A novel double-layer active equalization scheme for lithium-ion batteries combining wireless power transfer
Battery packs inconsistency is inevitable in the use of series-connected cells. For packs equalization in confined environments, direct electrical contact is unpermitted. To address this issue, a novel double-layer equalization topology is proposed. It combines a wireless equalizer for inter-group e...
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sg-ntu-dr.10356-1803132024-10-01T03:30:29Z A novel double-layer active equalization scheme for lithium-ion batteries combining wireless power transfer Liu, Xinghua Ma, Tianyu Tian, Jiaqiang Wei, Zhongbao Pan, Tianhong Wang, Peng School of Electrical and Electronic Engineering Engineering Battery inconsistency Wireless power equalization Battery packs inconsistency is inevitable in the use of series-connected cells. For packs equalization in confined environments, direct electrical contact is unpermitted. To address this issue, a novel double-layer equalization topology is proposed. It combines a wireless equalizer for inter-group equalization with a wired active equalizer for intra-group equalization. Firstly, current and voltage of intra-group equalization and inter-group equalization are introduced. Then, the Thevenin equivalent model is developed and parameter identification of the model is performed using the least squares method with a forgetting factor. In addition, the intra-group equalization parameters and inter-group equalization parameters are designed to improve the equalization performance. For different currents corresponding to different cell resistances, the duty cycle of the buck circuit is analyzed to achieve a constant equalization current. The optimal switching frequency and equalization method for intra-group equalization are designed to improve the equalization effect. Finally, an equalization experiment with eight cells is designed to validate the effectiveness of the proposed topology and strategy. The experimental results demonstrate that the designed topology has better equalization performance under different initial SOC distributions and switching frequencies. It verifies that the equilibrium model is able to effectively solve the inconsistency of the series-connected battery packs. This work was supported in part by the National Natural Science Foundation of China (Grant No. U2003110, 62203352), in part by the Anhui Provincial Key Research and Development Project, China under Grant 202304a05020046, and in part by 2023 National Funded Postdoctoral Researcher Program, China under Grant GZB20230001. 2024-10-01T03:29:43Z 2024-10-01T03:29:43Z 2024 Journal Article Liu, X., Ma, T., Tian, J., Wei, Z., Pan, T. & Wang, P. (2024). A novel double-layer active equalization scheme for lithium-ion batteries combining wireless power transfer. Energy, 291, 130335-. https://dx.doi.org/10.1016/j.energy.2024.130335 0360-5442 https://hdl.handle.net/10356/180313 10.1016/j.energy.2024.130335 2-s2.0-85182900730 291 130335 en Energy © 2024 Published by Elsevier Ltd. All rights reserved. |
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Engineering Battery inconsistency Wireless power equalization |
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Engineering Battery inconsistency Wireless power equalization Liu, Xinghua Ma, Tianyu Tian, Jiaqiang Wei, Zhongbao Pan, Tianhong Wang, Peng A novel double-layer active equalization scheme for lithium-ion batteries combining wireless power transfer |
| description |
Battery packs inconsistency is inevitable in the use of series-connected cells. For packs equalization in confined environments, direct electrical contact is unpermitted. To address this issue, a novel double-layer equalization topology is proposed. It combines a wireless equalizer for inter-group equalization with a wired active equalizer for intra-group equalization. Firstly, current and voltage of intra-group equalization and inter-group equalization are introduced. Then, the Thevenin equivalent model is developed and parameter identification of the model is performed using the least squares method with a forgetting factor. In addition, the intra-group equalization parameters and inter-group equalization parameters are designed to improve the equalization performance. For different currents corresponding to different cell resistances, the duty cycle of the buck circuit is analyzed to achieve a constant equalization current. The optimal switching frequency and equalization method for intra-group equalization are designed to improve the equalization effect. Finally, an equalization experiment with eight cells is designed to validate the effectiveness of the proposed topology and strategy. The experimental results demonstrate that the designed topology has better equalization performance under different initial SOC distributions and switching frequencies. It verifies that the equilibrium model is able to effectively solve the inconsistency of the series-connected battery packs. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Liu, Xinghua Ma, Tianyu Tian, Jiaqiang Wei, Zhongbao Pan, Tianhong Wang, Peng |
| format |
Article |
| author |
Liu, Xinghua Ma, Tianyu Tian, Jiaqiang Wei, Zhongbao Pan, Tianhong Wang, Peng |
| author_sort |
Liu, Xinghua |
| title |
A novel double-layer active equalization scheme for lithium-ion batteries combining wireless power transfer |
| title_short |
A novel double-layer active equalization scheme for lithium-ion batteries combining wireless power transfer |
| title_full |
A novel double-layer active equalization scheme for lithium-ion batteries combining wireless power transfer |
| title_fullStr |
A novel double-layer active equalization scheme for lithium-ion batteries combining wireless power transfer |
| title_full_unstemmed |
A novel double-layer active equalization scheme for lithium-ion batteries combining wireless power transfer |
| title_sort |
novel double-layer active equalization scheme for lithium-ion batteries combining wireless power transfer |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180313 |
| _version_ |
1814047082201219072 |