Energies, Vol. 18, Pages 5795: A Compact Integrated Equalizer Based on Multi-Stacked Buck-Boost Converter for Large-Scale Energy Storage System
Energies doi: 10.3390/en18215795
Authors:
Yunchi Qiao
Xuejiao Pan
Miao Mou
Yanghang Ou
Zhenbo Wei
Xuxiang Li
Weiting Xu
Xinyuan Zhang
Traditional symmetric voltage multiplier-based structures offer low current stress and high scalability. However, the equalization current flowing into each energy storage cell must overcome four diode voltage drops per switching cycle, significantly degrading energy transfer efficiency. A compact integrated equalizer based on multi-stacked buck-boost converters for large-scale energy storage systems is proposed. By replacing diodes with inductors, the design achieves high-efficiency cell balancing even at low cell voltages. The integrated design leverages the boost circuit’s inherent current ripple for driving the balancing system, eliminating extra switches and minimizing size and cost. Additionally, it provides independent balancing channels for each cell, eliminating equalization current superposition. This reduces cell current stress while enabling large-scale system balancing. Experimental validation on an eight-cell setup demonstrated successful balancing with 87.5% system efficiency.