1) thyristor switched filter
晶闸管投切滤波器
1.
Under the presupposition that the demand of reactive power compensation is met,an approach to eliminate harmonics of offshore platform power system by use of thyristor switched filter is given; based on the place measured harmonic data and by use of genetic algorithm the optimal design of parameters of thyristor switched filter is performed.
在满足无功补偿要求的前提下,利用晶闸管投切滤波器对海洋平台电力系统的谐波进行治理,根据实地测量的电网谐波,利用遗传算法对晶闸管投切滤波器的参数进行优化设计。
2) filter/TSC
滤波器/晶闸管投切电容器
3) Thyristor switched filter(TSF)
晶闸管投切滤波回路
4) reactive-power compensation/TSF
无功功率补偿/晶闸管投切滤波器
5) thyristor switched capacitor
晶闸管投切电容器
1.
Using a Static Var Compensator (SVC) composed of athyristor controlled reactor (TCR) and thyristor switched capacitors (TSCs) to provide dynamic var compensation isefficient to solve above problems.
由晶闸管控制电抗器(TCR)和晶闸管投切电容器(TSC)构成的静止无功补偿器(StaticVar Compensator,SVC)可以就地提供动态无功补偿,是解决这些问题的经济有效的方法。
2.
Based on the TSC ( thyristor switched capacitor ) technology,the fully adjustable parallel capacitor compensation mode has good compensational effect.
应用TSC(晶闸管投切电容器)技术的可调补偿方案具有良好补偿效果。
3.
In order to compensate more reactive power and lower the power level of the active power filter(APF),a hybrid filter system based on a combination of the APF and the thyristor switched capacitor(TSC) was presented.
为了补偿较大的无功功率,降低传统的有源电力滤波器(active power filter,APF)的容量,提出将有源电力滤波器与晶闸管投切电容器(thyristor switched capacitor,TSC)相结合构成混合滤波系统。
6) thyristor switched capacitor (TSC)
晶闸管投切电容器(TSC)
补充资料:电容器
电容器 capacitor 电路中用以储存电能的基本元件。由电介质相隔的两组金属电极片组成。按极板形状,有平行板电容器、球形电容器、柱形电容器等;按容量是否可变,有固定电容器、微调电容器、半可变电容器、可变电容器等;按极板间的电介质种类,有空气电容器、云母电容器、纸质电容器、陶瓷电容器等。电容器的电容是它的特征常量,取决于两导体的形状、大小、相对位置以及其中填充的绝缘材料的电容率。表征电容器性能的还有耐压(或工作电压)、损耗和频率响应,它们分别取决于填充电介质的击穿场强、损耗和对频率的响应。为了使电容和耐压适合需要,可以采用串、并联来调整。在电力系统中电容器是提高功率因数的重要器件;在电子电路中是获得振荡、滤波、相移、旁路、耦合及波形变换的重要元件。 |
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