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Journal of Electromagnetic Waves and Applications Volume 34, 2020 - Issue 1
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Articles

Design and optimization of complementary frequency selective surface using equivalent circuit model for wideband EMI shielding

Varikuntla Krushna KanthDepartment of Electronics and Communication and Engineering, National Institute of Technology Trichy, Tiruchirappalli, IndiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-7429-8386View further author information
ORCID Icon &
Singaravelu RaghavanDepartment of Electronics and Communication and Engineering, National Institute of Technology Trichy, Tiruchirappalli, IndiaView further author information
Pages 51-69 | Received 27 Jun 2019, Accepted 29 Oct 2019, Published online: 14 Nov 2019

References

  • Ting TS, Zhang MQ, Rong MZ, et al. Properties of metal fibre filled thermoplastics as candidates for electromagnetic interference shielding. Polym Polym Compos. 2001;9(4):257–262.
  • Unal E, Gokcen A, Kutlu Y. Effective electromagnetic shielding. IEEE Microw Mag. 2006;7(4):48–54. doi: 10.1109/MMW.2006.1663989
  • Chiu CN, Kuo CH, Lin MS. Bandpass shielding enclosure design using multipole-slot arrays for modern portable digital devices. IEEE Trans Electromagn Compat. 2008;50(4):895–904. doi: 10.1109/TEMC.2008.2004560
  • Liu QF, Yin WY, Mao JF, et al. Accurate characterization of shielding effectiveness of metallic enclosures with thin wires and thin slots. IEEE Trans Electromagn Compat. 2009;51(2):293–300. doi: 10.1109/TEMC.2008.927942
  • Besnoff J, Chabalko M, Ricketts DS. A frequency-selective zero-permeability metamaterial shield for reduction of near-field electromagnetic energy. IEEE Antennas Wirel Propag Lett. 2016;15:654–657. doi: 10.1109/LAWP.2015.2466172
  • Lee CK, Langley RJ. Design of a single layer frequency-selective surface. Int J Electron. 1987;63(3):291–296. doi: 10.1080/00207218708939130
  • Munk BA. Frequency selective surfaces: theory and design. Hoboken, (NJ): John Wiley & Sons, Inc; 2000.
  • Li D, Li TW, Hao R, et al. A low-profile broadband bandpass frequency selective surface with two rapid band edges for 5G near-field applications. IEEE Trans Electromagn Compat. 2017;59(2):768–775. doi: 10.1109/TEMC.2016.2634279
  • Li D, Li TW, Li EP, et al. A 2.5-D angularly stable frequency selective surface using via-based structure for 5G EMI shielding. IEEE Trans Electromagn Compat. 2018;60(3):768–775. doi: 10.1109/TEMC.2017.2748566
  • Vardaxoglou JC, Lockyer D. Modified FSS response from two sided and closely coupled arrays. Electron Lett. 1994;30(22):1818–1819. doi: 10.1049/el:19941282
  • Vardaxoglou JC, Parker EA. Modal analysis of scattering from two-layer frequency-selective surfaces. Int J Electron. 1985;58(5):827–830. doi: 10.1080/00207218508939074
  • Lee CK, Langley RJ. Performance of a dual-band reflector antenna incorporating a frequency selective subreflector. Int J Electron. 1986;61(5):607–616. doi: 10.1080/00207218608920904
  • Wang LB, See KY, Zhang JW, et al. Ultrathin and flexible screen-printed metasurfaces for EMI shielding applications. IEEE Trans Electromagn Compat. 2011;53(3):700–705. doi: 10.1109/TEMC.2011.2159509
  • Masud MM, Ijaz B, Ullah I, et al. A compact dual-band EMI metasurface shield with an actively tunable polarized lower band. IEEE Trans Electromagn Compat. 2012;54(5):1182–1185. doi: 10.1109/TEMC.2012.2210899
  • Sivasamy R, Moorthy B, Kanagasabai M, et al. A wideband frequency tunable FSS for electromagnetic shielding applications. IEEE Trans Electromagn Compat. 2018;60(1):280–283. doi: 10.1109/TEMC.2017.2702572
