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Design of a repetitive controller: an application to the track-following servo system of optical disk drives

Design of a repetitive controller: an application to the track-following servo system of optical disk drives

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  • Author(s): T.-Y. Doh 1 ; J.R. Ryoo 2 ; M.J. Chung 3
    • View affiliations
    • Affiliations: 1: Department of Control and Instrumentation Engineering, Hanbat National University, Daejeon, Korea
      2: Department of Control and Instrumentation Engineering, Seoul National University of Technology, Nowon-gu, Korea
      3: Division of Electrical Engineering, Department of Electrical Engineering and Computer Science, Korea Advanced Institute of Science and Technology, Daejeon, Korea
  • Source: Volume 153, Issue 3, May 2006, p. 323 – 330
    DOI:  10.1049/ip-cta:20045217 , Print ISSN 1350-2379, Online ISSN 1359-7035
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In an optical disk drive servo system, disturbances with significant periodic components cause tracking errors of a periodic nature. As an effective control scheme for improving periodic disturbance attenuation performance, repetitive control has been applied successfully to the track-following servo system of optical disk drives. The increase in disk rotational speed to achieve a better data throughput leads to the increase in the frequency of periodic disturbance, which needs a high loop gain in a wider control bandwidth. However, this requirement is not easily accomplished because plant uncertainty hinders selecting the bandwidth of a filter in the repetitive controller. The problem of add-on type repetitive controller design for a track-following servo with norm-bounded uncertainties in optical disk drives with high rotational speed is examined. Using the Lyapunov functional for time-delay systems, a sufficient condition for robust stability of the repetitive control system is derived in terms of an algebraic Ricatti inequality or a linear matrix inequality (LMI). On the basis of the derived condition, it is shown that the repetitive controller design problem can be reformulated as an optimisation problem with an LMI constraint on the free parameter. The validity of the proposed method is verified through experiments using a DVD-ROM drive.

Inspec keywords: optimisation; disc drives; servomechanisms; digital versatile discs; control system synthesis; stability; delay systems; Lyapunov methods; position control; linear matrix inequalities

Other keywords: algebraic Ricatti inequality; track-following servo system; DVD-ROM drive; linear matrix inequality; optical disk drives; norm-bounded uncertainties; time-delay systems; Lyapunov function; repetitive controller design; periodic disturbance attenuation performance

Subjects: Control system analysis and synthesis methods; Optimisation techniques; Stability in control theory; Spatial variables control; Optical storage; Algebra

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