Generally speaking, the electric car works with the accumulator cell in the depth charging and discharging active status. 一般来说,电动车用蓄电池多工作在深度充放电工作状态。
Completely tested the secondary battery, the drive motor and the controller, provided the examination method for the manufacturer to choice accumulator cell and motor. 开合针闭于两从电池、驱动电机、控造器入行了完齐的测试,为出产厂家挑选蓄电池和电机供给了检测脚腕。
Application and maintenance of marine accumulator cell 船舶蓄电池的使用与维护
According to electro-chemical principle, an intensifying agent through research work be added to the lead accumulator's electric liquor, and a result of electrode polarization lessening, cell's volumetric capacity and electric discharge ability enhancing, as well as service life lengthening has been achieved. 应用电化学原理,在铅蓄电池电解液中添加一种强化剂,可以减轻电池极板的极化,增加电池容量和放电能力,延长蓄电池使用寿命。
Adopt the tactics controlling the new of output pulse energy, makes use of controlled intermittent energy high frequency triangle wave electric current pulse to carry out battery charging on lead acid accumulator cell. 利用脉冲能量可控的高频断续三角波电流对铅酸蓄电池进行充电。
As a power supply, accumulator cell is an important constituent in the DC system. 作为电源,蓄电池是直流系统中非常关键的设备。
The accumulator cell carries on the charge in the capacity different situation, will present the individual battery to present the early failure because of the overcharging the phenomenon, will then cause the capacity of storage battery loss. 蓄电池在容量不同情况下进行充电,会出现个别电池因过度充电而出现早期失效的现象,进而导致蓄电池容量损失。
Based on the experiment results, this paper proposed an optimal configuration principle for wind-driven generator, the accumulator cell and invertor. 最后,根据实践经验提出了风力发电机、蓄电池、逆变器的最优配置原则。
The accumulator cell connects the question which the sufficient nonuniformity is urgent needs to solve. 其中蓄电池串联充的不一致性是迫切需要解决的问题。
After having studied the accumulator cell SOC several forecast technique, proposed that using the battery terminal voltage and the interface resistance union forecast accumulator cell SOC the method, this method may enhance the forecast the precision. 研究了蓄电池SOC的几种预测方法后,提出利用电池端电压与内阻联合来预测蓄电池SOC的方法,该方法可以提高预测的精度。
With lead-acid accumulator cell applications of the increasingly widespread, rechargeable battery technology has been significant development. 随着铅酸蓄电池应用领域的日益广泛,蓄电池充电技术也得到了较大发展。