Title :
General upper bound on single-event upset rate
Author :
Chlouber, Dean ; O´Neill, Pat ; Pollock, Jim
Author_Institution :
McDonnell Douglas Space Syst. Co., Houston, TX, USA
fDate :
4/1/1990 12:00:00 AM
Abstract :
A technique for predicting an upper bound on the rate at which single-event upsets due to ionizing radiation occur in semiconducting memory cells is described. The upper bound on the upset rate, which depends on the high-energy particle environment in Earth orbit and accelerator cross section data, is given by the product of an upper bound linear energy transfer spectrum I∞ and the mean cross section of the memory cell. Plots of the spectrum I ∞ are given for low inclination and polar orbits. An alternative expression for the exact upset rate is also presented. Both methods rely only on experimentally obtained cross section data and are valid for sensitive bit regions having arbitrary shape
Keywords :
integrated memory circuits; radiation effects; semiconductor storage; Earth orbit; ionizing radiation; linear energy transfer spectrum; low inclination orbit; mean cross section; polar orbits; semiconducting memory cells; single-event upset rate; upper bound; Aerospace electronics; Degradation; Earth; Energy exchange; Equations; Error analysis; Ionizing radiation; Semiconductivity; Semiconductor materials; Upper bound;
Journal_Title :
Nuclear Science, IEEE Transactions on
