Title :
An Ebers-Moll model for heterostructure bipolar transistors with tunnel junctions
Author :
López-González, Juan M. ; Keogh, Dave M. ; Asbeck, Peter M.
Author_Institution :
Dept. d´´Enginyeria Elettronica, Univ. Politecnica de Catalunya, Barcelona, Spain
Abstract :
This paper presents an Ebers-Moll model for HBTs and DHBTs in which tunnelling transport plays an important role at the base-emitter (BE) and/or base-collector (BC) junction. Devices of this type include GaAs or InP-based HBTs with abrupt heterojunctions, as well as a number of devices designed intentionally with thin tunnel layers at the B-E or B-C junctions. For these structures, the conventional drift-diffusion formalisms (and numerical simulators based on them) are inadequate. The present model allows a quasi-analytical description of the device characteristics, assuming one dimensional structure. The model is applied here to the study of tunnel emitter and tunnel collector InGaP-HBTs. Forward and reverse Gummel plots can be analysed in relation to the tunnelling characteristics of the junction barriers.
Keywords :
gallium arsenide; heterojunction bipolar transistors; indium compounds; semiconductor device models; tunnelling; DHBTs; Ebers-Moll model; GaAs; GaAs-based HBTs; InGaP; InP; InP-based HBTs; abrupt heterojunctions; base-collector junction; base-emitter junction; device characteristics; forward Gummel plots; one dimensional structure; quasi-analytical description; reverse Gummel plots; thin tunnel layers; tunnel collector InGaP HBTs; tunnel emitter InGaP HBTs; tunnel junctions; tunnelling characteristics; Bipolar transistors; Charge carrier processes; Double heterojunction bipolar transistors; Electron emission; Electronic mail; Gallium arsenide; Numerical simulation; Software tools; Topology; Tunneling;
Conference_Titel :
High Performance Devices, 2002. Proceedings. IEEE Lester Eastman Conference on
Print_ISBN :
0-7803-7478-9
DOI :
10.1109/LECHPD.2002.1146757
