Full-wave analysis of the broadband circular polarization microstrip patch antenna

In this paper, we present the characteristics of circular polarization of an elliptical microstrip patch fed by a coaxial probe through the method of moments in conjunction with the reaction integration method. After obtaining the general Green's function, the input impedance was calculated by super

Galerkin's method in the Hankel transform domain is used for determining the resonant frequencies of the dominant e¨en and odd modes of broadside-coupled circular microstrip resonators in con¨entional, suspended, and in¨erted configurations. Some of the computed resonant frequencies are compared wit

A theoretical approach and numerical simulation of a microstrip array for dual linear polarization are presented. The radiating element consists of two electromagnetic coupled patches fed by two microstrips that allow us to radiate two orthogonal polarized fields. The ( ) theoretical method is based

We present results of a recent investigation into a wide-band and high gain ( ) patch microstrip antenna using the finite-difference time-domain FDTD method. The substrate-superstrate resonance technique was used to increase the antenna element gain. An aperture-coupled rectangular patch microstrip

A rigorous analysis of printed circuits and antennas requires a great computational e!ort, due to the necessity of an accurate modelling of large metallic structures, including radiating patches and feeding lines. The computational e!ort increases if we have to deal with radiation phenomena in larg