1.
Overcharge performance of LiCoO_2-LiMn_2O_4 blended cathode
LiCoO_2-LiMn_2O_4混合正极的过充电性能
2.
2-Chloroanisole for overcharge protection of Li-ion battery
2-氯苯甲醚作锂电池防过充电添加剂研究
3.
Charging system output too low.
充电系统输出过低。
4.
Plug the other end of the charger into an electrical outlet. During charging, the headset indicator turns on and remains on until charging completes.
将充电器插入电源中。在充电过程中,耳机显示灯亮起,直至充电完毕。
5.
The charger adopts chip controlled charging,with constant current and constan charging,overcharge protection,short circuit protection and indications for charging status.
充电器采用芯片控制充电,具有恒流充电、过充保护、短路保护、充电状态指示。
6.
On charge, the counter-voltage or overvoltage of the battery could be so high as to restrict the charging characteristics at low temperatures.
充电时,蓄电池的反电压或过电压太高,以致限制了低温充电性能。
7.
Kinetic process of LiFePO_4 in the charge and discharge process
LiFePO_4充放电过程动力学过程
8.
An undercharged or overcharged battery condition occurs.
发生电瓶充电不足或过量的情况。
9.
oil-filled insulated cable[for a voltage exceeding 1000v]
充油式绝缘电缆[超过1000V电压用]
10.
Temperature of the battery will be rise after charging or using.
电池充电以后或使用过后,温度会升高。
11.
energize a battery by passing a current through it in the direction opposite to discharge.
通过电流朝与放电相反的方向流动给电池充电。
12.
Investigation of Physical Mechanism for Electric Conduction during Charge-discharge Process in MH/Ni Battery
MH/Ni电池充放电过程导电物理机制的研究
13.
The charging process therefore requires the expenditure of energy.
所以,充电过程需要消耗能量。
14.
The headset will not work while charging. Your headset fully charges in approximately two hours .
耳机在充电过程中无法使用。耳机大约2 小时即可充足电。
15.
A Discussion on Conversion of Energy During Two Capacitors Charging and Discharging Process;
试论两个电容器相互充放电过程的能量转变
16.
Chemical Physical Phenomena During Charge-Discharge Processes of MH/Ni Battery and Its Mechanism
镍-氢电池充放电过程中的化学物理现象及机制
17.
The Harm to VRLA Battery Due to Over Floating Current
浮充电流过大对阀控式蓄电池组的危害
18.
An electrical current begins to flow through a coil, which is connected across a charged condenser.
如果线圈跨接到充过电的电容器上,电波就开始流过线圈。