1·Its important to study the effect of series capacitor compensation on line protection.
研究串联电容补偿对线路保护的影响具有重要意义。
2·The transient process of graded series capacitor during grade change controlled by thyristor is studied.
研究了晶闸管控制的分级串联电容换级时的暂态过程。
3·The technique of series capacitor compensation had been applied recently to improve transmission ability of power grid.
近年来,为了提高电网的输送能力,串联电容补偿技术被广泛采用。
4·Based on the nonlinear system of TCSC (Thyristor Controlled Series Capacitor), a direct self-adaptive fuzzy controller is designed.
针对可控串补非线性系统,设计了一种直接自适应模糊控制器。
5·A variable structure controller based on fuzzy logic for Thyristor Controlled Series Capacitor (TCSC) has been analyzed and designed.
本文分析设计了基于模糊逻辑的可控串补变结构控制器。
6·The investigation results show that different series capacitor compensation level or different system parameters may lead to different kind of bifurcations.
研究表明:不同的串联补偿度、不同的参数可能导致不同类型的分歧。
7·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.
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。
8·Then based on the TCR dynamic phasor model, static VAR compensator (SVC) and thyristor-controlled series capacitor (TCSC) dynamic phasor models are implemented to valuate the TCR model.
并通过静止无功补偿器(SVC)和可控串补(TCSC)动态相量模型仿真验证了TCR模型的有效性。
9·The resistor, which is in series with the capacitor, is an important component in this test system.
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。
10·The resistor (r), which is in series with each 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。