This utility model combines the two kinds of current carriers: the super-capacitor and the plumbic acid battery group.
本实用新型结合了超级电容器和铅酸蓄电池两种电流载体。
The capacitor integrates the current.
电容器汇合了电流。
To ensure low leakage current and low dielectric absorption, the feed back capacitor should be made of a suitable dielectric material such as poly styrene, polypropylene, or Teflon.
为了保证低泄漏电流和低介电吸收,反馈电容器应当由合适的介电材料(如聚苯乙烯、聚丙烯或聚四氟乙烯)制成。
To help smooth out the Direct Current available here, a capacitor can be used.
为了帮助理顺直流可在这里,一个电容都可以使用。
Vref:This is the reference output. It provides charging current for capacitor CT through resistor RT.
这是参考输出。它提供了电容CT充电电流通过电阻RT。
It limits the charging current of each capacitor and also protects the relays in case a capacitor becomes short-circuited.
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。
Low current measurement applications include capacitor leakage, low current semiconductor, light, and ion beam measurements.
弱电流测量的各种应用包括电容器的漏电、弱电流半导体、光和离子束测量等。
The capacitor in the rc timing network also determines a user-selectable blanking window that prevents false triggering of the PWM current-control circuitry during switching transitions.
RC计时网络中的电容器也可以确定用户可选择的空白窗口,该窗口在开关转换过程中可防止对PWM电流控制电路的误触发。
The resistor limits the current in case the capacitor becomes shorted.
在电容器短路的情况下,电阻器限制电流的大小。
However, Applying a voltage step to a ceramic capacitor causes a large current surge that stores energy, in the inductances of the power leads.
然而,实际应用中的电压阶跃在陶瓷电容上可能产生较大的浪涌电流,并在电源电感中贮藏能量。
This paper mainly investigates dynamic behavior of charge and current in a mesoscopic LC circuit with discrete charge by considering coupling energy of the mesoscopic capacitor.
主要通过考虑介观电容的耦合能,对离散电荷介观LC电路中的电荷与电流的动力学行为进行了研究。
A novel method of a capacitor in parallel with inverter is presented, in which current in levitation force winding can be controlled by PWM technique.
提出一种采用逆变器并联电容器的新方法,该方法通过PWM逆变器控制悬浮力绕组中励磁电流。
The pulsations in the rectified current can be reduced by using a capacitor.
经过整流的电流的脉动,能够利用一个电容器使其减小。
Low voltage charging or discharging may also cause deterioration of capacitor such as shorting and open due to sudden charging and discharging current.
即使是低电压充放电,也可能产生大的瞬间充放电电流,这可能会导致电容器性能的损害,比如说短路或开路。
The current impact in capacitor and the voltage impact on reactor in the control course can be restrained by selecting the right time to adjust IPC' s parameter.
选择IPC电容器、电抗器的参数调整时间,对调控过程中IPC电容器的电流冲击和电抗器的电压冲击进行有效抑制。
This paper summarizes the switched capacitor filter and switched current filter design methods.
本文对开关电容滤波器和开关电流滤波器的设计方法作了综述。
The harmonic characteristics of a rectifier with a DC filter inductor or capacitor are analyzed and then relevantlythey are classified into current type and voltage type harmonic source.
分析了直流侧电感和电容滤波的整流器的谐波特性,进而把它们分为电流和电压型谐波源。
The diode ACTS like a variable resistance, low when the charging current to the capacitor is high, then increasing in value as the current decreases with time.
该二极管象一个可变的电阻。当电容器的充电电流很大时,其阻值很低;而电流随时间变小时,其阻值增大。
In this paper, the current waveforms of diodes in the rectifier with capacitor filter are discussed.
讨论了电容滤波单相整流电路中二极管电流的形波。
C will cause harmonic flow reactive (power factor) compensation capacitor current increase significantly, resulting capacitor will soon be put into operation in damage.
c谐波将引起流过无功(功率因数)补偿电容器的电流显著增加,造成电容器投入运行不久就损坏。
The state variables to be fed back are output voltage and capacitor current.
状态反馈所需的变量为电容电压和电容电流。
This paper researches on three phase capacitor transients, presents a combined switch constructed of contactor and low current thyristors to realize non surge close and non arcing break.
对三相电容器的暂态过程进行了研究,提出采用接触器和小电流晶闸管组成混合开关,实现了合闸时无冲击电流及分断时无电弧。
The capacitor current exchange type quasi-constant current charging system was used for capacitor bank storage energy systems.
所用电容器组储能系统采用电容换流式准恒流充电回路。
Larger system voltage unbalance degree causes larger capacitor voltage pulsation and negative sequence current.
不对称度的增加将进一步增大电容电压的脉动和负序电流的大小。
Charge is the time integral of current,. Charge is often measured on a quantity of particles, on a surface, or on a component such as a capacitor.
电荷是电流对时间的积分,(公式)电荷常常用一个表面上的带电粒子数,或一个元件(如电容器)上的粒子数来度量。
It is necessary to find the current through and voltage across the capacitor.
必须求出该电容上的电流和电压。
It improves the quality reactive current compensation effectively and the power factor highly with lower capacitor costing and switching frequency.
它不仅有效地提高无功电流的补偿质量,改善了供电系统的功率因数,而且并联电容的成本和投切频率都很低。
This paper studies the reason of over voltage, over current, over hot fault of capacitor group and measure to prevent from faults.
分析了并联电容器组过压、过流、过热故障的原因及防范措施。
This paper studies the reason of over voltage, over current, over hot fault of capacitor group and measure to prevent from faults.
分析了并联电容器组过压、过流、过热故障的原因及防范措施。
应用推荐