Microstrip antenna top-loaded by a dielectric resonator

A new method for enhancing the 2:1 VSWR impedance bandwidth of microstrip antennas is presented. Bandwidth enhancement is achie¨ed by loading the microstrip antenna by a ceramic microwa¨e ( ) dielectric resonator DR . The ¨alidity of this technique has been established using rectangular and circular

## Abstract Experimental investigations of rectangular and circular suspended microstrip patch antennas with dielectric resonator loading at X‐band are reported. With loading, enhanced impedance bandwidth to about 18% is achieved in a single circular patch as compared to 13% for a single rectangula

## Abstract In this letter, we present a new antenna configuration in which a coplanar waveguide (CPW) is used to feed a cylindrical dielectric resonator (DR) and a subjacent circular patch to generate an omnidirectional radiation pattern. A first prototype, designed to resonate near 2.45 GHz, show

## Abstract The paper presents an experimental investigation of a cylindrical dielectric resonator antenna (DRA) with a conducting strip loaded on its top surface enabling circular polarisation. A simple 50Ω microstrip transmission line excites the antenna. The reflection, polarisation, and radiati

## Abstract A rectangular ceramic dielectric resonator loaded into a folded thin‐wire monopole antenna in a horizontal finite ground plane is presented. While in a suitable adjustment, the impedance bandwidth of the proposed antenna is 67% (2.15–4.30 GHz). Moreover, the electric dipole pattern is k

## Abstract A novel technique for the bandwidth enhancement of conventional rectangular microstrip antenna is proposed in this paper. When a high permittivity dielectric resonator of suitable resonant frequency was loaded over the patch, the % bandwidth of the antenna was increased by more than fiv