Finite-State Predictive Current Control of a Standalone DFIG-Based Wind Power Generation Systems: Simulation and Experimental Analysis

Abstract: This paper presents an improved stator voltage magnitude and frequency control for standalone doubly fed induction generators (DFIGs) based wind power generation systems (WPGSs). The proposed technique uses a simple finite-state predictive current control (FS-PCC). In this control method, the switching vector for the IGBT is selected to minimize the error between the reference value and the predicted value of the rotor current. Moreover, the discrete-time models of (DFIG) are needed to predict the future value… Show more

“…In that sense, this article is preceded by the work of Conde et al [36], which emphasizes the DFIG operation under distorted voltage conditions, while this one aims to study the normal operation conditions including a parametric variation to demonstrate the robustness increase when the repetitive portion is added. The authors believe that the results presented here fill the gap in the literature on the topic and combine the advantages of MBPCs in conjunction with the RCs in the dq reference frame to command the DFIG rotor current, focusing only in the rotor side controller for a deeper analysis [24,[37][38][39]. To prove that, only one controller is used and its dynamic performance is compared with two other controllers: an MPC and a robust one.…”

Improvement of Robustness of MPC Adding Repetitive Behavior for the DFIG Current Control

“…In that sense, this article is preceded by the work of Conde et al [36], which emphasizes the DFIG operation under distorted voltage conditions, while this one aims to study the normal operation conditions including a parametric variation to demonstrate the robustness increase when the repetitive portion is added. The authors believe that the results presented here fill the gap in the literature on the topic and combine the advantages of MBPCs in conjunction with the RCs in the dq reference frame to command the DFIG rotor current, focusing only in the rotor side controller for a deeper analysis [24,[37][38][39]. To prove that, only one controller is used and its dynamic performance is compared with two other controllers: an MPC and a robust one.…”

Improvement of Robustness of MPC Adding Repetitive Behavior for the DFIG Current Control

Takagi–Sugeno Fuzzy Logic Controller for DFIG Operating in the Stand-Alone Mode: Simulations and Experimental Investigation

Recent developments and future research recommendations of control strategies for wind and solar PV energy systems