Results from On-Orbit Testing of the Fram Memory Test Experiment on the Fastsat Micro-Satellite

NASA is planning on going beyond Low Earth orbit with manned exploration missions. The radiation environment for most Low Earth orbit missions is harsher than at the Earth's surface but much less harsh than deep space. Development of new electronics is needed to meet the requirements of high pe...

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Hauptverfasser:	MacLeod, Todd C., Sims, W. Herb, Varnavas, Kosta A., Ho, Fat D.
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Sprache:	eng
Schlagworte:	Avionics And Aircraft Instrumentation
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creator	MacLeod, Todd C. Sims, W. Herb Varnavas, Kosta A. Ho, Fat D.
description	NASA is planning on going beyond Low Earth orbit with manned exploration missions. The radiation environment for most Low Earth orbit missions is harsher than at the Earth's surface but much less harsh than deep space. Development of new electronics is needed to meet the requirements of high performance, radiation tolerance, and reliability. The need for both Volatile and Non-volatile memory has been identified. Emerging Non-volatile memory technologies (FRAM, C-RAM,M-RAM, R-RAM, Radiation Tolerant FLASH, SONOS, etc.) need to be investigated for use in Space missions. An opportunity arose to fly a small memory experiment on a high inclination satellite (FASTSAT). An off-the-shelf 512K Ramtron FRAM was chosen to be tested in the experiment.
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title	Results from On-Orbit Testing of the Fram Memory Test Experiment on the Fastsat Micro-Satellite
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