1) blue restorer
蓝电平恢复器
2) reset relay
恢复继电器
3) red restoration
红色电平恢复
4) dynamic voltage restorer
动态电压恢复器
1.
Control strategies of dynamic voltage restorer;
动态电压恢复器控制策略研究
2.
Simulation of dynamic voltage restorer based on asymmetry cascade multilevel inverter;
基于不对称级联型多电平逆变器的动态电压恢复器研究
3.
Control strategy of dynamic voltage restorer;
动态电压恢复器的控制策略
5) dynamic voltage restorer (DVR)
动态电压恢复器
1.
The dynamic voltage restorer (DVR) is effectively used in mitigating voltage sags.
动态电压恢复器(DVR)是解决电网电压跌落的一种经济有效的方案。
2.
The dynamic voltage restorer (DVR) is used to protect critical load from voltage disturbances and it exchanges energy with the connected distribution system.
动态电压恢复器(DVR)在保证敏感负荷电压质量的同时与系统间存在能量交换,为了减少DVR的有功输出,提高DVR的补偿极限,文中针对不平衡电压跌落的特点,在考虑不同性质负荷对电压幅值和相移有一定容许范围的基础上,提出了新的最小能量补偿策略。
3.
The correct detection of the voltage sag characteristics (its magnitude, duration and phase-angle jump appeared at the same time) is of great importance for the dynamic voltage restorer (DVR) to effectively solve the problem of voltage sag.
对于可有效解决电压骤降问题的动态电压恢复器(DVR)来说,准确检测出电压骤降的三大特征量即骤降幅值、持续时间和可能同时出现的相位跳变是其关键所在。
6) dynamic voltage restorer(DVR)
动态电压恢复器
1.
This paper reviews the research status of Dynamic Voltage Restorer(DVR) at home and abroad,analyzes the structure of the main circuit,detection method,voltage compensation and control strategies of DVR at present,and proposes that the cascaded multilevel transformer-less topological DVR obviously improves some aspects in performance.
为了改善动态电压恢复器(DVR)的性能从而进一步提高其补偿电压跌落能力,根据国内外DVR的研究动态,对目前应用的DVR主电路拓扑结构、检测策略及电压补偿控制策略做了深入的比较分析,提出了级联多电平DVR。
2.
Because dynamic voltage restorer(DVR) is the most economical and efficient device for voltage sag compensation,study on DVR inspection algorithms is one of the most important tasks in DVR design.
动态电压恢复器(DVR)是补偿电压暂降最经济、最有效的装置。
3.
A three-phase four-leg inverter topology for Dynamic Voltage Restorer(DVR) was applied.
将一种三相四桥臂逆变器的拓扑结构应用于动态电压恢复器主电路。
补充资料:饱和输出电平
分子式:
CAS号:
性质:在录放首过程中,10kHz及其以上高频信号的输出达到饱和时的最大输出电平称饱和输出电平。SOL值小时高频带声音开始变宽,听觉上感到声音混浊。
CAS号:
性质:在录放首过程中,10kHz及其以上高频信号的输出达到饱和时的最大输出电平称饱和输出电平。SOL值小时高频带声音开始变宽,听觉上感到声音混浊。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条