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Standard

Electrical Connectors for Aerospae, Shipboard, Ground Vehicles and Associated Equipment

2014-11-20
CURRENT
ARP1308D
The intent of this ARP is to identify electrical connectors maintained by the AE-8C1 Committee, to provide their general application characteristics, associated configuration options, and recommendations for new design (see 6.1.1), repair, and retrofit purposes (see 6.1). It is acknowledged the connectors listed herein will not completely satisfy all mobility vehicle and equipment requirements, but optimization of the use of these components will facilitate standardization in the form of maximum utilization of a minimum variety of connectors. This ARP only pertains to AS connector standards. See MIL-STD-1353 for U.S. military specification connector information.
Standard

Safety Requirements for Procurement, Maintenance and Use of Hand-held Powered Tools

2016-06-13
WIP
AS6228A
This SAE Aerospace Standard (AS) covers the requirements and technical guidance for evaluation of life-cycle cost, productivity, and safety/health factors related to power hand tool selection. It applies approaches to selection of quieter and lower vibration hand-held powered tools, with optimal ergonomic features, for the prevention of Hand-Arm Vibration Syndrome (HAVS), hearing loss and repetitive motion injuries. It suggests use of noise and vibration data provided by vendors to be verified and supplemented by information available through the National Institute for Occupational Safety and Health (NIOSH) and European Union databases. Inclusion/exclusion of data in this document is not intended to imply that all of the products described herein are the only production models that meet this standard. Consumers are requested to consult with manufacturers concerning lists of stock production models that meet this standard.
Standard

Safety Requirements for Procurement, Maintenance and Use of Hand-held Powered Tools

2014-09-12
CURRENT
AS6228
This SAE Aerospace Standard (AS) covers the requirements and technical guidance for evaluation of life-cycle cost, productivity, and safety/health factors related to power hand tool selection. It applies approaches to selection of quieter and lower vibration hand-held powered tools, with optimal ergonomic features, for the prevention of Hand-Arm Vibration Syndrome (HAVS), hearing loss and repetitive motion injuries. It suggests use of noise and vibration data provided by vendors to be verified and supplemented by information available through the National Institute for Occupational Safety and Health (NIOSH) and European Union databases. Inclusion/exclusion of data in this document is not intended to imply that all of the products described herein are the only production models that meet this standard. Consumers are requested to consult with manufacturers concerning lists of stock production models that meet this standard.
Standard

Recommended Practices for LNG Powered Heavy-Duty Trucks

1997-01-01
HISTORICAL
J2343_199701
This SAE Recommended Practice provides guidance for the construction, operation, and maintenance of LNG powered heavy-duty trucks. The purpose of this document is to establish a uniform practice for construction, operation, and maintenance of LNG powered trucks and is subject to change to keep pace with experience and technical advances. The revised Failure Modes and Effect Analysis which reflects the influence of this document is a separate document that is not part of this document but which is added as an informative appendix.
Standard

Power Line Carrier Communications for Commercial Vehicles

2007-06-21
HISTORICAL
J2497_200706
This SAE Recommended Practice defines a method for implementing a bidirectional, serial communications link over the vehicle power supply line among modules containing microcomputers. This document defines those parameters of the serial link that relate primarily to hardware and software compatibility such as interface requirements, system protocol, and message format that pertain to Power Line Communications (PLC) between Tractors and Trailers. This document defines a method of activating the trailer ABS Indicator Lamp that is located in the tractor.
Standard

Power Line Carrier Communications for Commercial Vehicles

2002-10-31
HISTORICAL
J2497_200210
This SAE Recommended Practice defines a method for implementing a bidirectional, serial communications link over the vehicle power supply line among modules containing microcomputers. This document defines those parameters of the serial link that relate primarily to hardware and software compatibility such as interface requirements, system protocol, and message format that pertain to Power Line Communications (PLC) between Tractors and Trailers. This document defines a method of activating the trailer ABS Indicator Lamp that is located in the tractor.
Standard

