12.2 Micro Short-Circuit Detector Including S/H Circuit for 1hr Retention and 52dB Comparator Composed of C-Axis Aligned Crystalline IGZO FETs for Li-Ion Battery Protection IC

2019 IEEE International Solid- State Circuits Conference - (ISSCC) Pub Date : 2019-02-01 DOI:10.1109/ISSCC.2019.8662541

H. Inoue, T. Aoki, F. Akasawa, T. Hamada, T. Takeuchi, Kousei Nei, Takako Seki, Y. Yakubo, Kei Takahashi, S. Fukai, T. Ishizu, M. Kozuma, R. Tajima, T. Matsuzaki, T. Ikeda, M. Ikeda, S. Yamazaki

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引用次数: 4

Abstract

Li-ion batteries are primarily used as power sources in electronic devices and electric vehicles and offer substantial conveniences to consumers. However, fires have broken out likely due to micro short-circuit (also called internal or soft shortcircuit) in Li-ion batteries [1]. The micro short-circuit is a failure mode where Li metal first precipitates on a negative electrode and then reaches a positive electrode; eventually a short-circuit occurs between the negative and positive electrodes and the battery voltage slightly decreases. Repetitive occurrences of micro short-circuit will generate heat and lead to serious accidents with a fire or an explosion in the worst-case scenario. Micro short-circuit detection methods are still in the research phase, and applications of battery voltage monitoring systems with AI are expected [1], [2]. This situation demands urgent research and development of micro short-circuit detectors for battery protection ICs.

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12.2用于锂离子电池保护IC的微短路检测器，包括S/H电路保持1hr和由c轴对准晶体IGZO fet组成的52dB比较器

锂离子电池主要用作电子设备和电动汽车的电源，为消费者提供了极大的便利。然而，火灾可能是由于锂离子电池[1]的微短路(也称为内部或软短路)而发生的。微短路是一种锂金属先在负极上析出，然后到达正极的失效模式;最终在负极和正极之间发生短路，电池电压略有下降。反复发生的微短路会产生热量，在最坏的情况下会导致火灾或爆炸等严重事故。微短路检测方法仍处于研究阶段，AI电池电压监测系统的应用有望实现[1]，[2]。这种情况迫切需要研究和开发用于电池保护集成电路的微型短路检测器。

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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2019 IEEE International Solid- State Circuits Conference - (ISSCC)

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