Spatial diversity antenna for WLAN application

A dual-band printed diversity antenna for 2.4/5.2-GHz WLAN operation is proposed. The antenna consists of two orthogonal C-shaped monopoles placed symmetrically with respect to a protruding T-shaped ground plane. Across the two bands, the antenna has two highly decoupled ports and can provide spatia

## Abstract A novel metal‐plate antenna easily constructed by folding a single metal plate is proposed. The antenna comprises a radiating portion, a vertical ground portion, and a horizontal ground portion, and is easily fed by using a 50Ω coaxial line. A constructed prototype suitable for applicat

## Abstract A dual‐band omni‐directional antenna that comprises two pairs of dipoles placed back‐to‐back and printed on a dielectric substrate is presented. A prototype is constructed and tested. The experimental results show that the 10‐dB return loss bandwidths (VSWR < 2.0) reach as much as 120 M

## Abstract A novel planar‐diversity folded‐dipole antenna, comprising two back‐to‐back folded dipoles separated by a central ground plane, is proposed. Experimental results of a constructed prototype suitable for WLAN operation in the 5‐GHz band, such as the 5.2‐GHz (5150–5350 MHz) and 5.8‐GHz (57

## Abstract A printed diversity dual‐band planar inverted‐F antenna (PIFA) mounted vertically at the edge of a PCMCIA network card (such that the protruded portion of the network card from the housing of the laptop has a minimum length) for WLAN operation in the 2.4‐GHz band (2400–2484 MHz) and 5.2

## 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