Erroneous results from SPICE simulations of switching converters: A dynamical system viewpoint

Wu, Xiaoqun; Wong, Siu-Chung; Tse, Chi Kong; Lu, Jun-an

doi:10.1109/pesc.2006.1711826

Cited by 3 publications

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A semi‐analytic and cellular approach to rational system characterization through equivalent circuits

Zadehgol

2015

Int J Numerical Modelling

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The partial fraction form of linear time-invariant system transfer function is characterized through a cellular perspective, where each pole/residue fraction term is transformed into an equivalent circuit branch via an exact transformation. Minimal expressions for transformation of partial fraction form to/from equivalent circuit form are provided. The time-domain and frequency-domain impedance and admittance transfer function for resistor (R)inductor (L), and resistance (R), inductance (L), capacitance (C), and conductance (G) equivalent circuit branches are presented in a form that is amenable to expedient inspection of cellular causality and stability and used to derive explicit expressions for the average power amenable to inspection of cellular passivity. The characteristics of passivity, causality, and stability at the cellular level are discussed to gain insight into the macro-level network characteristics. Numerical examples are given to elucidate the aforementioned concepts and to provide insight into the behavior of linear time-invariant systems. A. ZADEHGOL R 1 ı.t/dt D 1. The time-derivative of the Dirac Delta distribution is ı 0 .t/ D d dt ı.t/. The exponential function exp.x/ D e x , where e 2:71828 is the base of the natural logarithm function. The

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