A wideband aperture-coupled microstrip antenna for S and C bands

## 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

## Abstract In this paper, we study a rectangular microstripline‐fed wide aperture‐coupled microstrip antenna backed by a ground plane. In this case, a rectangular microstrip feed line and a wide slot lead to good impedance matching in a wide‐frequency band. The 2.0 VSWR impedance bandwidth of the

This paper presents an experimental in¨estigation into a microstrip Yagi array antenna for a possible use in a wireless LAN system. The antenna uses an aperture coupling feeding mechanism, and can be placed in a horizontal plane to communicate with the base station. Experimental results are presente

## Abstract The design and development of a wideband dual polarized planar array antenna of 3 × 6 elements in C band is presented. The center frequency is 5.3 GHz. The single radiating element used in the array configuration is of stacked SSFIP. The antenna has been developed for beam pointing of 1

Figure 7 that the mean RCS from 2 to 10 GHz is reduced by 4 dBsm, and an RCS reduction of approximately 4 -7 dB at a major of peak is achieved, with a 10.6-dB RCS reduction at 3.2 GHz. It is known that the RCS reduction is in opposition to increasing gain. RCS reduction can only be achieved at the e

## Abstract A new aperture‐coupled patch antenna is presented, in which the patch is surrounded by a conductor ground and the sides of the dielectric substrate are covered with conductor walls. The antenna was investigated numerically and experimentally. Result shows that the antenna has a bandwidt