Effect of substrate height variations on radiation properties of microstrip patch antennas on ferrite

## 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

A switchable microstrip rectangular patch antenna printed on ferrite substrate in the X-band is presented using general artificial neural network (ANN) analysis. The ferrite substrate offers a number of unique radiation characteristics including switchable and polarized radiations from a microstrip

Design and test consideration of RF systems was studied. The frequency domain analysis of RF systems was performed. This analysis helps improve the design performance and facilitates the test of RF circuits. During this analysis we determined the critical components influencing the circuit performan

## Abstract This work presents an experimental investigation of the properties of microstrip patch antennas on bismuth niobate ceramic substrates. The substrate fabrication process and characterization are described. Several prototypes were built and measured for wireless communication systems. A g

## Abstract The displacement of the upper patch in the resonant direction in a dual‐band stacked microstrip patch antenna controls the centre frequencies of the bands, their separation, the input impedance, and the radiation pattern at the upper band. The radiation pattern has low sensitivity to th