Broadband patch antenna for E-band applications

## Abstract An electronically tunable broadband E‐shaped patch antenna (ESPA) is proposed and analyzed using equivalent circuit concept. The effects of notch parameters such as notch length, width, and position are analyzed to select the optimum values for broadband operation of ESPA. Under the opt

## Abstract A novel shorted patch antenna with a shorted parasitic patch for dual‐band operation is proposed. The upper and lower operating frequencies are, respectively, controlled by the driven and parasitic patches, which are both operated as a quarter‐wavelength structure in the proposed design

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 A novel high efficiency sector antenna build of four radiating patches, a shaped ground plane and a reflector plate is presented. Based on the proposed structure, a prototype antenna for WiMAX applications, achieving a half‐power beamwidth of 120°, was designed, fabricated, and measured

## Abstract A broadband E‐shaped monopole antenna for universal serial bus (USB) dongle applications is demonstrated experimentally and numerically. According to the experimental results, the operating mode has an impedance bandwidth of approximately 39.8% (1.83–2.74 GHz) that covers the UMTS, WiBr

## Abstract A broadband low‐profile E‐shaped patch antenna with a novel microstrip‐compatible feed is presented. The new feed structure makes E‐shaped patch antennas more suitable for integration with microstrip circuits. It is demonstrated by designing and testing an antenna with a height of 3.3 m