Novel design of printed monopole antenna for WiMAX application

## Abstract A compact printed monopole antenna for WLAN and WiMAX applications is proposed. By combining symmetrical G‐shaped strips and a coupling‐fed plate, fed by a 50 Ω microstrip transmission line, wide impedance bandwidths covering WLAN/2.4/5.2 and WiMAX/5.75 are achieved. The omnidirectional

## Abstract This study proposes a novel design of printed monopole antenna using branch slits for WiMAX applications. Here, dual‐band‐reject function is used to form triple band for WiMAX operation. We first investigated the printed rectangular monopole antenna for wide‐band operation of 2.5–6 GHz,

## 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 new microstrip‐fed triple band antenna is presented for satisfying wireless local area network (WLAN) and worldwide interoperability for microwave access (WiMAX) applications simultaneously. The antenna comprises a rectangular monopole fed by a microstrip transmission line to generate

## Abstract In this article, a novel p‐shaped printed monopole antenna is first proposed to operate simultaneously at the 2.45 and 5.8 GHz bands for radio frequency identification tag. Printed on a standard 1.6 mm FR4 substrate material, the printed monopole antenna has been demonstrated to provide

## Abstract In this article, we have investigated printed double‐T monopole antennas for triband applications. A close form formula for calculating the antenna resonance frequency is reported. Such printed monopole antennas are compact, less fragile, planar, and easy for design and fabrication. © 2