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Reseach Article

Design of stair and slotted UWB antenna using stepped-feed with modified slotted ground plane

Published on April 2014 by Rajesh Kr. Raj, Sanjay Gurjar, Mayank Sharma
National Seminar on Recent Advances in Wireless Networks and Communications
Foundation of Computer Science USA
NWNC - Number 1
April 2014
Authors: Rajesh Kr. Raj, Sanjay Gurjar, Mayank Sharma
859c63bc-ca60-4cde-89ba-1a840a065463

Rajesh Kr. Raj, Sanjay Gurjar, Mayank Sharma . Design of stair and slotted UWB antenna using stepped-feed with modified slotted ground plane. National Seminar on Recent Advances in Wireless Networks and Communications. NWNC, 1 (April 2014), 22-25.

@article{
author = { Rajesh Kr. Raj, Sanjay Gurjar, Mayank Sharma },
title = { Design of stair and slotted UWB antenna using stepped-feed with modified slotted ground plane },
journal = { National Seminar on Recent Advances in Wireless Networks and Communications },
issue_date = { April 2014 },
volume = { NWNC },
number = { 1 },
month = { April },
year = { 2014 },
issn = 0975-8887,
pages = { 22-25 },
numpages = 4,
url = { /proceedings/nwnc/number1/16110-1406/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 National Seminar on Recent Advances in Wireless Networks and Communications
%A Rajesh Kr. Raj
%A Sanjay Gurjar
%A Mayank Sharma
%T Design of stair and slotted UWB antenna using stepped-feed with modified slotted ground plane
%J National Seminar on Recent Advances in Wireless Networks and Communications
%@ 0975-8887
%V NWNC
%N 1
%P 22-25
%D 2014
%I International Journal of Computer Applications
Abstract

A modified design of an ultra-wide band antenna (UWB) using stepped feed, partial slotted ground, two level stairs with notches in patch and ground plane is simulated with band rejection feature. The enhanced frequency range (3. 2 to 14. 0 GHz) is covered by the proposed antenna with the overall dimensions of 25. 0 (L) x 20. 0 (W) x 1. 60 (H) mm3. The voltage standing wave ratio (VSWR) is less than 2. 0 for entire operating frequency range. The proposed antenna operating on 5. 2/5. 8 GHz wireless local area network (WLAN), 3. 5/5. 5 GHz WiMAX, X-band and partial range (12. 0 to 14. 0 GHz) of Ku-band finds its applications to secure military communication, radar, medical applications and home appliances.

References
  1. Jin-Shyan Lee, Yu-Wei Su, and Chung-Chou Shen "A Comparative Study of Wireless Protocols: Bluetooth, UWB, ZigBee, and Wi-Fi" Information & Communications Research Labs Industrial Technology Research Institute (ITRI) Hsinchu, Taiwan jin-shyan-lee, the 33rd Annual Conference of the IEEE Industrial Electronics Society (IECON), Nov. 5-8, 2007, Taipei, Taiwan.
  2. Islam Md. Rafiqul, Member IEEE, Alam AHM Zahirul, Senior Member IEEE, M. Feroze Akbar J. Khan and Shaker Alkaraki" Design of Microstrip Patch Antenna Using Slotted Partial Ground And Addition Of Stairs And Stubs For UWB Application" Cyber Journal: Multidisciplinary Journal in Science and Technology , JSAT, May Edition 2012
  3. Jianli pan (A survey paper written under guidance of Prof. Raj Jain)"medical application of ultra —wideband (UWB)".
  4. Constantine A. Balanis "Antenna Theory & Analysis Design', Third Edition, by ISBN 0-471-66782-X Copyright 2005 John Wiley & Sons, Inc. 811.
  5. Mohammed AL Husseini, Ali Ramadan, Ali EL Haji and Karim Kablan "Design of a Compact and Low-Cost Fractal-Based UWB PCB Antenna".
  6. K. -S. Lim, M. Nagalingam, and C. -P. Tan, Multimedia University, 63100 Cyberjaya, Malaysia. "Design and construction of microstrip uwb antenna with time domain analysis" progress in electromagnetic research m, vol. 3, 153—164, 2008.
  7. Hazem H. A wadalla, Shoukry I. shams, AMMA Allam "A Compact Symmetric U-shaped Monopole for Ultra Wide band Operation" 28th National Radio Science Conference (NRSC 2011) April 26-28,2011, National Telecommunication Institute, Egypt.
  8. Raj Kumar and Pranotibansode "On the Design of Ultra Wide-Band Antenna based on Fractal Geometry" 92-61-13171-9/CFP1038E.
  9. Werner Wiesbeck "Basic Properties and Design principles of UWB Antennas", Proceedings of the IEEE, Vol. 97, No. 2, February 2009.
  10. Hans Gregory Schantz "A Brief History of UWB Antennas". The Proceedings of the 2003 IEEE UWBST Conference.
  11. Shiran Wang, Qi Wu, and Donglin Su "A Novel Reversed T-Match Antenna with Compact Size and Low Profile for Ultra-wideband Applications" IEEE Transactions On Antennas And Propagation, Vol. 60, No. 10, October 2012.
  12. Ian Gresham, Alan Jenkins, Robert Egri, Channabasappa Eswarappa, Noyan Kinayman, Nitin Jain, Richard Anderson, Frank Kolak, Ratana Wohlert, Shawn P. Bawell, Jacqueline Bennett, and Jean-Pierre Lanteri. "Ultra-Wideband Radar Sensors for Short-Range Vehicular Applications", IEEE Transactions On Microwave Theory And Techniques, Vol. 52, No. 9, September 2004.
Index Terms

Computer Science
Information Sciences

Keywords

Ultra-wide Band Voltage Standing Wave Ratio Wireless Local Area Network Wimax.