Lithium-Ion battery packs require a Battery Management System (BMS) and an active cell balancing architecture for improving safety and usable capacity, respectively. Distributed BMSs are emerging and provide significant advantages, however, have certain design challenges that needs to be addressed. For this purpose, in this thesis, (1) a homogeneous architecture of a distributed BMS topology is designed, (2) several modular active cell balancing architectures are proposed and (3) accurate analytical models and optimization approaches of balancing architectures are developed.
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Lithium-Ion battery packs require a Battery Management System (BMS) and an active cell balancing architecture for improving safety and usable capacity, respectively. Distributed BMSs are emerging and provide significant advantages, however, have certain design challenges that needs to be addressed. For this purpose, in this thesis, (1) a homogeneous architecture of a distributed BMS topology is designed, (2) several modular active cell balancing architectures are proposed and (3) accurate analyt...
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