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Dual-band filter design based on composite patch and substrate integrated waveguide structures

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https://doi.org/10.3969/j.issn.0253-2778.2020.03.015
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  • Author Bio:

    LI Anran, male, born in 1995, Master. Research field: microwave material. E-mail: lar@mail.ustc.edu.cn

  • Received Date: 12 January 2020
  • Accepted Date: 12 March 2020
  • Rev Recd Date: 12 March 2020
  • Publish Date: 31 March 2020
    Abstract

  • Abstract

    A new type of patch double band-pass filter based on circular substrate integrated waveguide is designed. By loading a circular metal patch, the circular SIW (circular substrate integrate waveguide, CSIW) cavity changes into the composite multilayer circular patch SIW filter. Compared to dual mode CSIW filter, composite multilayer circular patch SIW resonator not only reduces the resonant eigen mode frequency of its main mode, but also adds new modes to form a dual band. To prove its effectiveness, a simulation model is built in HFSS (high frequency structure simulator). Then through parameter optimization, the dual-band composite multilayer circular patch SIW filter is obtained. The results show that the dual-band frequency of the filter is from 1.88 GHz to 2.08 GHz and from 3.35 GHz to 3.60 GHz, and that the upper and lower sidebands of the two passbands have Transmission zeros, which shows good selectivity.

    Abstract

    A new type of patch double band-pass filter based on circular substrate integrated waveguide is designed. By loading a circular metal patch, the circular SIW (circular substrate integrate waveguide, CSIW) cavity changes into the composite multilayer circular patch SIW filter. Compared to dual mode CSIW filter, composite multilayer circular patch SIW resonator not only reduces the resonant eigen mode frequency of its main mode, but also adds new modes to form a dual band. To prove its effectiveness, a simulation model is built in HFSS (high frequency structure simulator). Then through parameter optimization, the dual-band composite multilayer circular patch SIW filter is obtained. The results show that the dual-band frequency of the filter is from 1.88 GHz to 2.08 GHz and from 3.35 GHz to 3.60 GHz, and that the upper and lower sidebands of the two passbands have Transmission zeros, which shows good selectivity.
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    • References(10)
  • [1]
    DESLANDES D, WU K. Single-substrate integration technique of planar circuits and waveguide filters [J]. IEEE Transactions on Microwave Theory and Techniques, 2003, 51(2): 593-596.
    [2]
    DESLANDES D, WU K. Millimeter-wave substrate integrated waveguide filters[C]// IEEE Conference on Electrical and Computer Engineering. Canadian: IEEE, 2003, 3: 1917-1920.
    [3]
    TANG H J, HONG W, HAO Z C, et al. Optimal design of compact millimeter-wave SIW circular cavity filters[J]. Electronics Letters, 2005, 41(19): 1068-1069.
    [4]
    WANG Y, HONG W , DONG Y, et al. Half mode substrate integrated waveguide (HMSIW) bandpass filter[J]. IEEE Microwave and Wireless Components Letters, 2007, 17(4): 265-267.
    [5]
    ZHU X, SUN S, HONG W, et al. Design and implementation of a triple-mode planar filter[J]. IEEE Microwave and Wireless Components Letters, 2013, 23(5): 243-245.
    [6]
    HONG J S, LI S. Dual-mode microstrip triangular patch resonators and filters[C]// International Microwave Symposium Digest. Seattle, USA: IEEE, 2003: 1901-1904.
    [7]
    HONG J S. Microstrip filters for RF/microwave applications[J]. IEEE Microwave Magazine, 2002, 3(3): 62-65.
    [8]
    GORUR A, KARPUZ C. Miniature Dual-Mode Microstrip Filters[J]. IEEE Microwave and Wireless Components Letters, 2007, 17(1): 37-39.
    [9]
    EVANGELISTA C, ABDALLA H, SOARES A J M, et al. Microwave filters with dual-mode ring resonators on microstrip technology[C]// International Microwave & Optoelectronics Conference. Belem, Brazil: IEEE, 2010: 204-208.
    [10]
    JI Q, XU Yun-sheng, CHEN Chang,et al. Miniaturized triple-band filter design utilizing composite planar multilayered and substrate integrated waveguide structures [C]// International Microwave Symposium Digest. Philadelphia, USA: IEEE, 2018: 540-543.)
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    [1]
    DESLANDES D, WU K. Single-substrate integration technique of planar circuits and waveguide filters [J]. IEEE Transactions on Microwave Theory and Techniques, 2003, 51(2): 593-596.
    [2]
    DESLANDES D, WU K. Millimeter-wave substrate integrated waveguide filters[C]// IEEE Conference on Electrical and Computer Engineering. Canadian: IEEE, 2003, 3: 1917-1920.
    [3]
    TANG H J, HONG W, HAO Z C, et al. Optimal design of compact millimeter-wave SIW circular cavity filters[J]. Electronics Letters, 2005, 41(19): 1068-1069.
    [4]
    WANG Y, HONG W , DONG Y, et al. Half mode substrate integrated waveguide (HMSIW) bandpass filter[J]. IEEE Microwave and Wireless Components Letters, 2007, 17(4): 265-267.
    [5]
    ZHU X, SUN S, HONG W, et al. Design and implementation of a triple-mode planar filter[J]. IEEE Microwave and Wireless Components Letters, 2013, 23(5): 243-245.
    [6]
    HONG J S, LI S. Dual-mode microstrip triangular patch resonators and filters[C]// International Microwave Symposium Digest. Seattle, USA: IEEE, 2003: 1901-1904.
    [7]
    HONG J S. Microstrip filters for RF/microwave applications[J]. IEEE Microwave Magazine, 2002, 3(3): 62-65.
    [8]
    GORUR A, KARPUZ C. Miniature Dual-Mode Microstrip Filters[J]. IEEE Microwave and Wireless Components Letters, 2007, 17(1): 37-39.
    [9]
    EVANGELISTA C, ABDALLA H, SOARES A J M, et al. Microwave filters with dual-mode ring resonators on microstrip technology[C]// International Microwave & Optoelectronics Conference. Belem, Brazil: IEEE, 2010: 204-208.
    [10]
    JI Q, XU Yun-sheng, CHEN Chang,et al. Miniaturized triple-band filter design utilizing composite planar multilayered and substrate integrated waveguide structures [C]// International Microwave Symposium Digest. Philadelphia, USA: IEEE, 2018: 540-543.)
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