A compact multiband antenna for WLAN and WiMAX applications

## 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 In this paper, a novel compact printed monopole antenna with multiband operation for wireless local area networks (WLAN) is presented. A simple C‐shaped strip and a straight strip of this antenna provide two resonant paths to achieve 2.4‐, 5.2‐, and 5.8‐GHz multiband operation. Good sim

## Abstract A tri‐band planar inverted‐F antenna (PIFA) for WLAN and WiMAX applications is proposed.By combining F‐T‐shaped slots in the radiating structure and using a trapezoidal feeding plate, three resonant modes are generated and impedance bandwidth of the antenna is enhanced. The fabricated r

## Abstract A compact triple‐band planar antenna applied to UMTS, WiFi and WiMAX applications is proposed. The proposed antenna provides three wide frequency bands, which are 1744–2759 MHz, 3271–4126 MHz and 4718–5908 MHz, realized in a commercial FR4 printed‐ circuit board (PCB) with a permittivit

## Abstract A compact printed monopole antenna having small dimensions (22 × 9.5 × 1.6 mm^3^) for the WLAN bands is presented. With the use of a plated‐through via connecting a rectangular patch with a meandered strip on the both sides, the impedance matching in multiband operation covering 2.4, 5.

## Abstract This paper proposes a novel compact dual‐slot antenna for 5‐GHz WLAN applications. The prototype comprises a rectangular slot, a H‐shaped slot, and an open‐circuited microstrip feed line. The simulation and experimental results indicate broad operating bandwidth from 4.9 GHz to 6.3 GHz