Title :
Power Electronic Traction Transformer: Efficiency Improvements Under Light-Load Conditions
Author :
Besselmann, Thomas ; Mester, Akos ; Dujic, Drazen
Author_Institution :
ABB Corp. Res., ABB Switzerland Ltd., Baden, Switzerland
Abstract :
Power electronic transformer (PET), a converter technology that utilizes power semiconductors in combination with medium-frequency transformers, is considered a promising solution for certain applications requiring flexible galvanic isolation. Among are those where space occupied by bulky low-frequency transformers is of concern and/or where advanced power quality control features are needed. In this paper, the PET for a single-phase traction on-board application is discussed with emphasis on the efficiency improvements and reductions of energy consumption during the operation on the vehicle. Several control algorithms devised to improve efficiency under light-load conditions are tested on a low-voltage prototype of the PET, and experimental results are presented demonstrating the effectiveness of the proposed algorithms.
Keywords :
power supply quality; power transformers; resonant power convertors; traction; PET; advanced power quality control features; bulky low-frequency transformers; converter technology; energy consumption REDUCTION; flexible galvanic isolation; light-load conditions; low-voltage prototype; medium-frequency transformers; power electronic traction transformer; power semiconductors; resonant converter; single-phase traction onboard application; Insulated gate bipolar transistors; Positron emission tomography; Prototypes; Rail transportation; Switches; Switching loss; Multilevel converters; power electronic transformer (PET); resonant converter (RC); traction application;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2013.2293402
