J1131 for the Performance Requirements of Reusable (Push to Connect) Fittings Intended for Use in Automotive Air Brake Systems.

Standard

Spherical and Flanged Sleeve (Compression) Tube Fittings

2017-11-29

HISTORICAL

J246_201711

This SAE Standard covers complete general and dimensional specifications for tube fittings of the spherical and flanged sleeve compression types for use in the piping of air brake systems on automotive vehicles. The spherical sleeve compression type Figures 1A to 5 and Tables 1 to 3 is intended for use with annealed copper alloy tubing per SAE J1149, Type 1. The flanged sleeve compression type Figures 6A to 11 and Tables 4 to 6 is intended for use with nylon tubing per SAE J844. It is not intended to restrict or preclude other designs of a tube fitting for use with SAE J844, air brake tubing. Performance requirements for SAE J844 are covered in SAE J1131. See SAE J1131 for the Performance Requirements of Reusable (Push to Connect) Fittings Intended for Use in Automotive Air Brake Systems.