《电力自动化设备》

引用本文:	张巍,黄文,帅智康,葛俊,沈超,程慧婕,沈霞.虚拟调速器对VSG暂态功角稳定影响机理分析[J].电力自动化设备,2022,42(8):
	ZHANG Wei,HUANG Wen,SHUAI Zhikang,GE Jun,SHEN Chao,CHENG Huijie,SHEN Xia.Impact mechanism analysis of virtual governor on transient power angle stability of VSG[J].Electric Power Automation Equipment,2022,42(8):

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虚拟调速器对VSG暂态功角稳定影响机理分析
张巍¹, 黄文¹, 帅智康¹, 葛俊¹, 沈超², 程慧婕¹, 沈霞¹
1.湖南大学国家电能变换与控制工程技术研究中心，湖南长沙 410082;2.东南大学电气工程学院，江苏南京 210096

摘要:

作为重要的一次调频环节，虚拟调速器(VG)对于大扰动下虚拟同步发电机(VSG)保持暂态功角稳定非常重要。以低通滤波(LPF)和高通滤波(HPF)型VG为研究对象，分别构建相应的VSG暂态大信号模型，采用扩展等面积定则分析考虑不同调速器时的VSG暂态功角稳定机理，并利用相图法量化研究VG控制参数对VSG暂态功角稳定的影响。研究发现，VG截止频率的减小会提高系统暂态功角稳定，LPF型VG增益的增加会增强系统暂态功角稳定，而HPF型VG增益的增加会造成系统暂态功角稳定先增强后减弱，且当VG的增益和截止频率相同时，LPF型VG比HPF型VG具有更大的系统暂态功角稳定裕度。仿真结果验证了理论分析的正确性。

关键词: 虚拟同步发电机虚拟调速器暂态功角稳定低通滤波高通滤波

DOI：10.16081/j.epae.202206028

分类号:TM712

基金项目:国家杰出青年科学基金资助项目(52125705)；国家自然科学基金资助项目(51977066)；中国博士后科学基金资助项目(2021M701136)

Impact mechanism analysis of virtual governor on transient power angle stability of VSG

ZHANG Wei¹, HUANG Wen¹, SHUAI Zhikang¹, GE Jun¹, SHEN Chao², CHENG Huijie¹, SHEN Xia¹

1.National Electric Power Conversion and Control Engineering Technology Research Center, Hunan University, Changsha 410082, China;2.School of Electrical Engineering, Southeast University, Nanjing 210096, China

Abstract:

As an important part of primary frequency regulation, VG(Virtual Governor) is extremely important for VSG(Virtual Synchronous Generator) to maintain transient power angle stability under large disturbances. The LPF(Low-Pass Filter) and HPF(High-Pass Filter) type VGs are taken for research objects, the corresponding VSG transient large signal models are built. The extended equal area criterion is adopted to analyze VSG transient power angle stability mechanism considering different governors, and the phase portrait method is used to quantitatively research the impact of VG control parameters on VSG transient power angle stability. It is found that decreasing the cut-off frequency of VG will improve the system transient power angle stability, increasing the gain of LPF type VG will strengthen the system transient power angle stability, while increasing the gain of HPF type VG will cause the system transient power angle stability strengthen first and then weaken. When the gain and cut-off frequency of VG are the same, LPF type VG has a larger margin of system transient power angle stability than that of HPF type VG. The correctness of theoretical analysis is verified by the simulative results.

Key words: virtual synchronous generator virtual governor transient power angle stability low-pass filter high-pass filter

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