  • Sivasamy R, Murugasamy L, Kanagasabai M, et al. A low-profile paper substrate-based dual-band FSS for GSM shielding. IEEE Trans Electromagn Compat. 2016;58(2):611–614. doi: 10.1109/TEMC.2015.2498398
  • Ghosh S, Srivastava KV. Broadband polarization-insensitive tunable frequency selective surface for wideband shielding. IEEE Trans Electromagn Compat. 2018;60(1):166–172. doi: 10.1109/TEMC.2017.2706359
  • Syed IS, Ranga Y, Matekovits L, et al. A single-layer frequency-selective surface for ultrawideband electromagnetic shielding. IEEE Trans Electromagn Compat. 2014;56(6):1404–1411. doi: 10.1109/TEMC.2014.2316288
  • Kesavan A, Karimian R, Denidni TA. A novel wideband frequency selective surface for millimeter-wave applications. IEEE Antennas Wirel Propag Lett. 2016;15:1711–1714. doi: 10.1109/LAWP.2016.2528221
  • Gurrala P, Oren S, Liu P, et al. Fully conformal square-patch frequency-selective surface toward wearable electromagnetic shielding. IEEE Antennas Wirel Propag Lett. 2017;16:2602–2605. doi: 10.1109/LAWP.2017.2735196
  • Wang D, Che W, Chang Y, et al. A low-profile frequency selective surface with controllable triband characteristics. IEEE Antennas Wirel Propag Lett. 2013;12:468–471. doi: 10.1109/LAWP.2013.2254459
  • Hu XD, Zhou XL, Wu LS, et al. A miniaturized dual-band frequency selective surface (FSS) with closed loop and its complementary pattern. IEEE Antennas Wirel Propag Lett. 2009;8:1374–1377. doi: 10.1109/LAWP.2009.2039110
  • Wang D, Che W, Chang Y, et al. Combined-element frequency selective surfaces with multiple transmission Poles and zeros. IET Microwaves Antennas Propag. 2014;8(3):186–193. doi: 10.1049/iet-map.2013.0329
  • Krushna Kanth V, Raghavan S. Complementary frequency selective surface array optimization using equivalent circuit model. IEEE MTT-S International Microwave and RF Conference (IMaRC); Ahmedabad (India); 2017; p. 211–214.
  • Krushna Kanth V, Raghavan C. Equivalent circuit analysis of complementary FSS for selective EM shielding. 15th International Conference on ElectroMagnetic Interference & Compatibility (INCEMIC); Bengaluru (India); 2018. p. 1–4.
  • Marcuvitz N. Waveguide handbook. New York: McGraw-Hill; 1951.
  • Anderson I. On the theory of self-resonant grids. Bell Syst Tech J. 1975;54(10):1725–1731. doi: 10.1002/j.1538-7305.1975.tb03551.x
  • Langley RJ, Drinkwater AJ. Improved empirical model for the Jerusalem cross. IEE Proc H Microwaves Optics Antennas 1982;129(1):1–6. doi: 10.1049/ip-h-1.1982.0001
  • Hosseinipanah M, Wu Q. Novel frequency selective surfaces designing by modification of Jerusalem cross slot. International Conference on Microwave and Millimeter Wave Technology; Nanjing; 2008. p. 44–47.
  • Ferreira D, Caldeirinha RFS, Cuiñas I, et al. Square loop and slot frequency selective surfaces study for equivalent circuit model optimization. IEEE Trans Antennas Propag. 2015;63(9):3947–3955. doi: 10.1109/TAP.2015.2444420
  • Guorui C, Jinping M, Chunhui L, et al. Study on frequency selective surfaces with square loop slots. J Syst Eng Electron. 2000;11(4):11–16.
  • Seager RD, Chauraya A, Broughton M, et al. (2015). Towards conformal woven frequency selective surfaces (FSS). Loughborough Antennas & Propagation Conference (LAPC); Loughborough; 2015. p. 1–3.
  • Silva BS, Campos ALPS, Gomes Neto A. Narrowband shielding Against electromagnetic interference in LTE 4G systems using complementary frequency selective surfaces. Microw Opt Technol Lett. 2018;60:2293–2298. doi: 10.1002/mop.31341

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