Axial transient vibration of polygonal mirror scanner motor supported by thrust magnetic bearing and radial air bearing

Hiroyuki Kawamoto

    研究成果: Article

    4 引用 (Scopus)

    抄録

    This article describes an axial transient vibration of a polygonal mirror scanner rotor driven by a flat-type brushless DC motor and supported by a passive thrust magnetic bearing and a radial air bearing. From results of theoretical and experimental investigations, the following characteristics of the vibration, countermeasures to suppress a static displacement, and the transient vibration have been deduced: (1) Repulsive magnetic force is induced between the stator coils and rotor magnet under current passage. The force is proportional to the motor current. The force causes axial static displacement and axial transient vibration. (2) Parametric investigation deduced that: (a) higher stiffness of the magnetic bearing and lower acceleration current linearly reduce both the static displacement and the transient vibration; however, the former may reduce lifetime of the air bearing due to a dry contact with start and stop operation, and the latter prolongs the startup time; (b) soft start-stop scheme of the motor current is effective to reduce the vibration.

    元の言語English
    ページ(範囲)484-491
    ページ数8
    ジャーナルJournal of Imaging Science and Technology
    43
    発行部数5
    出版物ステータスPublished - 1999 9

    Fingerprint

    Bearings (structural)
    thrust bearings
    magnetic bearings
    Thrust bearings
    gas bearings
    Magnetic bearings
    scanners
    Mirrors
    mirrors
    vibration
    Air
    Rotors
    Brushless DC motors
    rotors
    Contacts (fluid mechanics)
    Stators
    Magnets
    countermeasures
    stators
    Stiffness

    ASJC Scopus subject areas

    • Electronic, Optical and Magnetic Materials
    • Computer Vision and Pattern Recognition

    これを引用

    Axial transient vibration of polygonal mirror scanner motor supported by thrust magnetic bearing and radial air bearing. / Kawamoto, Hiroyuki.

    :: Journal of Imaging Science and Technology, 巻 43, 番号 5, 09.1999, p. 484-491.

    研究成果: Article

    Kawamoto, H 1999, 'Axial transient vibration of polygonal mirror scanner motor supported by thrust magnetic bearing and radial air bearing', Journal of Imaging Science and Technology, 巻. 43, 番号 5, pp. 484-491.
    Kawamoto H. Axial transient vibration of polygonal mirror scanner motor supported by thrust magnetic bearing and radial air bearing. Journal of Imaging Science and Technology. 1999 9;43(5):484-491.
    Kawamoto, Hiroyuki. / Axial transient vibration of polygonal mirror scanner motor supported by thrust magnetic bearing and radial air bearing. :: Journal of Imaging Science and Technology. 1999 ; 巻 43, 番号 5. pp. 484-491.
    @article{5b06020514fe44fd8237cf2f19797498,
    title = "Axial transient vibration of polygonal mirror scanner motor supported by thrust magnetic bearing and radial air bearing",
    abstract = "This article describes an axial transient vibration of a polygonal mirror scanner rotor driven by a flat-type brushless DC motor and supported by a passive thrust magnetic bearing and a radial air bearing. From results of theoretical and experimental investigations, the following characteristics of the vibration, countermeasures to suppress a static displacement, and the transient vibration have been deduced: (1) Repulsive magnetic force is induced between the stator coils and rotor magnet under current passage. The force is proportional to the motor current. The force causes axial static displacement and axial transient vibration. (2) Parametric investigation deduced that: (a) higher stiffness of the magnetic bearing and lower acceleration current linearly reduce both the static displacement and the transient vibration; however, the former may reduce lifetime of the air bearing due to a dry contact with start and stop operation, and the latter prolongs the startup time; (b) soft start-stop scheme of the motor current is effective to reduce the vibration.",
    author = "Hiroyuki Kawamoto",
    year = "1999",
    month = "9",
    language = "English",
    volume = "43",
    pages = "484--491",
    journal = "Journal of Imaging Science and Technology",
    issn = "1062-3701",
    publisher = "Society for Imaging Science and Technology",
    number = "5",

    }

    TY - JOUR

    T1 - Axial transient vibration of polygonal mirror scanner motor supported by thrust magnetic bearing and radial air bearing

    AU - Kawamoto, Hiroyuki

    PY - 1999/9

    Y1 - 1999/9

    N2 - This article describes an axial transient vibration of a polygonal mirror scanner rotor driven by a flat-type brushless DC motor and supported by a passive thrust magnetic bearing and a radial air bearing. From results of theoretical and experimental investigations, the following characteristics of the vibration, countermeasures to suppress a static displacement, and the transient vibration have been deduced: (1) Repulsive magnetic force is induced between the stator coils and rotor magnet under current passage. The force is proportional to the motor current. The force causes axial static displacement and axial transient vibration. (2) Parametric investigation deduced that: (a) higher stiffness of the magnetic bearing and lower acceleration current linearly reduce both the static displacement and the transient vibration; however, the former may reduce lifetime of the air bearing due to a dry contact with start and stop operation, and the latter prolongs the startup time; (b) soft start-stop scheme of the motor current is effective to reduce the vibration.

    AB - This article describes an axial transient vibration of a polygonal mirror scanner rotor driven by a flat-type brushless DC motor and supported by a passive thrust magnetic bearing and a radial air bearing. From results of theoretical and experimental investigations, the following characteristics of the vibration, countermeasures to suppress a static displacement, and the transient vibration have been deduced: (1) Repulsive magnetic force is induced between the stator coils and rotor magnet under current passage. The force is proportional to the motor current. The force causes axial static displacement and axial transient vibration. (2) Parametric investigation deduced that: (a) higher stiffness of the magnetic bearing and lower acceleration current linearly reduce both the static displacement and the transient vibration; however, the former may reduce lifetime of the air bearing due to a dry contact with start and stop operation, and the latter prolongs the startup time; (b) soft start-stop scheme of the motor current is effective to reduce the vibration.

    UR - http://www.scopus.com/inward/record.url?scp=0002855386&partnerID=8YFLogxK

    UR - http://www.scopus.com/inward/citedby.url?scp=0002855386&partnerID=8YFLogxK

    M3 - Article

    AN - SCOPUS:0002855386

    VL - 43

    SP - 484

    EP - 491

    JO - Journal of Imaging Science and Technology

    JF - Journal of Imaging Science and Technology

    SN - 1062-3701

    IS - 5

    ER -

    文献にアクセス