Hexagonal dielectric resonator antenna for 2.4 GHz WLAN applications

## Abstract A compact half‐cylindrical dielectric resonator antenna (DRA) made from a high‐permittivity (ε~r~ = 69) ceramic material is investigated. A microstrip transmission line excites the DRA. The DRA shows broad and stable radiation characteristics across a matching band of 2.32 to 2.5 GHz wi

## Abstract Dielectric resonator‐loaded circular microstrip patch antennas can be used as an alternative way to generate circular polarization. The dielectric resonator is placed on the edge of the circular microstrip patch antenna to result both strong coupling effect and two degenerated orthogona

## Abstract A compact dual‐band antenna operating in the 1.8/2.4‐GHz bands with identical linear polarization suitable for DCS/2.4‐GHz WLAN applications is presented. The proposed configuration is a modified microstrip‐fed printed monopole with an additional strip and a proper truncated ground plan

## Abstract A planar monopole antenna suitable for broadband wireless communication is designed and developed. With the use of a truncated ground plane, the proposed printed monopole antenna offers nearly 60% 2:1 VSWR bandwidth and good radiation characteristics for the frequencies across the opera

## Abstract A simple, bent monopole antenna well useful for WLAN applications in the 2.4 GHz band is presented. The monopole antenna has a rectangular radiating plate in general and is short‐circuited to a small antenna ground and an assembly plate. The assembly plate is not only used as a supporti

## Abstract A 60‐GHz coplanar waveguide (CPW)‐fed dielectric‐resonator‐above‐patch (DRAP) antenna using micromachining technology is presented. In the proposed structure, the patch is elevated in the air with support of a dielectric‐post, and a rectangular dielectric resonator antenna (RDRA) is fix