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Design and realization of a new structure of a complementary split ring coupled resonator filter for applications in communication systems

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  • Barol Léonard Mafouna Kiminou
  • Charmolavy Goslavy Lionel Nkouka Moukengue
  • C. Nzonzolo
  • Pierre Moukala Mpele
  • Désiré Lilonga-Boyenga

Abstract

With the rapid growth of terrestrial and mobile telecommunications, companies in this sector need highly selective equipment, lightweight with low manufacturing costs, hence the interest in miniaturizing front-end electronic components such as filters, antennas, mixers etc. In this paper, a novel structure of a passband and highly selective filter is proposed and discussed. The design involving two complementary split-ring resonator filter (CSRRF) configurations in microstrip technology operating at 6 GHz is investigated. To achieve the goal of this research the “N + 2” cross-coupling matrix method is used. The step-shaped CSRR filter that yields better electrical performance, smaller size, and low weight is realized. Its frequency responses simulated with HFSS software are compared with experimental measurements. An excellent agreement is observed in terms of bandwidth and center frequency.

Suggested Citation

  • Barol Léonard Mafouna Kiminou & Charmolavy Goslavy Lionel Nkouka Moukengue & C. Nzonzolo & Pierre Moukala Mpele & Désiré Lilonga-Boyenga, 2025. "Design and realization of a new structure of a complementary split ring coupled resonator filter for applications in communication systems," Journal of Electromagnetic Waves and Applications, Taylor & Francis Journals, vol. 39(2), pages 105-120, January.
    • Handle: RePEc:taf:tewaxx:v:39:y:2025:i:2:p:105-120
    DOI: 10.1080/09205071.2024.2434600
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