The band-notch function for a printed ultra-wideband monopole antenna with E-shaped slot

## Abstract By embedding a simple arc‐shaped slot in a circular‐disk monopole antenna, an ultra‐wideband (UWB, 3.1–10.6 GHz) operation with a controlled notched frequency band can be obtained. The arc‐shaped slot is placed close to the boundary of the circular‐disk monopole and has a length of abou

## 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 Two printed ultra‐wideband (UWB) elliptical antennas are proposed. The first antenna is a printed elliptical antenna with notch cut fed by a microstrip line. It is designed and fabricated for UWB applications under the band (3.1–10.6 GHz). To obtain sufficient matching bandwidth, a part

## Abstract A novel ultra‐wideband design of a printed fork‐shaped monopole antenna with a band‐rejection characteristic is presented. The proposed antenna with a simpler structure has a larger impedance bandwidth, defined by voltage standing wave ratio ≤ 2, covering the range from 3.09 to 11 GHz,

## Abstract A planar monopole antenna is designed for ultra‐wideband applications. A novel feeding structure is proposed to improve the impedance bandwidth. Promising performances are achieved, including wide impedance bandwidth, flat gain, and omnidirectional radiation patterns. Two kinds of band‐

## Abstract A novel printed ultra‐wide band microstrip‐line fed slot antenna with a band‐notched function suitable for ultra‐wide band application is presented and investigated in this article. The band‐notched characteristic is achieved by inserting a circular arc slot on the circular patch. Exper