RADIATION EFFECTS ON INSULATED GATE FIELD EFFECT (MOS) INTEGRATED CIRCUITS.

Abstract

The report covers the fourth quarter's effort of a program to determine the mechanism and extent of the transient and permanent effects of nuclear radiation on insulated gate field effect (MOS) integrated circuits. The report discusses the results of the past year's investigation of transient response phenomena in custom-built and commercial MOS transistors and commercial MOS integrated circuits. The primary conclusions from the study are indicated below. The transient gate current produced in MOS transistors by a pulse of ionizing radiation is composed of two major components: (1) current leakage from the gate lead to the package through the ionized encapsulated gas, and (2) photovoltaic displacement current resulting from the motion of induced carriers in the tranverse electric field beneathe the gate oxide. Both mechanisms produce larger response for n-depletion transistors than for p-enhancement transistors. Mechansims of generally lesser imprtance are: photocurrents of protective gate diodes, gate-drain interaction leakage currents, and variations in gate current due to irradiation history. Charge scattering from the device leads is small, and ionization induced leakage through the gate oxide is negligible. (Author)

Document Details

Document Type

Technical Report

Publication Date

Oct 01, 1966

Accession Number

AD0641164

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