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Design of a High Q Multifrequency Notch Filter with the Help of Frequency Selective Surface Having Square Spiral Patch Array

Published on March 2013 by Surajit Mondal, Sourav Nandi, Tanumay Mandal, Gobinda Sen, Patha Pratim Sarkar
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International Conference on Computing, Communication and Sensor Network
Foundation of Computer Science USA
CCSN2012 - Number 1
March 2013
Authors: Surajit Mondal, Sourav Nandi, Tanumay Mandal, Gobinda Sen, Patha Pratim Sarkar
3a6922fe-b3bc-4095-866f-b418ce8757f3

Surajit Mondal, Sourav Nandi, Tanumay Mandal, Gobinda Sen, Patha Pratim Sarkar . Design of a High Q Multifrequency Notch Filter with the Help of Frequency Selective Surface Having Square Spiral Patch Array. International Conference on Computing, Communication and Sensor Network. CCSN2012, 1 (March 2013), 21-23.

@article{
author = { Surajit Mondal, Sourav Nandi, Tanumay Mandal, Gobinda Sen, Patha Pratim Sarkar },
title = { Design of a High Q Multifrequency Notch Filter with the Help of Frequency Selective Surface Having Square Spiral Patch Array },
journal = { International Conference on Computing, Communication and Sensor Network },
issue_date = { March 2013 },
volume = { CCSN2012 },
number = { 1 },
month = { March },
year = { 2013 },
issn = 0975-8887,
pages = { 21-23 },
numpages = 3,
url = { /specialissues/ccsn2012/number1/10847-1007/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Special Issue Article
%1 International Conference on Computing, Communication and Sensor Network
%A Surajit Mondal
%A Sourav Nandi
%A Tanumay Mandal
%A Gobinda Sen
%A Patha Pratim Sarkar
%T Design of a High Q Multifrequency Notch Filter with the Help of Frequency Selective Surface Having Square Spiral Patch Array
%J International Conference on Computing, Communication and Sensor Network
%@ 0975-8887
%V CCSN2012
%N 1
%P 21-23
%D 2013
%I International Journal of Computer Applications
Abstract

This paper deals with the theortical investigation on high Q (80. 50 approx) mutifrequency Notch type Frequency Selective Surface(FSS). The FSS is designed by cutting spiral slit into square shaped patch keeping same periodicity throughout. Compared to conventional square patch FSS the designed FSS can provide reduction in resonant frequency resulting in size reduction up to 95. 20% with respect to 2. 63GHz resonant frequency. The multiple (fourteen) resonating frequencies have been obtained with the help of this design. Theoretical investigations have been done by Ansoft Designer® software.

References
  1. N. D. Agrawal and W. A. imbraile,"Design of a Dichroic Cassegrain Sub Reflector" IEEE Trans, AP- 27(4), pp. 466-473(1979)
  2. Sung, G. H. –h, Sowerby, K. W. Neve, M. J. Williamson A. G, "A Frequency selective wall for Interface Reduction In Wireless Indoor Environments" Antennas and Propagation Magazine, IEEE,Vol 48, Issue 5, pp 29-37 (Oct 2006).
  3. Shufeng Zheng, Yingzeng Yin, Jun Fan, Xi Yang, Biao Li,and Weixing Liu; Analysis of Miniature Frequency Selective Surfaces Based on Fractal Antenna–Filter–Antenna Arrays;IEEE ANTENNAS AND WIRELESS PROPAGATION LETTERS, VOL. 11, 2012;pp 240-243.
  4. P. P Sarkar, D. Sarkar, S. Sarkar, S. Das, S. K. Chowdhury. "Experimental investigation of the Frequency selective property of an array of dual tuned printed diploes,Microwave Opt. Techno Lett. 31(2001),189-190.
  5. PhD Thesis of P. P. Sarkar, Some Studies on FSS, Jadavpur University 2002.
Index Terms

Computer Science
Information Sciences

Keywords

Frequency Selective Surface Method Of Moment Slit Size Reduction Resonating Frequency Q Factor Notch Filter