A closed-form expression for the resonant frequency of rectangular microstrip antennas

tially. However, steeples of tuning is little at closer distances between the ring and anode block. The reason of this phenomena is arising of capacitive component of conductance carry in with ring to circuit. Because it moves resonant frequency to opposite direction, the summary variety on little d

## Abstract The approximate equations to calculate the resonant length of various compact rectangular microstrip antennas like, C‐shaped, H‐shaped, and rectangular ring microstrip antenna, are proposed. The error in the calculated resonance frequency is <5%. © 2006 Wiley Periodicals, Inc. Microwave

## 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

Fonnulas based on transmission-line, cauiiy, and magnetic-wall models to determine the resonant fie quencks of u rectungular microstrip antenna element haue been studied and their ualidiiy assessed. Their cariations were experimentally r;erifred by analyzing u set of newly designed untennu elements

## Abstract This letter presents a novel effective radius expression for determining the resonant frequency of circular microstrip patch antennas. The effective patch radius expression is constructed by using differential evolution algorithm and is valid for both electrically thin and thick circula