2-DOF Decoupled Discrete Current Control for AC Drives at Low Sampling-to-Fundamental Frequency Ratios

Abstract: In high performance drive systems, wide bandwidth and reference tracking accuracy of current control loop are fundamental requirements. The conventional PI controller provides robustness against the machine parameter mismatching and zero steady-state error, but its dynamic performance degrades at high-speed due to the bandwidth limitation. In this paper, a new control structure of discrete PI controller with a deadbeat response is proposed, which combines the advantage of conventional PI controller with deadbe… Show more

“…In [16], a direct discrete-time current regulator is proposed based on the flux model for salient pole machines. A discrete PI controller with a deadbeat response control structure is proposed in [17]. Additionally, [18] proposed an online parameter estimation for the current controller, while [19] utilized a combined resonant and 2DOF controller to suppress current harmonics.…”

Enhanced Control of Back-to-Back Converters in Wind Energy Conversion Systems Using Two-Degree-of-Freedom (2DOF) PI Controllers

“…In [16], a direct discrete-time current regulator is proposed based on the flux model for salient pole machines. A discrete PI controller with a deadbeat response control structure is proposed in [17]. Additionally, [18] proposed an online parameter estimation for the current controller, while [19] utilized a combined resonant and 2DOF controller to suppress current harmonics.…”

Enhanced Control of Back-to-Back Converters in Wind Energy Conversion Systems Using Two-Degree-of-Freedom (2DOF) PI Controllers

Phase-Corrected Proportional Resonant Control for Negative Sequence Current Elimination in High-Power Converters With Low Carrier Ratios