基于相位补偿的弱电网 LCL 并网逆变器 HR 控制策略

2022 5th International Conference on Renewable Energy and Power Engineering (REPE) Pub Date : 2022-09-28 DOI:10.1109/REPE55559.2022.9949524

Jian Wu, Zhihang Luo, Yongshuai Cui, Dianguo Xu

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引用次数: 0

摘要

随着可再生能源的大规模发展，以带电感-电容-电感（LCL）滤波器的电压源型并网变流器为代表的分布式发电在电力系统中的应用日益广泛。针对弱电网中电网阻抗的增加会降低系统带宽，从而导致多次谐波谐振（HR）控制不稳定的问题，本文提出了一种改进的 LCL 并网逆变器 HR 电流控制策略。通过相位补偿改进了传统的 HR 控制，避免了相位突变引起的$\boldsymbol{-\pi}$线交叉。分别分析和仿真了传统 HR 控制和相位补偿 HR 控制的弱电网适应性。结果表明，当弱电网电感为 3mH 时，改进型 HR 控制的电流 THD 仅为 1.57%，能有效提高弱电网条件下的系统稳定性和鲁棒性能。

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HR Control Strategy Based on Phase Compensation for LCL Grid-Connected Inverters in Weak Grid

With the large-scale development of renewable energy, distributed power generation represented by voltage source type grid-connected converters with inductor-capacitor-inductor (LCL) filter is increasingly used in power systems. Aiming at the problem that the increase of grid impedance in the weak grid reduces the system bandwidth, which leads to the instability of multiple harmonic resonant (HR) control, this paper proposes an improved HR current control strategy for LCL grid-connected inverters. The traditional HR control is improved by phase compensation to avoid the $\boldsymbol{-\pi}$ line crossing caused by the sudden phase change. The weak grid adaptability of traditional and phase-compensated HR control is analyzed and simulated respectively. And the results shows that the current THD is only 1.57% with improved HR control when the weak grid inductance is 3mH, which can effectively improve the system stability and robust performance under weak grid conditions.

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2022 5th International Conference on Renewable Energy and Power Engineering (REPE)

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