This paper focuses on a battery energy storage system that can be installed in a 6.6-kV power distribution system. This system comprises a combination of a modular multilevel cascade converter based on single-star bridge-cells (MMCC-SSBC) and multiple battery modules. Each battery module is connected to the dc side of each bridge-cell, where the battery modules are galvanically isolated from each other. Three-phase multilevel line-to-line voltages with extremely low voltage steps on the ac side of the converter help in solving problems related to line harmonic currents and electromagnetic interference (EMI) issues. This paper proposes a control method that allows each bridge-cell to independently adjust the battery power flowing into or out of each battery module. A three-phase energy storage system using nine nickel-metal-hydride (NiMH) battery modules, each rated at 72 V and 5.5 Ah, is designed, constructed, and tested to verify the viability and effectiveness of the proposed control method. © 2011 The Institute of Electrical Engineers of Japan.
CITATION STYLE
Yamagishi, T., Maharjan, L., & Akagi, H. (2011). Individual battery-power control for a battery energy storage system using a modular multilevel cascade converter. IEEJ Transactions on Industry Applications, 131(1). https://doi.org/10.1541/ieejias.131.76
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