High-bandwidth servo control designs for magnetic disk drives

被引:0
|
作者
Kobayashi, M [1 ]
Nakagawa, S [1 ]
Atsumi, T [1 ]
Yamaguchi, T [1 ]
机构
[1] Hitachi Ltd, Mech Engn Res Lab, Tsuchiura, Ibaraki 3000013, Japan
来源
2001 IEEE/ASME INTERNATIONAL CONFERENCE ON ADVANCED INTELLIGENT MECHATRONICS PROCEEDINGS, VOLS I AND II | 2001年
关键词
D O I
暂无
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
In order to attain high track density, a head must accurately follow position information recorded on a disk. To achieve high accuracy head positioning, disk drives require increased servo bandwidth. However, servo bandwidth is restricted by the main resonance frequency of an actuator and by the sampling frequency. In this paper, we discuss several servo technologies for high TPI. First, we present the limit of the servo bandwidth of digital loop-shaping servo methods to the mechanical resonance at which the main resonance frequency of a VCM actuator is 5 kHz, and the sampling time is 30 mus. We show that the 1.5 kHz servo bandwidth can be attained by using a phase stabilized compensation method. It is also shown that by using the main resonance pole zero compensation method drawn from H-infinity theory, the servo bandwidth increases 1.1 times. Next, we discuss a vibration-sensing feedback method which uses a sensor to measure and carry out analog feedback of the main resonance characteristic of the VCM actuator. The resonance mode can be suppressed by the vibration-sensing feedback servo, and it is shown that the servo bandwidth increases 1.2 times. Finally, we present the phase stabilized compensation design for a dual-stage actuator. The 2-kHz servo bandwidth is achieved when the main resonance frequency of the fine PZT actuator is set to 7 kHz. The impulse response characteristic of each control system, from the torque disturbance to the head, is also discussed.
引用
收藏
页码:1124 / 1129
页数:2
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