Multifrequency characteristics of sinc shaped microstrip patch antenna

## Abstract Based on the symmetric properties of the antenna, the design equations for the first four mode frequencies are derived. A design methodology for an antenna operating at 2.45 GHz is presented. Two antennas have been designed and tested, and good agreement among the predicted, simulated,

## Abstract A parasitic‐coupled T‐shaped microstrip patch antenna is discussed in this article. The T‐shaped microstrip patch antenna gives dual band resonant frequency on a thin substrate. The two resonant frequencies are within the 3 dB bandwidth that shows wide bandwidth. The experimental result

## Abstract In this Letter, a new Koch island microstrip patch antenna is proposed. The Koch patch is fractal shaped and characterized by space‐filling and self‐similarity properties. Due to the space‐filling properties of fractal geometry, the proposed antennas are a smaller in size than conventio

The proposed antenna is found to ha¨e a much broader impedance bandwidth as compared to the con¨entional U-slot antenna. An impedance bandwidth of about 33.8% is achie¨ed for the proposed E-plane antenna. Through the use of a washer on the proposed antenna, the probe inductor is compensated, and an

A new antenna structure comprising of multiple radiating microstrip patches, representing a figure of digit eight, proximity fed by a microstrip line is proposed. On a double-layered substrate of FR4, this antenna achieves multiband functionality in the range of 3.81-12.42 GHz, which covers IEEE 802