Fast charging technique for Li-Ion battery charger

2008 15th IEEE International Conference on Electronics, Circuits and Systems Pub Date : 2008-11-17 DOI:10.1109/ICECS.2008.4674929

Chia-Hsiang Lin, Chi-Lin Chen, Yu-Huei Lee, Shih-Jung Wang, C. Hsieh, Hong-Wei Huang, Ke-Horng Chen

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引用次数: 47

Abstract

In this paper, the compensation of internal resistance of the Li-Ion battery is proposed. The requirement of fast and steady charger becomes the most important issue for power management ICs. Refer to the characteristics of the battery, how to charge the battery with adequate current and fasten the time of charging is critical to the devisers. Due to the impedance of battery pack, the energy of charger charged to cell is consumed in it partly. As a result, the efficiency of charger is reduced inevitably. The previous design has proposed a dynamic circuit for reducing time [1]. However the technique demands the external device to compensate the defeat. Thus, this paper extends the period of the CC mode to charge the battery with a faster speed. Owing to the shifting voltage on the reference voltage, the charger can delay the time that the operation mode from CC mode to CV mode. That is a fast-charging charger can be achieved by a large constant current stored in the battery during a long constant current period. Simulation results verify the success of the fast-charging technique due to the internal resistance compensation.

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锂离子电池充电器的快速充电技术

本文提出了锂离子电池内阻的补偿方法。快速稳定的充电要求成为电源管理集成电路的重要问题。针对电池的特点，如何给电池充上足够的电流，并把握好充电的时间是设计人员的关键。由于电池组的阻抗，充入电池的充电器的能量部分消耗在电池组中。因此，不可避免地降低了充电器的效率。先前的设计提出了一种动态电路来减少时间[1]。然而，该技术需要外部装置来弥补失败。因此，本文延长了CC模式的周期，以更快的速度给电池充电。由于参考电压上的电压变化，充电器可以延迟工作模式从CC模式到CV模式的时间。也就是说，快速充电的充电器可以通过在很长的恒流周期内将较大的恒流储存在电池中来实现。仿真结果验证了采用内阻补偿的快速充电技术的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 15th IEEE International Conference on Electronics, Circuits and Systems

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