The Defense Department relies on nuclear-armed bombers, submarines and intercontinental ballistic missiles, as well as space-based sensors, to provide a strategic deterrence umbrella for the homeland and to protect deployed forces, allies and partners. However, sensitive microelectronics used in these assets could be vulnerable to high levels of ionizing radiation caused by a number of factors, including cosmic rays in outer space, severe solar storms, and an electromagnetic pulse caused by a high-altitude nuclear detonation.
To protect against these threats, the DOD has developed techniques to protect microelectronics used in satellites, spacecraft, the nuclear triad and the triad's command and control center, said Rich Ryan, director for international programs, nuclear forensics, resiliency, and survivability in the office of the deputy assistant secretary of defense for nuclear matters. This protection, known as hardening, can consist of manufacturing chips on insulated material, redundant circuits, altering the design of circuits, and placing a shield over the microelectronics, he said. Each of the methods used undergoes rigorous radiation testing in military and government laboratories to ensure they work in hazardous conditions. In the past, there was no central repository for identifying and accessing parts that have been certified as radiation hardened, he said.
On Sept. 30, the DOD opened a parts library to serve the department and other agencies with requirements for radiation hardened parts, including NASA and the Department of Energy. The cloud-based library is hosted by Nimbis Services in Oro Valley, Arizona. Known as the Trusted Silicon Stratus Distributed Transition Environment, the authority to operate this library was issued by the Strategic Radiation Hardened Electronics Council; the Air Force Research Laboratory at Wright Patterson Air Force Base, Ohio; and the Naval Surface Warfare Center Crane Division in Indiana.