Title :
Waveform relaxation analysis of nonuniform lossy transmission lines characterized with frequency-dependent parameters
Author :
Chang, Fung-Yuel
Author_Institution :
IBM Gen. Technol. Div., Hopewell Junction, NY, USA
fDate :
12/1/1991 12:00:00 AM
Abstract :
An efficient method for the transient simulation of nonuniform frequency-dependent transmission lines is presented. The method consists of iterative waveform relaxation analyses of asymmetric disjoint two-port networks constructed with FFT waveform generators and characteristic impedances synthesized by applying the Gauss-Marquardt optimization technique. The method can also be adapted for discrete-time analysis by replacing the FFT waveform generators with ideal transmission lines connected with waveshaping networks. Transient responses of uniform and nonuniform transmission lines with and without skin-effect parameters and terminated with linear and nonlinear loads are simulated for illustrations. The accuracy and efficiency of the relaxation technique are substantiated with exact analytical solutions and experimental data
Keywords :
iterative methods; multiport networks; relaxation theory; skin effect; transient response; transmission line theory; FFT waveform generators; Gauss-Marquardt optimization technique; asymmetric disjoint two-port networks; characteristic impedances; discrete-time analysis; frequency-dependent parameters; ideal transmission lines; iterative waveform relaxation analyses; linear loads; nonlinear loads; nonuniform lossy transmission lines; relaxation technique; skin-effect parameters; transient simulation; uniform transmission lines; waveshaping networks; Frequency; Gaussian processes; Impedance; Iterative methods; Network synthesis; Optimization methods; Power system transients; Propagation losses; Signal generators; Transmission lines;
Journal_Title :
Circuits and Systems, IEEE Transactions on
