S.J. Dellinger scite author profile

Abstract-A model of core losses, in which the hysteresis coefficients are variable with the frequency and induction (flux density) and the eddy-current and excess loss coefficients are variable only with the induction, is proposed. A procedure for identifying the model coefficients from multifrequency Epstein tests is described, and examples are provided for three typical grades of non-grainoriented laminated steel suitable for electric motor manufacturing. Over a wide range of frequencies between 20-400 Hz and inductions from 0.05 to 2 T, the new model yielded much lower errors for the specific core losses than conventional models. The applicability of the model for electric machine analysis is also discussed, and examples from an interior permanent-magnet and an induction motor are included.Index Terms-Brushless permanent-magnet (PM) motor, core loss, electric machine, Epstein test, finite-element analysis (FEA), induction motor, iron loss, laminated steel.

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Computation of Core Losses in Electrical Machines Using Improved Models for Laminated Steel

Ionel¹,

Popescu

McGilp

et al. 2007

IEEE Trans. on Ind. Applicat.

236

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Abstract-Two new models for specific power losses in cold-rolled motor lamination steel are described together with procedures for coefficient identification from standard multifrequency Epstein or single sheet tests. The eddy-current and hysteresis loss coefficients of the improved models are dependent on induction (flux density) and/or frequency, and the errors are substantially lower than those of conventional models over a very wide range of sinusoidal excitation, from 20 Hz to 2 kHz and from 0.05 up to 2 T. The model that considers the coefficients to be variable, with the exception of the hysteresis loss power coefficient that has a constant value of 2, is superior in terms of applicability and phenomenological support. Also included are a comparative study of the material models on three samples of typical steel, mathematical formulations for the extension from the frequency to the time domain, and examples of validation from electrical machine studies.Index Terms-Brushless permanent-magnet (BLPM) motor, cold-rolled motor lamination steel, core loss, electric machine, Epstein test, finite-element analysis (FEA), interior permanentmagnet (IPM) motor, iron loss.

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Assessment of Torque Components in Brushless Permanent-Magnet Machines Through Numerical Analysis of the Electromagnetic Field

Ionel¹,

Popescu

McGilp

et al. 2005

IEEE Trans. on Ind. Applicat.

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Abstract-For the calculation of torque in brushless (BL) alternating current motors a local method is proposed, based on the Maxwell stress theory and the filtered contributions due to the harmonics of the magnetic vector potential in the motor air gap. By considering the space fundamental field only, the method can efficiently estimate the average synchronous torque for a variety or motor topologies, including concentrated winding designs. For BL direct current motor analysis a global method is introduced, based on the virtual work principle expressed in terms of energy components in various motor regions. The method leads to simplifications in the average torque calculation and enables the direct identification of the cogging and ripple components. The mathematical procedures have been validated against experiments and other numerical techniques.Index Terms-Brushless (BL) permanent-magnet (PM) motor, cogging torque, electric machine simulation, finite-element analysis (FEA), ripple torque, synchronous machine.

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On the Physical Basis of Power Losses in Laminated Steel and Minimum-Effort Modeling in an Industrial Design Environment

Popescu

Miller

Ionel³

et al. 2007

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Improved finite element computations of torque in brushless permanent magnet motors

Popescu

Ionel²,

Miller

et al. 2005

IEE Proc., Electr. Power Appl.

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S.J. Dellinger

On the variation with flux and frequency of the core loss coefficients in electrical machines

Computation of Core Losses in Electrical Machines Using Improved Models for Laminated Steel

Assessment of Torque Components in Brushless Permanent-Magnet Machines Through Numerical Analysis of the Electromagnetic Field

On the Physical Basis of Power Losses in Laminated Steel and Minimum-Effort Modeling in an Industrial Design Environment

Improved finite element computations of torque in brushless permanent magnet motors

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