Fabrication and measurement of miniaturized Z-shaped corrugated-type patch antenna for WLAN

## 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 paper describes the design, fabrication, and measurement of a modified spiral‐patch antenna with a shorting pin. The prototype consists of a modified spiral model and was made using the shorting‐pin method. The prototype of the proposed antenna was designed to achieve triple‐band o

## 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

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 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

A rectangular ring is introduced in an open-ended planar monopole antenna fed by a coplanar waveguide (CPW) in order to achieve broadband dual-frequency operation. Prototypes of the proposed antenna designed for WLAN operation in the 2.4-and 5.2-GHz bands are constructed and tested. The maximum meas