Title :
Magnetic Levitation Assisted Guide for a Linear Micro-Actuator
Author :
Ruffert, Christine ; Gehrking, Ralf ; Ponick, Bernd ; Gatzen, Hans H.
Author_Institution :
Inst. for Microtechnoloy, Hanover, NH
Abstract :
In linear micro-actuators based on the electromagnetic driving principle, attractive vertical forces are generated between stator and traveler in addition to the drive forces. These vertical forces reduce the resulting driving force of the motor depending on the quality of the applied guide system. Thus, the development of an adequate guide system with a very small friction is required to guarantee an efficient operation mode. This paper describes the development of a guide system based on repulsive magnetic forces to partially compensate the vertical forces of a linear hybrid step micromotor
Keywords :
electromagnetic actuators; linear motors; magnetic forces; magnetic levitation; microactuators; micromotors; stepping motors; electromagnetic driving; linear hybrid step micromotor; linear microactuators; magnetic guide; magnetic levitation; micro-coil; repulsive magnetic forces; resulting driving force; Coils; Electromagnets; Friction; Magnetic films; Magnetic flux; Magnetic levitation; Microactuators; Permanent magnets; Soft magnetic materials; Stators; Magnetic guide; magnetic levitation; micro-actuator; micro-coil; thin-film technology;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.879160
