Title :
Space-charge-influenced avalanche-breakdown characteristics: an improved approximation
Author :
Luy, J.-F. ; Baur, G. ; Kasper, Erich
Author_Institution :
AEG Research Centre Ulm, Ulm, West Germany
Abstract :
The space-charge effect in millimetre-wave avalanche transit-time diodes is investigated. It is shown that for high current densities and especially for diodes punched through at breakdown, the well known space-charge resistance expression is not in accordance with the I/V data measured under pulse conditions. By introducing the effective doping approximation, the measured characteristics can be explained. An expression for a current-density-dependent space-charge resistance is proposed.
Keywords :
IMPATT diodes; semiconductor device models; solid-state microwave devices; space-charge-limited conduction; EHF; I/ V data; MM-wave devices; avalanche-breakdown characteristics; current-density-dependent space-charge resistance; effective doping approximation; high current densities; measured characteristics; millimetre-wave avalanche transit-time diodes; models; pulse conditions; space-charge resistance expression;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:19870457
