1) high efficiency multi-step constant current charging method
高效分段恒流充电法
2) normal multi-step constant current charging method
常规分段恒流充电法
1.
Based on the research of charging characteristic with multi-step constant charging method for electric bike valve regulated lead acid (VRLA) battery system, compared with the normal multi-step constant current charging method and rapid multi-step constant current charging method, results show that the difference is the charging current is raised on latter method.
在研究了电动自行车用阀控铅酸(VRLA)蓄电池分段恒流充电特性的基础上,通过对常规分段恒流充电法与快速分段恒流充电法的比较可见:由于后者提高了充电电流,从而使充电时间缩短到小于150 min,同时电池的循环寿命达到大于250次,但也造成了电池正极板腐蚀的提早发生。
3) rapid multi-step constant current charging method
快速分段恒流充电法
1.
Based on the research of charging characteristic with multi-step constant charging method for electric bike valve regulated lead acid (VRLA) battery system, compared with the normal multi-step constant current charging method and rapid multi-step constant current charging method, results show that the difference is the charging current is raised on latter method.
在研究了电动自行车用阀控铅酸(VRLA)蓄电池分段恒流充电特性的基础上,通过对常规分段恒流充电法与快速分段恒流充电法的比较可见:由于后者提高了充电电流,从而使充电时间缩短到小于150 min,同时电池的循环寿命达到大于250次,但也造成了电池正极板腐蚀的提早发生。
4) constant-current charge in stages
分段恒流充电
5) different-step charge
分阶段恒流充电
6) multi-stage constant-current charging method
分段恒流充电方式
补充资料:恒流充电
分子式:
CAS号:
性质: 电流维持在恒定值的充电。是一种广泛采用的充电方法。蓄电池的初充电,运行中的蓄电池的容量检查,运行中的牵引蓄电池的充电以及蓄电池极板的化成充电,多采用恒流或分阶段恒流充电。此法的优点是可以根据蓄电池的容量确定充电电流值,直接计算充电量并确定充电完成的时间。
CAS号:
性质: 电流维持在恒定值的充电。是一种广泛采用的充电方法。蓄电池的初充电,运行中的蓄电池的容量检查,运行中的牵引蓄电池的充电以及蓄电池极板的化成充电,多采用恒流或分阶段恒流充电。此法的优点是可以根据蓄电池的容量确定充电电流值,直接计算充电量并确定充电完成的时间。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条