A novel multi-band frequency selective surface for ka-band applications
Pages 37 - 40
Abstract
In this paper, single layer multi-band reflective frequency selective surface (FSS) design is presented. Proposed design have stable frequency response up to 60 degrees of incidence angles. In the proposed hybrid design, three-armed geometry is placed in the center and two armed geometries are placed in each quadrant of the unit cell in order to reflect the incoming waves in 26.5 GHz frequency band. Two-legged geometries are placed in corners and square loop geometries are placed in each quadrant of the unit cell in order to reflect the incoming waves in 40 GHz frequency band. Analysis of the proposed surfaces are executed with Ansoft HFSS v.19 software. Simulation results show that proposed dual-band FSS reflects incoming electromagnetic waves between 25.5-27.3 GHz and 41.8-45.1 GHz frequencies. Achieved return losses are less than 0.55 dB in the desired frequency bands for the incident angles between 0° and 60° at both TE and TM polarizations. Proposed FSS can be used as a subreflector in multiband reflector antenna designs for satellite communication applications. Obtained results are also compared with similar works and discussed.
References
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B. A. Munk, "Frequency Selective Surfaces: Theory and Design," New York, p. 416, 2000.
[2]
T.K.Wu., "Frequency Selective Surface and Grid Array", Wiley Interscience Publication, 1995.
[3]
M. R. Chaharmir, S. Member, J. Shaker, S. Member, and A. A. X.-M. K. Mkaband, "Design of a Multilayer X- / Ka-Band Frequency- Selective Surface-Backed Reflectarray for Satellite Applications," vol. 63, no. 4, pp. 1255--1262, 2015.
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F. Costa, A. Monorchio, "A frequency selective radome with wideband absorbing properties", IEEE Trans. Antenna Prog., vol. 60, no.6, pp. 2740--2747, Jun. 2012.
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R. Orr, G. Goussetis, V. Fusco, R. Cahill, D. Zelenchuk, A. Pal, E. Saenz, M. Simeoni, and L. S. Drioli, "Circular Polarization Frequency Selective Surface Operating in Ku and Ka Band," no. EuCAP, pp. 1969--1971, 2014.
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Z. Zhao, Y. Yang, H. Huo, J. Li, J. Chen, A. Zhang, "A novel dual-band frequency selective surface with close band spacing at ka-band", Sixth Asia-Pacific Conference on Antennas and Propagation, Oct. 2017.
[7]
W. Wu, X. Liu, K. Cui, Y. Ma, Y. Yuan, "An Ultrathin and Polarization-Insensitive Frequency Selective Surface at Ka band", IEEE Antenna and Wireless Propagation Letters, vol.17, no.1, Jan. 2018.
[8]
X. Sheng, J. Ge, K. Han, X. Zhu, "Transmissive/Reflective Frequency Selective Surface for Satellite Applications", IEEE Antennas and Wireless Propagation Letters, 2018.
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J. M. Rigelsford, S. M. Benito, A. Vallecchi, "A Tri-band Inductive Frequency Selective Surface Sub-Reflector for Satellite Communications Systems," The 8th European Conference on Antennas and Propagation, Netherlands, Sep. 2014
- A novel multi-band frequency selective surface for ka-band applications
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Published In
October 2018
91 pages
ISBN:9781450365802
DOI:10.1145/3278161
- General Chairs:
- Marijn Janssen,
- Boris Shishkov,
- Program Chairs:
- Andon Lazarov,
- Dimitris Mitrakos
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Association for Computing Machinery
New York, NY, United States
Publication History
Published: 08 October 2018
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- Short-paper
Funding Sources
- ITU Research and Application Center for Satellite Communications and Remote Sensing
- Istanbul Technical University
Conference
ICTRS '18
ICTRS '18: 7th International Conference on Telecommunications and Remote Sensing
October 8 - 9, 2018
Barcelona, Spain
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Overall Acceptance Rate 7 of 15 submissions, 47%
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