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。
锂离子电池的过充电、过放电和材料的粉化是电池容量衰减的主要原因之一。
Particle-fracture and over-charge and discharge in electrode materials are one of the main reasons for capacity fade of lithium-ion batteries.
采用本发明的方法制备的电池能够显著改善电池的耐过放电性能和耐过充电性能。
By adopting the battery prepared by the method, the invention can remarkably improve the over-discharging resistance performance and the over-charging resistance performance of the battery.
当蓄电池所储存的电能放完时,太阳能控制器要控制蓄电池不被过放电,保护蓄电池。
When the battery the stored power put up, the solar controller to control the battery will not be a discharge, protect the accumulator.
我们知道影响电池使用寿命的主要因素有以下几点:过放电、充电温度、最高充电电压。
We know that influence the main factor of service life of the battery to have the following several points: discharge, charge temperature, charge the voltage at most to pass.
为了充分利用电池的能量又要防止电池组中任一电池过放电,对电池放电终止状态的判断必须适时而准确。
First the battery pack should be prevented from over discharge, the judgment of the discharging ending status of the battery should be timely and accurate.
太阳能控制器:太阳能控制器的作用是控制整个系统的工作状态,并对蓄电池起到过充电保护、过放电保护的作用。
Solar controller: Solar controller's role is to control the entire system state, and played a rechargeable battery protection, over discharge protection.
电池剩余电量估计系统不仅能够防止电池过放电或过充,而且对于电动汽车行使过程中起到了汽车汽油表的重要作用。
SOC system can not only avoid the overcharge or overdischarge of battery, but also play as a important role as auto gas instrument.
智能保护使用12- 24v汽车或船舶电源时,该灯设有过放保护电压点,可有效保护因过放电而损坏汽车电池。
Intelligent protection of the use of 12-24v car or ship power, the lamp has a protective voltage point, can effectively protect the damaged car battery due to over discharge.
在使用BREAK - IN模式前先给电池放电是可以的。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。
Discharging prior to BREAK-IN mode is optional. Overcharging during the BREAK-IN mode does not harm battery as the charging current is very slow.
放电管主要用于过压防雷保护。
Discharge tubes are mainly used for over-voltage protection.
同时给出了整流滤波电路、辅助源电路、过压保护电路、蓄电池的充放电控制电路的电原理图及其工作原理。
Schematic circuits of rectifier and filter, assistant power, over voltage protection, and charge control for storage battery are suggested , their working principle are also discussed.
针对锂离子蓄电池在充放电过程中容易出现的过充、过放、过流、过温问题,设计了基于软硬件保护的锂离子蓄电池保护电路。
According to the problems in charging and discharging process of lithium-ion battery, a kind of protection circuit based on software and hardware was designed.
这种病间断发作,脑内神经元一过性异常放电,引起脑功能短暂失常。
Intermittent attacks of the disease, a brain neurons had abnormal discharge, caused by short-term disorders of brain function.
这种病间断发作,脑内神经元一过性异常放电,引起脑功能短暂失常。
Intermittent attacks of the disease, a brain neurons had abnormal discharge, caused by short-term disorders of brain function.
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