Dual-frequency triangular microstrip antenna with a shorting pin

## Figure 10 Transmittance of x-component from anisotropic plate with and without grid as a function of frequency frequency. However, the parasitic component with the grid becomes much bigger when the frequency shifts far away from the center frequency. ## V. CONCLUSIONS The anisotropic FDTD fo

By using a shorting pin and meandering the circular patch, a compact circular microstrip antenna with a patch size of less than 10% of the con¨entional circular patch antenna can be easily obtained. The design of such compact circular microstrip antennas is described, and experimental results are pr

A no¨el design of a slotted triangular microstrip antenna for dual-frequency operation is proposed and experimentally studied. By embedding an in¨erted V-shaped slot close to the ¨ertex of a triangular microstrip patch, dual-frequency operation of the microstrip antenna can be achie¨ed using an inse

No¨el design of a dual-frequency triangular microstrip antenna with a V-shaped slot is proposed and experimentally studied. By selecting suitable dimensions of the V-shaped slot, dual-frequency operation with the frequency ratio ranging from 1.488 to 1.834 has been obtained using a single probe feed

## Abstract The radiation performance of a right triangular microstrip antenna (RTMA) having two parallel narrow slits is simulated using IE 3D software, and later this antenna is designed on glass epoxy FR‐4 substrate with an air gap and tested in free space. The slit length, width, and thickness