A simple and accurate model for the resonant frequency and the input impedance of printed antennas

## Abstract Printed antennas are very popular for commercial and military RF (radio frequency)/microwave communication systems because there is an enormous evolution in printed circuit technology. In this study, printed monopole and filamentary excited dipole, which are basic models and easily appl

## Abstract Microstrip antennas are important elements of today's wireless communication networks. In their various applications, it is critical to provide wide band operation around the resonant frequency providing good impedance match between the antenna element and the feed. In this study, new,

In this paper, a technique is presented to reduce the computational effort involved in the full-wave frequency analysis of printed antennas, as done via the method of ( ) moments MoM discretization of EFIE. The technique is based on the resonance properties of one or more radiating elements presente

## Abstract A new, very simple closed‐form expression for computing the bandwidth of rectangular microstrip antennas with thick substrates is presented. It is obtained by means of a curve‐fitting technique, and is useful for the computer‐aided design of microstrip antennas. The theoretical bandwidt

## Abstract A new and accurate expression for the edge extension in accurately predicting the resonant frequency of electrically thin and thick rectangular microstrip antennas is presented. First, a closed‐form model for the edge extension is constructed by utilizing a differential evolution algori

## Abstract This research and tutorial paper is the second part of a work dedicated to the analysis and computation of the electromagnetic behavior of inductor windings operating at high‐frequency regimes—a critical issue for very fast transient overvoltage studies. The inductor winding, wound arou