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Low Frequency Ripple Charging of Li-Ion Battery using Bidirectional Zeta DC-DC Converter to Improve Charge Transfer Efficiency

机译：使用双向Zeta DC-DC转换器对锂离子电池进行低频纹波充电以提高电荷转移效率

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Li-ion batteries are the most popular rechargeable batteries in applications like consumer electronics and electric vehicles in comparison with other rechargeable battery chemistries due to its high specific energy and longer life cycle. The reliability and life of the battery power devices depends on state of charge (SOC) and the charging protocol used for charging the battery. In this paper, low frequency ripple current (LFRC) charging of Li-Ion battery using the Zeta bi-directional DC-DC converter is presented. Charging the battery at the optimal frequency with ripple current results in improved charge transfer efficiency, improved charging time and thereby improves the life of the battery. To realize the LFRC charging technique, Zeta bidirectional converter and mathematical model of 48V, 4Ah Li-Ion battery is designed and simulated in MATLAB/Simulink platform. Moreover, an experimental prototype is developed to validate the LFRC charging technique.

机译：与其他可充电电池化学物质相比，锂离子电池是消费电子和电动汽车等应用中最受欢迎的可充电电池，因为它具有较高的比能量和更长的使用寿命。电池电源设备的可靠性和寿命取决于充电状态（SOC）和用于对电池充电的充电协议。本文介绍了使用Zeta双向DC-DC转换器对锂离子电池进行低频纹波电流（LFRC）充电。使用纹波电流以最佳频率对电池充电可提高电荷转移效率，缩短充电时间，从而延长电池寿命。为了实现LFRC充电技术，在MATLAB / Simulink平台上设计并仿真了Zeta双向转换器和48V，4Ah锂离子电池的数学模型。此外，还开发了一个实验原型来验证LFRC充电技术。

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《IEEE International Conference on Power and Energy》|2018年|62-66|共5页
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J Saikrishna Goud; Kalpana R; Kiran R; Bhim Singh;
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DC-DC power convertors; lithium compounds; mathematical analysis; power system simulation; reliability; secondary cells;

机译：DC-DC电源转换器;锂化合物;数学分析;电力系统仿真;可靠性;二次电池;
入库时间 2022-08-26 13:50:31

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1. Sinusoidal-Ripple-Current Charging Strategy and Optimal Charging Frequency Study for Li-Ion Batteries [J] . Chen L.-R., Wu S.-L., Shieh D.-T., Industrial Electronics, IEEE Transactions on . 2013,第1期

机译：锂离子电池的正弦纹波电流充电策略和最佳充电频率研究
2. Patent Application Titled "Photo-Voltaic Array Fed Switched Capacitor Dc-Dc Converter Based Battery Charging for Li-Ion Batteries" Under Review [J] . Journal of Engineering . 2013,第12期

机译：专利申请“基于锂离子电池的光伏阵列馈电开关电容器DC-DC转换器的电池充电”正在审查中
3. DC-DC Converter with Input Current Ripple Reduction for Battery Charging Application [J] . V.V.Rajasegharan, Dr.L.Premalatha, B.Vishnupriya International Journal of Innovative Research in Science, Engineering and Technology . 2014,第3期

机译：具有降低输入电流纹波的DC-DC转换器，用于电池充电应用
4. Low Frequency Ripple Charging of Li-Ion Battery using Bidirectional Zeta DC-DC Converter to Improve Charge Transfer Efficiency [C] . J Saikrishna Goud, Kalpana R, Kiran R, IEEE International Conference on Power and Energy . 2018

机译：使用双向Zeta DC-DC转换器的锂离子电池的低频纹波充电，提高电荷转移效率
5. Analysis and optimal design method of LCLC resonant tank for bidirectional DC-DC resonant converter and LCLC resonant converter's efficiency performance in wireless low power transfer applications [D] . Nam, Isaac IL W. 2011

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6. A High Voltage Ratio and Low Ripple Interleaved DC-DC Converter for Fuel Cell Applications [O] . Long-Yi Chang, Kuei-Hsiang Chao, Tsang-Chih Chang 2012

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7. Current Ripple Minimisation Based on Phase-Shedding of DC-DC Interleaved Converters for EV Charging System [O] . Mohammed A. Alharbi, Mohamed Dahidah, Saleh Ali, 2019

机译：基于EV充电系统的DC-DC交错转换器的相位缩放的电流纹波最小化

Low Frequency Ripple Charging of Li-Ion Battery using Bidirectional Zeta DC-DC Converter to Improve Charge Transfer Efficiency

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