Permanent Magnet

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M Trlep - One of the best experts on this subject based on the ideXlab platform.

  • comparison of torque capability of three phase Permanent Magnet synchronous motors with different Permanent Magnet arrangement
    Journal of Magnetism and Magnetic Materials, 2007
    Co-Authors: B Stumberger, Gorazd Stumberger, Miralem Hadžiselimovic, Anton Hamler, V Gorican, M Jesenik, M Trlep
    Abstract:

    Abstract The paper presents a comparison of torque capability of three-phase Permanent Magnet synchronous motors with different Permanent Magnet arrangement. Motors with the following Permanent Magnet topologies were accounted for in the comparison: the surface-mounted Permanent Magnet synchronous motor (SMPMSM), the interior Permanent Magnet synchronous motor (IPMSM), the Permanent Magnet-assisted synchronous reluctance motor (PMASRM) and the flux reversal Permanent Magnet motor (FRPMM). Finite element method analysis is employed to determine the performance of each motor. Calculated performance of four-pole IPMSM determined by finite element method calculation is confirmed with the measurements at nearly constant nominal output power in the range of speed 3000–10,000 rpm.

  • analysis of interior Permanent Magnet synchronous motor designed for flux weakening operation
    IEEE Transactions on Magnetics, 2001
    Co-Authors: B Stumberger, Anton Hamler, M Trlep, M Jesenik
    Abstract:

    The paper presents a finite element method (FEM) based analysis of interior Permanent Magnet synchronous motor, designed for flux-weakening operation. Flux-weakening performance determined from the FEM analysis on the proposed Permanent Magnet motor structure is presented in order to verify the suitability of the design concept for flux-weakening operation. The influence of iron losses on the output power capability is included in the analysis by posterior iron loss calculation. The presented interior Permanent Magnet motor shows an extremely wide constant-power speed range which exceeds 5:1.

D. Howe - One of the best experts on this subject based on the ideXlab platform.

  • a tubular flux switching Permanent Magnet machine
    Journal of Applied Physics, 2008
    Co-Authors: Jiabin Wang, Kais Atallah, Weiya Wang, R.e. Clark, D. Howe
    Abstract:

    The paper describes a novel tubular, three-phase Permanent Magnet brushless machine, which combines salient features from both switched reluctance and Permanent Magnet machine technologies. It has no end windings and zero net radial force and offers a high power density and peak force capability, as well as the potential for low manufacturing cost. It is, therefore, eminently suitable for a variety of applications, ranging from free-piston energy converters to active vehicle suspensions.

  • modular Permanent Magnet brushless servo motors
    Journal of Applied Physics, 2003
    Co-Authors: J.d. Ede, Kais Atallah, D. Howe
    Abstract:

    This article discusses the suitability of modular Permanent Magnet brushless machines for applications where servo characteristics are key performance requirements. It is shown that among the large number of feasible combinations of slot number and pole number, optimum combinations exist, which exhibit good servo characteristics.

B Stumberger - One of the best experts on this subject based on the ideXlab platform.

  • comparison of torque capability of three phase Permanent Magnet synchronous motors with different Permanent Magnet arrangement
    Journal of Magnetism and Magnetic Materials, 2007
    Co-Authors: B Stumberger, Gorazd Stumberger, Miralem Hadžiselimovic, Anton Hamler, V Gorican, M Jesenik, M Trlep
    Abstract:

    Abstract The paper presents a comparison of torque capability of three-phase Permanent Magnet synchronous motors with different Permanent Magnet arrangement. Motors with the following Permanent Magnet topologies were accounted for in the comparison: the surface-mounted Permanent Magnet synchronous motor (SMPMSM), the interior Permanent Magnet synchronous motor (IPMSM), the Permanent Magnet-assisted synchronous reluctance motor (PMASRM) and the flux reversal Permanent Magnet motor (FRPMM). Finite element method analysis is employed to determine the performance of each motor. Calculated performance of four-pole IPMSM determined by finite element method calculation is confirmed with the measurements at nearly constant nominal output power in the range of speed 3000–10,000 rpm.

