Accurate, Compact, and Power-Efficient Li-Ion Battery Charger Circuit

Min Chen; Rincon-Mora G. A.

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Accurate, Compact, and Power-Efficient Li-Ion Battery Charger Circuit

机译：准确，紧凑且省电的锂离子电池充电器电路

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A novel, accurate, compact, and power-efficient lithium-ion (Li-Ion) battery charger designed to yield maximum capacity, cycle life, and therefore runtime is presented and experimentally verified. The proposed charger uses a diode to smoothly (i.e., continuously) transition between two high-gain linear feedback loops and control a single power MOS device, automatically charging the battery with constant current and then constant voltage. An adaptive power-efficient charging scheme in the form of a cascaded switching regulator supply ensures the voltage across the charging power-intensive pMOS remains low, thereby reducing its power losses and yielding up to 27% better overall power efficiency. An 83% power-efficient printed circuit board prototype was built and used to charge several Li-Ion batteries to within plusmn0.43% of their optimum full-charge voltage and therefore within a negligibly small fraction of their full capacity

机译：一种新颖，准确，紧凑且省电的锂离子（Li-Ion）电池充电器，旨在产生最大容量，延长循环寿命并因此提供运行时间，并进行了实验验证。提出的充电器使用二极管来平滑地（即，连续地）在两个高增益线性反馈环路之间过渡，并控制单个功率MOS器件，以恒定电流然后恒定电压自动给电池充电。级联开关稳压器电源形式的自适应功率高效充电方案可确保充电功率密集型pMOS两端的电压保持较低，从而降低了功率损耗，并使总功率效率提高了27％。建成了一个83％的高能效印刷电路板原型，并用于为多个锂离子电池充电，使其在其最佳全充电电压的±0.43％以内，因此在其总容量的很小一部分内

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《IEEE transactions on circuits and systems. II, Express briefs》 |2006年第11期|p.1180-1184|共5页
作者
Min Chen; Rincon-Mora G. A.;
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正文语种 eng
中图分类通信;
关键词
MIS devices; battery chargers; circuit feedback; constant current sources; power semiconductor devices; semiconductor diodes; MOS device; adaptive power supply; cascaded switching regulator supply; constant current charger; constant voltage charger; linear charger;

机译：MIS器件;电池充电器;电路反馈;恒定电流源;功率半导体器件;半导体二极管;MOS器件;自适应电源;级联开关稳压器电源;恒定电流充电器;恒定电压充电器;线性充电器;

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专利

1. Accurate, Compact, and Power-Efficient Li-Ion Battery Charger Circuit [J] . Min Chen, Rincon-Mora G. A. IEEE Transactions on Circuits and Systems. II, Express Briefs . 2006,第期

机译：准确，紧凑且省电的锂离子电池充电器电路
2. An Area and Power-Efficient Analog Li-Ion Battery Charger Circuit [J] . Do Valle B., Wentz C. T., Sarpeshkar R. Biomedical Circuits and Systems, IEEE Transactions on . 2011,第2期

机译：面积和功率效率高的模拟锂离子电池充电器电路
3. Highly accurate and power-efficient battery charger with charging current compensator for wearable devices [J] . Y.-H. Jung, S.-K. Hong, O.-K. Kwon Electronics Letters . 2017,第7期

机译：具有可穿戴设备充电电流补偿器的高精度，高能效电池充电器
4. An ultra-compact and efficient Li-ion battery charger circuit for biomedical applications [C] . Valle Bruno Do, Wentz Christian T., Sarpeshkar Rahul Proceedings of 2010 IEEE International Symposium on Circuits and Systems . 2010

机译：用于生物医学应用的超紧凑，高效的锂离子电池充电器电路
5. RC Circuit Model-Based Anomaly Detection for Li-Ion Batteries [D] . R, Tunga. 2018

机译：基于RC电路模型的锂离子电池异常检测
6. Experimental data on open circuit voltage characterization for Li-ion batteries [O] . Mostafa Shaban Ahmed, Balakumar Balasingam, K.R. Pattipati 2021

机译：锂离子电池开路电压表征的实验数据
7. Accurate, compact, and power-efficient Li-Ion battery charger circuit [O] . Min Chen, Student Member, Gabriel A. Rincón-mora, 2006

机译：精确，紧凑，节能的锂离子电池充电器电路

Accurate, Compact, and Power-Efficient Li-Ion Battery Charger Circuit

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