浮充电压值在不同的温度时应进行修正。
Float charging pressure values in different temperature should be revised.
浮充电流小,电池发热量少,电解液不发生酸分层。
Small floating charge current, less calorific power battery, the electrolyte acid stratification does not occur.
强充电电压,均衡充电电压,浮充电压三阶段充电控制。
Strong charging voltage, Average chaging voltage, Float voltage three-stage charging control.
文中从实际工作出发分析了影响浮充电流大小的主要因素。
This article makes analyses the major factors which influence the floating current value in practice operation.
达到80%以后,UPS转为浮充电压对德国阳光蓄电池进行恒压充电。
Reached 80% after UPS to float charging pressure constant pressure on Germany sunshine battery charging.
阐述了阀控式密封铅蓄电池组中各单电池的浮充电压值是服从正态分布规律的。
The values of floating charge voltage for all cells in the VRLA group were as the law of normal distribution.
由于单体电池的内阻、容量、浮充电压一致性好,因此电池在浮充使用状态下无需均衡充电。
With the good coherence of internal resistance, capacity and floating charge , there is no equalizing charge required during use.
理论和实践表明,涓流充电、大电流充电、过充电和浮充电组合起来的充电方式,可达到最佳的效果。
Theory and practice indicate tiny stream flow, charge, large electric current charge, cross, charge and float way of charging combined to charge, can reach the best result.
在正常使用状态下,控制箱与市电相连,控制箱内的浮充电器自动充电,保证启动用蓄电池的正常工作。
Under normal operation, the control cabinet is connected with the urban power, the inside electrical auto charged to ensure normal operation of the storage battery for start.
当充电电流在达到最终浮充电压之后降至设定值的1/10 时, EMC5040将自动终止充电循环。
The EMC5040 automatically terminates the charge cycle when the charge current drops to 1/10th the programmed value after the final float voltage is reached.
控制器还根据环境温度和蓄电池端电压选择适当的充电方式,蓄电池将充满时,控制器会自动调整成为过充和浮充方式,从而能有效地延长蓄电池的寿命。
Based on environment temperature and battery terminal voltage, the controller can also adopt proper charge mode, such as overcharge and floating charge, to extend the battery life.
同时给出了一种简单实用、工作稳定且性能可靠的12V密封铅酸电池双电平浮充充电器的实际应用电路。
At the same time, the application circuit of12V sealed lead-Acid battery dual-level float charger, which is simple, feasible and stable is produced.
在卫星中继站和遥测站中采用太阳能电池板充电(浮充)、蓄电池蓄电的电源系统,能保证连续、稳定的供电。
If charged by solar panels and batteries, continuing and stable power supply for satellite data relays and telemetric stations can be guaranteed.
在卫星中继站和遥测站中采用太阳能电池板充电(浮充)、蓄电池蓄电的电源系统,能保证连续、稳定的供电。
If charged by solar panels and batteries, continuing and stable power supply for satellite data relays and telemetric stations can be guaranteed.
应用推荐