Title :
Contact-Induced Vibration in Dual-Stage Hard Disk Drive Servo Systems and Its Compensator Design
Author :
Deqing Huang ; Venkataramanan, Venkatakrishnan ; Jian-Xin Xu ; The Cat Tuong Huynh
Author_Institution :
Dept. of Aeronaut., Imperial Coll. London, London, UK
Abstract :
This paper presents the experimental observation results of contact-induced vibration (CIV) and its compensator design in dual-stage hard disk drive servo systems, where the vibration is caused by the continuous contact of read/write head and recording media. Consistent relationships between the center frequencies and magnitudes of the vibration modes and the tested fly height, rotation speed, and track position are clearly observed and analyzed. It reveals that the CIVs excite and amplify only the resonance modes of the system. In consequence, the so-called PQ method is adopted to perform the compensator design. As such, the relative contributions to system output from the voice coil motor and lead-zirconium-titanate actuator subsystems can be well assigned in the frequency domain. The remarkable performance of the well-designed compensator is demonstrated by simulation.
Keywords :
disc drives; hard discs; mechanical contact; servomechanisms; vibration control; vibrations; CIV; PQ method; center frequencies; compensator design; contact-induced vibration; continuous contact; dual-stage hard disk drive servo systems; fly height; frequency domain; lead-zirconium-titanate actuator subsystems; read-write head; recording media; resonance modes; rotation speed; track position; vibration mode magnitudes; voice coil motor; Actuators; Bandwidth; Resonant frequency; Servomotors; Suspensions; Velocity control; Vibrations; Contact-induced vibration (CIV); fly height; hard disk drive (HDD); rotational speed; servo systems; track position; vibration control; vibration measurement;
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2013.2284147
