具有过充及过放电自我保护性能。
具备完善的过充、过放电保护功能。
过充保护,过放保护,短路保护。
夜间防反充电保护;蓄电池过充、过放保护;
Anti-reverse charging protection; at night Battery overcharge.
过充保护,过放保护,过流保护,短路保护。
Overcharge protection, over-discharge protection, over current, short circuit protection.
论述了上述两类过充保护添加剂的研究进展。
The research progress of the above two additives are reviewed in detail.
安全特性:火花,耐逆联播,短路,过充保护。
Safety Features: Spark-resistant, reverse hookup, short circuit and overcharge protection.
蓄电池充满电后,控制器要控制蓄电池不被过充。
Full of electricity, controller battery to control the storage battery were not overcharge.
所以CHB是锂离子蓄电池优良的过充保护添加剂。
All these advantages promise CHB to be an ideal overcharge protection additive in lithium ion batteries.
实验证明,二甲苯是锂离子电池优良的过充保护添加剂。
Therefore, xylene can be a promising overcharge protection additive in lithium ion batteries.
此电池大电流充放性能好、耐过充能力强、密封性能好。
The batteries had good performances of high current charging and discharging, resistance to overcharging and sealing.
电路有过充、过放。 充电回路短路、电路熔断器保护。
The electric circuit has the charging and discharging protection.
错极性保护、过充保护、过放保护、过载保护、短路保护。
Wrong polarity protection, over charging protection, over discharging protection, over load, short circuit protection.
系统的研究了联苯和环己苯对锂离子电池的过充保护作用机理。
The overcharge protection ability of polymeric additives cyclohexyl benzene (CHB) and biphenyl was studied.
概述了过充电时电池内部的反应机理和提高电池耐过充性的措施。
The internal reaction mechanism and protection means of the battery during overcharge were summarized.
介绍了电活性聚合物过充保护机制的原理,详细描述了其工作过程。
The function mechanism of the electroactive polymer as the overcharge protection was introduced and its working process was described.
借由定期地在短时间内过充蓄电池,在蓄电池内混合电解质的程序。
The process of mixing the electrolyte in batteries by periodically overcharging the batteries for a short time.
选择合理的过充保护添加剂是提高锂离子电池耐过充性能的主要措施。
The main measures of improving overcharge performance was adaptive overcharge protecting additive.
介绍了电聚合添加剂与氧化还原对添加剂对锂离子电池的过充保护机理;
The overcharge protection mechanism of elctropolymerization additives and redox shuttle additives are introduced.
灯具内部电路设计具有防止过充、过放、短路保护装置及开关防误操作功能。
The internal circuit, the lamp is designed to prevent overcharge, over discharge, short circuit protection device and the switch function of anti misoperation.
在电池内装置正温度系数端子(PTC),可提高电池的耐过充性和短路安全性。
Fitting a positive temperature coefficient part (PTC) was very useful to improve the overcharge performance and short circuit safety performance.
环己基苯与联苯添加剂都改善了锂离子电池的耐过充性能,且两者的效果十分接近。
The overcharging tolerance of the lithium-ion batteries with CB and BP electrolyte are improved, and both of efficiencies are similar.
我们拥有完善的笔记本电脑电池过充,过放,过温等基本保护功能和双重保护性能。
Our laptop batteries own perfect over-charge, over-discharge, over-temperature etc basic protection functions and double protection performance.
在BREAK - IN模式下对电池过充不会对电池造成伤害,因为充电电流非常小。
Overcharging during the BREAK-IN mode does not harm battery as the charging current is very slow.
生产的产品均具备完善的过充,过放,过温,过流,过压保护功能,性能稳定,安全可靠。
Products all have sound overcharge, over discharge, over-temperature, over current, over voltage protection functions such as stable performance, safe and reliable.
在锂离子电池电解液中添加4-溴苯甲醚(简称4BA)可提高锂离子电池的过充保护能力。
In order to improve the ability of overcharge protection, 4BA was added as a novel electropolymerizable additive to the electrolyte of lithium-ion batteries.
然而,如果在运行中不能很好的管理,电池会产生如过充、过放和电压不平衡等很严重的问题。
However, it may come into being serious problems if the batteries get improper management during the operation, such as over-charging, over-discharging, imbalance of voltage among the cells.
充电器采用专用充电管理芯片控制,高可靠性、快速充电、过充保护、短路保护、涓流充电、状态指示。
The charger adopts special charging management chip control, high reliability, fast charging, overcharge protection, short circuit protection, trickle charging status indication.
锂离子电池在受热、过充条件下容易引起安全性问题,使其应用于电动汽车、混合动力汽车的动力电源受到限制。
The use of the Li-ion batteries in the field of large power sources, such as EV, HEV had been limited due to safety concerns associated with the heating and overcharging.
锂离子电池在受热、过充条件下容易引起安全性问题,使其应用于电动汽车、混合动力汽车的动力电源受到限制。
The use of the Li-ion batteries in the field of large power sources, such as EV, HEV had been limited due to safety concerns associated with the heating and overcharging.
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