Title :
Staying current with HICUM
Author_Institution :
Electron Devices & Integrated Circuits Dept., Technische Univ. Dresden, Germany
fDate :
5/1/2002 12:00:00 AM
Abstract :
This article provides an overview on the basic operation principle of the advanced physics-based compact bipolar transistor model HICUM (high-current model), which keeps pace with the rapid progress in high-speed circuits for wireless and fiber-optic communications. HICUM uses the small-signal parameters, such as the depletion capacitances and the transit times, as basic variables, which are described accurately as a (nonlinear) function of bias, temperature, and geometry. This results in not only continuously differentiable relations for charges and transfer current but also accurate modeling of the large-signal switching behavior, including harmonic distortion at high frequencies. A few examples are presented to provide a feeling for the model´s capabilities in an industrial environment
Keywords :
bipolar transistors; capacitance; electric current; harmonic distortion; high-speed integrated circuits; optical communication equipment; optical fibre communication; radio equipment; semiconductor device models; HF harmonic distortion; HICUM physics-based compact bipolar transistor model; bias function; continuously differentiable charge/transfer current relations; depletion capacitances; fiber-optic communications; geometry function; high-current model; high-speed circuits; industrial environment; large-signal switching behavior; nonlinear function; small-signal parameters; temperature function; transit times; wireless communications; Bipolar transistors; Capacitance; Circuits; Frequency; Geometry; Harmonic distortion; Industrial relations; Optical fiber communication; Temperature; Wireless communication;
Journal_Title :
Circuits and Devices Magazine, IEEE
DOI :
10.1109/MCD.2002.1005645
