A polar coordinates type fuzzy excitation controller is designed.
设计和实现了一种极坐标型的模糊励磁控制器。
Apply the theory of variable structure system to design an excitation controller.
根据变结构控制理论设计了励磁系统控制器。
The controller ties the output of PID with the output of linear multi-variable excitation controller.
该控制器将PID的调节输出和线性多变量反馈励磁控制器的输出进行综合。
Based on DSP (digital signal processor) as a control core, a DSP-based study of excitation controller design.
文中以DSP(数字信号处理器)作为控制核心,研究了基于DSP的励磁控制器的设计。
For power system robust excitation control model, this paper designs a excitation controller based on the idea of ML SM.
对于电力系统鲁棒励磁控制模型,文中基于多重滑模控制思想设计了励磁控制器。
This paper proposes a new approach to coordinated design of excitation controller under information structure constraint.
提出了一种考虑信息结构约束时协调设计励磁控制器的新方法。
The generator power parameter detection circuit, excitation controller and some related circuits based on DSP are designed.
包括基于DSP的发电机电力参数检测电路,励磁控制器以及一些系统相关电路。
Excitation controller excitation system is an important component part of the safe and stable operation of great significance.
励磁控制器是励磁系统的重要组成部分,对系统的安全稳定运行有着十分重要的意义。
The principle of using comprehensive damping torque to solve feedback gain of linear optimal excitation controller is presented.
讨论了使用综合阻尼力矩求解线性最优励磁控制器的状态反馈系数的原理,它较经典的庞特里亚金法易懂。
A new kind of nonlinear excitation controller is proposed in this paper. The method is very useful for engineering applications.
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。
In this paper a new algorithm is proposed to design a decentralized optimal excitation controller for multimachine power systems.
本文给出了多机电力系统分散最优励磁控制器的一种新算法。
This paper introduces the control theory of excitation controller via T-S fuzzy model about single-machine infinite-bus power system.
研究了基于T - S模糊模型控制理论下单机-无穷大电力系统的励磁控制设计。
The DSP-based excitation controller adopts many advanced technologies, such as alternating current sampling, digital pulse and FFT etc.
文中提出的这种基于DSP的励磁控制器采用了许多先进技术,如交流采样、数字脉冲、FFT等。
Two main problems in designing the main circuit of switching mode excitation controller are peek voltage and over current of switching device.
开关式励磁调节器主回路设计中需要考虑的两个主要问题是开关器件的尖峰电压和冲击电流。
To solve this problem, based upon unified Smith predictor (USP), a novel method for the additional excitation controller designing is presented.
针对广域信号存在时延的问题,提出一种基于史密斯预估器的附加励磁控制器设计方法。
Based on forenamed knowledge, the paper designs a double-loop NPID excitation controller, which has parallel feedback of voltage and error of rotate-speed.
在上述基础上,本文设计了一个具有机端电压反馈和转速偏差反馈的双环非线性PID控制器。
A new scheme for fuzzy self-tuning PID excitation control technique is proposed by combining the fuzzy control theory with the normal PID excitation controller.
结合模糊控制理论和常规pid励磁控制器,提出了模糊自调整PID励磁控制技术。
This paper analyzed the effects of several excitation controllers, and found that the unsuitable controller can cause a low frequency oscillation on power system.
本文经理论分析提出“系统中产生负阻尼的原因是不适当的励磁控制方式”的结论。
Simulation results show that the nonlinear excitation controller law has better stability and dynamic performance than the linear optimum excitation controller law.
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。
The simulating studies indicate the proposed excitation controller can improve the accuracy of voltage control and strengthen the stability of electric power systems.
仿真研究表明:所论模糊励磁控制器可以提高发电机的电压控制精度和电力系统的稳定性。
The linear optimal excitation controller?(LOEC) is mostly studied in excitation systems, and has been used in some plants, but it needs to be more improved in practice.
而最优励磁控制是当前研究最多的励磁控制方式,已在部分电站应用,但需要在实践中进一步完善。
This paper analysizes the regulative law of the synchronous motor excitation, and the synchronous motor excitation controller by using TCA785 integrated trigger is presented.
分析了同步电动机励磁调节规律,介绍了以TCA785集成移相触发器研制的同步电动机励磁控制器。
Iterative learning control is applied to the design of excitation controller, and a new method is proposed. The restriction of perfect tracking in limited time span is removed.
将迭代学习控制理论应用于励磁控制器的设计中,提出了一种新的设计方法,克服了迭代学习控制在有限时间区间上实现完全跟踪的限制。
It is showed that the excitation controller has satisfactory steady state accuracy and dynamic property. Phase-lock process is speeded up using excitation collaborative control.
实验结果表明,该励磁控制器除了能保证很高的稳态精度外,还具有较好的动态性能,并能在协同锁相过程中能够加快锁相的速度。
The simulation results show that the new excitation controller can improve not only the quality of the dynamic process but also the stability performance of the marine power system.
仿真结果表明该励磁控制器有效地提高了船舶电力系统动态过程的质量和稳定性能。
The simulation results show that the new excitation controller can improve not only the quality of the dynamic process but also the stability performance of the marine power system.
仿真结果表明该励磁控制器有效地提高了船舶电力系统动态过程的质量和稳定性能。
应用推荐