《电力自动化设备》

引用本文:	史明明,姜云龙,史鸿飞,蒋天润,竺明哲,葛乐.集成有源阻尼器功能的并网逆变器虚拟电阻补偿控制方法[J].电力自动化设备,2024,44(4):119-126
	SHI Mingming,JIANG Yunlong,SHI Hongfei,JIANG Tianrun,ZHU Mingzhe,GE Le.Virtual resistance compensation control method for grid-connected inverter integrated with active damper function[J].Electric Power Automation Equipment,2024,44(4):119-126

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集成有源阻尼器功能的并网逆变器虚拟电阻补偿控制方法
史明明¹, 姜云龙¹, 史鸿飞², 蒋天润², 竺明哲², 葛乐²
1.国网江苏省电力有限公司电力科学研究院，江苏南京 211103;2.南京工程学院电力工程学院，江苏南京 211167

摘要:

有源阻尼器通过构造虚拟电阻提高接入弱电网中逆变器的稳定性，但虚拟电阻的准确性受开关频率限制，有源阻尼器的功能难以集成到常规的并网逆变器中，为此，提出一种虚拟电阻补偿控制方法。建立集成有源阻尼器功能的并网逆变器阻抗模型，分析虚拟电阻对提升系统稳定性的作用；阐明控制带宽和数字延时对虚拟电阻准确性的影响，针对并网逆变器易发生谐振稳定性问题的谐振频段，设计一种新的虚拟电阻补偿环节，显著提升了虚拟电阻的补偿精度。系统阻抗稳定性分析表明，所提方法虚拟出的阻抗具有良好的电阻特性。实验结果表明，集成有源阻尼器功能的并网逆变器接入系统后具有较好的阻尼谐振作用，显著提升了系统稳定性。

关键词: 有源阻尼器并网逆变器弱电网稳定性虚拟电阻

DOI：10.16081/j.epae.202307024

分类号:TM46

基金项目:国网江苏省电力有限公司科技项目(J2021008)

Virtual resistance compensation control method for grid-connected inverter integrated with active damper function

SHI Mingming¹, JIANG Yunlong¹, SHI Hongfei², JIANG Tianrun², ZHU Mingzhe², GE Le²

1.Electric Power Research Institute of State Grid Jiangsu Electric Power Co.,Ltd.,Nanjing 211103, China;2.School of Electric Power Engineering, Nanjing Institute of Technology, Nanjing 211167, China

Abstract:

The active damper improves the stability of the inverter connected to the weak grid by construc-ting the virtual resistance, but the accuracy of virtual resistance is limited by the switching frequency, the active damper function is difficult to be integrated into the conventional grid-connected inverters, so a compensation control method of virtual resistance is proposed. An impedance model of grid-connected inverter integrated with active damper function is established, and the effect of virtual resistance in enhancing system stability is analyzed. The influence of control bandwidth and digital delay on the accuracy of virtual resistance is clarified, aiming at the resonant frequency band where the grid-connected inverter easily gene-rates resonant stability problems, a new virtual resistance compensation block is designed, which significantly improves the compensation accuracy of virtual resistance. The system impedance stability analysis shows that the virtual impedance achieved by the proposed method has good resistive characteristics. The experimental results show that the grid-connected inverter integrated with active damper function has good dam-ping resonant effect, significantly improving the system stability.

Key words: active damper grid-connected inverter weak grid stability virtual resistance

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