An Integrated Controlled-Current PWM Rectifier Chopper Link for Sliding Mode Position Control

Position controllers must handle kinetic energy exchanges during acceleration and deceleration of large inertias. Temporary buffer storage in capacitors is expensive. The system that can manage the power exchange with ease is the integrated controlled-current pulsewidth-modulated (PWM) rectifier/controlled-current PWM chopper link. Bidirectional power is accomplished by bidirectional current flow in the dc link for both modulators. The three-phase currents in the rectifier side are near sinusoidal in waveform at unity power factor. The performance of the system as a position controller in an environment of the sliding mode strategy is studied. The sliding mode strategy offers robust characteristics to the controller.

[1]  Boon-Teck Ooi,et al.  Characteristics of a Controlled-Current PWM Rectifier-Inverter Link , 1987, IEEE Transactions on Industry Applications.

[2]  B.T. OOi,et al.  An integrated AC drive system using a controlled-current PWM rectifier/inverter link , 1986, 1986 17th Annual IEEE Power Electronics Specialists Conference.

[3]  Donald W. Novotny,et al.  Current Control of VSI-PWM Inverters , 1985, IEEE Transactions on Industry Applications.

[4]  Boon Teck Ooi,et al.  A Three-Phase Controlled-Current PWM Converter with Leading Power Factor , 1987, IEEE Transactions on Industry Applications.

[5]  Hideki Hashimoto,et al.  Mosfet converter-fed position servo system with sliding mode control , 1983, 1983 IEEE Power Electronics Specialists Conference.

[6]  John L. Oldenkamp,et al.  A Study of System Losses in a Transistorized Inverter-Induction Motor Drive System , 1985, IEEE Transactions on Industry Applications.

[7]  Allan B. Plunkett,et al.  Transistorized PWM Inverter-Induction Motor Drive System , 1983, IEEE Transactions on Industry Applications.

[8]  Hideki Hashimoto,et al.  MOSFET Converter-Fed Position Servo System with Sliding Mode Control , 1985, IEEE Transactions on Industrial Electronics.