New bandwidth enhancement and multiresonance technique for microstrip patch antenna

The resonant frequency of a circular patch antenna with and without circular cavity is measured. The patch miniaturization in the presence of the cavity is proved. Different methods of reducing resonant frequencies and broadening bandwidth without significantly reducing antenna gain are presented. C

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 A new stacked microstrip antenna structure that enhances the bandwidth without changing the resonance frequency is proposed and studied in this paper. The effect of the various antenna parameters on the bandwidth is investigated. The resulting antenna, using the proposed structure, has

## Abstract Impedance‐bandwidth enhancement of microstrip antennas using an L‐shaped probe feed has previously been demonstrated. In this paper, axial‐ratio bandwidth enhancement is achieved for circularly polarized (CP) microstrip patch antenna using dual and four L‐shaped probe feeds. By controll

A new method for enhancing the 2:1 VSWR impedance bandwidth of microstrip antennas is presented. Bandwidth enhancement is achie¨ed by loading the microstrip antenna by a ceramic microwa¨e ( ) dielectric resonator DR . The ¨alidity of this technique has been established using rectangular and circular

## Abstract Coax‐fed inverted L‐shaped microstrip antennas and parasitically coupled inverted L‐microstrip antennas are presented. The inverted L‐shaped microstrip antenna gives an impedance bandwidth of 30.6%, which is increased to 33.7% by parasitic coupling. The bandwidth has been achieved with