Title :
Correlation of Total Dose Damage in Capacitors and Transistors to 1.25 Micron Integrated Circuits
Author :
Zietlow, T.C. ; Morse, T.C. ; Urquhart, K.C. ; Wilson, K.T. ; Aukerman, L.W. ; Barnes, C.E.
Author_Institution :
Electronics Research Laboratory and Electronics and Optics Division the Aerospace Corporation P. O. Box 92957 Los Angeles, California 90009
Abstract :
Parametric data taken from the irradiation of transistors and capacitors has been correlated with integrated circuit response in 1.25 micron technology. Data taken on worst case biased test transistors (+ 5 V static gate bias for n-channel, O V p-channel) accurately predicts worst case propagation delay changes in an irradiated ALU. Dynamically biased test transistors successfully model the access time delay of a RAM and a ROM after irradiation. The results indicate that worst case bias conditions for an integrated circuit during irradiation depend on the pathway measured and that test transistors provide a better measure of worst case total dose hardness of an IC rather than direct irradiation of the part itself.
Keywords :
Aerospace electronics; Capacitors; Circuit simulation; Circuit testing; Integrated circuit measurements; Integrated circuit technology; Integrated circuit testing; Inverters; Laboratories; Nonlinear optics;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.1987.4337528
