Fast frequency-sweep analysis of cavity-backed microstrip patch antennas

## Abstract A time‐domain finite‐element method (TDFEM) is presented for simulating the radiation and scattering from cavity‐backed microstrip patch antennas. The perfectly matched layer (PML) is utilized to efficiently truncate the TDFEM solution domain. The higher order vector basis functions are

The resonant frequency of a circular patch antenna with and without circular cavity is measured. The patch miniaturization in the presence of the cavity is proved. Different methods of reducing resonant frequencies and broadening bandwidth without significantly reducing antenna gain are presented. C

This work looks at the use of wideband cavity-backed U-slot microstrip antennas in finite phased arrays. This configuration retains the single-patch and single-layer characteristics of conventional microstrip antenna arrays and provides a good impedance matching over wider scan angles when electrica

## Abstract A simple but accurate equivalent circuit of an aperture‐coupled cavity‐fed microstrip patch antenna is developed. It consists of ideal transformers, admittance elements, and transmission lines, and the related circuit‐element values are computed by applying the reciprocity theorem and c

A hybrid technique that combines the method of moments (MOM) with the finite-element method (FEM) is presented in this article for the analysis of cavity-backed patch antennas embedded in a conducting body. The technique utilizes the MOM approach in the domain exterior to the cavities, and a scatter