Journal ArticleDOI
A theory of transistor cutoff frequency (f T ) falloff at high current densities
TLDR
In this paper, it was shown that the observed falloff in the f T of a transistor at high currents is due to the spreading of the neutral base layer into the collector region of the device at high current densities.Abstract:
It is shown that the observed falloff in the f T of a transistor at high currents is due to the spreading of the neutral base layer into the collector region of the device at high current densities. The base layer spreading mechanism derives from an analysis of the effect of the current-dependent buildup of the mobile-carrier space-charge density in the collector transition layer. Calculations show that at sufficiently high collector current levels, the mobile space-charge density in the collector transition layer cannot be considered negligible in comparison to the fixed charge density of that region. The over-all effect of taking the mobile space charge into account in analyzing the collector transition region is that, at high current densities, the transition region boundary adjacent to the neutral base layer is displaced toward the collector metal contact with increasing collector current. The attendant widening of the neutral base layer results in the observed, high-current falloff in f T . The application of this theory to transistor structures of both the alloy and mesa variety yields, in each case, calculated curves of f T vs I c which are in reasonably good agreement with experiment.read more
Citations
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Journal ArticleDOI
Moving current filaments in integrated DMOS transistors under short-duration current stress
Marie Denison,M. Blaho,P. Rodin,V. Dubec,Dionyz Pogany,D. Silber,Erich Gornik,Matthias Stecher +7 more
TL;DR: In this article, the authors studied the influence of termination layout of the source field on the hot-spot dynamics and discussed conditions for filament motion under non-destructive snap-back conditions, which help homogenize the time averaged current density distribution and enhance the device robustness against electrostatic discharges.
Journal ArticleDOI
SiGe field effect transistors
TL;DR: In this article, a brief review of the basics of FETs and BJTs is presented, and typical applications of the two types of transistors are discussed, followed by a performance analysis including the transconductance, speed, power consumption, and packing density.
Journal ArticleDOI
1.25 /spl mu/m Deep-Groove-Isolated Self-Aligned Bipolar Circuits
TL;DR: The results demonstrate that the present bipolar technology provides not only high-speed circuits, but also circuits for VLSI applications with density comparable to MOSFET.
Journal ArticleDOI
Experimental study on current gain of BSIT
TL;DR: In this article, a means to improve the current gain h FS of the BSIT in a high drain current region has been derived from an experimental study about the dependency of the h FS versus drain current relationship on the channel width, the gate junction depth, and the impurity concentration in the n-high resistivity drain region.
Journal ArticleDOI
A physics-based current-dependent base resistance mode; for advanced bipolar transistors
TL;DR: In this article, a physics-based current-dependent base resistance model has been developed that includes physical mechanisms such as basewidth modulation, base-conductivity modulation, phase pushout, and emitter current crowding.
References
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Journal ArticleDOI
The theory of p-n junctions in semiconductors and p-n junction transistors
TL;DR: The theory of potential distribution and rectification for p-n junctions is developed with emphasis on germanium, resulting in an admittance for a simple case varying as (1 + iωτ p )1/2 where τ p is the lifetime of a hole in the n-region.
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Mobility of Holes and Electrons in High Electric Fields
TL;DR: In this paper, the field dependence of mobility has been determined for electrons and holes in both germanium and silicon, and the observed critical field at 298\ifmmode^\circ\else\textdegree\fi{}K beyond which $\ensuremath{\mu}$ varies as ${E}^{-}\frac{1}{2}}$.
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The Dependence of Transistor Parameters on the Distribution of Base Layer Resistivity
J. L. Moll,I. M. Ross +1 more
TL;DR: In this article, a method of analyzing transistor behavior for any base-layer impurity distribution is presented, in particular expressions for emitter efficiency, transverse sheet resistance R, transit time, and frequency cut-off f?.
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Structure-Determined Gain-Band Product of Junction Triode Transistors
TL;DR: In this article, the authors compared the power gain of the junction triode with those of the field effect transistor and the analog transistor and showed that the gain-band product is nearly independent of the particular alpha cutoff frequency selected.