Controlling the input impedance of a microstrip patch antenna without additional matching elements

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 letter, a new and explicit matrix input impedance formula for the H‐shaped microstrip patch antenna with a probe feed together with new coupling impedance formulas are presented. A compact H‐shaped antenna operating at 2.45 GHz has been designed and tested. Good agreement for th

## Abstract The modified Wolff model (MWM)‐based cavity model is presented for the simple and accurate computation of the input impedance of a probe‐fed multilayer rectangular microstrip patch antenna. Results of the MWM are compared with both the experimental data and data of the MoM, with agreeme

## Abstract Microstrip antennas are important elements of today's wireless communication networks. In their various applications, it is critical to provide wide band operation around the resonant frequency providing good impedance match between the antenna element and the feed. In this study, new,