Designing of Single Band Four Antenna Array for 5G Mobile Applications using MISO Technique

Designing of Single Band Four Antenna Array for 5G Mobile Applications using MISO Technique

In 5G applications, this paper proposes a single-band four-antenna array for faster velocity and single output (MISO) mechanisms. There were also separate based on step-impedance resonators, L-shaped slot antennas in the established MISO antenna array stepped impedance resonator (SIRs). By calculati...

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Detalles Bibliográficos
Autores principales: Padmapriya T., Manikanthan S.V.
Formato: article
Lenguaje:EN
Publicado: International Association of Online Engineering (IAOE) 2021
Materias:
multiple input single output (miso)
stepped impedance resonator (sir)
long term evolution (lte)
return loss
specific anthropomorphic mannequin (sam) head
Telecommunication
TK5101-6720
Acceso en línea:https://doaj.org/article/6c5905d8b1aa44d8ba181b69e5cee906
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Sumario:In 5G applications, this paper proposes a single-band four-antenna array for faster velocity and single output (MISO) mechanisms. There were also separate based on step-impedance resonators, L-shaped slot antennas in the established MISO antenna array stepped impedance resonator (SIRs). By calculating the SIR's impedance ratio, the proper single-resonance can be obtained, and for each component in the antenna. By tuning the alignment of the antenna's micro strip antenna app, good impedance matching can be assumed. A decided return loss of more than 10 dB and a measured inter-element isolation of greater than 10.2 dB are illustrated by the experimental results were obtained over the long-term evolution (LTE) band 52 (3358-3640 MHz) and LTE band 20 20 with a simulated cost efficiency of well over 61 percent for each antenna line (5250-5985 MHz). Besides that, between arbitrary two antenna pieces, the decided envelope correlation the coefficient (ECC) is higher than 0.2, and the proposed MISO antenna array achieves a simulated channel capacity of more than 42.5 bps/Hz within both transmission bands. Absolute anthropomorphic mannequins (SAM) in the head and human brain in the presence of, in particular, the MISO antenna array can ensure adequate radiation and MISO accuracy.

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