Battery-Integrated Dual-Winding Magnetic Energy Harvester Supplying a Constant Power DC Load

Asaf Levhar; Alex Belenky; Georgios I. Orfanoudakis; Moshe Sitbon; Riccardo Mandrioli; Alon Kuperman

doi:10.1109/ICDCM63994.2025.11144677

Battery-Integrated Dual-Winding Magnetic Energy Harvester Supplying a Constant Power DC Load

Asaf Levhar, Alex Belenky, Georgios I. Orfanoudakis, Moshe Sitbon, Riccardo Mandrioli, Alon Kuperman

Department of Electrical and Electronics Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

The paper proposes a novel dual-secondary-winding active magnetic energy harvester (D-AMEH), clamped around a single 50 Hz power line conductor carrying AC currents with time-varying magnitude while supplying a constant power DC load. In order to allow continuous power flow to the load despite intermittent nature of power line current magnitude, an energy storage unit (battery) is integrated into the system via the additional winding, creating AC-coupled fully-isolated hybrid energy system. The D-AMEH continuously operates at its maximum power point, while the battery seamlessly matches the difference between generation and consumption. The revealed findings are accurately supported by simulations and experiments to verify corresponding analytical predictions.

Original language	English
Title of host publication	2025 IEEE 7th International Conference on DC Microgrids, ICDCM 2025
Editors	Andrii Chub
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9798331512743
DOIs	https://doi.org/10.1109/ICDCM63994.2025.11144677
State	Published - 2025
Event	7th IEEE International Conference on DC Microgrids, ICDCM 2025 - Tallinn, Estonia Duration: 4 Jun 2025 → 6 Jun 2025

Publication series

Name	2025 IEEE 7th International Conference on DC Microgrids, ICDCM 2025

Conference

Conference	7th IEEE International Conference on DC Microgrids, ICDCM 2025
Country/Territory	Estonia
City	Tallinn
Period	4/06/25 → 6/06/25

Keywords

active magnetic energy harvester
bidirectional power flow
dual-winding
energy storage

Access to Document

10.1109/ICDCM63994.2025.11144677

Cite this

Levhar, A., Belenky, A., Orfanoudakis, G. I., Sitbon, M., Mandrioli, R., & Kuperman, A. (2025). Battery-Integrated Dual-Winding Magnetic Energy Harvester Supplying a Constant Power DC Load. In A. Chub (Ed.), 2025 IEEE 7th International Conference on DC Microgrids, ICDCM 2025 (2025 IEEE 7th International Conference on DC Microgrids, ICDCM 2025). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ICDCM63994.2025.11144677

Levhar, Asaf ; Belenky, Alex ; Orfanoudakis, Georgios I. et al. / Battery-Integrated Dual-Winding Magnetic Energy Harvester Supplying a Constant Power DC Load. 2025 IEEE 7th International Conference on DC Microgrids, ICDCM 2025. editor / Andrii Chub. Institute of Electrical and Electronics Engineers Inc., 2025. (2025 IEEE 7th International Conference on DC Microgrids, ICDCM 2025).

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title = "Battery-Integrated Dual-Winding Magnetic Energy Harvester Supplying a Constant Power DC Load",

abstract = "The paper proposes a novel dual-secondary-winding active magnetic energy harvester (D-AMEH), clamped around a single 50 Hz power line conductor carrying AC currents with time-varying magnitude while supplying a constant power DC load. In order to allow continuous power flow to the load despite intermittent nature of power line current magnitude, an energy storage unit (battery) is integrated into the system via the additional winding, creating AC-coupled fully-isolated hybrid energy system. The D-AMEH continuously operates at its maximum power point, while the battery seamlessly matches the difference between generation and consumption. The revealed findings are accurately supported by simulations and experiments to verify corresponding analytical predictions.",

keywords = "active magnetic energy harvester, bidirectional power flow, dual-winding, energy storage",

author = "Asaf Levhar and Alex Belenky and Orfanoudakis, \{Georgios I.\} and Moshe Sitbon and Riccardo Mandrioli and Alon Kuperman",

note = "Publisher Copyright: {\textcopyright} 2025 IEEE.; 7th IEEE International Conference on DC Microgrids, ICDCM 2025 ; Conference date: 04-06-2025 Through 06-06-2025",

year = "2025",

doi = "10.1109/ICDCM63994.2025.11144677",

language = "אנגלית",

series = "2025 IEEE 7th International Conference on DC Microgrids, ICDCM 2025",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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Levhar, A, Belenky, A, Orfanoudakis, GI, Sitbon, M, Mandrioli, R & Kuperman, A 2025, Battery-Integrated Dual-Winding Magnetic Energy Harvester Supplying a Constant Power DC Load. in A Chub (ed.), 2025 IEEE 7th International Conference on DC Microgrids, ICDCM 2025. 2025 IEEE 7th International Conference on DC Microgrids, ICDCM 2025, Institute of Electrical and Electronics Engineers Inc., 7th IEEE International Conference on DC Microgrids, ICDCM 2025, Tallinn, Estonia, 4/06/25. https://doi.org/10.1109/ICDCM63994.2025.11144677

Battery-Integrated Dual-Winding Magnetic Energy Harvester Supplying a Constant Power DC Load. / Levhar, Asaf; Belenky, Alex; Orfanoudakis, Georgios I. et al.
2025 IEEE 7th International Conference on DC Microgrids, ICDCM 2025. ed. / Andrii Chub. Institute of Electrical and Electronics Engineers Inc., 2025. (2025 IEEE 7th International Conference on DC Microgrids, ICDCM 2025).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Levhar, Asaf

AU - Belenky, Alex

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AU - Mandrioli, Riccardo

AU - Kuperman, Alon

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N2 - The paper proposes a novel dual-secondary-winding active magnetic energy harvester (D-AMEH), clamped around a single 50 Hz power line conductor carrying AC currents with time-varying magnitude while supplying a constant power DC load. In order to allow continuous power flow to the load despite intermittent nature of power line current magnitude, an energy storage unit (battery) is integrated into the system via the additional winding, creating AC-coupled fully-isolated hybrid energy system. The D-AMEH continuously operates at its maximum power point, while the battery seamlessly matches the difference between generation and consumption. The revealed findings are accurately supported by simulations and experiments to verify corresponding analytical predictions.

AB - The paper proposes a novel dual-secondary-winding active magnetic energy harvester (D-AMEH), clamped around a single 50 Hz power line conductor carrying AC currents with time-varying magnitude while supplying a constant power DC load. In order to allow continuous power flow to the load despite intermittent nature of power line current magnitude, an energy storage unit (battery) is integrated into the system via the additional winding, creating AC-coupled fully-isolated hybrid energy system. The D-AMEH continuously operates at its maximum power point, while the battery seamlessly matches the difference between generation and consumption. The revealed findings are accurately supported by simulations and experiments to verify corresponding analytical predictions.

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KW - bidirectional power flow

KW - dual-winding

KW - energy storage

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PB - Institute of Electrical and Electronics Engineers Inc.

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Levhar A, Belenky A, Orfanoudakis GI, Sitbon M, Mandrioli R, Kuperman A. Battery-Integrated Dual-Winding Magnetic Energy Harvester Supplying a Constant Power DC Load. In Chub A, editor, 2025 IEEE 7th International Conference on DC Microgrids, ICDCM 2025. Institute of Electrical and Electronics Engineers Inc. 2025. (2025 IEEE 7th International Conference on DC Microgrids, ICDCM 2025). doi: 10.1109/ICDCM63994.2025.11144677

Battery-Integrated Dual-Winding Magnetic Energy Harvester Supplying a Constant Power DC Load

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