A Novel Model Predictive Direct Torque Control Method for Improving Steady-State Performance of the Synchronous Reluctance Motor

This paper investigates a finite-control set modelpredictive control (FCS-MPC) algorithm to enhance the performance of a synchronous reluctance machine drive. Particular emphasis is placed on the definition of the cost function enabling a computationally light implementation while targeting good transient and steady-state performance. In particular, this work proposes the inclusion of an integral term into the cost function to ensure zero steady-state errors thus compensating for any model inaccuracies. A control effort term is also considered in the formulation of the cost function to achieve a high ratio between the sampling frequency and the average switching frequency. After a comprehensive simulation study showing the advantages of the proposed approach over the conventional FCS-MPC for a wide range of operating conditions, several experimental test results are reported. The effectiveness of the proposed control approach, including a detailed analysis of the effect of the load and speed variations, is thus fully verified providing useful guidelines for the design of a direct model predictive controller of synchronous reluctance motor drives.

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“…The maximum torque per ampere (MTPA) trajectory is evaluated offline [23] and stored as a 2D LUT, and it is represented in Fig. 4.…”

Section: =mentioning

confidence: 99%

Direct Model Predictive Control of Synchronous Reluctance Motor Drives

Riccio

Καραμανάκος

Odhano

et al. 2023

IEEE Trans. on Ind. Applicat.

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“…The transfer functions derived in Equations ( 5)-( 7) can be used for the PI controller tuning procedure, provided that there is no change in parametric variations in the above equations. However, due to the simultaneous effect of I d and I q with the cross-magnetization effect on L q and L d , variations occur in the magnitudes of the stator inductances [7]. Furthermore, the value of V d changes which in turn changes the value of K rτ for different operating points.…”

Section: ( )mentioning

confidence: 99%

“…These advantages of SynRMs encourage their use in various small and medium-sized power applications, such as in fans, pumps, elevators, etc. However, due to their peculiar rotor structure and the high nonlinearity in rotor flux linkages caused by cross-magnetization currents, the speed control strategies of these SynRMs need to be more robust in nature [7].…”

Section: Introductionmentioning

confidence: 99%

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Automated QFT-Based PI Tuning for Speed Control of SynRM Drive with Analytical Selection of QFT Control Specifications

Poola

Hanamoto

2022

Energies

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The gains of PI controllers, used in the cascaded speed control of synchronous reluctance motors (SynRMs), are synthesized using quantitative feedback theory (QFT). A systematic design approach is employed to quantitatively determine the PI controller gains in terms of speed and current loops, using a mathematical model of the SynRM. Further, to make the QFT design a more transparent method, an analytical procedure using the frequency domain is attempted to design the QFT bounds as well as the initial search space of the optimization algorithm used in automatic loop shaping. The effectiveness of the proposed PI tuning method is verified with the extensive MATLAB/Simulink simulation environment. The results illustrate the supremacy of the proposed PI tuning method, in terms of control performance, over the conventional PI tuning method, using the analytical procedure.

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