Title :
Spatial and temporal dependence of SEU in a 64 K SRAM
Author :
Buchner, Stephen ; Kang, Keith ; Stapor, W.J. ; Rivet, Steve
Author_Institution :
Martin Marietta Labs., Baltimore, MD, USA
fDate :
12/1/1992 12:00:00 AM
Abstract :
A pulsed picosecond laser was used to measure the spatial and temporal dependence of single event upsets (SEUs) in a 64 K SRAM (static random access memory) (HM65642C) that was not hardened to SEU. Consistent and repeatable upset thresholds and latchup were measured when the light was focused on the drains of the sensitive transistors. The SRAMs sensitivity of SEU was found to depend on the arrival time of the laser pulse relative to the time when the cell was addressed. Striking results were found when the light was focused outside the sensitive drains. Whether an upset occurred depended on both the position of the laser spot and the information stored in the cell. Under certain conditions an upset window was observed. A single pulse of light incident on a particular cell produced upsets in surrounding cells depending on the data stored in those cells
Keywords :
CMOS integrated circuits; SRAM chips; aerospace instrumentation; aerospace simulation; aerospace testing; environmental testing; integrated circuit testing; ion beam effects; laser beam effects; radiation hardening (electronics); 64 Kbit; CMOSIC; SEU; SRAM; latchup; pulsed picosecond laser; spatial dependence; temporal dependence; upset thresholds; upset window; Circuit testing; Integrated circuit testing; Ion accelerators; Laboratories; Life estimation; Optical pulses; Pulse measurements; Random access memory; Semiconductor lasers; Single event upset;
Journal_Title :
Nuclear Science, IEEE Transactions on
