电网电压畸变下三相三线LCL并网逆变器直接数字控制与电容电流补偿改善电网电流畸变

Tsai-Fu Wu, Yung-Hsiang Chang, Jui-Yang Chiu, Chien-Chih Hung, Tzu-Hsien Chuang
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引用次数: 0

摘要

当电容电流不受控制时,电网电压总是会发生畸变,从而导致电网电流畸变。本文介绍了在电网电压畸变情况下,采用直接数字控制和电容电压前馈(CVF)技术改善3Φ3W LCL并网逆变器电网电流的方法。通过反器侧电流反馈,简单的直接数字控制可以覆盖电感变化,确定控制规律跟踪反器侧电感电流,实现鲁棒性。在CVF回路中引入一个简单的滞回重复预测器,该预测器具有有限脉冲响应低通滤波器和补偿器项,可以稳定系统并有效地补偿电网电流畸变。因此,整个控制系统变得简单、鲁棒和有效。采用虚拟阻抗法来确定滤波器电感下降和控制参数变化时的稳定性。用12kw的模拟和实验结果验证了理论分析和讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Direct Digital Control and Capacitor Current Compensation to Improve Grid-Current Distortion for Three-Phase Three-Wire LCL Grid-Connected Inverter Under Distorted Grid Voltages
Grid voltage is always distorted which results in grid-current distortion when there is no control at the capacitor current. This paper presents the grid-current improvement with direct digital control and capacitor voltage feedforward (CVF) for 3Φ3W LCL grid-connected inverter under distorted grid voltages. With the inverter-side current feedback, the simple direct digital control can cover inductance variation and determine the control laws to track inverter-side inductor current, achieving robustness. A simple hysteresis repetitive predictor with finite impulse response low-pass filter and compensator term is introduced to the CVF loop which can stabilize the system and compensate the distorted grid current with effective control. Therefore, the overall control system becomes simple, robust and effective. The virtual impedance method is adopted to confirm the stability when the filter inductances drop and control parameters vary. Simulated and experimental results from 12 kW are used to verify the theoretical analyses and discussions.
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