Power Line Carrier Communications for Commercial Vehicles

2012-07-30
CURRENT
J2497_201207
This SAE Recommended Practice defines a method for implementing a bidirectional, serial communications link over the vehicle power supply line among modules containing microcomputers. This document defines those parameters of the serial link that relate primarily to hardware and software compatibility such as interface requirements, system protocol, and message format that pertain to Power Line Communications (PLC) between Tractors and Trailers. This document defines a method of activating the trailer ABS Indicator Lamp that is located in the tractor.
Standard

Power Line Carrier Communications for Commercial Vehicles

2010-12-09
HISTORICAL
J2497_201012
This SAE Recommended Practice defines a method for implementing a bidirectional, serial communications link over the vehicle power supply line among modules containing microcomputers. This document defines those parameters of the serial link that relate primarily to hardware and software compatibility such as interface requirements, system protocol, and message format that pertain to Power Line Communications (PLC) between Tractors and Trailers. This document defines a method of activating the trailer ABS Indicator Lamp that is located in the tractor.
Standard

A Tilt Table Procedure for Measuring the Static Rollover Threshold for Heavy Trucks

1998-12-01
HISTORICAL
J2180_199812
The test procedure applies to roll coupled units such as straight trucks, tractor semitrailers, full trailers, B-trains, etc. The test is aimed at evaluating the level of lateral acceleration required to rollover a vehicle or a roll-coupled unit of a vehicle in a steady turning situation. Transient, vibratory, or dynamic rollover situations are not simulated by this test. Furthermore, the accuracy of the test decreases as the tilt angle increases, although this is a small effect at the levels of tilt angle used in testing heavy trucks. The test accuracy is accepted for vehicles that will rollover at lateral acceleration levels below 0.5 g corresponding to a tilt table angle of less than approximately 27 degrees. Even so, the results for heavy trucks with rollover thresholds greater than 0.5 g could be used for comparing their relative static roll stability.
Standard

A Tilt Table Procedure for Measuring the Static Rollover Threshold for Heavy Trucks

2011-05-17
CURRENT
J2180_201105
The test procedure applies to roll coupled units such as straight trucks, tractor semitrailers, full trailers, B-trains, etc. The test is aimed at evaluating the level of lateral acceleration required to rollover a vehicle or a roll-coupled unit of a vehicle in a steady turning situation. Transient, vibratory, or dynamic rollover situations are not simulated by this test. Furthermore, the accuracy of the test decreases as the tilt angle increases, although this is a small effect at the levels of tilt angle used in testing heavy trucks. The test accuracy is accepted for vehicles that will rollover at lateral acceleration levels below 0.5 g corresponding to a tilt table angle of less than approximately 27 degrees. Even so, the results for heavy trucks with rollover thresholds greater than 0.5 g could be used for comparing their relative static roll stability.
Standard

Fueling Protocol for Gaseous Hydrogen Powered Industrial Trucks

2013-06-12
CURRENT
J2601/3_201306
This document establishes safety limits and performance requirements for gaseous hydrogen fuel dispensers used to fuel Hydrogen Powered Industrial Trucks (HPITs). It also describes several example fueling methods for gaseous hydrogen dispensers serving HPIT vehicles. SAE J2601-3 offers performance based fueling methods and provides guidance to fueling system builders as well as suppliers of hydrogen powered industrial trucks and operators of the hydrogen powered vehicle fleet(s). This fueling protocol for HPITs can support a wide range of hydrogen fuel cell hybrid electric vehicles including fork lifts, tractors, pallet jacks, on and off road utility, and specialty vehicles of all types. The mechanical connector geometry for H25 and H35 connectors are defined in SAE J2600 Compressed Hydrogen Surface Vehicle Refueling Connection Devices.
Standard

Lift Capacity Calculation Method Knuckle-Boom Log Loaders and Certain Forestry Equipment

2014-10-21
CURRENT
J2417_201410
This SAE Standard provides a uniform method to calculate the lift capacity of knuckle-boom log loaders and certain forestry equipment. It establishes definitions and specifies machine conditions for calculations. This document applies to knuckle-boom log loaders as defined in ISO 6814 and ISO 17591 and certain forestry equipment defined in ISO 6814 that have a rotating upper-structure such as feller bunchers, forwarders, harvesters, and behind the cab or rear-mounted knuckle-boom log loaders not having their own power supply. It does not apply to harvesters that are incapable of lifting a tree or log completely off the ground. This document applies to those machines that are crawler, rubber-tired, and pedestal or stationary mounted.
Standard

