Reduction of the second and third harmonics for a rectangular microstrip patch antenna

The multiport network model MNM has been used to ( ) analyze rectangular microstrip antennas RMSAs excited at their secondand third-order modes. A diagonal-fed nearly square MSA excited at its second-order mode yields a conical pattern in both the s 0 and 90Њ planes. An RMSA excited at its third-ord

A new, very simple curve-fitted expression is presented for the radiation resistance of resonant rectangular microstrip antennas. It is derived from numerical results available in the literature, and is useful for the computer-aided design (CAD) of microstrip antennas. This expression can be used fo

## Abstract A defected microstrip structure (DMS) is proposed to reducing the size of a rectangular patch antenna by increasing its electric length, without degrading its performance. To illustrate this advantage, one conventional and one proposed defected patch antenna were developed and measured

Experimental and simulation results of a coaxially fed U-slot microstrip antenna stacked with a rectangular patch are presented. Results include impedance bandwidth, copolar and cross-polar radiation patterns, and gain.

## Abstract In this article, a new design for single‐layer rectangular microstrip patch antenna has been proposed.This design uses a ground plane with a single slot. It has been shown that by using this slotted ground plane, the resonant frequency has been lowered considerably, thus, reducing the s

## Abstract In this letter, the particle swarm optimization has been applied to calculate the optimized length and width of rectangular microstrip antennas. The inputs to the problem are the dielectric constant and thickness of the substrate; together with the desired resonant frequency; the output