Closed-form expression for radiation resistance of a resonant rectangular microstrip patch antenna

## 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

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 In this paper, the radiation field of a rectangular microstrip antenna is calculated considering four edges of the antenna. The present method is based on expressing the radiated field, the radiation power, and the power losses in terms of the feeding voltage, and then developing an exp

## Abstract A novel method of using artificial neural networks (ANNS) for the calculation of the radiation resistance of a coax‐fed rectangular microstrip antenna is presented in this Letter. The network is trained with the results of three different antennas and tested for the fourth antenna. The

## Abstract This article presents closed‐form expressions for the resonant frequency and radiation characteristics of microstrip ring antennas to assist in the computer‐aided design of such antennas. Radiation fields are obtained using the vector electric potential calculated from the magnetic curr