Design Considerations for Achieving High Radial Stiffness in an Attraction-Type Magnetic Bearing With Control in a Single Direction

Author

Da Silva, Izael ; Cardoso, Jose Roberto ; Horikawa, O.

Author_Institution

Dept. of Chem. Eng., Fed. Univ. of Sao Paulo-UNIFESP, Diadema, Brazil

Volume

47

Issue

10

fYear

2011

Firstpage

4112

Lastpage

4115

Abstract

In past work, the authors have proposed a radial magnetic bearing architecture where the rotor was kept suspended only by means of magnetic forces produced by permanent magnets working in attraction mode and the rotor was actively controlled only in one degree of freedom (d.o.f.), i.e., its axial direction. Although the presented architecture is simpler than those bearings with active control in two or more d.o.f., it presented limitations mainly of low radial stiffness. So, in this context this paper discusses ways to enhance the radial stiffness in this kind of bearing and presents simplified analytical methods used to find magnets and actuator optimal dimensions that gives both ring magnets radial stiffness and actuator force/current ratio maximum intensities.

Keywords

elasticity; magnetic bearings; magnetic variables control; power amplifiers; active control; attraction-type magnetic bearing; gap sensor; magnetic forces; one degree of freedom; permanent magnets; power amplifier; radial magnetic bearing architecture; radial stiffness; rotors; Actuators; Force; Magnetic cores; Magnetic forces; Magnetic levitation; Magnetic separation; Magnetomechanical effects; Hybrid magnetic bearing; single axis controlled magnetic bearing; stiffness improvement;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2011.2144959

Filename

6027854