Midfrequency disturbance suppression via micro-actuator in dual-stage HDDs

Author

Wu, Daowei ; Guo, Guoxiao ; Chong, Tow C.

Author_Institution

Data Storage Inst., Singapore, Singapore

Volume

38

Issue

5

fYear

2002

fDate

9/1/2002 12:00:00 AM

Firstpage

2189

Lastpage

2191

Abstract

In hard disk drives (HDDs), it is difficult for the single-stage servo system to suppress the disturbance within the midfrequency band (1-3 kHz) because of the limited servo bandwidth. This article presents a dual-stage control design using a peak filter to deal with the midfrequency narrow-band disturbances caused by disk flutter or windage. The technique of initializing the states of the peak filter is proposed to preserve the smoothness of transient response when the dual-stage servo loop is switched on from track-seeking to track-following. Experimental results demonstrated that the proposed dual-stage control scheme could effectively suppress the midfrequency disturbance without compromising the settling performance. This method would enhance the disturbance attenuation of the dual-stage servo system for higher track density in HDDs.

Keywords

band-stop filters; disc drives; hard discs; microactuators; notch filters; servomechanisms; 1 to 3 kHz; disk flutter; disturbance attenuation; dual-stage HDD; dual-stage control design; dual-stage servo system; hard disk drives; higher track density; limited servo bandwidth; microactuator; midfrequency disturbance suppression; midfrequency narrow-band disturbances; peak filter; settling performance; single-stage servo system; smoothness; track-following; track-seeking; transient response; windage; Attenuation; Bandwidth; Control design; Filters; Hard disks; Microactuators; Narrowband; Servomechanisms; Tracking loops; Transient response;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2002.801862

Filename

1042133