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Electromagnetics Volume 42, 2022 - Issue 4
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Research Article

Design and realization of frequency and mode electronically reconfigurable metamaterial stopband filter for wireless communication systems

Hichem Boubakara Information Processing and Telecommunications Laboratory (LTIT), Faculty of Technology, University of Bechar, Bechar, AlgeriaCorrespondence[email protected]
,
Mehadji Abrib STIC Laboratory, Department of Telecommunication, Faculty of Technology, University of Tlemcen, Tlemcen, Algeria
,
Mohamed Benaissaa Information Processing and Telecommunications Laboratory (LTIT), Faculty of Technology, University of Bechar, Bechar, Algeria;c Electrical Engineering Department, Abou Bekr Belkaid University of Tlemcen, Tlemcen, Algeria
,
Sarosh Ahmadd Department of Signal Theory and Communications, Universidad Carlos III de Madrid (UC3M), Leganes, Spain
&
Adnan Ghaffare Department of Electrical and Electronics Engineering, Auckland University of Technology, Auckland, New Zealand
Pages 266-277 | Received 15 Mar 2022, Accepted 22 Jun 2022, Published online: 08 Aug 2022
 
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ABSTRACT

This paper addresses the growing need for multifunctioning microwave components by proposing a miniaturized reconfigurable stopband filter. The compact size is the outcome of the novel metamaterial split-ring resonator used for realizing this filter. Six PIN diodes are used to achieve real-time frequency and mode reconfigurability. This filter is designed to reject three important frequencies in wireless communication systems: 1.9, 2.4, and 3.6 GHz. Moreover, depending on the use, it is possible to reject one, two, or all the three frequencies, which resulted in seven different cases with three possible modes: single, dual, or triple stopbands. A prototype was manufactured for this filter, and strong agreement between simulation and measurement results is observed. Due to its target bands, this reconfigurable stopband filter is suitable for various cellular communication technologies from 3 G and 4 G up to 5 G and many other S-band applications.

Disclosure statement

No potential conflict of interest was reported by the author(s).

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