Title :
Feedforward control for reducing disk-flutter-induced track misregistration
Author :
Guo, Guoxiao ; Zhang, Jingliang
Author_Institution :
A*STAR Data Storage Inst., Nat. Univ. of Singapore, Singapore
fDate :
7/1/2003 12:00:00 AM
Abstract :
We show in this paper that the disk vertical vibration signal picked from the slider in a hard disk drive has a fairly good correlation to the track misregistration at the disk flutter frequencies. We propose to introduce a feedforward controller into the usual servo loop to reduce disk-flutter-induced track misregistration (TMR). The feedforward controller is an approximated differential element with the disk vertical direction velocity as input. In our experimental setup, we show that such a method can reduce the TMR induced by the first four disk flutter modes by an average of about 56%. The method can potentially be used in high-track-per-inch servo track writers to reduce the written-in repeatable runouts.
Keywords :
compensation; control system synthesis; disc drives; feedforward; hard discs; servomechanisms; vibration control; HDD; approximated differential element; disk flutter frequencies; disk vertical vibration signal; disk-flutter-induced track misregistration; feedforward controller; hard disk drive; high-track-per-inch servo track writers; multisensing servo; servo loop; slider; track misregistration reduction; vibration control; written-in repeatable runouts reduction; Actuators; Bandwidth; Filters; Frequency; Hard disks; Magnetic noise; Narrowband; Servomechanisms; Tracking loops; Vibrations;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2003.814287
