Title :
Investigation of single-ion multiple-bit upsets in memories on board a space experiment
Author :
Buchner, S. ; Campbell, A.B. ; Meehan, T. ; Clark, K.A. ; McMorrow, D. ; Dyer, C. ; Sanderson, C. ; Comber, C. ; Kuboyama, S.
Author_Institution :
SFA Inc., Largo, MD, USA
Abstract :
Multiple-bit upsets were observed in two types of memories operating in the radiation environment of space. They have been categorized according to their orbital location, amount of shielding and upset multiplicity. The mechanisms responsible have been identified from ground testing of identical memories using both energetic ions and pulsed laser light. With the aid of bit-maps (generated with the pulsed laser) multiple-bit upsets could, in most cases, be attributed to one of three mechanisms, i.e., charge diffusion away from an ion strike, an ion strike to control circuitry, and an ion track intersecting a number of memory cells. Heavy-ion strikes to peripheral circuits on the memory chip generated multiple-bit upsets involving as many as twenty-one cells. Proton-induced multiple-bit upset rates have been calculated for the spacecraft orbit, and the results show good agreement with measured rates
Keywords :
integrated circuit testing; integrated memory circuits; ion beam effects; space vehicle electronics; charge diffusion; control circuitry; heavy-ion strikes; ion strike; ion track; memory cells; memory chips; orbital location; peripheral circuits; proton-induced multiple-bit upset rates; shielding; single-ion multiple-bit upsets; space radiation environment; upset multiplicity; Belts; Extraterrestrial measurements; Integrated circuit measurements; Laboratories; Manufacturing; Optical pulse generation; Predictive models; Protons; Single event upset; Software testing;
Conference_Titel :
Radiation and Its Effects on Components and Systems, 1999. RADECS 99. 1999 Fifth European Conference on
Conference_Location :
Fontevraud
Print_ISBN :
0-7803-5726-4
DOI :
10.1109/RADECS.1999.858647
