显示多少时间了,直到电池放电。
本文给出测试干电池放电曲线的电路。
A circuit has been developed for measuring the discharge curves of dry cells.
随着时间的推移,平均计算电池放电率。
温度特性研究证明温度对电池放电性能有较大影响。
The study of the batteries' temperature characteristics has shown that the temperature has large influence on the discharging property of the batteries.
这项测量技术可以揭示诸因素对电池放电曲线的影响。
The effect of several factors upon discharge curves of cells had been given.
电池放电达80%,双闪灯闪烁发出“电量耗尽”报警。
Battery discharge up to 80%, two flashing lights flashing issued a "charge depletion" Alarm.
我需要在使用BREAK - IN模式前先给电池放电吗?
Is it necessary to discharge the batteries before using the BREAK-IN mode?
当锂电池放电时,电流的释放使锂离子从阳极被吸回到阴极。
When the battery is being used, drawing the current pulls the lithium ions out of the anode and back to the cathode.
当电池放电的时候,锂离子从负极栅格游到正极栅格;充电时它们游回来。
As the battery discharges, the lithium ions swim from the negative-electrode lattice to the positive one; during recharging, they swim back again.
通过电池暴露在空气中的表面所吸入的氧气在碳孔中进行反应为电池放电。
The oxygen, which will be drawn in through a surface of the battery exposed to air, reacts within the pores of the carbon to discharge the battery.
从改变空气电极的摆放方式的角度研究了改善锌空气电池放电性能的方法。
From the laying style of the gas electrode point of view, the method on how to improve the zinc-air batteries discharge performance was researched.
当电池放电时,锂离子和电子将自发地做单向运动,从而产生电流释放能量。
When the battery is discharging, both ions and electrons travel spontaneously in one direction, creating a current and releasing energy.
研究了拉网铜板栅对负极活性物质转化过程及对VRLA电池放电容量的影响。
The effects of expanded grid of copper on discharge capacity and transformation process of negative active material of the VRLA battery were investigated.
本文利用收集气体、测定腐蚀电流和模拟电池放电等方法来选择和检验缓蚀剂。
Corrosion inhibitors were selected and tested by method of collected gas, corrosion current measurement and simulated battery discharge.
着重介绍了蓄电池和充电器之间的匹配和优化以及蓄电池放电深度与循环寿命之间的关系。
The matching and optimization between batteries and their chargers as well as the relationship between the discharge depth and the cycle life were described in this paper.
从热电池的基本工作原理出发,研究了热电池放电过程中热量的产生、传递、散失变化特征。
According to the basic mechanism of thermal batteries, the heat producing, transfering and releasing during battery discharging were studied.
智能蓄电池放电仪是专门对蓄电池组、直流电源、UPS后备电池进行维护及容量检测的仪器。
Intelligent battery discharger is the instrument that can maintain and capacity test to battery, DC power and UPS backup battery.
所有电池是靠充电的同时通过将电能转换为化学能而工作,随后,当电池放电的时候,再将化学能转化为电能。
All batteries work by converting electrical energy into chemical energy during charging, and then converting it back into electricity as the battery is discharged.
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.
本文介绍作者发现在固体电解质中掺杂专属的铁氧体,制成电池中的隔膜,能使电池放电电流密度大幅度提高。
The author states in this article his discovery that cell diaphragms made of solid electrolytes mixed with metallic ferrites, can have their discharge current densities increased by big margins.
所述催化剂在电池放电时催化碘酸盐的还原由此使得该电池能够用于功能终止点为1.0V或更高的设备中。
The catalyst catalyzes the reduction of the iodate when the cell is discharged thereby enabling the cell to be used in devices that have a functional endpoint of 1.0v or higher.
介绍了直流电池放电自动化生产线的工作过程与控制特点,设计了一种基于PLC的直流电池放电自动化控制系统。
This paper introduces the working process and control features of the automatic production line of DC battery discharge, and designs an automatic control system of DC battery discharge based on PLC.
过滤器厂的负责人说,将德国阳光蓄电池放电工作后,工作人员应在24小时内布满电量,防止电池会影响存储容量。
Filter plant, officials say, will work in Germany sunshine battery discharge, the staff should be full of electricity within 24 hours, prevent the battery will affect the storage capacity.
采用PWM调节方式,实现了能量的双向传递,将电池放电能量回馈到直流母带,解决了电池放电能量利用这一技术难题。
Based on PWM technique, the energy from battery discharges return to the master tape of DC, which has the advantage transmitting energy through two directions and realizes energy callback.
在锂电池充电时,锂离子从正极向负极移动,而在锂电池放电时,锂离子从负极向正极回流,为连接在锂电池的外接电路提供电流。
When the thing is discharged, the ions flow back and in the process cause a current to flow in an external circuit attached to the battery.
电池放电时,正极释放出的锂离子快速运动回到负极,充电过程中在负极由锂离子携带的电子被释放出来,从而为外部电路提供电力。
As they do so, the electrons that were paired with them in the anode during the charging process are released. These electrons power an external circuit.
当电池放电量达到容量的80 %时,电路自动切断负载,防止电池过度放电,延长电池寿命,保证系统(或设备)在供电恢复正常后能正常运行。
It will switch off the load automatically when it discharged closing to 80% of their energy capacity, thus overwork of batteries can be avoided and lifetime may be extended.
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.
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.
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