Transient response of lossy transmission lines with arbitrary loads

## Abstract A new formulation of equations of the nonuniform lossy transmission line, in the form of integral equations based on the method of characteristics, has been introduced. Two methods of solution of these equations are presented, the first based on discretization of the integrals and, the

## Abstract This paper deals with a computational approach based upon the centered‐points finite‐difference time‐domain (FDTD) technique for evaluating voltages and currents along lossy nonuniform multiconductor transmission lines terminated with arbitrary loads. We emphasize the case of complex no

In this paper, the optimization of matching loads for lossy transmission lines is carried out by means of a suitable optimization strategy. Starting from a ladder network, which approximates the characteristic impedance of a given lossy transmission line with a limited number of lumped elements, the

## Abstract In this paper a method based on the double expansion by wavelet on the interval in space and time of non‐uniform transmission line equations with arbitrary loads is presented. The differential time domain equations are transformed into a Lyapunov equation which is adaptively solved. Hen