SOH-Aware Active Cell Balancing Strategy For High Power Battery Packs

Alma Pröbstla, Sangyoung Parkb, Swaminathan Narayanaswamyc, Sebastian Steinhorstd and Samarjit Chakrabortye
Technische Universität München, Germany
aalma.proebstl@tum.de
bsangyoung.park@tum.de
cswaminathan.narayanaswamy@tum.de
dsebastian.steinhorst@tum.de
esamarjit.chakraborty

ABSTRACT


Short drive range due to limited battery capacity and high battery depreciation costs persist to be the main deterrents to the wide adoption of Electric Vehicles (EVs). High power battery packs consisting of a large number of battery cells require extensive management, such as State of Charge (SOC) balancing and thermal management, in order to keep the operating conditions within a safe and efficient range. In this paper, we propose a novel State of Health (SOH)‐aware active cell balancing technique, which is capable of extending the cycle life of the whole battery pack. In contrast to the state‐of‐the‐art active cell balancing techniques, the proposed technique reduces the load current of cells with low SOH using the active cell balancing architecture. Based on the observation that assigning the smallest possible load current to cells with lower SOH extends cycle life, the technique identifies the most beneficial charge transfers. We find that with our proposed scheme, aging could be mitigated by up to 23.5% over passive cell balancing and 17.6% over active SOC cell balancing.



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