Wideband microstrip patch antenna with tilted L-probe feeding

## Abstract Experimental results for an __L__‐probe‐fed shorted triangular patch antenna are presented. Using a foam layer of thickness ∼0.13λ~0~ as a supported substrate, an impedance bandwidth of 61% (SWR≤2) and a gain of over 4.0 dBi in the bandwidth have been obtained. The far‐field patterns ar

## Abstract A two‐element hexagonal‐shape stacked‐patch antenna array fed by an L‐shaped probe is designed and measured. Experimental results show that the array achieves an impedance bandwidth of 34% (SWR < 1.5)/44% (SWR < 2) and a gain of 11.5 dBi. The far‐field radiation pattern is stable across

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 This letter presents a new high‐gain microstrip structure with three rectangular patches on bottom layer and one patch on the top layer. A parametric study is presented on the effect of the parasitic patch and using an air gap between the feed patch and the ground plane. The measurement

## Abstract Simulated and measured results of a diplexing feed network for a wideband dual‐frequency stacked microstrip patch antenna are presented. The microstrip feed network is easy to design and consists of a T‐junction and a single decoupling resonator for each frequency band. The return loss

## Abstract Experimental results for an __L__‐probe‐fed shorted semicircular patch antenna are presented. Using a foam layer thickness ∼0.12λ~0~ as a supported substrate, an impedance bandwidth of 57% (SWR≤2) and a gain of over 4.0 dBi in the majority of the wide bandwidth have been obtained. The f