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Sliding Mode Control of an Inductive Power Transmission System with Maximum Efficiency

Research output: Contributions to collected editions/worksContributions in collection of commentariesResearch

Standard

Sliding Mode Control of an Inductive Power Transmission System with Maximum Efficiency. / Adawy, Abdallah; Bouattour, Ghada; Ibbini, Mohammed et al.
18th IEEE International Multi-Conference on Systems, Signals and Devices, SSD 2021. Institute of Electrical and Electronics Engineers Inc., 2021. p. 998-1003 9429436 (International Multi-Conference on Systems, Signals and Devices, SSD 2021).

Research output: Contributions to collected editions/worksContributions in collection of commentariesResearch

Harvard

Adawy, A, Bouattour, G, Ibbini, M, Derbel, N & Kanoun, O 2021, Sliding Mode Control of an Inductive Power Transmission System with Maximum Efficiency. in 18th IEEE International Multi-Conference on Systems, Signals and Devices, SSD 2021., 9429436, International Multi-Conference on Systems, Signals and Devices, SSD 2021, Institute of Electrical and Electronics Engineers Inc., pp. 998-1003, 18th IEEE International Multi-Conference on Systems, Signals and Devices, SSD 2021, Monastir, Tunisia, 22.03.21. https://doi.org/10.1109/SSD52085.2021.9429436

APA

Adawy, A., Bouattour, G., Ibbini, M., Derbel, N., & Kanoun, O. (2021). Sliding Mode Control of an Inductive Power Transmission System with Maximum Efficiency. In 18th IEEE International Multi-Conference on Systems, Signals and Devices, SSD 2021 (pp. 998-1003). Article 9429436 (International Multi-Conference on Systems, Signals and Devices, SSD 2021). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/SSD52085.2021.9429436

Vancouver

Adawy A, Bouattour G, Ibbini M, Derbel N, Kanoun O. Sliding Mode Control of an Inductive Power Transmission System with Maximum Efficiency. In 18th IEEE International Multi-Conference on Systems, Signals and Devices, SSD 2021. Institute of Electrical and Electronics Engineers Inc. 2021. p. 998-1003. 9429436. (International Multi-Conference on Systems, Signals and Devices, SSD 2021). doi: 10.1109/SSD52085.2021.9429436

Bibtex

@inbook{6f8445aee8474d2db3029a005239c099,
title = "Sliding Mode Control of an Inductive Power Transmission System with Maximum Efficiency",
abstract = "Sliding mode control (SMC) is used to regulate the output power of an inductive power transfer (IPT) system with maximum efficiency tracking. Load variations and misalignment are the main factors that affect the output power and efficiency of the system. For that, SMC is used on the transmitter side to track the minimum input current in order to realize the maximum efficiency by regulating the duty cycle of the DC-DC boost converter connected to the power supply. However, SMC is used to access the desired output voltage by controlling the DC-DC boost converter connected to the load on the receiving side. Different control techniques that the SMC proposes are exploited on the sending and receiving side to achieve the desired output. SMC is also compared with the PI control technique. It introduces more efficiency and output power with variable load and coupling factor. Simulation results illustrate that the desired output voltage is achieved with different loads and different input voltages with 76% system efficiency. Moreover, the maximum efficiency has been achieved when the coupling factor is 0.7, while the maximum input power is achieved when the coupling factor is 0.1.",
keywords = "Boost converter, Constant current (CC) charging, Contactless charging, Inductive power transfer (IPT), Maximum Efficiency Tracking, Power amplifier, Sliding mode control (SMC), Engineering",
author = "Abdallah Adawy and Ghada Bouattour and Mohammed Ibbini and Nabil Derbel and Olfa Kanoun",
note = "Publisher Copyright: {\textcopyright} 2021 IEEE.; 18th IEEE International Multi-Conference on Systems, Signals and Devices, SSD 2021 ; Conference date: 22-03-2021 Through 25-03-2021",
year = "2021",
month = mar,
day = "22",
doi = "10.1109/SSD52085.2021.9429436",
language = "English",
isbn = "978-1-6654-3057-9",
series = "International Multi-Conference on Systems, Signals and Devices, SSD 2021",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
pages = "998--1003",
booktitle = "18th IEEE International Multi-Conference on Systems, Signals and Devices, SSD 2021",
address = "United States",

}

RIS

TY - CHAP

T1 - Sliding Mode Control of an Inductive Power Transmission System with Maximum Efficiency

