Title :
Startup Procedure for DSP-Controlled Three-Phase Six-Switch Boost PFC Rectifier
Author :
Kumar, Misha ; Huber, Laszlo ; Jovanovic, Milan M.
Author_Institution :
Dept. of Power Electron. Lab., Delta Products Corp., Research Triangle Park, NC, USA
Abstract :
In three-phase applications, the six-switch boost power factor correction rectifier is the most widely employed topology because of its good performance and cost effectiveness. A vast amount of literature that deals with this circuit is exclusively focused on various control schemes aimed at optimizing different aspects of its steady-state and/or transient performance. However, almost no literature is available on its startup procedure, which is an indispensable part of control design of any practical circuit. To fill this gap, in this paper, a detailed startup procedure is described. This three-step startup procedure ensures that the inrush currents stay below a specified level and that the output voltage increases monotonically to its reference value, i.e., it does not exhibit any overshoot. The proposed startup procedure is illustrated with MATLAB/Simulink simulation waveforms and also experimentally verified.
Keywords :
digital signal processing chips; power factor correction; rectifiers; DSP-controlled rectifier; MATLAB-Simulink simulation waveforms; boost PFC rectifier; power factor correction; startup procedure; steady-state performance; three-phase six-switch rectifier; transient performance; Digital signal processing; Feedforward neural networks; Inductors; Rectifiers; Surges; Switches; Voltage control; Average-current control; balanced input voltages; digital signal processor (DSP); duty-cycle soft start; inrush current; output-voltage overshoot; startup procedure; startup resistor; three-phase six-switch boost power factor correction (PFC) rectifier; unbalanced input voltages;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2014.2351752
