Design of a modified meander-type microstrip patch antenna in the 5-GHZ band

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 investigates the characteristics of the modified meander‐line‐type patch antenna for the 5‐GHz band. Its design was based on a modified meander line width and shorting pin with coaxial feeding. Its maximum measured impedance bandwidth (−10 dB and below) reaches approximately

## Abstract In this study, a multiple U‐shaped slot microstrip patch antenna for application in the 5‐GHz band is designed and fabricated. To obtain sufficient bandwidth in the operating band, foam is inserted between the substrate and ground plane, a coaxial probe source is used, and the position

This paper presents the characteristics of a half bowtieshaped, meander-type antenna for broadband impedance bandwidth. The design was based on a modified meander line and a bowtie shape with coaxial feeding. The maximum measured impedance bandwidth (Ϫ10 dB) was approximately 1.5075 , or about 23.8%

## 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

## Abstract This article describes the design, fabrication, and measurement of a novel π‐shaped dual‐band antenna with a shorting pin for 5.2/5.8 GHz wireless local area network (WLAN) systems.To obtain sufficient bandwidth when return loss (RL) < −10 dB, a shorting pin is inserted in the patch and