Research Article

Microstrip Patch Antenna Design for Military Satellite Communication

October 5, 2020
TR EN

Microstrip Patch Antenna Design for Military Satellite Communication

Abstract

In this paper, a broadband and high gain microstrip patch antenna was designed with a microstrip feeding technique to operate in the electromagnetic spectrum in the X band in the frequency range of 7.2 8.4 GHz, which is allocated for use in military sate llite communication. In this design, Rogers RT / duroid 5880 material with a thickness of 3.175mm, dielectric coefficient of 2.2 and tangent loss (tan δ) of 0.0009 was selected and simulated on the HFSS program. Since the antenna sizes calculated by numerical methods are difficult to adjust to operate in appropriate frequency ranges, the dimensions of the antenna designed using the genetic algorithm, which is a part of artificial intelligence optimization algorithms, have been optimized to work in the desir ed frequency ranges. According to the designed antenna simulation results, it operates in the frequency ranges of 7.06 8.41 GHz and the designed antenna has a bandwidth of approximately 1.35 GHz = 17.25%. At 7.825 GHz center frequency, the antenna's gain is approximately 7.2 dB. In order to increase the bandwidth of the designed antenna, a second antenna design was realized by optimizing the dimensions of the antenna covered with copper and microstrip feeding. The second antenna designed as a result of th e changes made on the antenna operates in the frequency ranges of 6.74 9.69 GHz and the designed antenna has a bandwidth of approximately 2.95 GHz = 37.7%. At the central frequency of 7.825 GHz, the antenna's gain is approximately 6.63 dB.

Keywords

References

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  4. HOLLAND, J. H. (1975). Adaption in Natural and Artificial Systems
  5. Katehi, P. B., & Alexopoulos, N. G. (1984). On the Modeling of Electromagnetically Coupled Microstrip Antennas The Printed Strip Dipole. AP 32(11), 1179-1186
  6. Munson, R. (1974). Conformal microstrip antennas and microstrip phased arrays. IEEE Transactions on Antennas and Propagation 22 , 74-78
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  8. Warren, L., & Gary, A. (1998). Antenna Theory and Design

Details

Primary Language

English

Subjects

Engineering

Journal Section

Research Article

Publication Date

October 5, 2020

Submission Date

October 1, 2020

Acceptance Date

October 1, 2020

Published in Issue

Year 2020

APA
Koçer, M., & Aydemir, M. E. (2020). Microstrip Patch Antenna Design for Military Satellite Communication. Avrupa Bilim Ve Teknoloji Dergisi, 142-147. https://doi.org/10.31590/ejosat.801959
AMA
1.Koçer M, Aydemir ME. Microstrip Patch Antenna Design for Military Satellite Communication. EJOSAT. Published online October 1, 2020:142-147. doi:10.31590/ejosat.801959
Chicago
Koçer, Mustafa, and Mustafa Emre Aydemir. 2020. “Microstrip Patch Antenna Design for Military Satellite Communication”. Avrupa Bilim Ve Teknoloji Dergisi, October 1, 142-47. https://doi.org/10.31590/ejosat.801959.
EndNote
Koçer M, Aydemir ME (October 1, 2020) Microstrip Patch Antenna Design for Military Satellite Communication. Avrupa Bilim ve Teknoloji Dergisi 142–147.
IEEE
[1]M. Koçer and M. E. Aydemir, “Microstrip Patch Antenna Design for Military Satellite Communication”, EJOSAT, pp. 142–147, Oct. 2020, doi: 10.31590/ejosat.801959.
ISNAD
Koçer, Mustafa - Aydemir, Mustafa Emre. “Microstrip Patch Antenna Design for Military Satellite Communication”. Avrupa Bilim ve Teknoloji Dergisi. October 1, 2020. 142-147. https://doi.org/10.31590/ejosat.801959.
JAMA
1.Koçer M, Aydemir ME. Microstrip Patch Antenna Design for Military Satellite Communication. EJOSAT. 2020;:142–147.
MLA
Koçer, Mustafa, and Mustafa Emre Aydemir. “Microstrip Patch Antenna Design for Military Satellite Communication”. Avrupa Bilim Ve Teknoloji Dergisi, Oct. 2020, pp. 142-7, doi:10.31590/ejosat.801959.
Vancouver
1.Mustafa Koçer, Mustafa Emre Aydemir. Microstrip Patch Antenna Design for Military Satellite Communication. EJOSAT. 2020 Oct. 1;142-7. doi:10.31590/ejosat.801959

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