Erratum: Dual and triple-band PIFA design for WLAN applications

## Abstract The design of a dual and triple‐band planar inverted‐F antenna (PIFA) is proposed for WLAN 802.11 a/b/g applications. Dual‐band operation is achieved by simply truncating one of the top rectangular radiating plate's corners, and wide bandwidth for the upper‐band is obtained by applying

## 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 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 novel dual‐band slot‐antenna for WLAN applications is presented. The antenna is composed of two narrow slots fed by a microstrip‐line. In order to increase the impedance bandwidth of a narrow slot and keep its small size, a kind of stepped‐impedance (SI) slot is used. It has been inve

## Abstract This article proposes the design of tunable dual‐band filters for multiband multistandard systems, specifically for wireless local‐area network applications. The two main goals are to provide frequency tunability in the second band while maintaining the first band fixed and to obtain a