This paper proposes the analysis of the performance of two different architectures of Battery Management System (BMS). In particular, the passive equalizer circuit and an active one based on a Multiple Active Bridge (MAB) have been considered. The comparison has been performed in terms of equalization speed, power losses, complexity of both hardware and software implementation, size and cost. The different functionalities of the equalization process in both passive and active BMS have been verified in charging, discharging and idle state. Numerical and experimental analyses have been carried out to validate the performance of each equalizer circuit.

Performance analysis of active and passive equalizer circuits for lithium-ion cells / Porpora, F.; Abronzini, U.; Attaianese, C.; D'Arpino, M.; Di Monaco, M.; Nardi, V.; Tomasso, G.. - 1:(2020), pp. 304-311. (Intervento presentato al convegno International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management, PCIM Europe 2020 nel 2020).

Performance analysis of active and passive equalizer circuits for lithium-ion cells

Attaianese C.;
2020

Abstract

This paper proposes the analysis of the performance of two different architectures of Battery Management System (BMS). In particular, the passive equalizer circuit and an active one based on a Multiple Active Bridge (MAB) have been considered. The comparison has been performed in terms of equalization speed, power losses, complexity of both hardware and software implementation, size and cost. The different functionalities of the equalization process in both passive and active BMS have been verified in charging, discharging and idle state. Numerical and experimental analyses have been carried out to validate the performance of each equalizer circuit.
2020
Performance analysis of active and passive equalizer circuits for lithium-ion cells / Porpora, F.; Abronzini, U.; Attaianese, C.; D'Arpino, M.; Di Monaco, M.; Nardi, V.; Tomasso, G.. - 1:(2020), pp. 304-311. (Intervento presentato al convegno International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management, PCIM Europe 2020 nel 2020).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/889859
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