《电力自动化设备》

引用本文:	李振,吕志鹏,盛万兴,杜松怀,李鹏华.基于虚拟同步电机控制的固态变压器对多控制类型分布式电源接入的适应性分析[J].电力自动化设备,2020,40(9):
	LI Zhen,Lü Zhipeng,SHENG Wanxing,DU Songhuai,LI Penghua.Adaptability analysis of VSM controlled SST to distributed generation with multiple control types[J].Electric Power Automation Equipment,2020,40(9):

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基于虚拟同步电机控制的固态变压器对多控制类型分布式电源接入的适应性分析
李振¹, 吕志鹏², 盛万兴², 杜松怀¹, 李鹏华²
1.中国农业大学信息与电气工程学院，北京 100083;2.中国电力科学研究院有限公司配电研究所，北京 100192

摘要:

固态变压器(SST)具备交直流环节，可用于实现交、直流微电网间的互联。针对交-直-交非隔离型的SST，提出引入直流下垂控制环节的虚拟同步电机(VSM)控制策略，使SST交直流端口具备惯性和阻尼，提升系统稳定性；建立VSM小信号模型分析直流侧电压与功率分配关系，便于实现交、直流侧互联微电网间的能量平衡，进而提出基于VSM的SST整体控制策略，在SST网侧和源荷侧变换器级联新的控制环路，实现网侧变换器快速响应及源荷侧变换器单/三相负荷、多控制类型(恒功率控制、下垂控制、虚拟同步机控制)三相分布式电源接入的需求；通过仿真分析验证所提基于VSM控制的SST对不同控制类型分布式电源的接入适应性。

关键词: 固态变压器虚拟同步电机控制直流下垂控制小信号模型分布式电源

DOI：10.16081/j.epae.202008005

分类号:TM41;TM31

基金项目:国家电网公司上海能源互联网研究院研究项目(5442SH190003)

Adaptability analysis of VSM controlled SST to distributed generation with multiple control types

LI Zhen¹, Lü Zhipeng², SHENG Wanxing², DU Songhuai¹, LI Penghua²

1.College of Information and Electrical Engineering, China Agricultural University, Beijing 100083, China;2.Power Distribution Research Institute, China Electric Power Research Institute, Beijing 100192, China

Abstract:

SST(Solid State Transformer) has both AC and DC links, which can be utilized to facilitate the interconnection between AC and DC microgrids. As for AC-DC-AC non-isolated SST, a VSM(Virtual Synchronous Machine) control strategy with DC droop control link is proposed, which makes AC and DC terminals of SST have inertia and damping, so as to improve the system stability. Then, the small-signal model of VSM is established to analyze the distribution relationship between the DC-side voltage and power, which is convenient to realize the power balance between AC and DC side interconnected microgrids. Furthermore, the VSM-based control strategy of SST is developed. Meanwhile, new control loops are cascaded to converters at SST’s grid-side and source load-side to enable the fast response ability of grid-side converters. Additionally, the requirement to integrate single-phase or three-phase demands, three-phase distributed generations with multiple types of control(constant power control, droop control and virtual synchronous generator control) of the source load-side converter is satisfied. Simulative results verify the adaptability of the proposed VSM-based control strategy of SST when distributed generations are integrated with multiple control types.

Key words: solid state transformer virtual synchronous machine control DC droop control small-signal model distributed power generation

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