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弱电网下基于高带宽并网逆变器的并网系统鲁棒性提升技术研究 被引量:4

Technical Research on Improving the Robustness of Grid-connected System Based on High-bandwidth Grid-connected Inverter in Weak Grid
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摘要 数字控制LCL型并网逆变器的固有控制延时会影响原有谐振阻尼方案的控制特性,从而降低并网逆变器在弱电网下的鲁棒性。该文首先基于不同参数建立多逆变器并联系统在弱电网下的多输入多输出矩阵,并推出确保系统进网电流稳定性以及各模块交互电流稳定性的3条判据。进一步地,基于频域阻抗法分析数字控制延时在模块采用不同开关频率的情况下对系统鲁棒性的影响,进而发现在系统中引入高带宽逆变器对于抑制低频谐振的有效性。分析高带宽逆变器模块与低频模块之间的交互稳定性,据此选取高带宽并网逆变器的开关频率。最后,搭建一台基于新型宽禁带器件GaN的高带宽并网逆变器原理样机,并将其并入低频模块并网系统中去,通过实验验证所提高带宽并网逆变器有助于提高弱电网下系统的鲁棒性,为提高分布式发电系统的稳定性提供一种新思路。 The inherent control delay of the digital-control LCL grid-connected inverter would affect the control characteristic of the original resonance damping scheme,thereby decreasing the robustness of the system in weak grid.In this paper,the MIMO matrix of the multi-inverter parallel system based on different parameters is established firstly,and three criteria to ensure the stability of the system’s grid current and the interactive current of each module is put forward.Furthermore,the influence of the digital-control-delay on the robustness of the system when the module adopts different switching frequencies is analyzed based on the frequency domain impedance method.Therefore,the introduction of a high-bandwidth inverter in the multi-inverter system is found to be effective in suppressing low-frequency resonance.Next,the interaction stability between the high-frequency module and the low-frequency module is analyzed,and the switching frequency of the high-bandwidth grid-connected inverter is selected.Finally,a prototype of a high-bandwidth grid-connected inverter based on GaN is built in the laboratory.The effectiveness of the high-bandwidth grid-connected inverter to improve the system robustness in weak grid is verified by the experiment.This scheme provides a new idea for improving the stability of the distributed generation system.
作者 方天治 张惠丽 沈姝衡 章益凡 刘昊 吴皓 FANG Tianzhi;ZHANG Huili;SHEN Shuheng;ZHANG Yifan;LIU Hao;WU Hao(College of Automation Engineering,Nanjing University of Aeronautics and Astronautics,Nanjing 211106,Jiangsu Province,China)
机构地区 南京航空航天大学自动化学院
出处 《中国电机工程学报》 EI CSCD 北大核心 2023年第14期5583-5595,共13页 Proceedings of the CSEE
基金 国家自然科学基金项目(52077102) 江苏省自然科学基金项目(BK20201299)。
关键词 多并网逆变器并联系统 鲁棒性 高带宽 GAN器件 multiple-grid-connected-inverter parallel system robustness high-bandwidth GaN device
分类号 TM46 [电气工程—电器]
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中国电机工程学报
2023年 第14期

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