Global Standards for the Microelectronics Industry
Standards & Documents Search
Title | Document # |
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PROCUREMENT QUALITY OF SOLID STATE COMPONENTS BY GOVERNMENT CONTRACTORS - SUPERSEDED BY EIA-623, July 1994Status: Superseded |
JESD40 | Jul 1994 |
Committee(s): JC-13 Free download. Registration or login required. |
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MANAGEMENT OF COMPONENT OBSOLESCENCE BY GOVERNMENT CONTRACTORS: RESCINDED, October 2002Status: RescindedOctober 2002 |
JESD53 | Jan 1996 |
Free download. Registration or login required. |
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ALPHA RADIATION MEASUREMENT IN ELECTRONIC MATERIALS |
JESD221 | May 2011 |
This standard applies generally to gas proportional instruments and the use thereof in measuring materials with an alpha emissivity of less than 10 a·khr-1·cm-2. The primary focus will be on materials used in semiconductor fabrication. The purpose of this document is to specify the recommended method for measuring alpha emissivity in materials utilized in the manufacturing of semiconductors. The method specifically applies to gas proportional instruments and designates recommended instrument settings. In addition, the method discusses operation of ionization counters. The document also recommends methods for determining sample size and for evaluating instrument background accurately. Free download. Registration or login required. |
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TEST STANDARD FOR THE MEASUREMENT OF PROTON RADIATION SINGLE EVENT EFFECTS IN ELECTRONIC DEVICES |
JESD234 | Oct 2013 |
This test standard defines the requirements and procedures for 40 to 500 MeV proton irradiation of electronic devices for Single Event Effects (SEE), and reporting the results. Protons are capable of causing SEE by both direct and indirect ionization, however, in this energy range, indirect ionization will be the dominant cause of SEE [1-3]. Indirect ionization is produced from secondary particles of proton/material nuclear reactions, where the material is Si or any other element present in the semiconductor. Direct proton ionization is thought to be a minor source of SEE, at these energies. This energy range is also selected to coincide with the commonly used proton facilities, and result in the fewest energy dependent issues during test. Free download. Registration or login required. |
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STANDARD TEST METHOD UTILIZING X-RAY FLUORESCENCE (XRF) FOR ANALYZING COMPONENT FINISHES AND SOLDER ALLOYS TO DETERMINE TIN (Sn) - LEAD (Pb) CONTENTReaffirmed June 2023 |
JESD213A | Apr 2017 |
This document is intended to be used by Original Component Manufacturers who deliver electronic components and Original Equipment Manufacturers who are the platform system integrators. It is intended to be applied prior to delivery by the OCMs and may be used by OEM system engineers and procuring activities as well as U.S Government Department of Defense system engineers, procuring activities and repair centers. This Standard establishes the instrumentation, techniques, criteria, and methods to be utilized to quantify the amount of Lead (Pb) in Tin-Lead (Sn/Pb) alloys and electroplated finishes containing at least 3 weight percent (wt%) Lead (Pb) using X-Ray Fluorescence (XRF) equipment. Reaffirmed June 2023
Committee(s): JC-13 Free download. Registration or login required. |