Lowering the hump of sensitivity functions for discrete-time dual-stage systems

This brief is concerned with servo loop design in the discrete-time domain that aims to achieve a low-hump sensitivity function for dual-stage hard disk drive (HDD) systems. Sensitivity functions for the discrete-time dual-stage systems are analyzed on the basis of the Bode integral theorem. A 3-dB sensitivity function hump is achieved in simulation for the discrete-time dual-stage actuation system with a piezoelectric (PZT) microactuator (MA) using the H/sub /spl infin// loop shaping method and the proposed linear matrix inequality (LMI) approach. Additionally, implementation is done for the PZT MA dual-stage system and a sensitivity function with the magnitude lower than 3 dB being achieved.

[1]  Guoxiao Guo,et al.  Modified adaptive feedforward runout compensation for dual-stage servo system , 2000 .

[2]  H. W. Bode,et al.  Network analysis and feedback amplifier design , 1945 .

[3]  M. Tokuyama,et al.  Numerical simulation of positioning error caused by air-flow-induced vibration of head gimbals assembly in hard disk drive , 2002, Digest of the Asia-Pacific Magnetic Recording Conference.

[4]  Long Chen,et al.  Design for control: A concurrent engineering approach for mechatronic systems design , 2001 .

[5]  Guoxiao Guo,et al.  Adaptive cancellation of microactuator resonance in hard disk drives , 2000 .

[6]  Bing-Fei Wu,et al.  A simplified approach to Bode's theorem for continuous-time and discrete-time systems , 1992 .

[7]  J. Geromel,et al.  An LMI optimization approach to multiobjective controller design for discrete-time systems , 1999, Proceedings of the 38th IEEE Conference on Decision and Control (Cat. No.99CH36304).

[8]  Roberto Horowitz,et al.  Mechatronics of electrostatic microactuators for computer disk drive dual-stage servo systems , 2001 .

[9]  Toshiki Hirano,et al.  Dual-stage servo controller for HDD using MEMS microactuator , 1999 .

[10]  R. Ehrlich,et al.  Major HDD TMR sources and projected scaling with TPI , 1999 .

[11]  Guoxiao Guo,et al.  Modified dual-stage controller for dealing with secondary-stage actuator saturation , 2003 .

[12]  Seung-Hi Lee,et al.  Two degree-of-freedom dual-stage actuator controller design for hard disk drives , 2000 .

[13]  Te-ho Wu,et al.  Evolution of magnetization reversal on patterned magnetic elements , 2000 .

[14]  Roberto Horowitz,et al.  Micro-actuators for high density disk drives , 1997, Proceedings of the 1997 American Control Conference (Cat. No.97CH36041).

[15]  Guoxiao Guo,et al.  Vibration analysis and control design comparison of HDDs using fluid bearing and ball bearing spindles , 2002, Proceedings of the 2002 American Control Conference (IEEE Cat. No.CH37301).

[16]  Yaolong Lou,et al.  A novel in-slider piezoelectric micro-actuator for hard disc drives , 2002, Digest of the Asia-Pacific Magnetic Recording Conference.

[17]  Guoxiao Guo,et al.  MCK-1 CONTROL STRATEGIES FOR WRITING SERVO TRACKS NARROWER THAN 5 MICRO INCHES , 2003 .

[18]  H. T. Ho Noise impact on servo TMR , 1997, Proceedings of the 1997 American Control Conference (Cat. No.97CH36041).

[19]  S. Nakagawa,et al.  A phase-stabilized servo controller for dual-stage actuators in hard disk drives , 2002, Digest of the Asia-Pacific Magnetic Recording Conference.

[20]  Lin Guo,et al.  Disk flutter and its impact on HDD servo performance , 2000, 2000 Asia-Pacific Magnetic Recording Conference. Digests of APMRC2000 on Mechanical and Manufacturing Aspects of HDD (Cat. No.00EX395).