A wideband capacitively fed circular-E patch antenna

A new design of a circular patch antenna with an impedance bandwidth greater than 25% and a peak antenna gain about 8.3 dBi is presented. The circular patch antenna has a thick air substrate, and a pair of wide slits are cut in the circular patch to facilitate the antenna's impedance matching. The c

## Abstract In this paper, the characteristics of a bent meander‐line probe fed patch antenna are investigated. The air‐filled patches are designed at a height of about 9% of the wavelength and the bent meander‐line probe fed antenna is able to achieve an impedance bandwidth of about 31% for a VSWR

## Abstract Experimental and simulated results for a wideband T‐probe‐fed circular patch antenna which has dipole‐like radiation patterns are presented. With an antenna thickness of ∼0.14 times the free‐space wavelength of the center operating frequency, the proposed antenna can achieve a bandwidth

## Abstract This paper presents a wideband patch antenna fed by a modified L probe. The antenna has impedance bandwidth of 21% (SWR < 2) and cross polarization level of less than −15 dB across the operating bandwidth. The antenna has a gain of 8.5 dBi. Both simulated and experimental results are pr

2 2 Ž . Ž . where 0 F lbr k y k , l: integer, 0 F n -2 ar ' y 2 2 k y k , n: integer. ## ' y The power conservation requires q q s 1. Figure 1 2 2 shows a comparison of the reflection and transmission w x coefficients between our results and 2 , indicating a good Ž . agreement. We use the number

## Abstract Simple folded‐patch antennas fed by an L‐shape probe are designed and studied experimentally. This simple antenna structure with thick air substrate attains a projection‐length reduction of about 30% with reference to the conventional half‐wave patch antenna. This antenna attains an imp