动态电压调节器(以下简称DVR)是解决动态电压问题的有效手段。
Dynamic Voltage Restorer (DVR) is the main effective solution to this kind of problems.
配电系统电压跌落时,动态电压调节器可以维持敏感性设备的电压稳定。
When distribution system voltage drops, dynamic voltage restorer (DVR) can maintain the sensitive load side voltage stability.
电能质量调节装置动态电压调节器(DVR)就是一种应用于输配电系统的电力电子装置。
The dynamic voltage regulator (DVR), one of the power quality conditioners, is a type of power electronic devices used in power transmission &. distribution system.
利用积分流形模型化简(IMMD)的思想,给出了含动态电压调节器(DVR)配电网络的动态电压分析方法。
Integral manifold model reduction (IMMD) has been applied for the analysis of distribution system with dynamic voltage regulator (DVR) in the paper.
为解决动态电压调节器(DVR)研制中的一类关键问题——耦合变压器激磁涌流问题,对DVR的控制策略进行了研究。
Inrush current is a major problem in the coupled transformer of a dynamic voltage regulator (DVR).
其输出信号可用数字电压表,信号调节器,或动态应变仪接示波器记录。
Its output signal can be displayed by digital voltmeter, signal conditioner or dynamic strain amplifier with recorder.
然后根据交流侧和直流侧的功率平衡方程,推导了电压环的小信号模型。最后基于该模型设计了一种高动态性能的直流电压调节器。
Subsequently, a novel controller for DC bus voltage regulation is put forward according to the small signal model based on the instantaneous power balance in AC and DC sides of three-phase SAPF.
然后根据交流侧和直流侧的功率平衡方程,推导了电压环的小信号模型。最后基于该模型设计了一种高动态性能的直流电压调节器。
Subsequently, a novel controller for DC bus voltage regulation is put forward according to the small signal model based on the instantaneous power balance in AC and DC sides of three-phase SAPF.
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