The irregularly shaped patch as a perturbation of a regularly shaped patch

## Abstract Based on the symmetric properties of the antenna, the design equations for the first four mode frequencies are derived. A design methodology for an antenna operating at 2.45 GHz is presented. Two antennas have been designed and tested, and good agreement among the predicted, simulated,

## Abstract A half E‐shaped patch antenna is analyzed using equivalent circuit model based on modal expansion cavity model. The antenna shows almost 50% reduction in size with the same performance as achieved by full E‐shaped patch. The proposed theory is verified by simulation and experimental res

## Abstract Triangular patch modeling is used for analysis of arbitrarily shaped microstrip patch antennas over a single lossy dielectric medium. Since the Sommerfeld formulation is used, both the single dielectric layer (over which the microstrip patch is located) and the ground plane are consider

## Abstract In this paper, an ultra‐broadband patch antenna using a wedge‐shaped air dielectric substrate is introduced. By adjusting the angle α, the experimental ratio bandwidth of S~11~ ⩽ −10 dB reaches 8.8:1, covering frequencies from 3.05 to 26.87 GHz. The measured impedance locus and radiatio

## Abstract A full‐wave model for the analysis of a finite array of arbitrary shaped, probe fed, microstrip elements is presented. The method of moments is used first to obtain a space‐domain solution to the mixed potential integral equation (MPIE) for the isolated element in terms of linear ramp b

## Abstract In this paper, a weathercock‐shaped microstrip patch antenna for application in a Hiper‐LAN is designed and fabricated. To obtain sufficient bandwidth when VSWR < 2, the T‐slot is inserted in the patch and a coaxial‐probe source is used. The measured result of the fabricated antenna is