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Viewing 1 to 30 of 3805
CURRENT
2017-04-27
Standard
J1939DA_201704
This document is intended to supplement the J1939 documents by offering the J1939 information in a form that can be sorted and search for easier use. The J1939 Digital Annex, introduced in August 2013, offers key J1939 technical data in an Electronic Spreadsheet that can be easily searched, sorted, and adapted to other formats. J1939DA contains all of the SPNs (parameters), PGNs (messages), and other J1939 data previously published in the SAE J1939 top level document. J1939DA also contains all of the SLOTs, Manufacturer ID Codes, NAME Functions, and Preferred Addresses previously published in the SAE J1939 top level and the J1939-71 document. J1939DA contains the complete technical details for all of the SPNs and PGNs previously published in the SAE J1939-71 document. It also includes the supporting descriptions and figures previously published in the SAE J1939-71 document.
2017-04-24
WIP Standard
AMS6457E

This specification covers a low alloy steel in the form of welding wire. Type 2 – Copper Coated wire was removed from this document (see 8.5).

CURRENT
2017-04-24
Standard
AS18029B
SCOOPE IS UNAVAILABLE.
CURRENT
2017-04-21
Standard
AIR6162
This document provides an orientation to fusion splicing technology for optical fibers and fiber optic cable. It is intended for managers, designers, installers, and repair and maintenance personnel who need to understand the process of fusion splicing. This technology is widely used in telecommunications and industrial applications, and is finding acceptance in aerospace applications.
CURRENT
2017-04-20
Standard
AS20708/68B
Scope is unavailable.
CURRENT
2017-04-20
Standard
AS20708/62B
Scope is unavailable.
CURRENT
2017-04-20
Standard
AS20708/76B
Scope is unavailable.
CURRENT
2017-04-20
Standard
AS20708/70B
No Scope Available
CURRENT
2017-04-20
Standard
AS20708/78B
Scope is unavailable.
CURRENT
2017-04-19
Standard
AS20708/66B
No Scope Available
CURRENT
2017-04-19
Standard
AS20708/79B
No Scope Available
CURRENT
2017-04-19
Standard
AS20708/80B
SCOPE IS UNAVAILABLE.
2017-04-18
WIP Standard
AS20708/139B
No scope available.
CURRENT
2017-04-18
Standard
AS20708/74B
No Scope Available
CURRENT
2017-04-18
Standard
AS20708/67B
No Scope Available
2017-04-18
WIP Standard
AS20708/81B
No Scope Available
2017-04-18
WIP Standard
AS20708/94C
This specification covers the detail requirements for 115 volt, 60 and 400 Hz, size 23 synchros.
2017-04-18
WIP Standard
AS20708/131B
no scope available
2017-04-18
WIP Standard
AS20708/500B
No Scope Available
2017-04-12
WIP Standard
J2601
SAE J2601 establishes the protocol and process limits for hydrogen fueling of light dutyand medium duty vehicles. These process limits (including the fuel delivery temperature, the maximum fuel flow rate, the rate of pressure increase and the ending pressure) are affected by factors such as ambient temperature, fuel delivery temperature and initial pressure in the vehicle’s compressed hydrogen storage system. SAE J2601 establishes standard fueling protocols based on either a look-up table approach utilizing a fixed pressure ramp rate, or a formula based approach utilizing a dynamic pressure ramp rate continuously calculated throughout the fill. Both protocols allow for fueling with communications or without communications. The table-based protocol provides a fixed end-of-fill pressure target, whereas the formula-based protocol calculates the end-of-fill pressure target continuously.
CURRENT
2017-04-11
Standard
AS24208A
SCOPE IS UNAVAILABLE.
2017-04-10
WIP Standard
J1752/3
This measurement procedure defines a method for measuring the electromagnetic radiation from an integrated circuit (IC). The IC being evaluated is mounted on an IC test printed circuit board (PCB) that is clamped to a mating port (referred to as a wall port) cut in the top or bottom of a TEM or wideband TEM (GTEM) cell. The test board is not in the cell as in the conventional usage but becomes a part of the cell wall. This method is applicable to any TEM or GTEM cell modified to incorporate the wall port; however, the measured RF voltage is affected by the septum to test board (wall) spacing. This procedure was developed using a 1 GHz TEM cell with a septum to wall spacing of 45 mm and a GTEM cell with average septum to wall spacing of 45 mm over the port area. Other cells may not produce identical spectral output but may be used for comparative measurements, subject to their frequency and sensitivity limitations.
Viewing 1 to 30 of 3805