Radiation-Induced Second Breakdown.

Abstract

Six transistor types used in systems were tested for radiation-induced second breakdown caused by flash X-ray pulses of 10 to the 12th power rad (Si)/s. The data were taken with the electron beam of a 2 MeV Febetron. An electron-gamma correlation was demonstrated, within experimental error, by producing equal secondary photocurrents for equal doses of electrons and gammas. Extraneous effects from scattered electrons were minimized by the use of co-limation. Most of the data were taken by nondestructive methods. For two of the transistor types, destructive tests were required for unambiguous results. Five of the six transistor types were not susceptible to radiation-induced second breakdown at voltages less than 50 percent of the rated voltage. One of the transistor types, however, was found to be vulnerable at 15 percent of the rated voltage. The effect is very dependent on output loading since currents on the order of amperes are required to induce second breakdown. A model is presented which indicates that input loading and bias have a minimal effect. Although protection against the catastrophic failure of circuits is usually afforded by current limiting, a circuit is discussed where a low-impedance path presents a possible problem. (Author)

Document Details

Document Type

Technical Report

Publication Date

Jul 01, 1970

Accession Number

AD0872977

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