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Low Power Modular Battery Management System with a Wireless Communication Interface

Author

Listed:
  • Roman Gozdur

    (Department of Semiconductor and Optoelectronics Devices, Lodz University of Technology, Wólczańska Str. 211/215, 90-924 Łódź, Poland)

  • Tomasz Przerywacz

    (Faculty of Electrical, Electronic, Computer and Control Engineering, Lodz University of Technology, Stefanowskiego Str. 18/22, 90-924 Łódź, Poland)

  • Dariusz Bogdański

    (BTO Sp. z o.o., Fabryczna Str. 25, 90-341 Łódź, Poland)

Abstract

The paper concerns the design and development of large electric energy storage systems made of lithium cells. Most research advances in the development of lithium-ion battery management systems focus solely on safety, functionality, and improvement of the procedures for assessing the performance of systems without considering their energy efficiency. The paper presents an alternative approach to the design and analysis of large modular battery management systems. A modular battery management system and the dedicated wireless communication system were designed to analyze and optimize energy consumption. The algorithms for assembly, reporting, management, and communication procedures described in the paper are a robust design tool for further developing large and scalable battery systems. The conducted analysis of energy efficiency for the exemplary 100S15P system shows that the energy used to power the developed battery management system is comparable to the energy dissipated due to the intrinsic self-discharge of lithium-ion cells.

Suggested Citation

  • Roman Gozdur & Tomasz Przerywacz & Dariusz Bogdański, 2021. "Low Power Modular Battery Management System with a Wireless Communication Interface," Energies, MDPI, vol. 14(19), pages 1-20, October.
  • Handle: RePEc:gam:jeners:v:14:y:2021:i:19:p:6320-:d:649416
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    References listed on IDEAS

    as
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    2. Richard Schmuch & Ralf Wagner & Gerhard Hörpel & Tobias Placke & Martin Winter, 2018. "Performance and cost of materials for lithium-based rechargeable automotive batteries," Nature Energy, Nature, vol. 3(4), pages 267-278, April.
    3. Rothgang, Susanne & Baumhöfer, Thorsten & van Hoek, Hauke & Lange, Tobias & De Doncker, Rik W. & Sauer, Dirk Uwe, 2015. "Modular battery design for reliable, flexible and multi-technology energy storage systems," Applied Energy, Elsevier, vol. 137(C), pages 931-937.
    4. Dai, Haifeng & Jiang, Bo & Hu, Xiaosong & Lin, Xianke & Wei, Xuezhe & Pecht, Michael, 2021. "Advanced battery management strategies for a sustainable energy future: Multilayer design concepts and research trends," Renewable and Sustainable Energy Reviews, Elsevier, vol. 138(C).
    5. Khaled Sehil & Basem Alamri & Mohammed Alqarni & Abdulhafid Sallama & Mohamed Darwish, 2021. "Empirical Analysis of High Voltage Battery Pack Cells for Electric Racing Vehicles," Energies, MDPI, vol. 14(6), pages 1-18, March.
    Full references (including those not matched with items on IDEAS)

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