最大功率转移定理
均衡器
电气工程
电子工程
功率(物理)
正激变换器
电池(电)
计算机科学
升压变换器
工程类
电压
物理
量子力学
频道(广播)
作者
Yinqin Liao,Xinzhi Zhang,Long Chen,Feiliang Li,Chunsheng Wang,Yuan Cao,Yukun Hu
标识
DOI:10.1109/tpel.2025.3605072
摘要
State-of-charge (SOC) balancing is essential for safe, reliable, and long-lived operation of battery energy storage systems. Conventional wired equalizers are hampered by permanent physical connections, limited flexibility, and heightened safety hazards. To address these limitations, an inductive power transfer (IPT)-based equalizer is introduced in this article, in which the single-inductor DC-DC converter's inductor is replaced by a transmitter coil to wirelessly transfer ripple energy for SOC balancing during both charging and discharging. Additionally, a single receiver coil and switch matrix are employed, shared sequentially among all cells with adaptive connection intervals regulated by a presented efficient adaptive equalization algorithm. The equalization performance is analyzed and validated using a down-scaled proof-of-concept prototype. Furthermore, the trade-off between balancing capability and efficiency is discussed, along with the potential for cell-level fault bypass at a slight improvement in topology.
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