Accurate numerical modeling of microstrip junctions and discontinuities

## Abstract A mixed‐potential, spatial‐domain integral equation approach is used to model the coupling and junction effects when microstrip structures in two different layers of a common substrate are crossing each other. A Galerkin method, together with the so‐called pseudo‐mesh current distributi

A resonator technique is used to investigate the validity of microstrip t-junction and 45Њ bend discontinuity models over the frequency range 18-60 GHz. Models are checked against both experimental results and electromagnetic simulations using a previously described dual-resonator method to eliminat

We present a modified coupled-mode formulation for an asymmetric two-waveguide coupler in which the trial field is expressed as a linear combination of the fundamental modes of the individual waveguides, with an additionalphase-cariation term determinedfrom the orthogonality of the normal modes. The

## Abstract An accurate analysis of shorted microstrip patch antennas is presented based on the use of the locally conformal finite‐difference time‐domain (CFDTD) method. This approach enables the positions and dimensions of the probe and the shorting pin to be chosen independently. The calculated