IEEE Open Journal of the Industrial Electronics Society (Jan 2024)

Model-Free Predictive Current Controller for Common Mode Voltage Stabilization by Finite odd Virtual Vector set

  • Majid Akbari,
  • S. Alireza Davari,
  • Reza Ghandehari,
  • Freddy Flores-Bahamonde,
  • Jose Rodriguez

DOI
https://doi.org/10.1109/OJIES.2024.3457835
Journal volume & issue
Vol. 5
pp. 1042 – 1057

Abstract

Read online

Reducing the common mode voltage (CMV) fluctuations is crucial in transformer-less (T-less) converters. The modulation modification-based methods inherently increase the steady-state error of the compared currents due to the reduced number of voltage vectors. This error can significantly raise the total harmonic distortion (THD) output current of the inverter. This research presents a strategy of odd virtual vectors based on model-free predictive control using the extended state observer (ESO) to fix the CMV fluctuations and a significant decrease in the THD of the output current. This means the number of CMV stabilizing vectors increases with the linear combination of odd voltage vectors. The proposed method has two advantages over CMV fluctuation reduction schemes that are modulation modification-based: simultaneous control of CMV stabilization and THD reduction in T-less converters, and independence of the controller from system variables and parameters, making it a robust predictive control method. The practical results show that the proposed method, in addition to the complete CMV stabilization and the reduction of the current THD, is completely robust to the changes in the parameters of the ultralocal model and ESO compared to the model-based solutions.

Keywords