Bow-tie patch antenna for 5G
The goal of this work was to design, simulate, build, and test bow-tie antenna for 5G networks. In this paper, it will be shown how the radiation pattern and input match are improving by changing angles on some points of the antenna. The first angle is from the central point of the bow-tie antenna...
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Research and Development Academy
2021
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oai:doaj.org-article:2a094c8fb78f4445998bcfdcd07e76bf2021-12-05T03:13:17ZBow-tie patch antenna for 5G10.37868/hsd.v4i1.702712-0554https://doaj.org/article/2a094c8fb78f4445998bcfdcd07e76bf2021-11-01T00:00:00Zhttps://hsd.ardascience.com/index.php/journal/article/view/70https://doaj.org/toc/2712-0554 The goal of this work was to design, simulate, build, and test bow-tie antenna for 5G networks. In this paper, it will be shown how the radiation pattern and input match are improving by changing angles on some points of the antenna. The first angle is from the central point of the bow-tie antenna (mark A) and another angle is from the side points of the bow-tie antenna (mark B). Bandwidth improvement is shown in the simulation between 4 GHz and 6GHz. S11, E?, E? for the nominal design are -27.31 dB, 7.39 dB, -3.30 dB respectively. After simulations, the nominal antenna is fabricated and tested with reference antenna A-info LB8180. Simulation results, testing results with fabricated antenna, and angle change results will be shown in further text. Damir AvdicSehabeddin Taha ImeciResearch and Development AcademyarticleArchitectureNA1-9428Structural engineering (General)TA630-695ENHeritage and Sustainable Development, Vol 4, Iss 1 (2021) |
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Architecture NA1-9428 Structural engineering (General) TA630-695 |
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Architecture NA1-9428 Structural engineering (General) TA630-695 Damir Avdic Sehabeddin Taha Imeci Bow-tie patch antenna for 5G |
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The goal of this work was to design, simulate, build, and test bow-tie antenna for 5G networks. In this paper, it will be shown how the radiation pattern and input match are improving by changing angles on some points of the antenna. The first angle is from the central point of the bow-tie antenna (mark A) and another angle is from the side points of the bow-tie antenna (mark B). Bandwidth improvement is shown in the simulation between 4 GHz and 6GHz. S11, E?, E? for the nominal design are -27.31 dB, 7.39 dB, -3.30 dB respectively. After simulations, the nominal antenna is fabricated and tested with reference antenna A-info LB8180. Simulation results, testing results with fabricated antenna, and angle change results will be shown in further text.
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format |
article |
author |
Damir Avdic Sehabeddin Taha Imeci |
author_facet |
Damir Avdic Sehabeddin Taha Imeci |
author_sort |
Damir Avdic |
title |
Bow-tie patch antenna for 5G |
title_short |
Bow-tie patch antenna for 5G |
title_full |
Bow-tie patch antenna for 5G |
title_fullStr |
Bow-tie patch antenna for 5G |
title_full_unstemmed |
Bow-tie patch antenna for 5G |
title_sort |
bow-tie patch antenna for 5g |
publisher |
Research and Development Academy |
publishDate |
2021 |
url |
https://doaj.org/article/2a094c8fb78f4445998bcfdcd07e76bf |
work_keys_str_mv |
AT damiravdic bowtiepatchantennafor5g AT sehabeddintahaimeci bowtiepatchantennafor5g |
_version_ |
1718372603399241728 |