In-Use Monitor Performance Ratio (IUMPR) Data Collection Tool Process

2017-11-14
WIP
J3162
Document industry's agreement with CARB for the collection of monitor ratios as required by 13 CCR 1971.1 (l)(2.2.3). Describe key features of of the data collection process and identity the repository for the completed means. Document examples of the data collected for submission to CARB in compliance to (l)(2.2.3). [Note: The means was developed under a contract administered by ETI, Inc. on industry's behalf and funded by industry. The means is wholly owned by ETI, who agrees to the use of the results for this purpose. No SAE resources were used in the development of the design or the embodiment of the means. The embodiment consists of a software detailed design and Java software housed in a Github repository using the MIT software licensing model].
Standard

Marine Fuel Hoses

2007-01-16
HISTORICAL
J1527_200701
This SAE Standard specifies requirements for two types, two classes and three styles of reinforced hose for conveying gasoline or diesel fuel aboard small craft including pleasure craft whose fuel systems are regulated under 33 CFR 183 Subpart J. Refer to SAE J1942 Hose and Hose Assemblies for commercial marine nonmetallic flexible hose or hose assemblies used in systems on board commercial vessels inspected and certified by the U.S. Coast Guard.
Standard

Marine Fuel Hoses

2006-06-26
HISTORICAL
J1527_200606
This SAE Standard specifies requirements for two types, two classes and three styles of reinforced hose for conveying gasoline or diesel fuel aboard small craft including pleasure craft whose fuel systems are regulated under 33 CFR 183 Subpart J. Refer to SAE J1942 Hose and Hose Assemblies for commercial marine nonmetallic flexible hose or hose assemblies used in systems on board commercial vessels inspected and certified by the U.S. Coast Guard.
Standard

Marine Fuel Hoses

1990-08-01
HISTORICAL
J1527_199008
This SAE Standard specifies requirements for two types, three classes and four styles of reinforced hose and non-reinforced tubing for conveying gasoline or diesel fuel aboard small craft including pleasure craft whose fuel systems are regulated under 33 CFR 183 Subpart J. Refer to SAE J1942 Hose and Hose Assemblies for commercial marine nonmetallic flexible hose or hose assemblies used in systems on board commercial vessels inspected and certified by the U.S. Coast Guard. Refer to SAE J2046 Personal Watercraft Fuel Systems for fuel hose used on Personal Watercraft.
Standard

Dynamic Cushioning Performance Criteria for Snowmobile Seats

1985-01-01
HISTORICAL
J89_198501
This SAE Recommended Practice encompasses the significant factors which determine the effectiveness of a seat system in limiting spinal injury during vertical impacts between the rider and the snowmobile seat system. The document is intended to provide a tool for the development of safer snowmobile seats. It is recognized that the seat is only a portion of the entire vehicle protective suspension system. It is, however, usually required that the seat serve as added protection to the suspension system, since the latter may "bottom out" during a severe impact. The term "seat" refers to the occupant-supporting system not normally considered part of the vehicle suspension or frame system. In some cases, it may include more than the foam cushion.
Standard

Dynamic Cushioning Performance Criteria for Snowmobile Seats

1973-07-01
HISTORICAL
J89_197307
This SAE Recommended Practice encompasses the significant factors which determine the effectiveness of a seat system in limiting spinal injury during vertical impacts between the rider and the snowmobile seat system. The document is intended to provide a tool for the development of safer snowmobile seats. It is recognized that the seat is only a portion of the entire vehicle protective suspension system. It is, however, usually required that the seat serve as added protection to the suspension system, since the latter may "bottom out" during a severe impact. The term "seat" refers to the occupant-supporting system not normally considered part of the vehicle suspension or frame system. In some cases, it may include more than the foam cushion.
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