A broadband E-shaped patch antenna with a microstrip-compatible feed

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

## Abstract A broadband rectangular microstrip antenna, which utilizes a rectangular channel feed to obtain 25% impedance bandwidth, is described. A finite‐difference time‐domain (FDTD) analysis of the element's input impedance and radiation patterns versus measurement are presented. The FDTD imped

## 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

Figure 10 Electric field, -polarized, backscattered from a sinusoidally deformed DCR with p s 0.1. Dashed line: h s 0; solid line: h s 0.2 tive or destructive way, thus justifying the oscillations present in Figure 10. As a final observation, we note that, by increasing the DCR dimensions, the lobe

## Abstract A novel slope‐strip feeding technique for a microstrip antenna is presented in order to achieve a broad bandwidth. The experimental results show that the optimal bandwidth attained is 53.4% for less than −10‐dB return loss. © 2004 Wiley Periodicals, Inc. Microwave Opt Technol Lett 43: 1