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Number 8

Numerical Analysis of Dual Band Mirrored-F Antenna for WLAN and Mobile WiMAX Applications

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  • Md. Juwel Rana and Md. Saiful Islam 2013. Numerical Analysis of Dual Band Mirrored-F Antenna for WLAN and Mobile WiMAX Applications. International Journal of Applied Information Systems. 5, 8 (June 2013), 10-13. DOI=http://dx.doi.org/10.5120/ijais450959 
  • @article{10.5120/ijais2017451568,
author = {Md. Juwel Rana and Md. Saiful Islam},
title = {Numerical Analysis of Dual Band Mirrored-F Antenna for WLAN and Mobile WiMAX Applications},
journal = {International Journal of Applied Information Systems},
issue_date = {June 2013},
volume = {5},
number = {},
month = {June},
year = {2013},
issn = {},
pages = {10-13},
numpages = {},
url = {/archives/volume5/number8/468-0959},
doi = { 10.5120/ijais13-450959},
publisher = { xA9 2012 by IJAIS Journal},
address = {}
}

  • %1 450959
%A Md.  Juwel Rana
%A Md.  Saiful Islam
%T Numerical Analysis of Dual Band Mirrored-F Antenna for WLAN and Mobile WiMAX Applications
%J International Journal of Applied Information Systems
%@ 
%V 5
%N 
%P 10-13
%D 2013
%I  xA9 2012 by IJAIS Journal

Abstract

The numerical simulation of a low-profile dual band mirrored-F antenna for 3. 5/5. 5 GHz WiMAX and 5. 2 GHz WLAN applications is proposed. It has a dimension of 29xD714. 5 mm2 and the two resonant modes of the antenna provide bandwidth of 13. 8% (3. 35 GHz-3. 85 GHz) and 17. 4% (4. 9 GHz-5. 85 GHz) with maximum gain of 3. 36 and 7. 35 dBi respectively. The peak values of return loss are -22. 124 and -52. 282 dB and VSWR varies between 1. 83~1. 17 and 1. 004~1. 9 at the lower and upper resonant frequency bands. In addition, the antenna also provides almost omnidirectional radiation characteristics and excellent impedance matching.

References

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Keywords

Mirrored-F antenna, WiMAX, WLAN, Method of Moments (MoM), Numerical Electromagnetic Code (NEC)

Index Terms

Computer Science
Information Sciences