MEASUREMENT OF THE TEMPERATURE DEPENDENCE OF MINORITY-CARRIER MOBILITY IN A TRANSISTOR-BASE REGION,

Abstract

A method of measuring the temperature dependence of minority carriers in a transistor base is developed. The method is based on the observations that the short-circuit collector current of a transistor in a common-base configuration depends exponentially on the emitter voltage over several decades of collector current, and the temperature dependence of mobility has the empirical form mu is approximately equal to T to the a, where a, the temperature dependence parameter, is a constant. From these two observations a differential relation can be obtained which relates the parameter a to the extrapolated zero-temperature energy gap Vgo of the semiconductor, the emitter voltage Ve and the temperature derivative of the emitter voltage V' sub e at a temperature T. From measurements of Ve, V' sub e, T and the published value of Vgo, one can calculate the temperature-dependence parameter a from the differential relation. Calculations from the experimental data have yielded a weaker temperature dependence for the minority-carrier mobility in a transistor base than that in the bulk semiconductor. The weaker temperature dependence is correlated with the high dislocation count observed on the transistor. (Author)

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 1963

Accession Number

AD0438935

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