The constant power factor control is a simple and effective energy optimized control strategy.
电机的恒功率因数控制是一种简单、有效的能量最优控制方法。
The reactive power compensation principle and method of constant power factor control are studied theoretically . and experimentally.
然后阐述了可控电抗器恒功率因数控制的无功补偿原理和实现方法,并进行了无功补偿实验。
According to this relationship, vector control system with energy-saving based on constant power factor was formed.
通过此关系,设计了基于恒功率因数的节能型异步电动机矢量控制系统。
Elements that affect the output power factor Angle are analyzed, the basic principle of constant power factor Angle control is studied and its realization scheme is presented.
分析了影响功率因数角的因素,研究了定角控制的基本原理,给出了定角控制方法的实现方案。
There are three usual methods for excitation control following constant excitation current, constant power factor, and constant setting open-loop control.
常用的励磁控制方法主要有三种:恒励磁电流、恒功率因数、恒给定开环控制。
The closed loop control of instantaneous reactive power is used to realize the constant power factor and suppresses the reactive power impact.
系统通过瞬时无功功率闭环,实现了功率因数的恒定控制和无功功率的无静差调节。
Based on fuzzy control PID, energy saving method of constant power factor is achieved.
在模糊控制PID方法基础上,实现了恒定功率因数节能控制。
The control way of system has 3-patterns: exciting regulator of constant terminal voltage, constant exciting current regulator and exciting regulator of constant power factor.
控制方式具有恒机端电压励磁调节、恒励磁电流调节、恒功率因数励磁三种。
The control way of system has 3-patterns: exciting regulator of constant terminal voltage, constant exciting current regulator and exciting regulator of constant power factor.
控制方式具有恒机端电压励磁调节、恒励磁电流调节、恒功率因数励磁三种。
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