江斌开 王志新
摘 要:針对基于电压源型变流器(voltage Source Converter, VSC)的多端直流输电(multi-terminal HVDC transmission,MTDC)系统的电磁暂态仿真中,每一个VSC均包含多个电力电子器件,同时采用脉宽调制技术,势必增加VSC-MTDC仿真系统的数学计算量的问题,提出了一种VSC平均值模型替代VSC详细模型,以简化仿真系统。基于VSC平均值模型的简化方法,即:忽略变流器输出电压中的所有高次谐波,以受控电压源替代变流器输出,以虚拟受控电流源表征交/直流接口关系。最后,通过搭建三端VSC-MTDC输电仿真系统,对比了所提出的平均值模型与详细模型在各个工况下的系统响应,仿真结果表明,VSC平均值模型与详细模型在不同工况下,两者的系统动态响应基本一致,采用平均值模型系统仿真速度更快,仿真效率更高。
关键词:电压源型变流器;多端直流输电;平均值模型;电磁暂态仿真
DOI:10.15938/j.emc.(编辑填写)
中图分类号:TM 721 文献标志码:A 文章编号:1007 -449X(2018)00-0000-00(编辑填写)
Abstract: Aiming at the problem that the mathematical calculation of the VSC-MTDC simulation system is greatly increased by the number of power electronic component switches and pulse width modulation technology of VSC in the electromagnetic transient simulation, an average-value model of VSC is proposed to replace the detailed model of VSC in order to simplify the simulation system. The simplified method based on the VSC average-value model, that is, the high-order harmonic of the output voltage of the converter is neglected. The output of the converter is replaced by the controlled voltage source, and the AC / DC interface relationship is expressed virtual controlled current source. At last, a 3-terminal VSC-MTDC transmission simulation system is built, and the system responses in different cases of detailed model are compared with the average-value model. The simulation results show that the system responses of the two kind of models are nearly the same, and the average-value model greatly speeds up the system simulation and improves the simulation efficiency.
Keywords: voltage source converter; Multi-terminal HVDC; average-value model; electromagnetic transient simulation