A novel multiband and broadband fractal patch antenna

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

## Abstract The characteristics of a novel rectangular patch with an offset F‐shaped probe are investigated. The patch height is approximately 9% of the designed wavelength. An impedance bandwidth of 36% and an average measured gain of approximately 5 dBi can be achieved for the first dominant mode

A dual-polarization wideband microstrip patch antenna is designed that has a VSWR F 2 in the bandwidth about 2.5 times wider than that of a standard square patch of the same dimension. Se¨eral characteristics of the antenna are analyzed using both Ensemble and an ( ) in-house finite-difference time-

## Abstract A compact broadband patch antenna is proposed in this paper for global ultra‐high‐frequency (UHF) RF identification (RFID) applications. The antenna is composed of four synchronous shorted patches that resonate at four different frequencies, broadening its impedance bandwidth. A central

## Abstract In this article, a C‐Band broadband patch antenna is designed. The binary particle swarm optimization (BPSO) combining with IE3D software is adopted to broaden the bandwidth of the patch antenna automatically. Characteristics of the antenna are calculated using the well‐known Zeland IE3

## Abstract A tunable triangular microstrip patch antenna is proposed for multiband applications in this letter. The proposed antenna consists of varactor diodes and F‐shaped slits. As the input impedance of the antenna can be varied by changing the bias voltage of the varactor diode on the F‐shape