Multisegment microstrip patch antenna with Y-shaped feed

## 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

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

In this paper, we introduce a novel feeding technique for bandwidth enhancement of a rectangular microstrip antenna. This antenna offers an impedance bandwidth of 22% without degrading the efficiency. The effect of the feed parameters upon patch characteristics such as resonant frequency, impedance

## Abstract A parasitic‐coupled T‐shaped microstrip patch antenna is discussed in this article. The T‐shaped microstrip patch antenna gives dual band resonant frequency on a thin substrate. The two resonant frequencies are within the 3 dB bandwidth that shows wide bandwidth. The experimental result

Edge feeding of a circular patch antenna by a microstrip line has been achieved by utilizing the circumferential variation of the field which is fixed by loading the patch. However, loading splits the degenerate modes and gives rise to cross-polarization. Three different techniques are presented to

## Abstract A wideband microstrip patch antenna with tilted L‐probe is proposed and studied. Given a tilted L‐shaped probe and substrate height of about 16.8% of the wavelength, a bandwidth of 37.1% is obtained in the design, and the in‐band __S__~11~ parameter is improved. The radiation pattern is