Dual-band monopole antenna excited by a capacitive coupling feed for WLAN applications

## Abstract A novel printed monopole antenna for dual‐band operation is presented. The antenna comprises a radiator having a strip and two side‐loaded patches, and is fed by a microstrip feedline. By folding top one of the side‐loaded patches on the other side of the substrate as well as connecting

## Abstract In this article, a novel dual‐band microstrip monopole antenna based on split‐ring elements is proposed for WLAN (2.4/5 GHz) applications. The antenna fed by a two‐stage microstrip line has fairly small dimensions and provides 7.5 and 25.5% impedance bandwidth performance at the respect

## Abstract A novel dual‐band printed G‐shaped monopole antenna is proposed. The antenna provides two resonant paths of different lengths (forming into a G‐shaped profile) in order to achieve 2.4‐ and 5.2‐GHz dual‐band operation for WLAN applications. Reasonably large impedance‐matching bandwidth a

## Abstract A compact and simple monopole antenna with CPW‐fed structure is proposed for application in dual‐band WLAN systems. The proposed antenna, which resembles the shape of the letter “e”, has a compact size of only 27 × 18 × 1.6 mm^3^ including the ground. By fabricated and measured, the pro

## Abstract A novel coplanar waveguide‐fed triple‐band antenna with omni directional radiation patters in the azimuth plane is proposed. The proposed antenna consists of two closed rectangular rings monopole and an inverted‐T strip. It can provide three separate impedance bandwidths of 17.5%, range

## Abstract A novel microstrip‐fed dual‐band L‐shaped monopole antenna has been developed for WLAN applications in the 2.4‐GHz and 5.2‐GHz bands. The antenna has a single L‐shaped radiator and is easy to construct. The obtained impedance bandwidth (1:1.5 VSWR) reaches 15.6% and 12.6% for the 2.4 an