A systematic method to design single-patch broadband microstrip patch antennas

Bandwidth enhancement of a single-layer, single-patch rectangular microstrip antenna can be achie¨ed by embedding a pair of double-bent slots close to the patch's nonradiating edges and an additional bent slot centered to the patch's center line. This new configuration of a slotted rectangular micro

The proposed antenna is found to ha¨e a much broader impedance bandwidth as compared to the con¨entional U-slot antenna. An impedance bandwidth of about 33.8% is achie¨ed for the proposed E-plane antenna. Through the use of a washer on the proposed antenna, the probe inductor is compensated, and an

## Abstract A novel slope‐strip feeding technique for a microstrip antenna is presented in order to achieve a broad bandwidth. The experimental results show that the optimal bandwidth attained is 53.4% for less than −10‐dB return loss. © 2004 Wiley Periodicals, Inc. Microwave Opt Technol Lett 43: 1

## Abstract Based on the symmetric properties of the antenna, the design equations for the first four mode frequencies are derived. A design methodology for an antenna operating at 2.45 GHz is presented. Two antennas have been designed and tested, and good agreement among the predicted, simulated,

## Abstract A broadband microstrip patch antenna with U‐shaped parasitic elements is proposed and analyzed using equivalent circuit theory concept. The effects of gap between the main patch and the U‐shaped parasitic elements, substrate thickness, and the feed point location are analyzed to obtain