Automatic Mode Switching of P/PI Speed Control for Industry Servo Drives Using Online Spectrum Analysis of Torque Command

Conventional proportional/proportional-integral (P/PI) speed controller for today's servo drives has to be manually tuned at the controller switching set point by trial and error, which may translate into drive system downtime and a subsequent loss of productivity. The adjustable drive performance is heavily dependent on the quality of expert knowledge. The performance becomes inadequate in applications where the operating conditions change in a wide range, i.e., tracking command, acceleration/deceleration time, and load disturbances. In this paper, we discuss the demands on simple controls/setups for industry servo drives. Analyzing the frequency content of the motor torque command, P/PI speed control mode switching is automatically performed with only a prior knowledge of the mechanical time constant. The dynamic performance of the proposed scheme assures a desired tracking response curve with minimal oscillation and settling time over the entire set of operating conditions. For a comprehensive comparison of conventional P/PI control scheme, we carried out extensive tests on an actual servo system.

[1]  D. P. Atherton,et al.  An analysis package comparing PID anti-windup strategies , 1995 .

[2]  Mark Sumner,et al.  Performance of FFT-rotor slot harmonic speed detector for sensorless induction motor drives , 1996 .

[3]  Hwi-Beon Shin New antiwindup PI controller for variable-speed motor drives , 1998, IEEE Trans. Ind. Electron..

[4]  G. Venkataramanan,et al.  Fast thermal profiling of power semiconductor devices using Fourier techniques , 2003, Eighteenth Annual IEEE Applied Power Electronics Conference and Exposition, 2003. APEC '03..

[5]  Niu Baoliang,et al.  A FFT-based variety-sampling-rate sine-sweep vibration controller , 2003, International Conference on Neural Networks and Signal Processing, 2003. Proceedings of the 2003.

[6]  Charles E. Hall,et al.  Authors' reply to comments on "variable-structure PID control to prevent integrator windup" , 2001, IEEE Transactions on Industrial Electronics.

[7]  Karl Johan Åström,et al.  PID Controllers: Theory, Design, and Tuning , 1995 .

[8]  Qiang Bi,et al.  Use of FFT in relay feedback systems , 1997 .

[9]  Dimitris G. Manolakis,et al.  Statistical and Adaptive Signal Processing , 2000 .

[10]  Jul-Ki Seok Frequency-Spectrum-Based Antiwindup Compensator for PI-Controlled Systems , 2006, IEEE Transactions on Industrial Electronics.