Bandwidth Enhancement and Miniaturization of Fork-Shaped Monopole Antenna

## Abstract A leaf‐shaped monopole antenna with an extremely wide bandwidth is introduced. The antenna is composed of a leaf‐shaped metal sheet with three circular holes vertically mounted on the ground plate covered by a dielectric layer. Its measured −10‐dB return‐loss frequency range is from 1.3

The resonant frequency of a circular patch antenna with and without circular cavity is measured. The patch miniaturization in the presence of the cavity is proved. Different methods of reducing resonant frequencies and broadening bandwidth without significantly reducing antenna gain are presented. C

## Abstract This article proposes a parallel metal‐plated tuning fork‐shaped omnidirectional antenna for UWB application.Printed monopole antennas fabricated on a substrate offer impedance band width, which can cover UWB. However, radiation pattern varies significantly over the bandwidth. The cross

## Abstract A novel ultra‐wideband design of a printed fork‐shaped monopole antenna with a band‐rejection characteristic is presented. The proposed antenna with a simpler structure has a larger impedance bandwidth, defined by voltage standing wave ratio ≤ 2, covering the range from 3.09 to 11 GHz,