Title :
Feedforward decoupling control design for dual-actuator system in hard disk drives
Author :
Zheng, Jinchuan ; Guo, Guoxiao ; Wang, Youyi
Author_Institution :
Data Storage Inst., Singapore
fDate :
7/1/2004 12:00:00 AM
Abstract :
The dual-actuator hard disk drive (HDD) with two actuators mounted in the diagonal corners of the baseplate allows faster data access with relatively slower spindle speed. However, the mechanical interaction between the actuators tends to affect the head positioning accuracy. In this paper, the dual-actuator structure is formulated as a dual-input dual-output (DIDO) system and then identified in frequency domain. Based on the interaction models, the feedforward decoupling control (FDC) is developed to compensate for the vibration due to interaction. Experimental results on a dual-actuator prototype demonstrate that the position error signal (PES) value due to interaction is reduced by 72% even under the severest condition.
Keywords :
actuators; feedforward; hard discs; DIDO system; PES value; baseplate corner mounting; data access; dual-actuator prototype; dual-actuator system; dual-input; dual-output; feedforward decoupling control; frequency domain; hard disk drives; head positioning accuracy; mechanical actuator interaction; position error signal; spindle speed; vibration compensation; Actuators; Control design; Control systems; Costs; Degradation; Frequency domain analysis; Hard disks; Memory; Shape control; Vibrations; Dual-actuator; feedforward decoupling control; hard disk drive; interaction;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.832483
