Suppression Strategy For Midpoint Potential Fluctuation of Three-level Wind Power Converter

With the development of offshore wind power, three-level wind power converters have begun to be widely used in wind farms, but there has always been a problem of low-frequency fluctuations in bus voltage, which will seriously affect the power quality of wind farms. This paper studies a GA-BP neural network optimization control method, injecting zero-sequence components on the basis of the sine pulse width modulation strategy of carrier stacking, and then optimizing the neural network weights and thresholds through genetic algorithm, and the bus capacitor voltage Low-frequency fluctuations are tracked and compensated to improve the predictive ability of the control system. This combination of zero-sequence voltage injection and injection-compensated low-frequency fluctuation components solves the problem of bus voltage fluctuations. Through Matlab/simulink simulation analysis and 1140V wind power converter experimental verification, the verification results show that the bus voltage fluctuation is reduced by 50%, and the grid current waveform is improved. The proposed scheme can well solve some of the influences caused by the fluctuation of the bus voltage in the wind power converter, ensure the operation reliability of the wind power system and improve the operation efficiency of the wind power system.