An extended-horizon model predictive torque control with computationally efficient implementation for PMSM drives

An extended-horizon model predictive torque control with computationally efficient implementation for PMSM drives

In this paper, an extended-horizon predictive torque control (PTC) method is proposed with computationally efficient implementation. Predictive control with extended horizon brings important advantages compared to single-horizon methods, such as better steady-state performance, reduced current THD,...

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Bibliographic Details
Published in:International journal of control Vol. 96; no. 5; pp. 1298 - 1313
Main Authors: Amiri, Mohamad, Arab Khaburi, Davood, Heshmatian, Saeed, Khosravi, Mahyar, Rodriguez, Jose, Garcia Peñailillo, Cristian
Format: Journal Article
Language:English
Published: Abingdon Taylor & Francis 04-05-2023
Taylor & Francis Ltd
Subjects:
AC motor drive
Computational efficiency
Control methods
Electric potential
Horizon
permanent magnet synchronous motor
Predictive control
Predictive torque control
Stators
Torque
Voltage
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Summary:In this paper, an extended-horizon predictive torque control (PTC) method is proposed with computationally efficient implementation. Predictive control with extended horizon brings important advantages compared to single-horizon methods, such as better steady-state performance, reduced current THD, and lower ripples in torque and stator flux. However, the computational burden is a serious obstacle because the required calculations rise exponentially with the extension of the prediction horizon. This is due to a high number of candidate voltage vectors and also predicting the values of several machine variables for these vectors. Different approaches are employed in this work to make the control method computationally tractable. A voltage vector reduction technique is utilised that significantly decreases the total number of enumerated vectors. Moreover, the stator current prediction is eliminated in the proposed method, based on the inherent features of the PMSM. The proposed method is experimentally implemented and its good performance and advantages are verified.
ISSN:0020-7179
1366-5820
DOI:10.1080/00207179.2022.2041727