Formulation of resonant frequency for compact rectangular microstrip antennas

## 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 A generalized method is presented to determine the resonant frequency of slot‐loaded rectangular microstrip patch antenna by equating its area to an equivalent area of a rectangular microstrip patch antenna. The computed results are in good agreement with the reported simulated and meas

## Abstract This article presents the extended expression to calculate the environmental effect on resonant frequency of multilayer rectangular microstrip antennas. The expression has been investigated for effective dielectric constant ε~eff~ and resonant frequency __f__~r~. The effective dielectri

## Abstract This article presents the experimental results and verification of design expressions of multilayer rectangular and circular microstrip patch. Three rectangular and circular microstrip patch of different dimension have been fabricated on substrates ε~r2~ = 4.3, thickness 1.53 mm and ε~r

## Abstract In this article, simple expressions for calculating the resonant frequencies at TM~10~ and TM~01~ modes of dual frequency arrow‐shaped compact microstrip antennas are presented. These empirical expressions are derived with the use of differential evolution algorithm by using the simulat

## Abstract A microstrip patch antenna (MPA) with four resonance frequencies is presented. The size of the proposed antenna is reduced using shorting wall and window techniques. The effect of window areas on the shorted antenna parameters has been studied. A planar triple‐frequency developed to qua