Reduced-Order Feedback Linearization for Independent Torque Control of a Dual Parallel-PMSM System

Abstract: Connecting two PMSMs in parallel to a 2-level 3-leg inverter gives a way to build up a high power-density driving system using existing electronic devices. But this type of system has a nature of nonlinearity that creates an obstacle in high performance control and the original system cannot be feedbacklinearized directly. This paper presents a reduced-order feedback-linearization method. In the first place, an extra order-reducing step that separates the system as a main system and an auxiliary system is appl… Show more

“…(17) can be rewritten as: (19) which shows that the product of the current error and its derivative is positive, illustrating that the internal dynamic is unstable. Hence, MMC is a multi-input-multi-output nonminimum phase nonlinear system.…”

“…Feedback linearization control strategy has been utilized in the field of power electronics by researchers. Compared with traditional local linearized control methods, the flexible nonlinear system can be turned into a global linearized system with feedback linearization control, which makes the dynamics of the system more controllable [11][12][13][14][15][16][17][18][19][20]. Feedback linearization control shows higher control accuracy, better dynamic performance and better decoupling characteristics than traditional PI control methods.…”

Lyapunov-Function-Based Feedback Linearization Control Strategy of Modular Multilevel Converter–Bidirectional DC–DC Converter for Vessel Integrated Power Systems

“…(17) can be rewritten as: (19) which shows that the product of the current error and its derivative is positive, illustrating that the internal dynamic is unstable. Hence, MMC is a multi-input-multi-output nonminimum phase nonlinear system.…”

“…Feedback linearization control strategy has been utilized in the field of power electronics by researchers. Compared with traditional local linearized control methods, the flexible nonlinear system can be turned into a global linearized system with feedback linearization control, which makes the dynamics of the system more controllable [11][12][13][14][15][16][17][18][19][20]. Feedback linearization control shows higher control accuracy, better dynamic performance and better decoupling characteristics than traditional PI control methods.…”

Lyapunov-Function-Based Feedback Linearization Control Strategy of Modular Multilevel Converter–Bidirectional DC–DC Converter for Vessel Integrated Power Systems

Real-time and hardware in the loop validation of electric vehicle performance: Robust nonlinear predictive speed and currents control based on space vector modulation for PMSM

A Nonlinear Robust Speed Controller for Dual Nonidentical Parallel PMSM System