Design and analysis of A Multi band electrically small antenna using ceramic material substrate

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6 Citations (Scopus)

Abstract

A Multi band modified S shaped electrically small microstrip patch antenna on Aluminium tri-oxide ceramic substrate is designed and analyzed in this paper. The proposed microstrip line fed miniature patch antenna designed by using high frequency electromagnetic solver and the computed results are analyzed by using finite element method. It is observed from obtained results that, the achieved -10 dB return loss bandwidth 410 MHz in Ku band and 350 MHz in K band, 1.5dBi average gain in total operating band, 97.3% of average efficiency are achieved for Ku and K applications. Furthermore, the co-cross polarization of radiation pattern and the current distribution along surface the radiating patch of the proposed antenna are analyzed.

Original languageEnglish
Pages (from-to)271-274
Number of pages4
JournalPrzeglad Elektrotechniczny
Volume89
Issue number1 A
Publication statusPublished - 2013

Fingerprint

Ceramic materials
Microstrip antennas
Antennas
Substrates
Microstrip lines
Antenna feeders
Polarization
Aluminum
Bandwidth
Finite element method
Oxides

Keywords

  • Aluminium oxide
  • Ceramic material
  • Finite element method
  • Multiband antenna

ASJC Scopus subject areas

  • Electrical and Electronic Engineering

Cite this

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title = "Design and analysis of A Multi band electrically small antenna using ceramic material substrate",
abstract = "A Multi band modified S shaped electrically small microstrip patch antenna on Aluminium tri-oxide ceramic substrate is designed and analyzed in this paper. The proposed microstrip line fed miniature patch antenna designed by using high frequency electromagnetic solver and the computed results are analyzed by using finite element method. It is observed from obtained results that, the achieved -10 dB return loss bandwidth 410 MHz in Ku band and 350 MHz in K band, 1.5dBi average gain in total operating band, 97.3{\%} of average efficiency are achieved for Ku and K applications. Furthermore, the co-cross polarization of radiation pattern and the current distribution along surface the radiating patch of the proposed antenna are analyzed.",
keywords = "Aluminium oxide, Ceramic material, Finite element method, Multiband antenna",
author = "Ullah, {M. Habib} and Islam, {Mohammad Tariqul} and {Jit Singh}, {Mandeep Singh} and Norbahiah Misran",
year = "2013",
language = "English",
volume = "89",
pages = "271--274",
journal = "Przeglad Elektrotechniczny",
issn = "0033-2097",
publisher = "Wydawnictwo SIGMA - N O T Sp. z o.o.",
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TY - JOUR

T1 - Design and analysis of A Multi band electrically small antenna using ceramic material substrate

AU - Ullah, M. Habib

AU - Islam, Mohammad Tariqul

AU - Jit Singh, Mandeep Singh

AU - Misran, Norbahiah

PY - 2013

Y1 - 2013

N2 - A Multi band modified S shaped electrically small microstrip patch antenna on Aluminium tri-oxide ceramic substrate is designed and analyzed in this paper. The proposed microstrip line fed miniature patch antenna designed by using high frequency electromagnetic solver and the computed results are analyzed by using finite element method. It is observed from obtained results that, the achieved -10 dB return loss bandwidth 410 MHz in Ku band and 350 MHz in K band, 1.5dBi average gain in total operating band, 97.3% of average efficiency are achieved for Ku and K applications. Furthermore, the co-cross polarization of radiation pattern and the current distribution along surface the radiating patch of the proposed antenna are analyzed.

AB - A Multi band modified S shaped electrically small microstrip patch antenna on Aluminium tri-oxide ceramic substrate is designed and analyzed in this paper. The proposed microstrip line fed miniature patch antenna designed by using high frequency electromagnetic solver and the computed results are analyzed by using finite element method. It is observed from obtained results that, the achieved -10 dB return loss bandwidth 410 MHz in Ku band and 350 MHz in K band, 1.5dBi average gain in total operating band, 97.3% of average efficiency are achieved for Ku and K applications. Furthermore, the co-cross polarization of radiation pattern and the current distribution along surface the radiating patch of the proposed antenna are analyzed.

KW - Aluminium oxide

KW - Ceramic material

KW - Finite element method

KW - Multiband antenna

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