An ultra-wideband stacked microstrip patch antenna

## Abstract Results for a stacked microstrip patch antenna for dual‐band applications are presented. The aim is to cover the frequency bands 890–960 MHz and 1.71–1.88 GHz, respectively. Impedance bandwidths (VSWR <2 : 1) of 20.1 and 14.8% were obtained for the respective frequency bands. Simulated

## Abstract Simulated and measured results of a diplexing feed network for a wideband dual‐frequency stacked microstrip patch antenna are presented. The microstrip feed network is easy to design and consists of a T‐junction and a single decoupling resonator for each frequency band. The return loss

## Abstract A novel ultra‐wide band printed slot antenna is presented. By using the novel feeding structure of a circular patch with a tapered microstrip line, the bandwidth of the elliptical slot antenna is greatly enhanced. The impedance bandwidth (VSWR < 2) reaches 174%, covering 1.90–27.7 GHz w

## Abstract Experimental investigations of rectangular and circular suspended microstrip patch antennas with dielectric resonator loading at X‐band are reported. With loading, enhanced impedance bandwidth to about 18% is achieved in a single circular patch as compared to 13% for a single rectangula

## Abstract This article presents the results of a novel triangular monopole antenna that exhibits multioctave performance.This modification significantly improves the antenna's impedance bandwidth by 158% over an ultra‐wideband frequency. The antenna's simulated return loss and radiation patterns

## Abstract This letter presents a new aperture coupled microstrip antenna with a nonsymmetric U‐shaped feed line and two rectangular slots on the ground plane. Simulation results show that the antenna has VSWR <2 from 10.5 to 22 GHz and the simulated gain bandwidth (above 7 dB) of the antenna is 6