SIMULATION DIAGNOSTICS OF MULTIPLE DISCONTINUITIES IN A MICROWAVE COAXIAL TRANSMISSION-LINE

Multiple discontinuities in microwave transmission lines can cause unu sual reflection and transmission loss characteristics as functions of frequency. This article presents a method for developing models that s imulate return loss and insertion loss data measured over a broad band of frequencies. The overall cable is modeled as a coaxial transmissio n line consisting of shunt susceptance discontinuities separated by li ne lengths. A nonlinear least-squares fit is then performed between th eoretical data (from the model) and experimental data. When this metho d was applied to modeling discontinuities in a slightly damaged S-band antenna cable, excellent agreement between theory and experiment was obtained over a frequency range of 1.70-2.85 GHz.