Details

Autor(en) / Beteiligte

• Liu, Chun
• Ding, Shichuan
• Wu, Zhongdong
• Guo, Xiaoxuan
• Li, Jiangwei

Titel

Parallel inverter control method based on adaptive parameters

Ist Teil von

• IET power electronics, 2023-05, Vol.16 (7), p.1200-1213

Ort / Verlag

Wiley

Erscheinungsjahr

2023

Link zum Volltext

Quelle

Open access e-journals list

Beschreibungen/Notizen

• In the inverter parallel system, due to the uncertainty of the working environment, the output voltage cannot meet the requirements, and the power distribution accuracy by the traditional droop control method is low. To increase the control accuracy of the output voltage of the inverter parallel system and improve the power distribution accuracy between parallel modules, this paper proposes a parallel inverter control method based on adaptive parameters. This method is improved on the basis of traditional P‐V droop control, and an adaptive parameter control method is implemented by the Lyapunov function, which can effectively improve the control accuracy of the output voltage and ensure that the output voltage remains within a certain constraint range under any load conditions. In order to further improve the output voltage control accuracy, the adaptive parameter control method is adopted. The parameter optimization strategy was deduced, and the steady‐state and dynamic control performances were significantly improved. Simulation and experimental results verify the effectiveness of the proposed control method. This method is improved on the basis of traditional P‐V droop control, and an adaptive parameter control method is implemented by Lyapunov function, which can effectively improve the control accuracy of the output voltage and ensure that the output voltage remains within a certain constraint range under any load conditions. In addition, a virtual impedance is added to the control loop and the virtual impedance proportional coefficient is adjusting through active power feedback, which can freely adjust the ratio of output power between modules and improve the power distribution accuracy between parallel modules.