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。
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。
A new test signal method based approach to design power oscillation damping (POD) controller for TCSC is proposed, by which the bulky eigenvalue calculation of state matrix can be avoided.
提出了一种基于测试信号法的TCSC功率振荡阻尼(POD)控制器的设计方法,避免了计算量庞大的状态矩阵特征值计算。
Firstly, the TCSC circuit and its conventional controller used in mechanical and electric transient analysis are introduced, and the effects on relay system are discussed.
文中首先简要介绍了TCSC的主电路和机电暂态分析的常规控制器,由此引出TCSC的运行对继电保护的影响。
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。
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。
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。
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。
This paper interprets the means of the development of the preset unit of TCSC Test Controller with ARM microprocessor, embedded real time operating system and the USB technique.
本文采用ARM处理器技术、嵌入式实时操作系统技术和通用串行总线(usb)技术来完成TCSC实验系统控制器前置单元的实际开发。
This paper interprets the means of the development of the preset unit of TCSC Test Controller with ARM microprocessor, embedded real time operating system and the USB technique.
本文采用ARM处理器技术、嵌入式实时操作系统技术和通用串行总线(usb)技术来完成TCSC实验系统控制器前置单元的实际开发。
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