The nonlinear robust control method is adopted in advanced static VAR generator (ASVG) control.
将非线性鲁棒控制方法用于先进的静止无功发生器(ASVG)的控制。
This paper gives the equivalent circuit of an ASVG for system faulty conditions using the symmetry component method.
本文给出了等效电路的ASVG使用对称分量的方法的系统的故障条件。
The three-order nonlinear differential equation set which is used to describe dynamic behavior of ASVG is proposed in this paper.
首次提出了采用三阶非线性微分方程组描述新型静止无功发生器的动态过程;
A novel Advanced Static Var Generator (ASVG) based on current control is proposed in terms of the Substitution Theorem in circuit theory.
为了研究新型的静止无功发生器,用电路理论中的替代定理,提出了一种基于电流控制的静止无功发生器(ASVG)的原理。
The third chapter introduces the principle of ASVG and gets the indirect current control according to the simplified circuit model of ASVG.
第三章介绍了ASVG的基本原理,根据简单AS VG电路模型得出电流间接控制策略。
The principle of one-cycle control is introduced in detail, its characteristics is analyzed. The method to combine it with ASVG is discussed.
在详细介绍单周控制原理的基础上,分析其特点,探讨了将其应用于ASVG的方法。
On this foundation, this paper establishes its mathematics model of stable state, and the dynamic mathematics model of ASVG with switch function law.
在此基础上,建立了其稳态数学模型,并采用开关函数法建立了ASVG的动态数学模型。
At last, a mathematical model representing the transient characteristics of the ASVG is obtained from the simulation results under different disturbance.
最后,通过对ASVG受扰后暂态响应曲线的分析,提出了一种ASVG的动态响应模型。
This paper discusses some kinds of control methods of ASVG, realizes indirect current based on Fuzzy PI control. This paper introduces its design stage, structure and principle.
论述了ASVG的几种控制方法,实现了采用模糊pi控制的间接电流控制,阐述了其原理、结构及设计步骤。
The result of simulation shows: the method which is applied in ASVG controller can improve comprehensive ability of the controller and strengthen control effect to the power system.
仿真分析结果表明:该控制方法应用于ASVG 控制系统能提高控制器的综合性能,增强对电力系统稳定性的控制。
A nonlinear control design approach based on differential geometric control theory and nonlinear control strategies of advanced static VAR generator (ASVG) are presented in this paper.
基于微分几何控制理论中的零动态设计方法,首次提出了新型静止无功发生器(ASVG)非线性控制的设计方法和相应的控制规律。
A nonlinear control design approach based on differential geometric control theory and nonlinear control strategies of advanced static VAR generator (ASVG) are presented in this paper.
基于微分几何控制理论中的零动态设计方法,首次提出了新型静止无功发生器(ASVG)非线性控制的设计方法和相应的控制规律。
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