1·An optimal coordinated control strategy for the generator excitation and PET is deduced.
在此基础上推导了PET和发电机励磁的最优协调控制规律。
2·The generator excitation system consists of mechanically and electrically coordinated components.
发电机的励磁系统由机械上和电气上协调配合的部分组成。
3·Then a new robust nonlinear coordinated control law for SVC and generator excitation is developed.
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。
4·Synchronous generator excitation system is an important part, directly affect the operating characteristics of generating units.
励磁系统是同步发电机组的重要组成部分,直接影响到发电机组的运行特性。
5·The influence of generator excitation system and static var compensator (SVC) on stability of long-distance transmission system is great.
发电机励磁系统以及静止无功补偿器(SVC)对远距离输电系统的稳定性有很大影响。
6·Experimental results show that the designed apparatus meets the demands of synchronous generator excitation system for model identification.
实验结果表明,仪器可满足同步发电机励磁系统模型辨识的要求。
7·This paper discusses the effect of the inertias in control loop on the steady-state stability of generator excitation optimal control system.
本文讨论了发电机励磁最优控制线路中存在的惯性对系统静态稳定性的影响。
8·This paper discussed the important function of synchronous generator excitation control system in raising the electric power system stability.
本文论述了同步发电机励磁控制系统在提高电力系统稳定性任务中发挥的重要作用。
9·Limit induced bifurcation(LIB) by generator excitation voltage limit was studied, the critical limit was presented and a mechanism of LIB was proposed.
研究由于发电机励磁电压限制导致的极限诱导分岔,发现临界限值的存在并提出一种极限诱导分岔的机理解释。
10·Combined CMAC neural network control algorithm with PID control algorithm, a parallel control system for Marine generator excitation system was designed.
结合CMAC神经网络控制算法与PID控制算法设计了船舶发电机励磁并行控制系统。