New compact UWB microstrip-fed printed planar antenna for wireless applications

## Abstract In this article by using the Babinet's Equivalence Principle and self‐complementary structure, we present a novel printed monopole antenna for ultra‐wideband (UWB) applications. The proposed antenna consists of a ground plane and radiating patch with a slot and a sleeve structure, which

## Abstract A compact printed monopole antenna having small dimensions (22 × 9.5 × 1.6 mm^3^) for the WLAN bands is presented. With the use of a plated‐through via connecting a rectangular patch with a meandered strip on the both sides, the impedance matching in multiband operation covering 2.4, 5.

## Abstract This letter presents a microstrip‐fed antenna that is compact, low profile, and planar.The antenna is suitable for UPCS (1.85–1.99 GHz) and UWB applications. The antenna occupies an area of 20 × 40 mm^2^. The antenna exhibits dual frequency bands at 1.8–2 GHz and 3.825–8.177 GHz with go

## Abstract A crossed‐dipole antenna with good directivity and good isolation between ports over a wide impedance bandwidth is presented. This antenna offers polarization diversity and employs an optimized shape for the dipole wing, which yields the wide bandwidth. A quarter‐wave balun is used for

## Abstract The monopole dumbbell‐shaped antenna fed by a 50 Ω microstrip line for ultrawideband (UWB) application is studied. By tuning the dumbbell‐shaped radiator and height of the feed gap (D), the monopole antenna has a 2:1 VSWR (return loss < 10 dB) from 2.89 to more than 15 GHz. The bandwidt