High power factor at ac input can be achieved by controlling the switch of capacitor charge circuit.
通过对电容器充电回路开关管进行控制,实现交流输入端的高功率因数。
With the apearance of optical control of module vacuum circuit breakers, some requirements on the capacitor charge power supply were raised.
随着光控模块式真空断路器的提出,对其中的电容充电电源提出了要求。
For a given voltage a capacitor will store a certain amount of charge.
电容会在一个给出的电压值下储存一定的电荷。
Simply put, a capacitor stores an electrical charge between two conductive plates separated by an electrical insulator.
简单地说,一个电绝缘体隔开两片导电板,而电容器在导电板间储存电量。
And remember that in a capacitor, negative charge builds on one side and positive charge builds on the other.
还有在电容中,也使正电荷在一侧,负电荷在另一侧。
When measuring the charge on a device such as a capacitor, it's important to disable the zero check of the electrometer first, and then connect the capacitor to the high impedance input terminal.
在测量一个器件,如电容器上的电荷时,重要之点是要首先关闭静电计的零点检查功能,然后再将电容器连到高阻抗输入端。
It could also provide a cellphone battery that would charge in five minutes. That kind of battery is called a capacitor.
这也有可能开发出5分钟就能充好电的手机电池,这种电池叫电容器。
After a capacitor is disconnected from a discharge circuit, a residual charge remains on the capacitor, so a voltage is re-established across the capacitor terminals.
电容器从放电电路断开以后,电容器中保持剩余的电荷,从而在电容器的端子之间重新建立起电压。
An additional advantage of this connection is that input resistance approaches infinity as the capacitor C1 approaches full charge, eliminating errors due to loading of the source resistance.
上面这个电路的另一个优点在于,当电容c1充电完毕后,输入电阻将趋于无穷大,因此可以消除因信号源内阻产生的误差。
If charge cannot cross the interface, it is said to be polarized and is electrically equivalent to a capacitor.
如果电荷不能通过这种界面,它即是极性的,其电学行为等效一个电容。
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。
The electrolytic capacitor relies on charge to maintain its aluminium oxide dielectric. Without charge the dielectric decomposes over time.
电解电容依赖于充电以维持其氧化铝的介电特性。如果长时间不充电,其电介质会分解。
Determined the electrical parameters of the charge IC, booster transformers, rectifiers, capacitance, trigger coil, excitation capacitor and IGBT, I completed the final printed circuit boards.
在确定了充电ic、升压变压器、整流器、大电容、触发线圈、激发电容、IGBT等元器件的电学参数之后,最终完成电路板印制。
Y device that stores up electric charge is called an electric capacitor.
任何储存电荷的装置都叫电容器。
Theinstrument is controlled by microprocessor 8031. It has been made correction for error of determinaion resulting from charge current for couple electrolayer capacitor.
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。
The system utilizes charge pump elevator to enhance the voltage of storage capacitor and effectively increase the reserved energy.
利用电荷泵升压电路提高存储电容的电压,有效的增加了存储能量;
The system adopts capacitor to reserve charge and accumulate energy, which avoids the electromagnetic interference and reduces the parasitic resistance comparing with the method of using inductor.
该系统采用电容存储电荷的方式积蓄能量,避免了电感储能方式带来的电磁干扰,减小了存储元件的寄生电阻。
A method to design the value of coupling capacitor in coupled high-resolution charge-scaling DAC is presented.
间耦合电容值的设计方法,讨论了寄生电容对DAC精确度的影响。
The invention relates to a power supply structure of a memory, which comprises a charge pump, a readout voltage regulator, a decoupling capacitor and an MOS (Metal Oxide Semiconductor) transistor;
本发明的存储器的供电结构包括电荷泵、读出电压调节器、一个去耦电容和MOS晶体管;
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。
An improved structure of switched-capacitor integrator is used to reduce the harmonic distortion induced by charge-injection effect.
通过改进积分器的结构,显著减小了开关电荷注入效应引起的调制器的谐波失真。
A loop charge approach is presented for the exact analysis of switched-capacitor networks containing capacitors, independent voltage sources, switches and nullors.
本文提出了一种适用于开关电容网络精确分析的回路电荷法。
The reference capacitor can charge at a third clock phase, thus the input signal is released from the capacitor dependently from the voltage.
参考电容器可以在第三时钟相位放电,这样输入信号依赖电压从电容器被释放。
A method to design the value of coupling capacitor in coupled high-resolution charge-scaling DAC is presented.
介绍了耦合结构高分辨电荷按比例缩放DAC级间耦合电容值的设计方法,讨论了寄生电容对DAC精确度的影响。
In this paper, a fault diagnosis algorithm in Switched Capacitor Networks (SCNs) -fault dictionary algorithm is presented based on the principle of charge conservation.
本文给出了一种开关电容网络(SCN)的故障字典诊断算法。
In this paper, a fault diagnosis algorithm in Switched Capacitor Networks (SCNs) -fault dictionary algorithm is presented based on the principle of charge conservation.
本文给出了一种开关电容网络(SCN)的故障字典诊断算法。
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