Quasi-static Analysis of Shielded Multiconductor Transmission Lines for Triple Modal Reservation

Abstract

The paper analyzes two structures of multiconductor transmission lines (MCTL) for triple modal reservation of critical circuits in radio-electronic equipment. The MCTLs with the reference conductor around, and above and below were considered. A computational experiment for these MCTLs was performed. In the range of parameters, time responses to various excitation types and frequency responses under the control of the useful signal bandwidth were obtained. The effect of changing the cross section parameters of the MCTL on the values of the maximum output voltage and bandwidth was estimated. By means of parametric optimization of the MCTL, it became possible to achieve equalization of the time intervals between the decomposition pulses and an increase in the attenuation of the output voltage from 0.5 V to 0.29 V and from 0.25 V to 0.24 V for the MCTL with the reference conductor around, and above and below, respectively. The analysis of the results showed the admissibility of using these MCTLs as devices for triple modal reservation.