Title :
PES reduction in magnetic disk drives via a low-TMR HGA and servo loop shaping
Author :
Kim, Young-Hoon ; Oh, Dong-Ho ; Lee, Ho Seong
Author_Institution :
Hard Disk Drive Core Technol. Group, San Jose, CA, USA
Abstract :
This paper presents a servo-mechanically combined strategy to reduce the position error signal (PES) in high-track density magnetic disk drives. In this strategy, a special head-gimbal assembly (HGA) is designed so that it can move not only vertically to the disk but also across the data tracks. It is shown that such HGAs can reduce the track misregistration (TMR) due to disk vibration, by allowing the head to move in such a way that will compensate the off-track caused by disk bending. A further reduction in the final PES is then attempted by redesigning the servo loop shape taking the reduced disk-mode disturbance into consideration. The well-known random neighborhood search method is applied to find a set of servo gains that best approximates a desired loop shape determined based on empirical knowledge. Finally, the efficacy of the proposed strategy is demonstrated experimentally by using actual sample drives.
Keywords :
disc drives; hard discs; magnetic heads; magnetic recording; vibrations; PES reduction; disk bending; disk vibration; disk-mode disturbance; head-gimbal assembly; magnetic disk drives; position error signal; random neighborhood search method; servo loop shape; track misregistration; Assembly; Density measurement; Disk drives; Frequency; Magnetic heads; Search methods; Servomechanisms; Shape; Tracking loops; Vibrations; Disk vibration; head gimbal assembly; servo loop shaping; track misregistration;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.840338
