Title :
An H∞ design method for a multi-rate servo controller and applications to a high density hard disk drive
Author_Institution :
IBM Tokyo Res. Lab., Yamato
Abstract :
This paper proposes a method of designing a multi-rate servo controller for a hard disk drive that operates at a higher sampling frequency than the position error signal. It is desirable to increase the servo performance without increasing the capacity overhead caused by the tracking information on a disk. A zero-interpolator is introduced as an up-sampling scheme to convert the plant to a higher sampling rate. Then a conventional H∞ method is applied to optimize the controller performance as well as to reduce the effects of aliasing noise caused by the up-sampling scheme. This method is also applied to the design of a dual-stage actuator system of a hard disk drive. The performances are compared with single-rate controllers and improvements of 15-50% were obtained. Experiments using a 2.5" hard disk drive were carried out and the effectiveness was confirmed
Keywords :
H∞ control; control system synthesis; disc drives; hard discs; interpolation; servomechanisms; tracking; H∞ control; hard disk drive; multirate servo controller; position error signal; sampling rate; tracking; zero-interpolator; Actuators; Design methodology; Error correction; Frequency; Hard disks; Noise reduction; Optimization methods; Sampling methods; Servomechanisms; Signal design;
Conference_Titel :
Decision and Control, 2001. Proceedings of the 40th IEEE Conference on
Conference_Location :
Orlando, FL
Print_ISBN :
0-7803-7061-9
DOI :
10.1109/.2001.980947