AU - Adawy, Abdallah

AU - Bouattour, Ghada

AU - Ibbini, Mohammed

AU - Derbel, Nabil

AU - Kanoun, Olfa

N1 - Conference code: 18

PY - 2021/3/22

Y1 - 2021/3/22

N2 - Sliding mode control (SMC) is used to regulate the output power of an inductive power transfer (IPT) system with maximum efficiency tracking. Load variations and misalignment are the main factors that affect the output power and efficiency of the system. For that, SMC is used on the transmitter side to track the minimum input current in order to realize the maximum efficiency by regulating the duty cycle of the DC-DC boost converter connected to the power supply. However, SMC is used to access the desired output voltage by controlling the DC-DC boost converter connected to the load on the receiving side. Different control techniques that the SMC proposes are exploited on the sending and receiving side to achieve the desired output. SMC is also compared with the PI control technique. It introduces more efficiency and output power with variable load and coupling factor. Simulation results illustrate that the desired output voltage is achieved with different loads and different input voltages with 76% system efficiency. Moreover, the maximum efficiency has been achieved when the coupling factor is 0.7, while the maximum input power is achieved when the coupling factor is 0.1.

AB - Sliding mode control (SMC) is used to regulate the output power of an inductive power transfer (IPT) system with maximum efficiency tracking. Load variations and misalignment are the main factors that affect the output power and efficiency of the system. For that, SMC is used on the transmitter side to track the minimum input current in order to realize the maximum efficiency by regulating the duty cycle of the DC-DC boost converter connected to the power supply. However, SMC is used to access the desired output voltage by controlling the DC-DC boost converter connected to the load on the receiving side. Different control techniques that the SMC proposes are exploited on the sending and receiving side to achieve the desired output. SMC is also compared with the PI control technique. It introduces more efficiency and output power with variable load and coupling factor. Simulation results illustrate that the desired output voltage is achieved with different loads and different input voltages with 76% system efficiency. Moreover, the maximum efficiency has been achieved when the coupling factor is 0.7, while the maximum input power is achieved when the coupling factor is 0.1.

KW - Boost converter

KW - Constant current (CC) charging

KW - Contactless charging

KW - Inductive power transfer (IPT)

KW - Maximum Efficiency Tracking

KW - Power amplifier

KW - Sliding mode control (SMC)

KW - Engineering

UR - http://www.scopus.com/inward/record.url?scp=85107500389&partnerID=8YFLogxK

U2 - 10.1109/SSD52085.2021.9429436

DO - 10.1109/SSD52085.2021.9429436

M3 - Contributions in collection of commentaries

AN - SCOPUS:85107500389

SN - 978-1-6654-3057-9

T3 - International Multi-Conference on Systems, Signals and Devices, SSD 2021

SP - 998

EP - 1003

BT - 18th IEEE International Multi-Conference on Systems, Signals and Devices, SSD 2021

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 18th IEEE International Multi-Conference on Systems, Signals and Devices, SSD 2021

Y2 - 22 March 2021 through 25 March 2021

ER -

Other publications by the same author(s)

Analysis of piezoelectric harvester with multi-array configuration for ultra-low power sensor nodes

Schott, L., Bouattour, G., Fromm, R., Strakosch, F., Kanoun, O. & Derbel, F., 27.09.2025, In: Results in Engineering. 27, 17 p., 106728.

Research output: Journal contributionsJournal articlesResearchpeer-review

A Robust Energy Management Circuit for Energy Harvesting from Wideband Low-Acceleration Vibrations in Wireless Sensor Screws

Hamza, K., Bouattour, G., Benbrahim, F., Bader, S., Fakhfakh, A. & Kanoun, O., 2025, In: IEEE Sensors Letters. 9, 9, p. 1-4 4 p., 5503804.

Research output: Journal contributionsJournal articlesResearchpeer-review

Circularity in Automotive Electronics Design: A Comparative Evaluation of Headlight Control Units

Peitzmeier, H., Tebruegge, C., Bouattour, G. & Seibel, A., 2025, In: Procedia CIRP. 135, p. 900-905 6 p.

Research output: Journal contributionsConference article in journalResearchpeer-review

Highly Efficient IPT Transmitter Circuit Based on a Novel Enhanced Class B Amplifier for Consumer Applications

Adawy, A., Bouattour, G., Ibbini, M. & Kanoun, O., 2025, In: IEEE Transactions on Consumer Electronics. 71, 2, p. 3108-3117 10 p.

Research output: Journal contributionsJournal articlesResearchpeer-review

In-Vehicle Sensor System for Monitoring Efficiency of Vehicle E/E Architectures

Peitzmeier, H., Horstkötter, J., Tebruegge, C., Kortmann, F., Seibel, A. & Bouattour, G., 2025, In: IEEE Sensors Letters. 9, 9, 6009804.

Research output: Journal contributionsJournal articlesResearchpeer-review

DOI

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