Your search keyword '"Witczak, S. C."' showing total 2 results

1. Thermal-Stress Effects and Enhanced Low Dose Rate Sensitivity in Linear Bipolar ICs

Author

Shaneyfelt, M. R., Schwank, J. R., Witczak, S. C., Fleetwood, D. M., Pease, R. L., Winokur, P. S., Riewe, L. C., and Hash, G. L.

Subjects

Nuclear research -- Observations, BiCMOS -- Research, Thermal stresses -- Research, Business, Electronics, Electronics and electrical industries

Abstract

A pre-irradiation elevated-temperature stress is shown to have a significant impact on the radiation response of a linear bipolar circuit. Thermal cycling can lead to part-to-part variability in the radiation response of circuits packaged from the same wafer. In addition, it is demonstrated that a pre-irradiation elevated-temperature stress can significantly impact the enhanced low dose rate sensitivity (ELDRS) of the LM111 voltage comparator. Thermal stress moderates and, in some cases, eliminates ELDRS. The data are consistent with space charge models. These results suggest that there may be a connection between the mechanisms responsible for thermal-stress effects and ELDRS in linear circuits. Implications of these results for hardness assurance testing and mechanisms are discussed.

Published

2000

2. Correlation Between Co-60 and X-Ray Radiation-Induced Charge Buildup in Silicon-on-Insulator Buried Oxides

Author

Schwank, J. R., Shaneyfelt, M. R., Dodd, P. E., Ferlet-Cavrois, V., Loemker, R. A., Winokur, P. S., Fleetwood, D. M., Paillet, P., Leray, J.-L., Draper, B. L., Witczak, S. C., and Riewe, L. C.

Subjects

Nuclear research -- Observations, Silicon-on-isolator -- Research, X-rays -- Research, Business, Electronics, Electronics and electrical industries

Abstract

Large differences in charge buildup in SOI buried oxides are observed for X-ray and Co-60 irradiations of SIMOX and Unibond transistors. The Co-60 response is typically worse than the X-ray response. These results are consistent with expectations derived from previous work on the relative charge yield versus field in thick oxides. The effects of bias configuration and substrate type on charge buildup and hardness assurance issues are explored via experiments and simulation. The worst-case bias condition is found to be either the off-state or transmission gate configuration. Simulations of the buried oxide electric field in the various bias configurations are used to illustrate the factors that affect charge transport and trapping in the buried oxides. Hardness assurance implications are discussed.

Published

2000