A broadband probe-fed planar patch antenna with a short probe pin and a conducting cylinder transition

## Abstract The characteristics of a novel rectangular patch with an offset F‐shaped probe are investigated. The patch height is approximately 9% of the designed wavelength. An impedance bandwidth of 36% and an average measured gain of approximately 5 dBi can be achieved for the first dominant mode

## Abstract This paper presents a novel broadband design of a probe‐fed patch antenna, and a constructed prototype suitable for applications in a DCS (1710–1880 MHz) cellular system base station is demonstrated. The proposed antenna has a thick air substrate for broadband operation, and is fed by a

## Abstract A new broadband probe‐fed patch antenna is proposed. We demonstrate that, by feeding an air–substrate patch antenna at the patch edge using a probe feed coplanar with the radiating patch, broadband operation can easily be obtained. Also, for the use of the proposed coplanar probe‐feed d

A wideband pentagon-slot microstrip antenna with a semicircle probe feed is proposed. The broadband characteristic is achieved by cutting a pentagon slot at each corners of the patch. The proposed antenna is able to achieve an impedance bandwidth of 68.3% for a VSWR of less than 2. Experimental comp

## Abstract Simulation results for a small‐size probe‐fed notched patch antenna with a shorting post are presented. The area of the patch has been reduced by 94%, while the antenna maintains a bandwidth of 13.2%. The antenna can be designed to operate in the dual‐band mode. © 2001 John Wiley & Sons

## Abstract The radiation pattern of an L‐probe coupled patch‐antenna array mounted on a finite conducting cylinder is accurately and efficiently computed by the electric‐field integral equation (EFIE) in conjunction with the method of moments (MoM) and Galerkin's testing procedure. The effects of