另外,论文总结了电流间接控制和电流直接控制这两种控制方法,分析了各自的优缺点。
In addition, several typical control methods are summarized and their advantages and disadvantages are analyzed.
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 third chapter introduces the principle of ASVG and gets the indirect current control according to the simplified circuit model of ASVG.
方法通过对其工作原理的分析、电流间接控制方法的使用以及不平衡负载补偿方法原理的介绍,可看出D -STATCOM的补偿性能优于传统的无功补偿器。
Methods the performance of D-STATCOM is superior to that of traditional reactive power compensator according to analyzing the working principle of D-STATCOM.
用该方法对同步控制系统中的自整角机交轴阻尼短路环的损耗和电流进行了间接的实验测试,证实该方法可行。
And the indirect experimental tests of synchro axis damping short-loop loss and current in a synchronous control system were carried out, and proved this method was feasible.
该文对基于间接电流控制三相电压型整流器的数学模型和控制策略进行研究。
The paper presented a mathematic model and control strategy on a three-phase voltage type rectifier under indirect current control.
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。
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.
首先对磁场定向控制理论进行了详细分析,比较后采用间接磁场定向的控制方法,并建立基于同步电流内环、转速外环的双闭环控制结构。
Finally, the indirect vector control system is made as the research target and double close loop control systems which contain synchronous current inside loop and speed outside loop are introduced.
本文针对低压配电网络的无功补偿和有害电流滤除问题,提出采用间接和直接电流控制两种STATCOM方案。
For compensating reactive power and harmful currents in low voltage power system, the paper proposed two control schemes for STATCOM, which are indirect-current control and direct-current control.
本文首先研究了DSTATCOM的基本工作原理,建立了其数学模型,比较了直接电流控制和间接电流控制两种常用的控制方法。
The basic working principle of the DSTATCOM is studied and its mathematical model is established in this paper. The direct current control and indirect current control are compared in this paper.
但是目前针对静止无功发生器的研究主要集中在输电系统无功补偿,且控制方法基于间接电流控制。
At the present time, the research on SVG is mainly focus on the reactive compensation of power transmission system, and the control method is based on indirect-current control.
但是目前针对静止无功发生器的研究主要集中在输电系统无功补偿,且控制方法基于间接电流控制。
At the present time, the research on SVG is mainly focus on the reactive compensation of power transmission system, and the control method is based on indirect-current control.
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