Abstract
Minority carrier injection into the substrate by a MOS transistor operating in saturation presents a reliability problem in dynamic memory circuits such as RAM's and CCD's. The effect has been studied by measuring the substrate and drain currents of stressed transistors as a function of gate and drain voltages, firstly by the accumulation of minority carriers in a charge coupled device, and secondly by the direct detection of light from the drain region of a transistor. These results suggest that light emission associated with multiplication in the drain region is more important than the secondary impact ionization mechanism in the generation of minority carriers.
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