1.
Network Harmonic Impedance Measurement Using Capacitor Switching
投切电容器时的电网谐波阻抗测量方法
2.
DESIGN AND APPLICATION RESEARCH ON ARC SUPPRESSION COIL WITH THYRISTOR SERIESCAPACITORS
晶闸管投切电容式消弧线圈的设计与应用研究
3.
Arc suppression coil with thyristor series capacitors based on injecting current
基于信号注入法的可控硅投切电容式消弧线圈
4.
Research on Power Unit on the Thyristor Switched Capacitor (TSC)
晶闸管投切电容器(TSC)中功率单元的研究
5.
Research of Dynamic Parameters in Capacitors Controlled by Three-phase Thyristor
三相晶闸管投切电容器动态参数的研究
6.
Intelligent Thyristor Switched Capacitor Compensating System Controlled by Microcomputer
智能型晶闸管投切电容器无功补偿微机控制系统
7.
The Application Research on Controlling Unit of Arc-suppression Coil with Thyristor Series Capacitors;
晶闸管投切电容(TSC)式消弧线圈控制装置应用研究
8.
Hybrid Var Compensator Based on the Coordinated Operation of STATCOM and TSC
静止无功发生器与晶闸管投切电容器协同运行混合无功补偿系统
9.
Studies on Switching Control Algorithms for Capacitors in Distribution Networks;
配电网络电容器投切控制算法的研究
10.
Shunt capacitor bank switching strategy based on precharge circuit
基于预充电的电容器组投切控制策略
11.
Study on Compound Throw Switch Used in Reactive Power Compensation;
无功补偿用电容投切复合开关的研究
12.
Simulation and Measurement of the Switching Overvoltage of Compensating Capacitor in Substations;
变电站补偿电容器投切过电压的仿真与测试
13.
Many large capacitor banks are switched on and off as the system need for reactive kilovolt amperes changes.
许多大容量电容器组根据系统对无功容量需要的变化新投切。
14.
Care should be taken in selecting switches and breakers for capacitor switching.
在选择用作电容器投切的开关时应慎重。
15.
Study on synchronous switching over device for compensating capacityh bank
无功补偿电容器组的同步投切装置研究
16.
RESEANCH ON AN INTELLIGENT NON -CONTACT AUTOMATIC VAR-COMPENSATOR
智能式电容器无触点自动投切装置的研究
17.
Research on the Synchronization Switch of 10kV Capacitor Based on DSP;
基于DSP的10kV电容器组同步投切装置的研制
18.
Optimal Switching Threshold Based Static Var Compensator;
基于电容器最优投切阈值的静止无功补偿装置