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Design, Modeling, and Control of a Novel Six D.O.F Positioning System Using Magnetic Levitation
KwangSuk JUNG YoonSu BAEK
IEICE TRANSACTIONS on Electronics
Publication Date: 2000/12/25
Print ISSN: 0916-8516
Type of Manuscript: PAPER
Category: Electromechanical Devices and Components
magnetic levitation, numerical analysis, superposed solution, narrow gap principle, optimization,
Full Text: PDF(783.2KB)>>
The micro positioning systems using magnetic suspension technique, which is one of precision actuating method, have been suggested. Utilizing the various potentials such as the exclusion of a mechanical friction, they are being applied broadly to multi degrees of freedom (d.o.f) system requesting high accuracy or hybrid system requesting to be controlled position and force simultaneously. This paper presents the entire development procedure of a novel six d.o.f micro positioning system using mag-netic levitation, with a repulsive force mechanism covering the all d.o.f. First, the interactions between magnetic elements are modeled and the system design flow by an optimal location of the elements is given. A kinematic relationship between the measuring instruments and the levitated object is derived, and dynamic characteristics are identified by the narrow gap principles. And the main issues for control are discussed.