Title :
Design and development of milliactuator embedded suspension for dual stage system in hard disk drives
Author :
Hong, Eo-Jin ; Yoon, Joon-Hyun ; Park, No-Cheol ; Yang, Hyun-Seok ; Park, Young-Pil
Author_Institution :
Center for Inf. Storage Device, Yonsei Univ., Seoul, South Korea
Abstract :
To realize higher track density of HDD, the servo bandwidth should be higher, however, is limited by the mechanical resonances of the arm, coil of the VCM and ball bearing pivot. One approach to overcoming the problem is using dual stage servo system. For this system, we have suggested new milliactuator based on the shear mode of piezoelectric elements to drive the head suspension assembly. The initial model introduced is the APMRC 2002, and now we improve that model. The milliactuator is added flexure structure for femto slider and applied optimal design process. The objective function is to maximize frequencies of 2nd torsional mode and sway mode with stable compliance of the disk flutter. The improved suspension with milliactuator is analyzed about shock characteristics for mobile application.
Keywords :
coils; design engineering; disc drives; hard discs; magnetic heads; optimisation; piezoelectric actuators; servomechanisms; suspensions (mechanical components); APMRC 2002; HDD; arm; ball bearing pivot; disk flutter; dual stage servo system; femtoslider; flexure structure; hard disk drives; head suspension assembly; higher track density; mechanical resonances; milliactuator embedded suspension; mobile application; optimal design process; piezoelectric elements; servo bandwidth; shear mode; shock characteristics; sway mode; torsional mode; voice coil motor coil; Assembly systems; Ball bearings; Bandwidth; Coils; Electric shock; Frequency; Hard disks; Process design; Resonance; Servomechanisms;
Conference_Titel :
Asia-Pacific Magnetic Recording Conference, 2004. APMRC 2004
Print_ISBN :
0-7803-8717-1
DOI :
10.1109/APMRC.2004.1521923
