Theoretical analysis of the DC avalanche breakdown in GaAs MESFET's

Abstract

The channel avalanche breakdown in GaAs MESFET's has been investigated using nonstationary electron dynamics and an ionization coefficient taken as a function of average electron energy. Stationary high-field domains of different shapes and peak-field localization are calculated at the breakdown, depending on technological parameters, device geometry or gate bias. Design rules are given to obtain maximum saturated output power and a full-channel current breakdown voltage comparable to the one near pinchoff. In particular, it is found that both a recessed channel geometry and an increased gate-drain distance should yield the best device performances with a doping level not higher than about 1.2-1017cm-3and a channel current Idssbetween 275 and 330 mA/mm.