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A compact UWB antenna with triple band notch reconfigurability

Published online by Cambridge University Press:  07 December 2020

Lei Li Open the ORCID record for Lei Li [Opens in a new window] ,
Jingchang Nan ,
Jing Liu  and
Chengjian Tao
Lei Li*
Affiliation:
School of Electronic and Information Engineering, Liaoning Technical University, Liaoning, China
Jingchang Nan
Affiliation:
School of Electronic and Information Engineering, Liaoning Technical University, Liaoning, China
Jing Liu
Affiliation:
School of Electronic and Information Engineering, Liaoning Technical University, Liaoning, China
Chengjian Tao
Affiliation:
School of Electronic and Information Engineering, Liaoning Technical University, Liaoning, China
*
Author for correspondence: Lei Li, E-mail: lilei_dx@lntu.edu.cn
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Abstract

A compact ultrawideband (UWB) antenna with reconfigurable triple band notch characteristics is proposed in this paper. The antenna consists of a coplanar waveguide-fed top-cut circular-shaped radiator with two etched C-shaped slots, a pair of split-ring resonators (SRRs) on the backside and four p-type intrinsic n-type (PIN) diodes integrated in the slots and SRRs. By controlling the current distribution in the slots and SRRs, the antenna can realize eight band notch states with independent switch ability, which allows UWB to coexist with 5G (3.3–4.4 GHz)/WiMAX (3.3–3.6 GHz), WLAN (5.15–5.825 GHz), and X-band (7.9–8.4 GHz) bands without interference. By utilizing a nested structure of C-shaped slots and SRRs on the backside, a compact size of 18 × 19.5 mm2 is achieved along with multimode triple band notch reconfigurability. The antenna covers a bandwidth of 3.1–10.6 GHz. A prototype is fabricated and tested. The simulated and experimental results are in good agreement.

Keywords

Compactreconfigurablesplit ring resonatorstriple notch bandultrawideband (UWB) antenna
Type
Antenna Design, Modelling and Measurements
Information
International Journal of Microwave and Wireless Technologies , Volume 13 , Issue 8 , October 2021 , pp. 826 - 832
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Copyright
Copyright © The Author(s), 2020. Published by Cambridge University Press in association with the European Microwave Association

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