Integrated WPT-PLC System Applied to UAV: Characterization of a Two-Coil Channel Considering Misalignment Scenarios

Safa Zouaoui; Wael Dghais; Luís Romba; Rui Melício; Hamdi Belgacem

doi:10.3390/electronics11081249

Integrated WPT-PLC System Applied to UAV: Characterization of a Two-Coil Channel Considering Misalignment Scenarios

Safa Zouaoui, Wael Dghais, Luís Romba, Rui Melício, Hamdi Belgacem

CTS - Centro de Tecnologia e Sistemas

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

43 Downloads (Pure)

Abstract

WPT system performances highly depend on the misalignment scenarios of the transmitter or the receiver coil. In this contribution, the authors analyze the effect of the misalignment influencing factors of the integrated WPT-PLC system receiving coil on the system performances. The simulations and experimental analysis are based on power efficiency and channel capacity metrics. The simulations are performed using finite element calculations in COMSOL Multiphysics and Advanced Design System (ADS) from Keysight technology. By analyzing the results, maximum transferred power is reached under resonance conditions. For instance, the calculated efficiencies versus the misalignment cases of the WPT-PLC system varies (η = 86% to 60%) when d = [3 cm to 7 cm], s = [3 cm to 9 cm], and for a tilt angle θ ≤ 20 deg, while the optimal data rate C(bps) is achieved while appealing different data access points and under reasonable SNR value.

Original language	English
Article number	1249
Number of pages	13
Journal	Electronics (Switzerland)
Volume	11
Issue number	8
DOIs	https://doi.org/10.3390/electronics11081249
Publication status	Published - 15 Apr 2022

Keywords

bandwidth
data communication
data rate
drones
finite element simulation
inductive coupling
misalignment
multiphysics simulation
UAV
wireless power transfer

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10.3390/electronics11081249Licence: CC BY

Integrated WPT-PLC System Applied to UAVFinal published version, 6.52 MBLicence: CC BY

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title = "Integrated WPT-PLC System Applied to UAV: Characterization of a Two-Coil Channel Considering Misalignment Scenarios",

abstract = "WPT system performances highly depend on the misalignment scenarios of the transmitter or the receiver coil. In this contribution, the authors analyze the effect of the misalignment influencing factors of the integrated WPT-PLC system receiving coil on the system performances. The simulations and experimental analysis are based on power efficiency and channel capacity metrics. The simulations are performed using finite element calculations in COMSOL Multiphysics and Advanced Design System (ADS) from Keysight technology. By analyzing the results, maximum transferred power is reached under resonance conditions. For instance, the calculated efficiencies versus the misalignment cases of the WPT-PLC system varies (η = 86\% to 60\%) when d = [3 cm to 7 cm], s = [3 cm to 9 cm], and for a tilt angle θ ≤ 20 deg, while the optimal data rate C(bps) is achieved while appealing different data access points and under reasonable SNR value.",

keywords = "bandwidth, data communication, data rate, drones, finite element simulation, inductive coupling, misalignment, multiphysics simulation, UAV, wireless power transfer",

author = "Safa Zouaoui and Wael Dghais and Lu{\'i}s Romba and Rui Mel{\'i}cio and Hamdi Belgacem",

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doi = "10.3390/electronics11081249",

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volume = "11",

journal = "Electronics (Switzerland)",

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T1 - Integrated WPT-PLC System Applied to UAV

T2 - Characterization of a Two-Coil Channel Considering Misalignment Scenarios

AU - Zouaoui, Safa

AU - Dghais, Wael

AU - Romba, Luís

AU - Melício, Rui

AU - Belgacem, Hamdi

N1 - Funding Information: info:eu-repo/grantAgreement/FCT/6817 - DCRRNI ID/UIDB%2F50022%2F2020/PT# info:eu-repo/grantAgreement/FCT/6817 - DCRRNI ID/UIDB%2F04683%2F2020/PT# Publisher Copyright: © 2022 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2022/4/15

Y1 - 2022/4/15

N2 - WPT system performances highly depend on the misalignment scenarios of the transmitter or the receiver coil. In this contribution, the authors analyze the effect of the misalignment influencing factors of the integrated WPT-PLC system receiving coil on the system performances. The simulations and experimental analysis are based on power efficiency and channel capacity metrics. The simulations are performed using finite element calculations in COMSOL Multiphysics and Advanced Design System (ADS) from Keysight technology. By analyzing the results, maximum transferred power is reached under resonance conditions. For instance, the calculated efficiencies versus the misalignment cases of the WPT-PLC system varies (η = 86% to 60%) when d = [3 cm to 7 cm], s = [3 cm to 9 cm], and for a tilt angle θ ≤ 20 deg, while the optimal data rate C(bps) is achieved while appealing different data access points and under reasonable SNR value.

AB - WPT system performances highly depend on the misalignment scenarios of the transmitter or the receiver coil. In this contribution, the authors analyze the effect of the misalignment influencing factors of the integrated WPT-PLC system receiving coil on the system performances. The simulations and experimental analysis are based on power efficiency and channel capacity metrics. The simulations are performed using finite element calculations in COMSOL Multiphysics and Advanced Design System (ADS) from Keysight technology. By analyzing the results, maximum transferred power is reached under resonance conditions. For instance, the calculated efficiencies versus the misalignment cases of the WPT-PLC system varies (η = 86% to 60%) when d = [3 cm to 7 cm], s = [3 cm to 9 cm], and for a tilt angle θ ≤ 20 deg, while the optimal data rate C(bps) is achieved while appealing different data access points and under reasonable SNR value.

KW - bandwidth

KW - data communication

KW - data rate

KW - drones

KW - finite element simulation

KW - inductive coupling

KW - misalignment

KW - multiphysics simulation

KW - UAV

KW - wireless power transfer

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DO - 10.3390/electronics11081249

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JF - Electronics (Switzerland)

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ER -

Integrated WPT-PLC System Applied to UAV: Characterization of a Two-Coil Channel Considering Misalignment Scenarios

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