Development and Packaging of Radiation Immune Nano-Diamond Integrated Circuits for Advanced Interceptor Avionics SBIR MDA09-006 The goal of this program is to develop nanosacle electronics and packaging technology that is hardened to space and nuclear radiation. Vanderbilt University is in partnership with AET in the development of packaging technologies for lateral emission-based diamond devices characterized [...]

Rapid Radiation Hardened Prototyping of Obsolescent Military Satellite Microelectronics SBIR AF093-081 In this program, AET is performing research and development with the objective of developing the capability to rapidly fabricate substitutes of radiation hardened microcircuits for use in future military satellites that may become obsolete during the acquisition cycle. The object is to develop a [...]

Multifunctional Diamond Sensor Development for Cognitive Missiles SBIR A06-036 The thrust of this program is to perform research and development that will result in diamond sensors that can be integrated with a silicon-based integrated circuit for incorporation into the skin of cognitive missiles and other air vehicles. These sensors are fabricated on a silicon chip [...]

Development of Nuclear Event Detection and Circumvention Controller Technology SBIR N04-152 In this Phase II program, AET developed a nuclear event detector and circumvention controller (NEDCC) system that was initially intended to be used onboard the US Navy Fleet Ballistic Missile upgrade program. To optimize the performance and reliability of the NEDCC, two options were [...]