Band-notched UWB printed antenna with an inverted-L-slotted ground

## Abstract A compact and simple design of a printed antenna for ultra‐wideband (UWB) application with band‐notch characteristics are presented.The antenna size is 30 × 36 × 0.4 mm^3^ and operates over an extremely wide band of 2.82–13.95 GHz. The desired band‐notched UWB operation can be obtained

## Abstract In this work, a novel band‐notched ultrawideband (3.1–10.6 GHz) Y‐shaped microstrip patch antenna with dual inverted‐L slots is presented. The proposed antenna consists of a wideband Y‐shaped monopole antenna and dual inverted‐L slots, producing band‐notch characteristics. To obtain suf

## Abstract A newly designed microstrip feed, octagonal‐shaped ultra‐wideband printed antenna is proposed. The UWB operation within the required 3.1–10.6 GHz band is achieved by simply embedding in the ground plane a small rectangular slit, located below the feed line of an octagonal patch. With th

## Abstract A compact printed ultra‐wideband (UWB, 3.1–10.6 GHz) circular‐slot antenna with a notched frequency band at 5 GHz is presented. The antenna is a uniplanar structure and occupies a compact area of 25 × 26 mm^2^ only (the side length is less than 27% of the lower edge frequency at 3.1 GHz

## Abstract A novel double‐printed rectangular patch dipole antenna with a band‐notched function suitable for UWB application is presented and investigated in this article. The band‐notched characteristic is achieved by connecting L‐shaped strips to the antenna rather than inserting slot to the ant

## Abstract A printed circular‐ring monopole antenna with band‐notched feature for ultra‐wideband application has been presented and investigated. The band‐notched characteristic is achieved by attaching a C‐shaped short‐circuited stub. Experimental results show that the proposed antenna meets the