Title :
Predictive Control of Series Stacked Flying-Capacitor Active Rectifiers
Author :
du Toit, Daniël ; Mouton, Hendrik du Toit ; Kennel, Ralph ; Stolze, P.
Author_Institution :
Dept. of Electr. & Electron. Eng., Stellenbosch Univ., Stellenbosch, South Africa
Abstract :
This paper considers the use of back-to-back, full-bridge, three-level flying-capacitor converters in a series-input-parallel-output connected fashion for the implementation of a solid-state transformer. A finite-control-set model-based predictive control algorithm is developed for the control of the active rectifier front-ends. Pulse width modulation is used for the isolation back-ends. A solid-state transformer is constructed with two of the proposed back-to-back converters and experimental results are presented.
Keywords :
bridge circuits; charge pump circuits; power electronics; predictive control; pulse width modulation; rectifiers; transformers; active rectifier front-end control; back-to-back converters; back-to-back full-bridge three-level flying-capacitor converters; finite-control-set model-based predictive control algorithm; isolation back-ends; predictive control; pulse width modulation; series stacked flying-capacitor active rectifiers; series-input-parallel-output connected fashion; solid-state transformer; Capacitors; Cost function; Prediction algorithms; Switches; Topology; Voltage control; Power electronics; predictive control; rectifiers;
Journal_Title :
Industrial Informatics, IEEE Transactions on
DOI :
10.1109/TII.2012.2224875
