CFP last date
01 July 2024
Call for Paper
August Edition
CAE solicits high quality original research papers for the upcoming August edition of the journal. The last date of research paper submission is 01 July 2024

Submit your paper
Know more
Reseach Article

A Simple UWB Band PassFilter Design based on Signal Interference Approach

Published on March 2016 by S. Vinothkumar, M. Ganesh Madhan, Kaushik R.
CAE Proceedings on International Conference on Computing
Foundation of Computer Science USA
CCSN2015 - Number 1
March 2016
Authors: S. Vinothkumar, M. Ganesh Madhan, Kaushik R.
56de0f9e-f03d-44e8-b273-e0cc7b6ed62b

S. Vinothkumar, M. Ganesh Madhan, Kaushik R. . A Simple UWB Band PassFilter Design based on Signal Interference Approach. CAE Proceedings on International Conference on Computing. CCSN2015, 1 (March 2016), 0-0.

@article{
author = { S. Vinothkumar, M. Ganesh Madhan, Kaushik R. },
title = { A Simple UWB Band PassFilter Design based on Signal Interference Approach },
journal = { CAE Proceedings on International Conference on Computing },
issue_date = { March 2016 },
volume = { CCSN2015 },
number = { 1 },
month = { March },
year = { 2016 },
issn = 2394-4714,
pages = { 0-0 },
numpages = 1,
url = { /proceedings/ccsn2015/number1/553-1528/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 CAE Proceedings on International Conference on Computing
%A S. Vinothkumar
%A M. Ganesh Madhan
%A Kaushik R.
%T A Simple UWB Band PassFilter Design based on Signal Interference Approach
%J CAE Proceedings on International Conference on Computing
%@ 2394-4714
%V CCSN2015
%N 1
%P 0-0
%D 2016
%I Communications on Applied Electronics
Abstract

This paper reports an Ultra wideband pass filter with a center frequency of 3. 96 GHz and 3 dB bandwidth of 1584 MHz. The filter design is based on transversal signal interference principle implemented by means of transmission lines. The features of this filter include low insertion loss, sharp rejection along with simple design approach. Also, comparison of simulation and measured filter parameters shows a good correlation. The measured insertion loss and return loss in the Ultra-Wideband (UWB) band are found to be 0. 8 dB and 12 dB respectively. Further, the filter provides a high roll-off rate of 160 dB/ GHz.

References
  1. Federal Communication Commission. 2002. First Report and Order, FCCO2. Volume 48.
  2. W. H. Tu. 2010. Broadband microstrip bandpass filters using triple-mode resonator IET Microwave Antennas Propagation. Volume 4, No. 9, 1275– 1282.
  3. Q. -X. Chu, X. -H. Wu, X. -K. Tian. 2011. Novel UWB bandpass filter using stub-loaded multiple-mode resonator. IEEE Microwave Wireless Component Letter. Volume 21, No. 8, 403–405.
  4. C. H. Kimand, K. Chang. 2011. Ultra-wideband (UWB) ring resonator band pass filter with a notched band. IEEE Microwave Wireless Components Letter. Volume 21, No. 4, 206–208.
  5. H. Shaman, J. -S. Hong. 2007. Ultra-wideband (UWB) bandpass filter with embedded band notch structures. IEEE Microwave Wireless Component Letter. Volume 17, No. 3, 193–195.
  6. Raaed T. Hammed, D. Mirshekar- Syahkal. 2012. A Compact High Selectivity Seventh-Order UWB Bandpass Filter with Ultra-Stopband Attenuation. RWS, 135-138.
  7. Tsung-Nan Kuo, Chi-Hsueh Wang, Chun Hsiung Chen. 2007. A Compact Ultra-Wideband Bandpass Filter Based on Split-Mode Resonator. IEEE Microwave Wireless Component Letter. Volume 17, No. 12, 852-854.
  8. Jin Xu, Wen Wu, Wei Kang, Chen Miao. 2012. Compact UWB Bandpass Filter with a Notched Band Using Radial Stub Loaded Resonator. IEEE Microwave Wireless Component Letter. Volume 22, No. 7, 351-353.
  9. Gomez-Garcia R. , Alonso J. I. 2005. Design of sharp-rejection and lowloss wide-band planar filters using signal-interference techniques. IEEE Microwave Wireless Component Letter. Volume 15, No. 8, 530-532.
  10. M. Ganesh Madhan, G. A. Fatima Rani, K. Sridhar, J. Sathis Kumar. 2012. Design and Fabrication of Transmission line based Wideband band pass filter. ICCTSD 2011, Procedia Engineering 30, Elsevier Ltd, 646 – 653.
  11. M. K. Mandal, P. Mondal, S. Sanyal. 2010. Low insertion loss wideband bandpass filters with sharp rejection characteristics. IET Microwave Antennas Propagation. Volume 4, 99–105.
Index Terms

Computer Science
Information Sciences

Keywords

Ultra-Wideband band pass filter transmission line techniques Advance Design System MB-OFDM RF filters.