Title :
Finite difference method for steady state analysis of nonlinear circuit with distributed elements
Author :
Uatrongjit, S. ; Vilasdechanon, J. ; Likit-Anurucks, K.
Author_Institution :
Dept. of Electr. Eng., Chiang Mai Univ., Chiangmai, Thailand
Abstract :
In this paper the technique of finite difference is applied to solve for periodic steady state waveforms of the nonlinear circuit containing linear distributed elements driven by one tone periodic input signal. First, the linear distributed elements are transformed into an asymptotically equivalent system with respect to the input signal. The system equation of the transformed circuit is formulated. The differential operator is then approximated by finite difference and the convolution operator is evaluated by piecewise linear approximation. Finally, the system of nonlinear algebraic equations is obtained. Newton method with an iterative solver called GMRES is used to solve for the periodic waveform from these nonlinear equations. A numerical example is illustrated
Keywords :
Newton method; circuit simulation; convolution; finite difference methods; nonlinear network analysis; piecewise linear techniques; GMRES; Newton method; asymptotically equivalent system; convolution operator; differential operator; distributed elements; finite difference method; iterative solver; linear distributed elements; nonlinear algebraic equations; nonlinear circuit; nonlinear equations; one tone periodic input signal; periodic steady state waveforms; periodic waveform; piecewise linear approximation; steady state analysis; Circuit analysis; Convolution; Finite difference methods; Fourier series; Iterative methods; Newton method; Nonlinear circuits; Nonlinear equations; Piecewise linear approximation; Steady-state;
Conference_Titel :
Circuits and Systems, 2000. IEEE APCCAS 2000. The 2000 IEEE Asia-Pacific Conference on
Conference_Location :
Tianjin
Print_ISBN :
0-7803-6253-5
DOI :
10.1109/APCCAS.2000.913447
