AbstractThe proton telescope aboard the GOES-7 satellite continuously records the proton flux at geosynchronous orbit, the therefore provides a direct measurement of the energetic protons arriving during solar energetic particle (SEP) events. Microelectronic devices are susceptible to single event upset (SEU) caused by both energetic protons and galactic cosmic ray (GCR) ions. Some devices are so sensitive that their upsets can be used as a dosimetric indicator of a high fluence of particles. The 93L422 1K SRAM is one such device. Eight of them are on the TDRS-1 satellite in geosynchronous orbit, and collectively they had been experiencing 1–2 upset/day due to the GCR background. During the large SEP events of 1989 the upset rate increased dramatically, up to about 250 for the week of 19 Oct, due to the arrival of the SEP protons. Using the GOES proton spectra, the proton-induced SEU cross section curve for the 93L422 and the shielding distribution around the 93L422, the calculated upsets based on the GOES satellite data compared well against the log of measured upsets on TDRS-1.
A comparison of two different types of geosynchronous satellite measurements during the 1989 solar proton events
Advances in Space Research ; 14 , 10 ; 695-699
01.01.1994
5 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Geosynchronous meteorological satellite
NTRS | 1970
|Geosynchronous meteorological satellite.
AIAA | 1969
|Geosynchronous meteorological satellite
AIAA | 1968
|