DocumentCode
1102056
Title
Improved physics for simulating submicron bipolar devices
Author
Bennett, Herbert S. ; Fuoss, Dennis E.
Author_Institution
National Bureau of Standards, Gaithersburg, MD
Volume
32
Issue
10
fYear
1985
fDate
10/1/1985 12:00:00 AM
Firstpage
2069
Lastpage
2075
Abstract
The conventional device physics in most numerical simulations of bipolar transistors may not predict the measured electrical performance of shallow heavily doped emitters and bases. This paper summarizes improved device physics for numerical simulations of solid-state devices with dopant densities up to about 3 × 1020cm-3and with junction depths as small as 0.1 µm. This improved device physics pertains to bandgap narrowing, effective intrinsic carrier concentrations, carrier mobilities, and lifetimes. When this improved physics is incorporated into device analysis codes such as SEDAN and then used to compute the electrical performance of n-p-n transistors, the predicted values agree very well with the measured values of the current-voltage characteristics and dc common emitter gains for devices with emitter-base junction depths between 10-0.16µm.
Keywords
Bipolar transistors; Current measurement; Current-voltage characteristics; Electric variables measurement; Gain measurement; Numerical simulation; Performance analysis; Photonic band gap; Physics computing; Solid state circuits;
fLanguage
English
Journal_Title
Electron Devices, IEEE Transactions on
Publisher
ieee
ISSN
0018-9383
Type
jour
DOI
10.1109/T-ED.1985.22240
Filename
1484986
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