Title :
Electrostatic levitator for hard disk media
Author :
Jin, Ju ; Higuchi, Toshiro ; Kanemoto, Manabu
Author_Institution :
Hitachi Ultimate Mechatronics Project, Kanagawa Acad. of Sci. & Technol., Kawasaki, Japan
fDate :
10/1/1995 12:00:00 AM
Abstract :
This paper discusses developments in contact-less electrostatic levitators for use in ultra-high-vacuum (UHV) and clean environments. Presented is the first demonstration of an electrostatic levitation technology which can suspend disk-shaped metals and alloys. A 3.5-in diameter aluminum hard disk media has been suspended successfully by actively controlling an electrostatic attractive force acting on it. This paper describes the basic principle of electrostatic suspension, the structure of an experimental levitator, electrode design, position feedback control method, a linear system model, and operational procedures. In addition, experimental data are given to confirm the suspension. The electrostatic levitation technology will be a key technique in the developments of contactless and friction-free manipulation and transportation equipments utilized in UHV and clean environments, both of which are necessary for the manufacture of the new generation of semiconductor devices
Keywords :
electric variables control; electrodes; electrostatic devices; feedback; hard discs; linear systems; position control; clean environments; electrode design; electrostatic attractive force control; electrostatic levitator; friction-free manipulation; hard disk media; linear system model; operational procedures; position feedback control; semiconductor devices manufacture; transportation equipment; ultra-high-vacuum; Aluminum; Electrodes; Electrostatic levitation; Feedback control; Force control; Hard disks; Linear systems; Semiconductor device manufacture; Semiconductor devices; Transportation;
Journal_Title :
Industrial Electronics, IEEE Transactions on
