Design of circular patch antennas on ferrite substrates

An analysis of a probe-fed circular patch antenna etched on an electrically thick substrate is conducted. The probe is considered to be the primary source of radiation and the unknown induced current on the patch is determined from the reaction concept. The integral transformation technique is emplo

## Abstract The finite‐difference time‐domain (FDTD) method is used to model the response of microstrip patch antennas on magnetized ferrite substrates. The proposed FDTD model utilizes the auxiliary differential equation approach to represent the frequency dependent permeability tensor in the time

A new TLM modelling method has been developed for patch antennas on magnetized ferrite substrate. The antenna has magnetically controllable resonance frequency and beam direction. The anisotropic permeability tensor of ferrite is modelled by state equations derived from the Polder tensor. Simulation

## Abstract A circular patch antenna tuned by a ferrite post is presented. The DC‐biasing magnetic field is assumed perpendicular to the patch and the ferrite losses are taken into account. Both right‐ and left‐hand circular polarizations are considered. The “perfect magnetic walls” approximation i

## Abstract This article presents a simple design expression to calculate resonant frequency (f~r~) of a four‐layered circular microstrip patch. The resonant frequencies calculated by present method are in good agreement with the calculated value by FDTD method. The average % deviation for circular