DocumentCode
949111
Title
Remediable and nonremediable causes of parasitic elements in InP m.e.s.f.e.t.s
Author
Wada, Tomotaka ; Frey, Jeffrey
Author_Institution
Cornell University, Department of Electrical Engineering, Ithaca, USA
Volume
14
Issue
25
fYear
1978
Firstpage
830
Lastpage
832
Abstract
Two-dimensional analyses of InP and GaAs m.e.s.f.e.t. structures are used to qualitatively explain relative magnitudes of parasitic element values observed in experimental InP m.e.s.f.e.t.s. Large drain-gate capacitance observed in InP is attributed mainly to substrate conduction, whereas large drain conductance at certain drain biases in InP may be unavoidable due to large velocity dropback and large high-field diffusion in this material. Low Schottky-barrier height and substrate conduction also increase gD
Keywords
Schottky gate field effect transistors; GaAs; InP; MESFET; Schottky barrier height; drain biases; drain conductance; drain gate capacitance; high field diffusion; parasitic element; substrate conduction; two dimensional analysis; velocity dropback;
fLanguage
English
Journal_Title
Electronics Letters
Publisher
iet
ISSN
0013-5194
Type
jour
DOI
10.1049/el:19780562
Filename
4242961
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