| 1. | In this thesis , the compensation performance of asvg is studied according to dynamic compensation theory
根据asvg的动态补偿原理,论文讨论了其补偿性能。 |
| 2. | Firstly , the existing compensation devices are compared and the asvg ' s superior performance is analyzed
论文首先比较了现有的无功补偿装置,分析了asvg的优越性能。 |
| 3. | In the end , simulations are carried out by the mathematic model of asvg with one - cycle control
最后,在详细的数学模型基础上对应用单周控制的静止无功发生器进行仿真研究。 |
| 4. | It is showed that the asvg advanced in this paper can realize operating in two phases in high voltage transmission through
这表明本文所提出的asvg方案可以用以实现超高压输电线的非全相运行。 |
| 5. | In this thesis , the advanced compensation device - advanced static var generator c asvg ) is studied and analyzed deeply
本文对先进的无功补偿装置? ?新型静止无功发生器( asvg )进行了深入分析和研究。 |
| 6. | The principle of one - cycle control is introduced in detail , its characteristics is analyzed . the method to combine it with asvg is discussed
在详细介绍单周控制原理的基础上,分析其特点,探讨了将其应用于asvg的方法。 |
| 7. | So far , however , people mainly paid their attention to those functions of asvg , such as compensating reactive power or damping surge of power system
在迄今为止的应用和研究中,侧重于考虑静止无功发生器补偿系统的无功功率或阻尼系统振荡的功能。 |
| 8. | The algorithm of three dimensions voltage space vector modulation that controls the asvg is developed . in this paper , the simulation is completed
本文研究推导了三维电压空间矢量调制( 3dsvpwm )算法,以其作为静止无功发生器的控制方法,进行了仿真研究。 |
| 9. | As one of extremely unbalanced case , operating in two phases is also researched in this paper . in this case , the harmful currents in system can be filtered
本文还对一种极端的不平衡情况,即两相运行,进行了仿真研究,此时系统中的有害电流能够被asvg滤除。 |
| 10. | After the summarization of present literatures , analyses and comparisons are made on the asvg ' s main circuit , present detection system and control methods
根据现有文献对静止无功发生器的主电路结构、各种有害电流检测方式和控制方式进行了分析、比较和总结。 |
