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An inset-fed rectangular microstrip patch antenna with multiple slits for sub 6GHz – 5G applications
This paper presents an inset feed Rectangular Microstrip Patch Antenna with Multiple slits for sub 6 GHz - 5G Applications. This antenna is proposed with the development, design, running simulations and finally a conclusion of the analysis. The antenna in this paper is implemented using a technique...
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| Published in: | Sustainable Engineering and Innovation 2023-03, Vol.5 (1), p.15-21 |
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| Language: | English |
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| container_end_page | 21 |
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| container_title | Sustainable Engineering and Innovation |
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| creator | Kašibović, Alminko Imeci, Sehabeddin Taha Uslu, Ahmet Fehim |
| description | This paper presents an inset feed Rectangular Microstrip Patch Antenna with Multiple slits for sub 6 GHz - 5G Applications. This antenna is proposed with the development, design, running simulations and finally a conclusion of the analysis. The antenna in this paper is implemented using a technique called “inset-feed” and multiple slits. The dielectric used as a substrate is FR-4. The proposed antenna is useful for a sub 6 GHz 5G band, which comes under the 5G band of frequency. The proposed and designed antenna gives the input match of -10.74 dB, and 5.99 dB gain at the design frequency of 5.045 GHz. These outputs are usable for the 5G applications. The antenna is simulated and developed in a radio technology design software Sonnet. |
| doi_str_mv | 10.37868/sei.v5i1.id181 |
| format | article |
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This antenna is proposed with the development, design, running simulations and finally a conclusion of the analysis. The antenna in this paper is implemented using a technique called “inset-feed” and multiple slits. The dielectric used as a substrate is FR-4. The proposed antenna is useful for a sub 6 GHz 5G band, which comes under the 5G band of frequency. The proposed and designed antenna gives the input match of -10.74 dB, and 5.99 dB gain at the design frequency of 5.045 GHz. These outputs are usable for the 5G applications. 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| subjects | 5G mobile communication Antennas Design Design specifications Engineering Integrated circuits Internet of Things Patch antennas Radiation Slits Software Software radio Sonnets Substrates Wireless communications Wireless networks |
| title | An inset-fed rectangular microstrip patch antenna with multiple slits for sub 6GHz – 5G applications |
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