在这个测试系统中,与电容器相串联的电阻器是一个重要的元件。
The resistor, which is in series with the capacitor, is an important component in this test system.
与电容器串联的电阻器(R)是本测试系统中的一个重要元件。
The resistor (r), which is in series with each capacitor, is an important component in this test system.
研究了串联电容器的最优时间控制。
变电所无功补偿电容器与串联电抗器的不同组合对系统谐波的影响不同。
Different combination pattern of reactive power compensation capacitors with series reactors in substations has different influence on harmonics in the power system.
基于非线性最优预测控制(NOPC)理论,设计了一种具有闭合的解析控制律的可控串联补偿电容器(TCSC)的控制器。
In this paper, a novel controller for thyristor-controlled series capacitors (TCSCs) with closed-form analytical solution nonlinear optimal predictive control (NOPC) is presented.
工作在更高的电压,超级电容器串联连接。
To operate at higher voltages, supercapacitors are connected in series.
最多400超级电容器串联连接,以获得所需的能量存储能力。
Up to 400 supercapacitors are connected in series to obtain the required energy storage capacity.
提出了防止谐振的措施对补偿电容器及串联电抗器长期容许高次谐波电流值进行了分析和计算。
The permissible harmonic current of high order for long term in the compensative capacitor and series reactor were analyzed and calculated, as well as some tables calculated for reference were given.
分析与计算结果表明,因串联电抗器的电抗率不同,其流进电容器回路的谐波电流也截然不同。
Analysis and simulation results show that different harmonic currents flowing into the capacitor circuit is different due to different reactance ratio of series reactor.
本文在讨论了LC串联电路之后,提出了与电容器配套使用的电抗器电抗率的选取方法。
This paper discussed the LC series circuit, then proposed method to select the reactor reactance rate to support the use of the capacitor.
这时串联的电阻器可以小得多,因为其作用只是防止电压源过载以及电容器短路时损坏二极管。
The series resistor can be much smaller since it is only needed to prevent overload of the voltage source and damage to the diode if the capacitor becomes short-circuited.
对国内外的SSSC研究现状进行了文献综述,最后比较了SSSC与固定电容器补偿和可控串联补偿之间的区别。
The research on SSSC at home and abroad is reviewed. Finally, the differences between SSSC and fixed capacitor compensation as well as controllable series compensation are compared.
针对超级电容器的物理特性,提出了双电层电容器的三种等效模型,即串联rc模型,非线性RC网络模型和线性RC网络模型。
For super capacitor of physical characteristics, there are three model of the Electric Double Layer capacitor that series RC model, nonlinear RC network model and the linear RC network model.
通过对两个串联的漏电电容器暂态过程的分析和计算,研究此过程中两个电容的电压、电流及能量的变化规律。
The voltages, the electric currents and the energies of two capacitors with leakage current connected in series are studied by the means of the qualitative analysis and the quantitative calculations.
另一种类型终端电阻——AC耦合的终端电阻,增加一只小电容器串联在终端电阻上就消除了它的DC负载效应。
Another type of termination, ac coupled termination, adds a small capacitor in series with the termination resistor to eliminate the DC loading effect.
这可以通过制造串联的两个1LS B电容器而实现。
This could be achieved by fabricating two 1 LSB capacitors in series.
基于TCR的动态相量模型提出了静止无功补偿器和晶闸管控制串联电容器的动态相量模型。
Based on the dynamic phasor models of TCR, the dynamic phasor model for static VAR compensator (SVC) and that for thyristor controlled series capacitor (TCSC) are put forward.
本文讨论任意形状电容器的电容、电量及静电能;讨论具有初始电量的电容器串联时的电量及电压分配。
In this account, the capacity, the quantity of electricity and static electrical energy of the capacitor with random configuration are discussed.
本文讨论任意形状电容器的电容、电量及静电能;讨论具有初始电量的电容器串联时的电量及电压分配。
In this account, the capacity, the quantity of electricity and static electrical energy of the capacitor with random configuration are discussed.
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