Title :
Damping effect on precise track following for nano-motion actuator
Author :
Mori, Shigeki ; TADA, Hirohiko ; Naganawa, Akihiro ; Obinata, Goro ; Ouchi, Kazuhiro
Author_Institution :
Akita Res. Inst. of Adv. Technol., Japan
Abstract :
We have introduced a nanometer positioning actuator with a high servo bandwidth for a conventional spin-stand. The actuator was required a large working distance over 10 μm and a high resonance frequency for a positioning resolution less than 0.5 nm. As the previously designed actuator had a high peak amplitude, the servo bandwidth was restricted to a low frequency range. A new damping mechanism was introduced to the nanometer positioning actuator. Since the damping mechanism reduces the resonance peak of amplitude down to 2.5% of the original, the servo bandwidth can be expanded to fifteen times as large as that of the damperless system. The actuator with the damping mechanism is effective to improve servo-tracking performance of the spin-stand.
Keywords :
damping; disc drives; hard discs; microactuators; nanopositioning; servomechanisms; damperless system; damping effect; damping mechanism; nanometer positioning actuator; nanomotion actuator; precise track following; resonance peak; servo bandwidth; servo-tracking performance; Azimuth; Bandwidth; Damping; Hydraulic actuators; Magnetic heads; Piezoelectric actuators; Pneumatic actuators; Resonance; Resonant frequency; Servomechanisms; Damper; PZT; linear tracking; position control; precise positioning; servo writing; spin-stand; track following;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.840344
