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Type of Document Master's Thesis Author Velu, Senthil N, Author's Email Address svelu@unity.ncsu.edu URN etd-11032002-171003 Title Charge Based Modeling In State Variable Based Simulator. Degree Master of Science Graduate Program Electrical Engineering Advisory Committee
Advisor Name Title Dr.Michael B. Steer Committee Chair Keywords
- circuit simulation
Date of Defense 2002-10-30 Availability unrestricted Abstract Senthil N Velu. Charge Based Modeling in State Variable Based Simulator. (Underthe direction of Dr. Michael B. Steer.)
A new parameterized nonlinear device model formulation is described that enables
the same computer code to be used in any circuit analysis (ie. Harmonic Balance,
Transient and D.C) routine with no charge conservation issues. The parametric
description provides great flexibility for the design of nonlinear device models. The
number of parameters or state variables required is the minimum number necessary
and can be chosen to achieve robust numerical characteristics. An example illustrates
charge conservation problems that can occur in the transient simulation of microwave
circuits if the models are not correctly formulated. Implementation of the BJT and
MESFET in fREEDA using both the Universal Modeling algorithm (Charge as state
variable) and the conventional algorithm (Voltage as state variable) is described. The
above concept allows the modeling of thermal eŽects to be included in the simulations
of electronic circuits, by viewing thermal sub-systems as sub-circuits. All these
developments are implemented in a circuit simulator program, called fREEDA. This
program provides unprecedented flexibility for the addition of new device models or
circuit analysis algorithms. fREEDA was applied to the two tone harmonic balance
simulation of a MESFET amplifier. Distortion in MESFET models was studied and the importance of the time delay parameter tau is discussed with the aid of IM3 plots.
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28.8 Modem 56K Modem ISDN (64 Kb) ISDN (128 Kb) Higher-speed Access etd.pdf 487.79 Kb 00:02:15 00:01:09 00:01:00 00:00:30 00:00:02