Compact dual-band-notched CPW-fed wide-slot antenna for WLAN and WiMAX applications

## Abstract A simple and compact coplanar waveguide (CPW)‐fed antenna for dual‐ and wide‐band wireless applications is presented. By properly embedding slots into a rectangular patch, the designed antenna thus fed by a CPW feedline and, with, including ground plane, only 24 × 25 mm^2^, can lead to

## 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 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 presents a band‐notched planar slot antenna presented to overcome interference with some already existing standards such as the IEEE802.11a and HYPERLAN/2 systems. The slot antenna, evolved from an elliptical aperture antenna, is fed by CPW with an elliptical tuning‐stub to

## Abstract A compact coplanar waveguide (CPW)‐fed monopole antenna is proposed for dual‐band wireless local area network (WLAN) applications. The proposed antenna, which consists of a meander strip and a L‐shaped strip, has compact size of 20 mm × 17 mm × 1.6 mm including the ground. The impedance

## Abstract A compact CPW‐fed dual‐wideband antenna formed by a rectangular ring monopole and a rectangular monopole is presented. The measured 10 dB bandwidths for return loss are achieved to be 46.3% (2.36–3.78 GHz) and 31.4% (5.1–7 GHz) in the lower and upper band, respectively, covering all the