Analysis of fractal antenna for ultra wideband application

Research output: Contribution to journalArticle

9 Citations (Scopus)

Abstract

Aims of this study are to design a simple and compact microstrip-fed Ultra Wide Band (UWB) printed fractal antenna and analyze the performance of the antenna for different iterations. A second iteration of a triangle patch antenna is proposed to perform UWB. Based on the result, the proposed antenna occupies about 6.73 GHz bandwidth covering 3.52-10.24 GHz. The bandwidth is increased about 54.15% for the first iteration of proposed antenna and 69.5% increased for second iteration. A radiation pattern in H-plane and E-plane is also obtained. H-plane of radiation pattern is performed as omni directional and E-plane perfomed like a dipole antenna. Coplanar wave guide is approached to obtain ultra wideband.

Original languageEnglish
Pages (from-to)2022-2026
Number of pages5
JournalResearch Journal of Applied Sciences, Engineering and Technology
Volume7
Issue number10
Publication statusPublished - 2014

Fingerprint

Ultra-wideband (UWB)
Fractals
Antennas
Bandwidth
Dipole antennas
Antenna feeders
Microstrip antennas

Keywords

  • Fractal antenna
  • Planar antenna
  • Printed antenna
  • Ultra wide band (UWB)
  • Wireless communications

ASJC Scopus subject areas

  • Engineering(all)
  • Computer Science(all)

Cite this

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title = "Analysis of fractal antenna for ultra wideband application",
abstract = "Aims of this study are to design a simple and compact microstrip-fed Ultra Wide Band (UWB) printed fractal antenna and analyze the performance of the antenna for different iterations. A second iteration of a triangle patch antenna is proposed to perform UWB. Based on the result, the proposed antenna occupies about 6.73 GHz bandwidth covering 3.52-10.24 GHz. The bandwidth is increased about 54.15{\%} for the first iteration of proposed antenna and 69.5{\%} increased for second iteration. A radiation pattern in H-plane and E-plane is also obtained. H-plane of radiation pattern is performed as omni directional and E-plane perfomed like a dipole antenna. Coplanar wave guide is approached to obtain ultra wideband.",
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AU - Sahar, N. M.

AU - Islam, Mohammad Tariqul

AU - Misran, Norbahiah

PY - 2014

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N2 - Aims of this study are to design a simple and compact microstrip-fed Ultra Wide Band (UWB) printed fractal antenna and analyze the performance of the antenna for different iterations. A second iteration of a triangle patch antenna is proposed to perform UWB. Based on the result, the proposed antenna occupies about 6.73 GHz bandwidth covering 3.52-10.24 GHz. The bandwidth is increased about 54.15% for the first iteration of proposed antenna and 69.5% increased for second iteration. A radiation pattern in H-plane and E-plane is also obtained. H-plane of radiation pattern is performed as omni directional and E-plane perfomed like a dipole antenna. Coplanar wave guide is approached to obtain ultra wideband.

AB - Aims of this study are to design a simple and compact microstrip-fed Ultra Wide Band (UWB) printed fractal antenna and analyze the performance of the antenna for different iterations. A second iteration of a triangle patch antenna is proposed to perform UWB. Based on the result, the proposed antenna occupies about 6.73 GHz bandwidth covering 3.52-10.24 GHz. The bandwidth is increased about 54.15% for the first iteration of proposed antenna and 69.5% increased for second iteration. A radiation pattern in H-plane and E-plane is also obtained. H-plane of radiation pattern is performed as omni directional and E-plane perfomed like a dipole antenna. Coplanar wave guide is approached to obtain ultra wideband.

KW - Fractal antenna

KW - Planar antenna

KW - Printed antenna

KW - Ultra wide band (UWB)

KW - Wireless communications

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