High gain microstrip antenna design for broadband wireless applications

## Abstract A novel high efficiency sector antenna build of four radiating patches, a shaped ground plane and a reflector plate is presented. Based on the proposed structure, a prototype antenna for WiMAX applications, achieving a half‐power beamwidth of 120°, was designed, fabricated, and measured

## Abstract This paper proposes an efficient high‐gain multilayered antenna for wireless applications. The prototype antenna consists of a microstrip antenna which fed single or multiple parasitic patches fabricated on a low cost easily available FR4 superstrate. The patches on superstrate are susp

## Abstract A novel microstrip slot antenna backed by a ground plane of large bandwidth and high gain is presented. A fan‐shaped termination of a microstrip feeder with a straight stub is used to excite a rectangular slot and a circular patch to realize the broadband characteristic. Its measured vo

## Abstract A novel complementary‐symmetry microstrip array antenna is presented for broadband operation. The maximum impedance bandwidth of 132.12% and high gain of 10.08 dB is achieved. The radiation patterns are found broadsided across the entire operating band. The design concept of the antenna

## Abstract A novel two‐element right angle slot loaded square microstrip array antenna (TESMAA) is presented for 52.18% of bandwidth and 11.22 dB of gain. The effect of different slots placed in the ground plane is studied for enhancing the bandwidth and gain. It is found that when bow‐tie slot is

## Abstract This article proposes an efficient high‐gain multilayer 2×2 antenna array for wireless applications. The prototype antenna consists of a microstrip antenna which feeds 2×2 array of square parasitic patches fabricated on a low‐cost easily available FR4 superstrate. The patches on superst