TCSC is mainly used to control its fundamental equivalent reactance.
稳态基频等值阻抗控制是TCSC装置的基本控制对象目的。
Finally, a few of analytical models of TCSC dynamics are introduced.
最后对国外几种TCSC动态行为解析模型进行了介绍。
Thereby, it is of great value to investigate the theory and operation of TCSC.
因此,对TCSC的研究有比较大的理论意义和实用价值。
TCSC impedance control is the foundation of other control functions of the TCSC.
TCSC阻抗控制是实现TCSC其他控制功能的基础。
The design and some basic analog experiments results of TCSC controller are presented.
文章介绍了可控串补控制器(TCSC)的设计和基本特性的试验结果。
Thereby, for restraining SSO, thyristor controlled series compensation (TCSC) should be adopted.
为了抑制次同步振荡,应采用可控串联电容器补偿(TCSC)。
This paper analyzes the affection of UPFC, TCPST, TCSC and energy storage elements to distance protection.
文中分析TCSC、UPFC、TCPST和储能元件对距离保护产生影响的决定性因素。
This dissertation focuses on the characteristics of TCSC installation, active overvoltage protection and control.
本文主要研究了TCSC的装置特性和主动过电压保护及其控制。
At last, the reason of why the TCSC can restrain the LFO is given by use of the plural coefficient torque method.
最后,应用复系数转矩分析法研究了可控串联补偿实现抑制低频振荡的机理。
Controlling strategies on TCSC and achievements in this area are summarized and some related problems are analyzed.
对TCSC装置的各种控制策略和研究成果进行分类归纳并分析相关问题。
TCSC is able to direct power flow along the desired paths and allow the transmission capability being fully utilized.
它能够控制潮流使之按指定的路径流动,并且使系统在接近热稳定极限的情况下工作。
The relation of the impedance of fundamental frequency and the firing angle is the key factor in firing control of TCSC.
基波阻抗和触发角的关系是可控串补(TCSC)触发控制的关键所在。
By establishing the linear model of multi-machine power systems with TCSC, their eigenvalue analysis method is proposed.
通过建立含tcsc多机系统的线性化数学模型,提出并研究了含tcsc多机系统的特征分析法。
The functions of control system and protection system are analyzed combining the application of SIMADYN-D for FSC and TCSC.
结合其在FSC和TCSC串联补偿控制系统中的应用,分析它在控制保护系统的作用和功能。
Chapter 3 discuses the selection of damping controllers, especially for PSS, HVDC small signal modulation and TCSC modulation.
分析了阻尼低频振荡的控制器选择,主要阐明了pss,TCSC和直流小信号调制的应用场合。
Therefore, it is necessary to study the influences of TCSC and review the adaptation of TCSC on the existing relay protection.
因此有必要深入研究TCSC对现有继电保护的影响,考察现有继电保护系统在TCSC 线路上的适应性。
Thyristor controlled series compensation (TCSC) possesses important meaning in damping low frequency oscillation in power system.
可控串联补偿(TCSC)对于阻尼电力系统低频振荡具有重要意义。
A new scheme of adaptive fuzzy damping controller of TCSC, based onadjusting control rules and output scaling factor, is proposed.
提出了基于可调模糊规则及可调输出尺度变换因子的TCSC自适应模糊阻尼控制器的设计方法。
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。
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。
And the harmonic voltage across TCSC has been derived through dynamic equation, and the harmonic characteristic about TCSC has been studied.
同时,通过动态方程求出tcsc两端的谐波电压,并对TCSC谐波特性进行分析。
Dynamic modeling for Thyristor Controlled Series Compensation (TCSC) is the base to study the transient characteristic and control strategies.
可控串补(TCSC)动态建模是暂态特性分析和控制策略研究的基础。
TCSC physics model can really reflect the physical nature of a power transmission system, and meanwhile simulate all kinds of system operation condition.
TCSC物理模型能真实地反映实际系统的物理特性,同时又能模拟系统的各种运行条件。
The dynamic power frequency impedance of TCSC is of great importance to the analysis of protective relaying characteristics on transmission line with TCSC.
TCSC的动态基频阻抗特性分析对研究含TCSC线路上的线路保护的特性具有重要意义。
Builds the TCSC physical experimental equipment and carries out research work on the basic operation characteristics of the physical experimental equipment.
搭建了TCSC物理实验装置,在物理装置基本运行特性等方面开展了研究工作。
Consequently, it is of great importance to develop experimental setup of TCSC for the investigation of its basic operation characteristics and control strategy.
因此,利用实验装置研究TCSC的基本运行特性及其控制策略具有重要的理论和实际意义。
The fuzzy controller ACTS as an adaptive gain variable linear optimal controller, and it can satisfy the multi objective control requirements of the TCSC system.
该模糊控制器相当于自适应变增益的线性最优控制器,能满足系统多目标控制的要求。
The research work supports further studies of the dynamic characteristics and control strategy of TCSC and its controller with a well-founded experimental platform.
装置的成功研制,为更深入研究TCSC及其控制器的动态特性和控制策略提供了良好的实验平台。
At last, it introduces the controlling system and controlling theory applied on the TCSC. And we discussed the action of TCSC through the digital simulation in MATLAB.
最后介绍了TCSC的控制系统及其各层所采用的控制策略,在MATLAB中搭建仿真模型,探讨TCSC的动作行为。
The particle swarm optimization (PSO) technique is applied to find the optimal location of TCSC with maximum system load ability and minimum cost of installation of TCSC.
提出一种采用粒子群优化技术,以系统载荷能力最大化及安装费用最小化为目标,确定TCSC最佳安装位置的方法。
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