Design and fabrication of a planar inverted-F antenna for the wireless LAN in the 5-GHz band

## Abstract A study of a dual‐band PC card mounted folded microstrip patch antenna is presented for use with a laptop computer. The antenna operates in the wireless local area network (WLAN) bands from 5.15–5.35 GHz and from 5.725–5.825 GHz within 2.5:1 VSWR. Three cases are considered. First, the

## Abstract In this paper, the characteristics of a modified meander‐type antenna for broadband impedance bandwidth are investigated in the 5‐GHz band. The design is based on a modified meander‐line width in a finite‐sized ground with coaxial SMA feeding. The modified meander‐type microstrip patch

## Abstract In this paper, an arrow‐shaped microstrip patch antenna is designed, fabricated, and measured for a 5‐GHz band wireless local area network (WLAN) application. The geometry of our proposed antenna is suitable for the wideband antenna in the 5‐GHz band. To obtain sufficient bandwidth in t

In this paper, the characteristics of the square-spiral antenna for broadband impedance bandwidth are investigated in the 5-GHz band. The design is based on the 1.25-turn square spiral antenna in a finite-sized ground with coaxial SMA feeding. Likewise, the corner of the proposed antenna is truncate

## Abstract This paper presents experimental demonstrations of a dual‐band planar inverted‐F antenna loaded with a U‐shaped slot. The physical parameters of the antenna, including shorted‐strip widths and ground‐plane dimensions, are studied in detail and their effects on the center frequencies and

## Abstract Significant effects of ground‐plane dimensions on the impedance bandwidth of a planar inverted‐F antenna for a UMTS (1920–2170 MHz) mobile handset are presented. Experimental results show that, by varying the ground‐plane length, the antenna studied can have an impedance bandwidth (10 d