  • analysis of interior Permanent Magnet synchronous motor designed for flux weakening operation
    IEEE Transactions on Magnetics, 2001
    Co-Authors: B Stumberger, Anton Hamler, M Trlep, M Jesenik
    Abstract:

    The paper presents a finite element method (FEM) based analysis of interior Permanent Magnet synchronous motor, designed for flux-weakening operation. Flux-weakening performance determined from the FEM analysis on the proposed Permanent Magnet motor structure is presented in order to verify the suitability of the design concept for flux-weakening operation. The influence of iron losses on the output power capability is included in the analysis by posterior iron loss calculation. The presented interior Permanent Magnet motor shows an extremely wide constant-power speed range which exceeds 5:1.

M Jesenik - One of the best experts on this subject based on the ideXlab platform.

  • comparison of torque capability of three phase Permanent Magnet synchronous motors with different Permanent Magnet arrangement
    Journal of Magnetism and Magnetic Materials, 2007
    Co-Authors: B Stumberger, Gorazd Stumberger, Miralem Hadžiselimovic, Anton Hamler, V Gorican, M Jesenik, M Trlep
    Abstract:

    Abstract The paper presents a comparison of torque capability of three-phase Permanent Magnet synchronous motors with different Permanent Magnet arrangement. Motors with the following Permanent Magnet topologies were accounted for in the comparison: the surface-mounted Permanent Magnet synchronous motor (SMPMSM), the interior Permanent Magnet synchronous motor (IPMSM), the Permanent Magnet-assisted synchronous reluctance motor (PMASRM) and the flux reversal Permanent Magnet motor (FRPMM). Finite element method analysis is employed to determine the performance of each motor. Calculated performance of four-pole IPMSM determined by finite element method calculation is confirmed with the measurements at nearly constant nominal output power in the range of speed 3000–10,000 rpm.

  • analysis of interior Permanent Magnet synchronous motor designed for flux weakening operation
    IEEE Transactions on Magnetics, 2001
    Co-Authors: B Stumberger, Anton Hamler, M Trlep, M Jesenik
    Abstract:

    The paper presents a finite element method (FEM) based analysis of interior Permanent Magnet synchronous motor, designed for flux-weakening operation. Flux-weakening performance determined from the FEM analysis on the proposed Permanent Magnet motor structure is presented in order to verify the suitability of the design concept for flux-weakening operation. The influence of iron losses on the output power capability is included in the analysis by posterior iron loss calculation. The presented interior Permanent Magnet motor shows an extremely wide constant-power speed range which exceeds 5:1.

Anton Hamler - One of the best experts on this subject based on the ideXlab platform.

  • comparison of torque capability of three phase Permanent Magnet synchronous motors with different Permanent Magnet arrangement
    Journal of Magnetism and Magnetic Materials, 2007
    Co-Authors: B Stumberger, Gorazd Stumberger, Miralem Hadžiselimovic, Anton Hamler, V Gorican, M Jesenik, M Trlep
    Abstract:

    Abstract The paper presents a comparison of torque capability of three-phase Permanent Magnet synchronous motors with different Permanent Magnet arrangement. Motors with the following Permanent Magnet topologies were accounted for in the comparison: the surface-mounted Permanent Magnet synchronous motor (SMPMSM), the interior Permanent Magnet synchronous motor (IPMSM), the Permanent Magnet-assisted synchronous reluctance motor (PMASRM) and the flux reversal Permanent Magnet motor (FRPMM). Finite element method analysis is employed to determine the performance of each motor. Calculated performance of four-pole IPMSM determined by finite element method calculation is confirmed with the measurements at nearly constant nominal output power in the range of speed 3000–10,000 rpm.

  • analysis of interior Permanent Magnet synchronous motor designed for flux weakening operation
    IEEE Transactions on Magnetics, 2001
    Co-Authors: B Stumberger, Anton Hamler, M Trlep, M Jesenik
    Abstract:

    The paper presents a finite element method (FEM) based analysis of interior Permanent Magnet synchronous motor, designed for flux-weakening operation. Flux-weakening performance determined from the FEM analysis on the proposed Permanent Magnet motor structure is presented in order to verify the suitability of the design concept for flux-weakening operation. The influence of iron losses on the output power capability is included in the analysis by posterior iron loss calculation. The presented interior Permanent Magnet motor shows an extremely wide constant-power speed range which exceeds 5:1.