{A fast current control method for voltage type PWM AC-DC converter system}

Title{A fast current control method for voltage type PWM AC-DC converter system}
Publication TypeConference Paper
Year of Publication1994
AuthorsDraou A, Sato Y, Kataoka T
Conference NameIndustrial Electronics, Control and Instrumentation, 1994. IECON '94., 20th International Conference on
ISBN NumberVO - 1
KeywordsAC-DC power converters, AC-DC power convertors, Analog-digital conversion, Capacitors, circuit analysis computing, circuit oscillations, compensation, Computational modeling, computer simulation, control system, control system analysis computing, control system synthesis, Current control, DC offset, DC output current, DC output voltage, digital simulation, electric current control, fast current control method, feedback, feedback gains, filter capacitor, filter reactors, Filters, Inductors, LC filter, oscillations, power engineering computing, power filters, Pulse width modulation, Pulse width modulation converters, PWM AC/DC power converter, PWM pattern generator, PWM power convertors, state variables, Transient response, Voltage control
AbstractThis paper proposes a new fast current control method for a voltage type PWM AC/DC power converter with an LC filter on its AC side. In this control method, the state variables of the filter capacitor and filter reactors are fed back to the PWM pattern generator to compensate an inherent DC offset of the source current as well as oscillations of the DC output current and voltage during transients. Computer simulation of the power converter system is used to determine an optimum set of feedback gains of the control system. Simulation results show that the transient responses of source current and DC output current and voltage are improved greatly. The experimental results of the proposed system have confirmed the simulated results and showed that the transient current and voltage responses can be significantly improved and can be made very fast. The proposed control strategy can be applied successfully to both rectifying and inverting modes of operation