Impedance characteristics of the inverted microstrip circular patch antenna

The cacity-model rolutwn of the input impedance of a slot-coupled cylindrical-circular microstrip patch antenna is presented. The theoretical results are compared with measurements, and the accuracy of the cavity-model analysis is discussed. Effects of the cylinder size and the coupling slot length

## Abstract In this paper, a new CAD model is proposed to calculate accurate resonant frequencies of inverted microstrip circular patch antennas having a wide range of parameters. This model incorporates all the effects of various dimensions and dielectrics used. Computed results for the first few

Edge feeding of a circular patch antenna by a microstrip line has been achieved by utilizing the circumferential variation of the field which is fixed by loading the patch. However, loading splits the degenerate modes and gives rise to cross-polarization. Three different techniques are presented to

The input impedance and mutual coupling of cylindrical-circular microstrip patch antennas in the TM,, mode are experimentally studied. Measured results for the antennas on curued surfaces of different cylinder radii are presented, and the curvature effects on the input impedance and mutual coupling

## Abstract This article presents a simple design expression to calculate resonant frequency (f~r~) of a four‐layered circular microstrip patch. The resonant frequencies calculated by present method are in good agreement with the calculated value by FDTD method. The average % deviation for circular

## Abstract Characteristics of a single‐layer, multi‐frequency microstrip patch antenna, which uses a Sinc shaped microstrip patch configuration, are studied. This antenna is capable of providing good impedance matching at all frequencies without tuning the feed position and other design parameters