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Acceleration Factors

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.

Energy Harvesting/Regeneration for Electric Vehicles Land, Water & Air 2015-2025

The electric vehicle industry - land, water and air - is rapidly rising to become a market of over $533 billion by 2025. Some run entirely on harvested energy as with solar lake boats. Others recycle energy as with regenerative braking of cars, buses and military vehicles harvesting kinetic energy. Others use different forms of harvesting either to charge the traction batteries, or to drive autonomous device. In some cases, harvesting is making completely new forms of electric vehicle possible such as "glider" Autonomous Underwater Vehicles (AUVs) that can stay at sea for years, gaining electricity from both wave power and sunshine. Multiple forms of energy harvesting on one vehicle are becoming more common from cars to superyachts.

Survey of practices for securing the interface through the Data Link Connector (DLC)

This document has been issued to provide a reference or overview of some current practices which could be utilized for securing the vehicle’s interface with the Data Link Connector (DLC) from cybersecurity risks associated with external test equipment connections (e.g. diagnostics scan tools) or remotely connected applications (e.g. telematics devices). The practices outlined in this report are examples of some secured in-vehicle data access methods which might be used in the automotive industry. Note that In-vehicle network protocol descriptions and data format details are not included in this report.

Fluid Couplings for Spacecraft Servicing, Preparation of Specification for, Metric

This SAE Metric Aerospace Recommended Practice (MAP) establishes the requirements for preparing a specification for fluid couplings for spacecraft servicing. The objective of this document is to provide design, development, verification, storage, and delivery requirement guidelines for the preparation of specifications for fluid couplings and the ancillary hardware for use with serviceable spacecraft designed for use in the space environment. The couplings shall be capable of resupplying storable propellants, cryogenic liquids, and gases to a variety of spacecrafts.