Model predictive optimal control considering current and voltage limitations: Real-time validation using OPAL-RT technologies and five-phase permanent magnet synchronous machines
Article dans une revue avec comité de lecture
Auteur
Date
2019Journal
Mathematics and Computers in SimulationRésumé
Multiphase machines have recently gained interest in the research community for their use in applications where high power density, wide speed range and fault-tolerant capabilities are required. The optimal control of such drives requires the consideration of voltage and current limits imposed by the power converter and the machine. While conventional three-phase drives have been extensively analyzed taking into account such limits, the same cannot be said in the multiphase drives’ case. This paper deals with this issue, where a novel two-stage Model Predictive optimal Control (2S-MPC) technique is presented, and a five-phase permanent magnet synchronous multiphase machine (PMSM) is used as a case example. The proposed method first applies a Continuous-Control-Set Model Predictive Control (CCS-MPC) stage to obtain the optimal real-time stator current reference for given DC-link voltage and stator current limits, exploiting the maximum performance characteristics of the multiphase drive. Then, a Finite-Control-Set Model Predictive Control (FCS-MPC) stage is utilized to generate the switching state in the power converter and force the stator current tracking. An experimental validation of the proposed controller is finally provided using a real-time simulation environment based on OPAL-RT technologies.
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Documents liés
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Communication avec acteBERMUDEZ GUZMAN, Mario; GOMOZOV, Oleg; SEMAIL, Eric; BARRERO, Federico; KESTELYN, Xavier; NGUYEN, Ngac Ky (ELECTRIMACS, 2017)Multiphase machines have recently gained importance in the research community for their use in applications where high power density, wide speed range and fault-tolerant capabilities are needed. The optimal control of such ...
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Communication avec acteBERMUDEZ GUZMAN, Mario; GOMOZOV, Oleg; SEMAIL, Eric; BARRERO, Federico; KESTELYN, Xavier; NGUYEN, Ngac Ky (Electrimacs, 2017)Multiphase machines have recently gained importance in the research community for their use in applications where high power density, wide speed range and fault-tolerant capabilities are needed. The optimal control of such ...
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Communication avec acteGOMOZOV, Oleg; BUIRE, Jerome; COLAS, Frédéric; SEMAIL, Eric; KESTELYN, Xavier; NGUYEN, Ngac Ky (IEEE, 2015)The optimal control of electrical drives necessitates to take into account current and voltage limits that are imposed by the power electronics and the electrical machines. Let’s cite for example the flux-weakening operation ...
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Article dans une revue avec comité de lectureBERMUDEZ GUZMAN, Mario; GONZALEZ PRIETO, Ignacio; BARRERO, Federico; GUZMAN, Hugo; DURAN, Mario Javier; KESTELYN, Xavier (Institute of Electrical and Electronics Engineers, 2018)Direct torque control (DTC) has been recently used for the development of high-performance five-phase induction motor (IM) drives, where normal operation of the system has been usually considered and the ability of DTC to ...
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Article dans une revue avec comité de lectureBERMUDEZ GUZMAN, Mario; GONZALEZ PRIETO, Ignacio; BARRERO, Federico; GUZMAN, Hugo; DURAN, Mario Javier; KESTELYN, Xavier (Institute of Electrical and Electronics Engineers, 2017)Direct torque control (DTC) has been widely used as an alternative to traditional field-oriented control (FOC) methods for three-phase drives. The conventional DTC scheme has been successfully extended to multiphase drives ...