Reduced size small dual and multi-frequency microstrip antennas

A new design of reduced-size, dual-frequency circular microstrip antenna is presented. The patch-size reduction is achie¨ed by cutting four equally spaced slits at the boundary of the circular patch. The two operating frequencies can be controlled by selecting a suitable disk radius and adjusting th

This paper presents the design of a dual-port microstrip patch antenna with dual-frequency operation. Two different feed mechanisms-aperture coupling and inset coplanar microstrip line-are used to excite the TM 10 and TM 01 modes, respectively, on a single square patch. The frequency ratio of the pr

## Abstract A novel H‐shaped dual‐frequency microstrip antenna has been investigated. This novel microstrip antenna is considered to be composed of two microstrip dipoles, which resonate at the antenna's two operating frequencies, respectively. The resonant frequencies are predicted. Return loss, r

## Abstract A dual‐frequency and dual‐linear polarization multilayer microstrip antenna element for array‐antenna applications is presented. The performance of the element was computed using a commercial software based on the finite‐element‐method (FEM) algorithm. A prototype with dimensions based

## Abstract A rectangular microstrip antenna is gradually divided into equal smaller elements along the width, and lengths of these smaller strips are varied to increase the separation between the resonances to obtain dual and triple frequency operation. Likewise, configurations consisting a maximu

## Abstract This article presents the design and fabrication of a short‐pin dual‐band E‐shaped microstrip patch antenna for application in a 2.630–2.655 GHz band satellite‐DMB with a 5.725–5.825 GHz band wireless LAN. The prototype consist of a short‐pin and E‐shaped patch. To obtain sufficient ban