Proceedings of the Third International Conference on Computing and Wireless Communication Systems, ICCWCS 2019, April 24-25, 2019, Faculty of Sciences, Ibn Tofaïl University -Kénitra- Morocco

Research Article

Dual-band UWB antenna for Surface Movement Radar

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  • @INPROCEEDINGS{10.4108/eai.24-4-2019.2284103,
        author={Salaheddine  AOURIK and Ahmed  ERRKIK and Larbi  EL ABDELLAOUI and Abdelali  TAJMOUATI and Mohamed  LATRACH},
        title={Dual-band UWB antenna for Surface Movement  Radar },
        proceedings={Proceedings of the Third International Conference on Computing and Wireless Communication Systems, ICCWCS 2019, April 24-25, 2019, Faculty of Sciences, Ibn Tofa\~{n}l University -K\^{e}nitra- Morocco},
        publisher={EAI},
        proceedings_a={ICCWCS},
        year={2019},
        month={5},
        keywords={microstrip patch antenna ka-band surface movement radar (smr) uwb dual-band},
        doi={10.4108/eai.24-4-2019.2284103}
    }
    
  • Salaheddine AOURIK
    Ahmed ERRKIK
    Larbi EL ABDELLAOUI
    Abdelali TAJMOUATI
    Mohamed LATRACH
    Year: 2019
    Dual-band UWB antenna for Surface Movement Radar
    ICCWCS
    EAI
    DOI: 10.4108/eai.24-4-2019.2284103
Salaheddine AOURIK1,*, Ahmed ERRKIK1, Larbi EL ABDELLAOUI1, Abdelali TAJMOUATI1, Mohamed LATRACH2
  • 1: Hassan 1st University, Settat, Morocco
  • 2: Microwave group, ESEO, Anges, France
*Contact email: aouriksalaheddine@gmail.com

Abstract

The proposed antenna radiation size is 9.4x6.12mm with low permittivity value 2.22, loss tangent value 0.0004 and 0.4mm thickness Duroid 5880 dielectric substrate material were used. An inset microstripline feed has been used because of its simplicity and ease of practical manufacturing. The parametric study is performed with a change of the form of patch to achieve the Ka- band UWB frequency, dual-band and a high gain. The Proposed antenna impedance bandwidth (VSWR<2) is achieved with wide band characteristics 1 GHz (23.3-24.3GHz) on the lower Ka- band frequency and 2 GHz (27.4-29.4GHz) on the upper Ka-band frequency. An extensive analysis of the return loss, gain and efficiency of the proposed antenna is discussed in this paper. The antenna is simulated by computer software technology Microwave studio (CST), the presented antenna competent for the satellite and radar applications in Ka-band.