Title :
An SEU resistant 256 K SOI SRAM
Author :
Hite, L.R. ; Lu, H. ; Houston, T.W. ; Hurta, D.S. ; Bailey, W.E.
Author_Institution :
Texas Instruments Inc., Dallas, TX, USA
fDate :
12/1/1992 12:00:00 AM
Abstract :
A novel SEU (single event upset) resistant SRAM (static random access memory) cell has been implemented in a 256 K SOI (silicon on insulator) SRAM that has attractive performance characteristics over the military temperature range of -55 to +125°C. These include worst-case access time of 40 ns with an active power of only 150 mW at 25 MHz, and a worst-case minimum WRITE pulse width of 20 ns. Measured SEU performance gives an Adams 10% worst-case error rate of 3.4×10 -11 errors/bit-day using the CRUP code with a conservative first-upset LET threshold. Modeling does show that higher bipolar gain than that measured on a sample from the SRAM lot would produce a lower error rate. Measurements show the worst-case supply voltage for SEU to be 5.5 V. Analysis has shown this to be primarily caused by the drain voltage dependence of the beta of the SOI parasitic bipolar transistor. Based on this, SEU experiments with SOI devices should include measurements as a function of supply voltage, rather than the traditional 4.5 V, to determine the worst-case condition
Keywords :
CMOS integrated circuits; SIMOX; SRAM chips; ion beam effects; military systems; radiation hardening (electronics); -55 to 125 C; 150 mW; 25 MHz; 256 kbit; 5.5 V; CRUP code; SEU modelling; SEU resistant; SIMOX; SOI SRAM; SPICE modelling; Si-SiO2; active power; first-upset LET threshold; ion beam effects; worst-case error rate; worst-case minimum WRITE pulse width; worst-case supply voltage; Bipolar transistors; Error analysis; Gain measurement; Random access memory; SRAM chips; Silicon on insulator technology; Single event upset; Space vector pulse width modulation; Temperature distribution; Voltage;
Journal_Title :
Nuclear Science, IEEE Transactions on
