Neural network Method: Loss Minimization control of a PMSM with core Resistance Assessment

Authors

  • T. Jackie Department of Communication Engineering, Arizona State University, Arizona, US
  • C. Hung Department of Communication Engineering, Arizona State University, Arizona, US

Keywords:

Permanent magnet synchronous motor, energy efficiency, neural network, loss model

Abstract

Permanent magnet synchronous motors (PMSMs) are often used in industry for high-performance applications. Their key features are high power density, linear torque control capability, high efficiency, and fast dynamic response. Today, PMSMs are prevalent especially for their use in hybrid electric vehicles. Since operating the motor at high efficiency values is critically important for electric vehicles, as for all other applications, minimum loss control appears to be an inevitable requirement in PMSMs. In this study, a neural network-based intelligent minimum loss control technique is applied to a PMSM. It is shown by means of the results obtained that the total machine losses can be controlled in a way that keeps them at a minimum level. It is worth noting here that this improvement is achieved compared to the case with I d set to zero, where no minimum loss control technique is used. Within this context, hysteresis and eddy current losses are primarily obtained under certain conditions by means of a PMSM finite element model, initially developed by CEDRAT as an educational demo. A comprehensive loss model with a dynamic core resistor estimator is developed using this information. A neural network controller is then applied to this model and comparisons are made with analytical methods such as field weakening and maximum torque per ampere control techniques. Finally, the obtained results are discussed.

 

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IJSRNSC Vol-4, Issue-6 December 2016

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Published

2016-12-30

How to Cite

[1]
T. Jackie and C. Hung, “Neural network Method: Loss Minimization control of a PMSM with core Resistance Assessment”, Int. J. Sci. Res. Net. Sec. Comm., vol. 4, no. 6, pp. 10–18, Dec. 2016.

Issue

Vol. 4 No. 6 (2016): December

Section

Research Article

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