Printed microstrip line-fed patch antenna on a high-dielectric material for C-band applications

Research output: Contribution to journalArticle

Abstract

A printed microstrip line-fed patch antenna for C-band applications is presented, using a high-dielectric material. The proposed antenna dimensions are 0.53 λ × 0.53 λ × 0.02 λ and it is fed by a microstrip line. The antenna outline and electromagnetic analysis were done with the help of a commercially available computer-aided EM simulator. This antenna initiates three resonances at 4.64 GHz, 5.52 GHz, and 6.34 GHz with the average gains of 2.68 dBi, 6.02 dBi and 4.83 dBi, respectively, covering the entire frequency bands. The overall performance analysis and a nearly omnidirectional radiation pattern prove that the proposed antenna is promising for C-band applications.

Original languageEnglish
Pages (from-to)307-310
Number of pages4
JournalMateriali in Tehnologije
Volume50
Issue number3
DOIs
Publication statusPublished - 2016

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Microstrip lines
Antenna feeders
Microstrip antennas
Antennas
Directional patterns (antenna)
Frequency bands
Simulators

Keywords

  • C-band
  • Dielectric material
  • Microstrip line feeding

ASJC Scopus subject areas

  • Metals and Alloys
  • Polymers and Plastics

Cite this

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title = "Printed microstrip line-fed patch antenna on a high-dielectric material for C-band applications",
abstract = "A printed microstrip line-fed patch antenna for C-band applications is presented, using a high-dielectric material. The proposed antenna dimensions are 0.53 λ × 0.53 λ × 0.02 λ and it is fed by a microstrip line. The antenna outline and electromagnetic analysis were done with the help of a commercially available computer-aided EM simulator. This antenna initiates three resonances at 4.64 GHz, 5.52 GHz, and 6.34 GHz with the average gains of 2.68 dBi, 6.02 dBi and 4.83 dBi, respectively, covering the entire frequency bands. The overall performance analysis and a nearly omnidirectional radiation pattern prove that the proposed antenna is promising for C-band applications.",
keywords = "C-band, Dielectric material, Microstrip line feeding",
author = "Islam, {Md Moinul} and Faruque, {Mohammad Rashed Iqbal} and Mansor, {Mohd Fais} and Islam, {Mohammad Tariqul}",
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AU - Islam, Md Moinul

AU - Faruque, Mohammad Rashed Iqbal

AU - Mansor, Mohd Fais

AU - Islam, Mohammad Tariqul

PY - 2016

Y1 - 2016

N2 - A printed microstrip line-fed patch antenna for C-band applications is presented, using a high-dielectric material. The proposed antenna dimensions are 0.53 λ × 0.53 λ × 0.02 λ and it is fed by a microstrip line. The antenna outline and electromagnetic analysis were done with the help of a commercially available computer-aided EM simulator. This antenna initiates three resonances at 4.64 GHz, 5.52 GHz, and 6.34 GHz with the average gains of 2.68 dBi, 6.02 dBi and 4.83 dBi, respectively, covering the entire frequency bands. The overall performance analysis and a nearly omnidirectional radiation pattern prove that the proposed antenna is promising for C-band applications.

AB - A printed microstrip line-fed patch antenna for C-band applications is presented, using a high-dielectric material. The proposed antenna dimensions are 0.53 λ × 0.53 λ × 0.02 λ and it is fed by a microstrip line. The antenna outline and electromagnetic analysis were done with the help of a commercially available computer-aided EM simulator. This antenna initiates three resonances at 4.64 GHz, 5.52 GHz, and 6.34 GHz with the average gains of 2.68 dBi, 6.02 dBi and 4.83 dBi, respectively, covering the entire frequency bands. The overall performance analysis and a nearly omnidirectional radiation pattern prove that the proposed antenna is promising for C-band applications.

KW - C-band

KW - Dielectric material

KW - Microstrip line feeding

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