Determination of the resonant frequency of microstrip antennas

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

A new method based on artificial neural networks for calculating the resonant frequency of circular microstrip patch antennas is presented. This neural method is simple ( ) and is useful for the computer-aided design CAD of microstrip antennas. The theoretical resonant frequency results obtained by

One of the approaches to reducing the size of halfwavelength linear dipole antennas is the meander dipole antenna, where the elements form a meander line. This paper presents a formula for the relationship between the geometrical size and the resonant frequency of the meander line dipole antenna, an

A new and simple dynamic permittivity expression for the circular disk microstrip structure including air gap is determined and used in the resonant frequency calculation. The formulation provides the best fit with the experiments for fundamental and higher order modes. The proposed dynamic permitti

A new method for calculating the resonant frequency of electrically thin and thick rectangular microstrip antennas, based on the fuzzy inference systems, is presented. The optimum design parameters of the fuzzy inference systems are determined by using the classical, modified, and improved tabu sear

proposed structure reduces not only the number of semiconductor switches, but also the size of the phase shifter. ## CONCLUSION A shunt-connected single-switch structure has been presented for phase-shifting applications. Starting from analytic results, design criteria have been given. The perfor