DocumentCode
1882508
Title
Comparison of resonant topologies for step-down applications using piezoelectric transformers
Author
Bisogno, F.E. ; Radecker, M. ; Knoll, A. ; Carazo, A.V. ; Riedlhammer, A. ; Deboy, G. ; Norvez, N. ; Pacas, I.M.
Author_Institution
Fraunhofer-Inst. fur Autonome Inteligent Syst., Germany
Volume
4
fYear
2004
fDate
2004
Firstpage
2662
Abstract
A 1 to 5 Watts wide-range power supply demonstrator with a transoner-type piezoelectric transformer (PT) has been built in class E topology to show the full functionality of an off-line power supply. A basic design target was the ZVS or near-ZVS behaviour, which was achieved for 3 Watts and 6 V output at input voltages between 85 and 260 V AC, and for 5 Watts and 6 V output at Vin = 150 to 260 V AC, respectively, using one and the same PT sample. The PT was 2.3 mm thick, and had a diameter of 17 mm. The used fieldstop-IGBT 1 A-type shows losses less than 700 mW over the full operating range for constant output voltage optimization, and less than 250 mW, for maximum efficiency optimization, respectively, at frequencies of 155 to 172 kHz. The measured overall worst case efficiency of the converter (without rectifiers) has been accordingly 70.5%, and 82.4%, respectively. The application is suited for smart-card format power supplies below 5 mm thickness. Compared to the half-bridge, the class E concept, as a current fed topology, promises better EMI suppression by the input inductor than a half-bridge, lower switch current peaks, and a larger control bandwidth at the same frequency. Further, it was demonstrated with the class E concept, that it is possible to keep the output voltage constant, using the resonant tank with the output capacitance. Thus, output charging capacitors can be made very small, compared to fly-back converters or other hard-switching conventional topologies. The measurements had been in good agreement with the differential equations analysis and the SPICE simulation, as well. These results led to current projects for mass market applications using the class E topology, and alternatively the half-bridge for higher power levels.
Keywords
SPICE; bridge circuits; differential equations; insulated gate bipolar transistors; network topology; optimisation; piezoelectric devices; power convertors; transformers; 1 to 5 W; 150 to 260 V; 155 to 172 kHz; 6 V; SPICE simulation; class E topology; differential equations; fieldstop-IGBT; fly-back converters; off-line power supply; power supply demonstrator; resonant topologies; smart-card format power supplies; transoner-type piezoelectric transformer; voltage optimization; Electromagnetic interference; Frequency; Inductors; Power supplies; Rectifiers; Resonance; Switches; