本文提出一种新型非线性励磁控制器,设计方法适于工程应用。
A new kind of nonlinear excitation controller is proposed in this paper. The method is very useful for engineering applications.
本论文以基于能量函数的非线性励磁控制器的设计为主要内容。
The main content of the thesis is about the design of nonlinear excitation system controller based on energy theory.
实验结果表明,非线性励磁控制较其它几种控制方式具有明显的优越性。
The experimental results indicate that the nonlinear excitation control approach has obvious advantages over the other three control ones.
仿真表明,与固定点线性最优励磁控制方式相比,非线性励磁控制方式具有更好的稳定性和动态品质。
Simulation results show that the nonlinear excitation controller law has better stability and dynamic performance than the linear optimum excitation controller law.
介绍使用电力系统输入-输出反馈线性化模型的非线性励磁控制器的设计,该控制器的设计与运行点无关。
A design for nonlinear excitation controller using an input-output feedback linearized model of the power system is presented. The controller design is independent of operating points.
实例仿真结果表明,该种控制器与已有的非线性励磁控制器相比,在改善稳定性的同时,防止了电压超调现象。
The simulation results on examples show that this proposed controller can prevents voltage overshoot while improving stability simultaneously, compared with …
在此基础上,本文提出了一种改进的非线性励磁控制规律,这种改进的励磁控制规律减少了所要量测的信号,而且使得信号的量测更加方便。
On this basis, an improved nonlinear excitation control law is proposed, which can make the controller requiring less measurement signals be obtained more conveniently.
仿真计算表明,SVC与发电机励磁非线性状态PI协调控制器能有效地提高系统的暂态稳定性。
Simulation results show that nonlinear state PI SVC controller cooperating with the excitation system of generator can improve dynamic stability of power system effectively.
针对电力系统的强非线性和不确定性的特点,直接对其非线性不确定对象设计了非线性状态PI励磁汽门协调控制器。
As for the strong nonlinear and uncertain characteristic of the power system, the nonlinear state PI coordinated controller of excitation and valve is proposed in this paper.
然后将方法1和方法2分别应用于该模型,得出两种多机系统励磁的非线性L_2增益干扰抑制控制律。
Method 1 and method 2 are applied to the constructed nonlinear model, and then two nonlinear L2 gain disturbance attenuation control laws for multi-machine excitation are deduced.
提出了一种在互联电力系统中考虑信息结构约束条件下协调设计非线性优化励磁控制的方法。
This paper proposes an approach to coordinated design of nonlinear optimal excitation control under information structure constraint in interconnected power systems.
二者相结合提出了一种新的SVC与发电机励磁的鲁棒非线性协调控制律。
Then a new robust nonlinear coordinated control law for SVC and generator excitation is developed.
本文主要是基于微分几何的理论,研究同步发电机励磁的非线性控制问题。
This paper is based on the differential geometry, researching on the nonlinear excitation control of the synchronous generator.
针对SVC与发电机励磁的协调控制问题,研究了能够实现干扰抑制的鲁棒非线性协调控制律。
For the problem in coordinated control of SVC and generator excitation, robust nonlinear coordinated control law is studied which can achieve disturbance attenuation.
本文提出一种非线性变结构励磁控制器。
A nonlinear variable structure controller is proposed in this paper.
运用这种设计方法,针对凝汽式发电机,提出了发电机励磁与汽门目标全息反馈非线性综合控制规律。
Applying the design scheme, a nonlinear integrated control law with objective holographic feedbacks (NICOHF) was derived for the condensed steam generator.
然后将方法1和方法2分别应用于该模型,得出两种单机系统励磁的非线性L_2增益干扰抑制控制律。
Method 1 and method 2 are applied to the constructed nonlinear model, and then two nonlinear L2 gain disturbance attenuation control laws for single-machine excitation are derived.
针对含有未知参数的励磁系统,提出了一种非线性自适应控制设计方法。
This work develops a design approach to nonlinear adaptive control system with unknown parameters and applies it to excitation control of power systems.
推导了使用非线性零动态方法实现的发电机恒无功励磁控制规律,并对采用这种控制规律后,系统的稳定性做了详尽的分析。
The constant reactive power excitation control strategy is deducted using nonlinear zero dynamic method and the system stability under this control strategy is verified.
针对TCSC与发电机励磁的协调控制问题,研究了能够实现干扰抑制的鲁棒非线性协调控制律。
For the problem in coordinated control of TCSC and generator excitation, a robust nonlinear coordinated control law was studied which could achieve disturbance attenuation.
针对TCSC与发电机励磁的协调控制问题,研究了能够实现干扰抑制的鲁棒非线性协调控制律。
For the problem in coordinated control of TCSC and generator excitation, a robust nonlinear coordinated control law was studied which could achieve disturbance attenuation.
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