Title :
Methods of theoretical analysis and computer modelling of the shaping of electrical pulses by nonlinear transmission lines and lumped-element delay lines
Author :
Turner, M.M. ; Branch, G. ; Smith, P.W.
Author_Institution :
Dept. of Phys. & Astron., St. Andrews Univ., Fife, UK
Abstract :
Some theoretical aspects of shock wave formation on uniform LC ladder networks containing either nonlinear capacitors or nonlinear (saturable) inductors are discussed. It is shown that, if the ladder is unbiased, then in the low-frequency limit the tendency of a propagating pulse is to form a shock front. In a distributed line such a shock front can reach a steady state form, but in a lumped element network decomposition into a soliton array eventually occurs. There is consequently an optimum length for a pulse sharpening line which is a compromise consisting in the need to minimize the rise time of the pulse without allowing undue fragmentation of the propagation wave front. The time development of large amplitude pulses as they propagate along the ladder is accurately predicted by numerical solutions of the coupled equations for the currents and voltages
Keywords :
circuit analysis computing; ladder networks; lumped parameter networks; nonlinear network analysis; pulse shaping circuits; pulsed power technology; transmission lines; computer modelling; distributed line; lumped-element delay lines; nonlinear transmission lines; propagation wave front; pulse sharpening line; shock front; shock wave formation; soliton array; uniform LC ladder networks; Cutoff frequency; Inductors; Nonlinear circuits; Pulse circuits; Pulse power systems; Pulse shaping methods; Shock waves; Switched capacitor networks; Switches; Voltage;
Conference_Titel :
Power Modulator Symposium, 1990., IEEE Conference Record of the 1990 Nineteenth
Conference_Location :
San Diego, CA
DOI :
10.1109/MODSYM.1990.200973
