Single-feed dual-frequency triangular microstrip antenna with a pair of bent slots

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

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

to efficiently adjust the input impedance, radiation pattern, and gain of conical antennas.

region W. The effect of the dimensions W and H is practis w Ž .x cally negligible Fig. 3 c . A variation of the dimension W with respect to its nominal value, according to whether an increase or decrease can be advantageous or disadvantageous, since it must be remembered that a phase velocity in pra

By embedding a pair of comb-shaped slots close to the nonradiating edges of a rectangular microstrip antenna, a no¨el dualfrequency operation of microstrip antennas using a single probe feed is proposed and experimentally studied. The two operating frequencies ha¨e the same polarization planes and s

By loading a bent slot of 60Њ close to each triangle tip, a no¨el dual-frequency design of a single-feed equilateral-triangular microstrip antenna is proposed and studied. By ¨arying the length of the bent slots, the present dual-frequency design can ha¨e a tunable frequency ratio of ; 1.4᎐2.0, with