Title :
Circuit self-recovery experiments in extreme environments
Author :
Stoica, Adrian ; Keymeulen, Didier ; Arslan, Tughrul ; Duong, Vu ; Zebulum, Ricardo ; Ferguson, Ian ; Guo, Xin
Author_Institution :
Jet Propulsion Lab., Pasadena,, CA, USA
Abstract :
Temperature and radiation tolerant electronics, as well as long life survivability are key capabilities required for future NASA missions. Current approaches to electronics for extreme environments focus on component level robustness and hardening. However, current technology can only ensure very limited lifetime in extreme environments. This paper describes novel experiments that allow adaptive in-situ circuit redesign/reconfiguration in extreme temperature and radiation environments. This technology would complement material/device/layout advancements and increase the mission capability to survive harsh environments. The approach is demonstrated on a mixed-signal programmable chip (FPTA-2), which recovers functionality for temperatures reaching 280°C and with total radiation dose up to 175kRad.
Keywords :
aerospace engineering; aerospace instrumentation; field programmable analogue arrays; network synthesis; reliability; stability; 280 C; FPTA-2; NASA missions; circuit reconfiguration; circuit redesign; circuit self-recovery; mixed-signal programmable chip; radiation dose; radiation tolerant electronics; survivability; temperature tolerant electronics; Circuits; Hardware; NASA;
Conference_Titel :
Evolvable Hardware, 2004. Proceedings. 2004 NASA/DoD Conference on
Print_ISBN :
0-7695-2145-2
DOI :
10.1109/EH.2004.1310823
