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Standard

Counterfeit Parts & Materials Risk Mitigation
2016-11-08
CURRENT
TB0003A
This Technical Bulletin covers the following areas of concern. Prevention: Actions recommended for procuring parts and materials with a full warranty; Actions recommended for minimizing risks and protecting your Program from counterfeiting; Actions recommended when buying from a non-authorized supplier. Detection: Actions recommended when procuring parts from an unauthorized supplier or otherwise suspect that a part or material at risk of being counterfeit has been procured. Risk Mitigation: Actions recommended when no reasonable alternatives exist (e.g., a redesign is required, an unacceptable schedule delay will result, the program or customer cannot bear the additional cost) and the decision has been made to procure from a non-authorized supplier.
Standard

Failure Rate Estimating
2019-07-15
WIP
SSB1_004B
This document is an annex to EIA Engineering Bulletin SSB-1, Guidelines for Using Plastic Encapsulated Microcircuits and Semiconductors in Military, Aerospace and Other Rugged Applications (the latest revision). Failure-Mechanism-Driven Reliability Monitoring draws upon the concepts and implementation of line controls, process stability, and effective monitoring programs in lieu of qualifying a product based solely on a fixed list of tests. A supplier must identify those failure mechanisms that may be actuated through a given product / process change(s), and must design and implement reliability tests adequate to assess the impact of those failure mechanisms on system level reliability. In order for this to be effective, the supplier establishes a thorough understanding of and linkage to their reliability monitoring program.
Standard

Failure Rate Estimating
2009-04-01
CURRENT
SSB1_004A
This document is an annex to EIA Engineering Bulletin SSB-1, Guidelines for Using Plastic Encapsulated Microcircuits and Semiconductors in Military, Aerospace and Other Rugged Applications (the latest revision). Failure-Mechanism-Driven Reliability Monitoring draws upon the concepts and implementation of line controls, process stability, and effective monitoring programs in lieu of qualifying a product based solely on a fixed list of tests. A supplier must identify those failure mechanisms that may be actuated through a given product / process change(s), and must design and implement reliability tests adequate to assess the impact of those failure mechanisms on system level reliability. In order for this to be effective, the supplier establishes a thorough understanding of and linkage to their reliability monitoring program.
Standard

Requirements for Plastic Encapsulated Discrete Semiconductors in Space Applications
2019-08-07
CURRENT
AS6294/3
This document establishes the requirements for screening, qualification, and lot acceptance testing of Plastic Encapsulated Discrete Semiconductors (PEDS) for use in space application environments. The scope of this document is intended for standard silicon based technology only, but the process and methodology described within can be adopted for other technologies such as Silicon Carbide, Gallium Nitride, and Gallium Arsenide. However, when non-silicon based technology parts are being used, the device characterization shall be modified, and it is recommended to use available industry standards based upon published research/testing reports for those technology to address applicable physics of failure.
Standard

Environmental Tests and Associated Failure Mechanisms
2014-09-12
CURRENT
SSB1_002
This document is an annex to EIA Engineering Bulletin SSB-1, Guidelines for Using Plastic Encapsulated Microcircuits and Semiconductors in Military, Aerospace and Other Rugged Applications. This document provides reference information concerning the environmental stresses associated with tests specifically designed to apply to (or have unique implications for) plastic encapsulated microcircuits and semiconductors, and the specific failures induced by these environmental stresses.
Standard

Qualification and Reliability Monitors
2014-09-12
CURRENT
SSB1_001
This document is an annex to EIA Engineering Bulletin SSB-1, Guidelines for Using Plastic Encapsulated Microcircuits and Semiconductors in Military, Aerospace and Other Rugged Applications (the latest revision). The scope of this document is to establish the recommended minimum qualification and monitoring testing of plastic encapsulated microcircuits and discrete semiconductors suitable for potential use in many rugged, military, severe, or other environments.
Standard

Potential Usage of Life Test Samples for Flight
2023-03-08
CURRENT
ARP7519
This SAE Aerospace Recommended Practice (ARP) is not a certification document; it contains no certification requirements beyond those already contained in existing certification documents. The purpose of this ARP is to provide: a Guidelines for potential usage of life samples depending upon the mission environment and at user discretion to use them or not. b Guidelines of: 1 Who approves the parts to be used. 2 Notification requirements to manufacturers. 3 Traceability and segregation. 4 Packing and labeling of such parts. This ARP does not claim that the recommended practices and artifacts described herein are the only acceptable ones. They are, however, used widely today, and merit serious consideration of potential usage where applicable in the military and space hardware. This ARP does not supersede any contracts or legal agreements between contractual parties.
Standard

Radiation Hardness Assurance
2021-07-07
CURRENT
SSB1_005
This document is an annex to SAE Technical Report SSB-1 (the latest revision). This document provides reference information and guidance concerning methods used by the semiconductor industry and original equipment manufacturers related to radiation hardness assessments. This document is broken into three primary sections. Section 3 discusses part characterization with focus on selection criteria and acceptance testing. Section 4 discusses design hardening for piece parts with focus on degraded design limits and radiation design margin. The last section, Section 5, of this report is on hardness assurance inspection and test. This section discusses total ionizing dose, displacement damage and single event effects testing in detail.
Standard

Reducing the Risk of Tin Whisker-Induced Failures in Electronic Equipment
2014-10-01
CURRENT
GEIAGEB0002
This Bulletin provides a brief description of tin whisker formation and describes various methods recommended by government and industry to reduce the risk of tin whisker-induced failures in electronic hardware. It is not a mandate nor does it contain any requirements. A tin whisker is a single crystal that emerges from tin-finished surfaces. Tin whiskers can pose a serious reliability risk to electronic assemblies that have pure tin finish. The general risks fall into several categories: [1, 2, 3, 8, 16] Short Circuits: The whisker can create a short circuit, either by 1) growing from an area at one potential to an area at another or 2) breaking free and later bridging these areas. In some cases, these shorts may be permanent and cause catastrophic system failures. A transient short may result if the available current exceeds the fusing current of the whisker, and the whisker can fuse open.
Standard

Diminishing Manufacturing Sources and Material Shortages (DMSMS) Management Practices
2015-07-01
CURRENT
GEB1
This document includes a standard set of management practices that can be used, or espoused, by the OEMs for use during the design and development of electronic systems to mitigate the effects of future Diminishing Manufacturing Sources and Material Shortages (DMSMS). While this document focuses primarily on microelectronic devices, the methods described here may also apply to other commodities.
Standard

Acceleration Factors
2014-09-12
CURRENT
SSB1_003A
This document is an annex to EIA Engineering Bulletin SSB-1, Guidelines for Using Plastic Encapsulated Microcircuits and Semiconductors in Military, Aerospace and Other Rugged Applications (the latest revision). This document provides reference information concerning acceleration factors commonly used by device manufacturers to model failure rates in conjunction with statistical reliability monitoring. These acceleration factors are frequently used by OEMs in conjunction with physics of failure reliability analysis to assess the suitability of plastic encapsulated microcircuits and semiconductors for specific end use applications.
Standard

Information Original Equipment Manufacturers Desire from Part Manufacturers
2024-01-25
WIP
AIR7526
The scope of information desired includes any information relative to how a Electrical, Electronic, Electromechanical, or Electro-Optical piece part is produced. This data might include business approaches to releasing product, to manufacturing operations and controls, to testing philosophies, to actual piece part data.
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