根据蓄电池容量,设置充电装置的蓄电池充电电流。
Set the charge current on the battery of the charge device according to the battery capacity.
这是参考输出。它提供了电容CT充电电流通过电阻RT。
Vref:This is the reference output. It provides charging current for capacitor CT through resistor RT.
为了缩短充电时间,必须对充电过程的充电电流进行控制。
For shortening the charge time, we must take charge current in that process to be controlled.
恒压充电前期,充电电流比较大,蓄电池会有发热的问题。
Before constant voltage charging, as the charging electric current is larger, the battery will have an overheating problem.
该文分析了理想和实际的串联谐振充电电源的充电电流特性。
This paper analyses the current characteristic of the series resonant power supply with ideal and practical series resonant topology.
用于分合负荷电流、闭环电流、空载变压器和电缆充电电流。
Used for points and load current, closed loop current, no-load transformer and cable charging electric current.
它限制每个电容器的充电电流,并在电容器发生短路时保护继电器。
It limits the charging current of each capacitor and also protects the relays in case a capacitor becomes short-circuited.
最高的系统安全性和接地故障检测有助于避免由充电电流造成的跳闸。
Maximum system security and immediate ground fault detection helps avoids nuisance tripping due to charging currents.
讨论了充电电流与放电电流以及钻离子注入对碱性镍电极性能的影响。
Effects of charge and discharge currents as well as cobalt implantation have been discussed.
充电机能根据电池电量自动调整充电电流,减少充电时间,充电效率高;
The charging current can be automatically adjusted according to the SOC of the battery, resulting a shortened charging time and increased charging efficiency;
在该电容性元件被充电到该预给定的充电电压期间,该充电电流阈值被改变。
The charging current threshold is modified while the capacitive element is charged to the predetermined charging voltage.
充电电量超过电池电量30%也很正常,这取决于电池的品质以及充电电流。
It is normal for the charging capacity to exceed battery capacity by as much as 30% depending on battery brand and charging rate.
用于分合负荷电流,闭环电流,空载变压器和电缆充电电流,关合短路电流。
Used for points and load current, closed loop current, no-load transformer and cable charging electric current, close short circuit current.
阐述了它的工作原理,分析了充电电流的参数,讨论了组合应用时的注意事项。
The operation principle of the power supply is demonstrated, and the parameters of the charging current are analyzed. The key points of combinatory application of the power supply are discussed.
该充电器具有充电电流自动检测调整、自动消极化放电、充满自行关闭等优点。
This charger has the merits of automatically checking adjusting of electricity, automatically discharging to eliminate polarization, and automatically closing up, and et al.
充电器应发出警报信号后没有任何一方发起一个欠压继电器或零充电电流继电器。
The charger shall give an alarm signal upon failure initiated by either an under-voltage relay or a zero charging current relay.
同时,一个平均电流模式控制的电流源被用来对选中的单体提供恒定的充电电流。
Meanwhile, an average current mode controlled power source is used to provide constant charging current to these selected cells.
但是因为充电电流比较小(只有电池容量的10%),所以对电池一点伤害都没有。
This does not cause any harm to the battery as the charging rate is very low (only 10% of the battery capacity).
结果表明:在充电过程中,电池的端电压出现极大值,并随充电电流的增大而趋明显。
The result indicated that the cell voltage showed a maximum value during charging, which would appear earlier with increasing the charge current.
仪器用8031单片机作智能部件,对双电层电容充电电流引起的测量误差作了修正。
Theinstrument is controlled by microprocessor 8031. It has been made correction for error of determinaion resulting from charge current for couple electrolayer capacitor.
浮动电压的电池适用于被裁定为紧缩0.8%宽容和可编程充电电流通过外部电阻到地。
The float voltage applied to the battery is held to a tight 0.8% tolerance, and charge current is programmable using an external resistor to ground.
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。
Overcharging during the BREAK-IN mode does not harm battery as the charging current is very slow.
智能充电,可根据配置电池的大小调整充电电流的大小,快捷可靠且又能提高电池的寿命。
Intelligent battery charging, the charging current can be adjusted according to the equipped battery, it is fast and reliable and can increase the service life of the battery.
镍氢电池负极用贮氢合金电极材料的充电电流效率对电池的密封以及能源节约都具有重要的意义。
The current efficiency during charging is important for the seal of nickel-metal hydride secondary battery and the saving of energy.
恒定加热功率为20W 时,充电电流越高,热失控起始温度越低, 电池内部反应越剧烈;
When the heating power maintain at 20 W, the higher battery level is, the lower thermal runaway initial temperature is.
针对矿用蓄电池充电装置常规充电方法存在的缺陷,提出了基于模糊控制思想的充电电流控制方案。
Base on the existing disadvantages of the conventional charging method for the mine battery charging device, the paper provided a charging current control plan with a fuzzy control ideal.
如 果该充电电流超过一个预给定的充电电流阈值,那么一个可控开关就被 控制以断开该充电电流。
A controllable switch for interrupting the charging current is controlled when the charging currentexceeds a predetermined charging current threshold.
它具有动态电源管理(dpm)、利用脉宽调制控制(PWM)充电电流和电压、耗尽电池检测等功能。
It has functions of dynamic power management (DPM), depleted battery detection and pulse width modulator (PWM) to accurately control battery charge current and voltage.
它具有动态电源管理(dpm)、利用脉宽调制控制(PWM)充电电流和电压、耗尽电池检测等功能。
It has functions of dynamic power management (DPM), depleted battery detection and pulse width modulator (PWM) to accurately control battery charge current and voltage.
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