Modeling of coupled multiconductor microstrip-like transmission lines

This paper presents the formulations of the immittance matrices of multiconductor transmission lines. Firstly, the multiple-reflection expressions of the line voltages and currents are reviewed: then, the general expressions of the port impedance and admittance matrices are established. Finally, as

An efficient method for frequency-domain and transient analysis of the nonuniform lossless coupled microstrip transmission lines excited by external electromagnetic waves is presented. The nonuniform coupled microstrip transmission lines system is first decomposed into a large number of uniform sect

Distortion in the Gaussian pulse on the shielded, suspended, and composite substrate microstrip line has been analyzed by using newly de¨eloped closed-form expressions. Practically distortion-free pulses could be obtained on the suspended microstrip line, and in the practical range of interest, the

## Abstract We present a general method for numerical analysis of electrically large electromagnetic‐field problems, which is based on merging diakoptic approach and surface integral‐equation formulations. Compared with the classical approach, the proposed method provides significant reduction of c

## Abstract We present a spectral‐domain analysis of thin superconducting microstrip structures in which the effects of superconducting materials, finite conductivity, and finite thickness are taken into account, using the concept of complex surface impedance. Numerical simulations showing variatio

## Abstract A full‐wave‐based modal analysis is used for simulating a multiconductor coplanar waveguide (CPW) over a selectively etched lossy silicon substrate. Propagating modes, which are similar to the classic ‘common’ and ‘differential’ modes, are extracted, and circuit theory energy relationsh