A CPWG-fed dual-frequency rectangular patch antenna

## Abstract A dual‐frequency patch antenna with an inset feed in presented and discussed. It is demonstrated that by cutting two slots into one of the radiating edges of a microstrip patch antenna, a dual‐frequency response with a frequency ratio from 1.03 to 2.0 can be achieved. It is also shown t

A no¨el design of an L-shaped patch antenna for dualfrequency operation is proposed. The proposed antenna is obtained by bending a planar rectangular patch into an L-shaped patch, which is then placed on a grounded substrate, with the patch's horizontal portion parallel to and abo¨e the substrate an

## Abstract In this paper we present a small dual‐frequency printed antenna based on a square shorted‐patch configuration with an embedded slot to generate the second resonant frequency. The antenna resonance is at 1.58 and 2.6 GHz with 10‐dB return‐loss bandwidths of 1.3% and 3.3% for the lower an

## Abstract This paper describes a new aperture‐coupled microstrip patch antenna with H‐shaped slots for dual‐band and dual‐polarized operations. Two orthogonal modes are excited in a single long rectangular patch to achieve the two resonant frequencies with a separation of more than 2:1. By using

A simple design of a dual-frequency microstrip antenna using a single rectangular patch and a single probe feed is described. Experimental results of the antenna resonating at frequencies of about 1.42 and 1.54 GHz are presented. Measurements are uerijed by the theoretical results obtained from full

Figure 7 Scattering width of a TE wave for a rectangular PEC z cylinder with s 90Њ and f s 3.13 GHz i