《电力自动化设备》

引用本文:	郭磊磊,崔蕾,王波,高鹏飞,金楠.抗直流偏置与频率偏移的并网逆变器无电网电压传感器模型预测控制[J].电力自动化设备,2024,44(11):142-148.
	GUO Leilei,CUI Lei,WANG Bo,GAO Pengfei,JIN Nan.Grid voltage sensorless model predictive control of grid-connected inverter resistant to DC-offset and frequency deviation[J].Electric Power Automation Equipment,2024,44(11):142-148.

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抗直流偏置与频率偏移的并网逆变器无电网电压传感器模型预测控制
郭磊磊¹, 崔蕾¹, 王波², 高鹏飞¹, 金楠¹
1.郑州轻工业大学电气信息工程学院，河南郑州 450002;2.国网安徽省电力有限公司，安徽合肥 230002

摘要:

传统并网逆变器无电压传感器模型预测控制策略易受电网频率偏移和直流偏置的影响，导致电流控制误差较大。为了解决这些问题，提出一种基于滑模观测器和双准谐振滤波器的改进电网电压观测方法，并设计了一种基于电压观测值的并网逆变器无电压传感器模型预测控制策略。设计了一种滑模观测器，以实现电网电压观测。为了克服高频滑模噪声和直流偏置的影响，设计了采用准谐振滤波器代替低通滤波器的电网电压基波信号提取方法，以抑制直流偏置对电网电压观测的影响。针对单个准谐振滤波器易受电网频率偏移影响的问题，进一步提出了基于双准谐振滤波器串联的电网电压相位和幅值补偿方法，从而克服了电网频率偏移的影响。由于所提方法可以提高电网电压观测精度，基于该方法的并网逆变器无电压传感器模型预测控制策略的电流控制精度也得到显著提高。对比实验研究验证了所提方法的有效性。

关键词: 模型预测控制滑模观测器准谐振滤波器直流偏置电网频率偏移

DOI：10.16081/j.epae.202312041

分类号:TM464

基金项目:河南省青年人才托举工程项目(2019HYTP021)；河南省优秀青年科学基金资助项目(242300421074)；河南省高校科技创新团队支持计划(22IRTSTHN017)

Grid voltage sensorless model predictive control of grid-connected inverter resistant to DC-offset and frequency deviation

GUO Leilei¹, CUI Lei¹, WANG Bo², GAO Pengfei¹, JIN Nan¹

1.College of Electrical and Information Engineering, Zhengzhou University of Light Industry, Zhengzhou 450002, China;2.State Grid Anhui Electric Power Co.,Ltd.,Hefei 230002, China

Abstract:

The traditional grid voltage sensorless model predictive control strategy of grid-connected inverter is easily affected by the frequency deviation and DC-offset of power grid, which leads to large current control error. To solve these problems, an improved grid voltage observation method based on sliding mode observer and dual quasi-resonant filter is proposed, and a grid voltage sensorless model predictive control strategy for grid-connected inverter based on observed voltage is designed. A sliding mode observer is designed to realize grid voltage observation. In order to overcome the influence of high-frequency sliding mode noise and DC-offset, a grid voltage fundamental signal extraction method using quasi-resonant filter instead of low-pass filter is designed to suppress the influence of DC-offset on grid voltage observation. Aiming at the problem that single quasi-resonant filter is easily affected by the frequency deviation of the power grid, a grid voltage phase and amplitude compensation method based on double series-connected quasi-resonant filters is further proposed, so as to overcome the influence of power grid frequency deviation. Since the proposed method can improve the grid voltage observation accuracy, the current control accuracy of the grid voltage sensorless model predictive control strategy for grid-connected inverter based on grid voltage observation method is also significantly improved. Comparative experiments verify the effectiveness of the proposed method.

Key words: model predictive control sliding mode observer quasi-resonant filters DC-offset grid frequency deviation

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