电网技术2026,Vol.50Issue(1):中插145,324-333,中插146-中插147,13.DOI:10.13335/j.1000-3673.pst.2025.0379
基于能量与信号复合调制的直流微电网阻抗估计方法
A DC Microgrid Impedance Estimation Method Based on Energy and Signal Composite Modulation
摘要
Abstract
DC microgrids have high energy utilization,flexible dispatch,and high reliability,and they are becoming an important research direction in the field of distributed energy consumption.The bus equivalent impedance is a key parameter for the structural optimization and control strategy design of DC microgrids,and its accurate calculation and measurement are of great significance.However,current measurement methods still suffer from low accuracy and complex measuring setups,and there remains considerable room for improvement in the estimation and measurement of equivalent impedance.To address these issues,this paper introduced an impedance measurement method based on energy and signal composite modulation.The impedance measurement signal was generated by modulating the power converter's switching frequency,eliminating the need for additional complex devices.Using time-division multiplexing with selected frequencies enabled efficient parallel multi-frequency impedance measurement.An optimal measurement frequency model was established by analyzing system resonance and filtering constraints.Using the selected frequency for power switch modulation,time-division multiplexing technology was applied to achieve efficient parallel impedance measurement at multiple frequencies,thereby enhancing both the effectiveness of signal injection and the measurement accuracy.Experimental results demonstrated that the proposed method significantly enhanced the measurement accuracy of the equivalent impedance,with errors of less than 5%,and provided technical support for impedance evaluation and optimal design of DC microgrids.关键词
直流微电网/混合储能/能信复合调制/阻抗计算Key words
DC microgrid/hybrid energy storage/energy and signal composite modulation/impedance estimation分类
信息技术与安全科学引用本文复制引用
项阳,李明雪,赵雨顺,卢伟国,于东升..基于能量与信号复合调制的直流微电网阻抗估计方法[J].电网技术,2026,50(1):中插145,324-333,中插146-中插147,13.基金项目
国家自然科学基金项目(52377201)、徐州高校服务"343"产业发展项目(GX2023003).Project Supported by National Natural Science Foundation of China(NFSC)(52377201),Xuzhou University Service"343"Industrial Development Project(GX2023003). (52377201)
