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The design process of direct-driven permanent magnet synchronous machines (PMSMs) for a full electric 4 ´ 4 sports car is presented. The rotor structure of the machine consists of two permanent magnet layers embedded inside the rotor laminations thus resulting in some inverse saliency, where the q-axis inductance is larger than the d-axis one. An integer slot stator winding was selected to fully take advantage of the additional reluctance torque. The performance characteristics of the designed PMSMs were calculated by applying a twodimensional finite element method. Cross-saturation between the d-and q-axes was taken into account in the calculation of the synchronous inductances. The calculation results are validated by measurements.

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Harmonic Loss Calculation in Rotor Surface Permanent Magnets—New Analytic Approach

Pyrhönen

Jussila

Alexandrova

et al. 2012

IEEE Trans. Magn.

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Lumped-parameter-based thermal analysis of a doubly radial forced-air-cooled direct-driven permanent magnet wind generator

Nerg¹,

Ruuskanen²

2013

Mathematics and Computers in Simulation

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Iron Loss Analysis of the Permanent-Magnet Synchronous Machine Based on Finite-Element Analysis Over the Electrical Vehicle Drive Cycle

Ruuskanen

Nerg

Rilla

et al. 2016

IEEE Trans. Ind. Electron.

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Direct-Driven Interior Magnet Permanent-Magnet Synchronous Motors for a Full Electric Sports Car

Harmonic Loss Calculation in Rotor Surface Permanent Magnets—New Analytic Approach

Lumped-parameter-based thermal analysis of a doubly radial forced-air-cooled direct-driven permanent magnet wind generator

Iron Loss Analysis of the Permanent-Magnet Synchronous Machine Based on Finite-Element Analysis Over the Electrical Vehicle Drive Cycle

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