A printed circular-ring monopole antenna with band-notched feature for UWB application

## Abstract In this article, we propose a swallow‐tailed UWB planar monopole antenna that exhibits a notch characteristic in the 5‐GHz WLAN band (5.15–5.825 GHz) by inserting a hat‐shaped slot into the antenna. The effects of the length of the slot on the notched frequency band are analyzed. The ra

## Abstract In this article, a novel CPW‐fed band‐notched UWB antenna is proposed. The prototype consists of planar multilateral disc monopole and ground plane. By inserting a symmetry rhombus‐shaped thin slot on the radiation element and square slots on the ground, the narrow frequency band notch

In this study, we propose a design to obtain band-notching characteristics in printed planar monopoles. An ultra-wide band was achieved by means of the beveled upper edge of the rectangular patch with dimension as small as 55 mm 2 . On the other hand, it is necessary to notch certain bands to avoid

at different angles. Figure 5(a) shows the AR value of 2.434 GHz with L t ϭ 12 mm against the elevation angle () with different azimuthal angles of ϭ 0°and 90°. It can be noted that the range of elevation angles from Ϫ55°to 62°has a smaller 3-dB AR value at ϭ 0°. Correspondingly, in Figure 5(b), as

## Abstract A simple and compact microstrip‐fed ultra wideband printed monopole antenna is proposed and investigated. The proposed antenna is composed of a circular‐ring fed by a microstrip line and a multistep ground. The measured bandwidth of voltage‐standing wave ratio < 2 is from 3.0 to 12.0 GH

## Abstract A compact and simple design of a printed monopole antenna on a thin substrate for ultra‐wideband applications is presented. The antenna size is 30 × 36 × 0.4 mm^3^ and operates over an extremely wide band of 2.82–13.60 GHz. The proposed design consists of a coplanar radiator and a groun