Novel printed CPW-FED slot antenna for wireless applications

## Abstract A compact dual‐band antenna for wireless applications is proposed. The proposed antenna provides 2:1 voltage standing wave ratio (VSWR) impedance bandwidth of 590 MHz centered at 2.6 GHz and 3.09 GHz centered at 6.19 GHz. The antenna is fabricated on a substrate of dielectric constant 4

## 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 new compact configuration of a printed CPW‐fed semicircular slot antenna with a CPW‐to‐CPW step transition is presented. Its bandwidth is enhanced for ultra‐wideband (UWB) operation by combining linear and stepped CPW‐to‐CPW transitions along the feed line. Its measured 10 dB return l

## 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 In this article, a novel CPW‐fed broadband asymmetrical slot antenna is proposed. The prototype consists of an asymmetrical slot and a tuning stub. From experimental results, the measured impedance bandwidth of this antenna, defined by −10 dB return loss, can reach an operating bandwidt

## Abstract A novel coplanar waveguide (CPW)‐fed printed monopole antenna with an n‐shaped slot for dual‐band operations is proposed. By etching an n‐shaped slot on the radiating element, two tunable operating bands can be obtained. The measured results indicate that the impedance bandwidths of the