Title :
Design, dynamic analysis and control of milliactuator embedded suspension for dual-stage actuator system in hard disk drives
Author :
Yoon, Joon-Hyun ; Yang, Hyunseok ; Park, No-Cheol ; Park, Young-Pil
Author_Institution :
Hyosung Corp., Kyungki, South Korea
Abstract :
To achieve higher track density of HDDs, a new dual-stage actuator system, based on suspension, is proposed, with a design parameter study and sensitivity analysis through FEM. Based on simulation results, the prototype milliactuator embedded suspension is fabricated and experiments are carried out to identify the dynamic characteristics. It is confirmed that the suggested suspension has the structural qualifications for fine tracking as a secondary actuator, high-shock resistance and flying stability. Using the new dual-stage actuator, the attenuation related to disturbances is examined by a classical control scheme with a systematic approach. In the decoupled master-slave control structures, the attenuation is increased at all frequencies under the servo bandwidth compared with the single-stage control.
Keywords :
control system analysis; disc drives; finite element analysis; hard discs; microactuators; sensitivity analysis; servomechanisms; stability; FEM; HDD dual-stage actuator systems; decoupled master-slave control structures; disturbance related attenuation; fine tracking secondary actuator; flying stability; hard disk drive track density; milliactuator dynamic characteristics; milliactuator embedded suspension design/dynamic analysis/control; sensitivity analysis; servo bandwidth; shock resistance; systematic control scheme analysis; Actuators; Attenuation; Control system analysis; Control systems; Hard disks; Master-slave; Qualifications; Sensitivity analysis; Stability; Virtual prototyping;
Conference_Titel :
Magnetic Recording Conference, 2002. Digest of the Asia-Pacific
Conference_Location :
Singapore
Print_ISBN :
0-7803-7509-2
DOI :
10.1109/APMRC.2002.1037691
