A compact wideband planar diversity antenna for mobile handsets

## Abstract A novel wideband printed diversity antenna for mobile handsets is proposed and studied. The antenna consists of two monopoles with symmetric configuration. The effects of some parameters of the proposed antenna are studied. The measured relative bandwidth reaches to 29.0% (1860–2490 MHz

## Abstract A novel compact triple‐band (GSM, DCS, and ISM) planar inverted‐F antenna is presented. A prototype was constructed and studied. The __S__~11~ parameters are measured and bandwidths of 3.4%, 10.3%, and 2.1% are obtained for the corresponding band, respectively. For practical application

## Abstract This paper presents the design of a wideband printed monopole antenna with inductance loading. This design introduces a loading inductor aimed at decreasing the lowest frequency of the impedance bandwidth, while adjusting the ratio of the patch's length to width in order to increase the

## Abstract A compact antenna suitable for personal communication handsets is presented. The antenna consists of a rectangular patch with a shorting pin. A spur‐line filter was added to obtain a dual‐band operation. Details of the antenna design are discussed, along with simulated and measured resu

## Abstract The design of a novel microstrip‐fed planar mobile phone antenna operating within the GSM/PCS/DCS band is proposed. Besides the additional ability to cover the entire wireless local area network frequency spectrum at 2.4, 5.2, and 5.8 GHz, its multiband operation also includes the GLONA

## Abstract In this article, a novel compact internal wideband planar inverted F‐antenna (PIFA) was designed. The proposed antenna consisted of a main patch with strip, rectangular slot, and shorting strip and occupied the total volume of 36 × 18 × 6 mm^3^. The dual band characteristic was achieved