Title :
Origins of total-dose response variability in linear bipolar microcircuits
Author :
Barnaby, H.J. ; Cirba, C.R. ; Schrimpf, R.D. ; Fleetwood, D.M. ; Pease, R.L. ; Shaneyfelt, M.R. ; Turflinger, T. ; Krieg, J.F. ; Maher, M.C.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Vanderbilt Univ., Nashville, TN, USA
fDate :
12/1/2000 12:00:00 AM
Abstract :
LM111 voltage comparators exhibit a wide range of total-dose-induced degradation. Simulations show this variability may be a natural consequence of the low base doping of the substrate PNP (SPNP) input transistors. Low base doping increases the SPNPs collector to base breakdown voltage, current gain, and sensitivity to small fluctuations in the radiation-induced oxide defect densities. The build-up of oxide trapped charge (NOT) and interface traps (NIT) is shown to be a function of pre-irradiation bakes. Experimental data indicate that, despite its structural similarities to the LM111, irradiated input transistors of the LM124 operational amplifier do not exhibit the same sensitivity to variations in pre-irradiation thermal cycles. Further disparities in LM111 and LM124 responses may result from a difference in the oxide defect build-up in the two part types. Variations in processing, packaging, and circuit effects are suggested as potential explanations
Keywords :
bipolar analogue integrated circuits; comparators (circuits); gamma-ray effects; operational amplifiers; LM111 voltage comparator; LM124 operational amplifier; base doping; breakdown voltage; current gain; interface trap; ionizing radiation response; linear bipolar microcircuit; oxide trapped charge; pre-irradiation bake; radiation induced oxide defect density; substrate PNP input transistor; thermal cycling; total dose response; Circuits; Cranes; Degradation; Doping; Fluctuations; Laboratories; Operational amplifiers; Packaging; US Department of Energy; Voltage;
Journal_Title :
Nuclear Science, IEEE Transactions on
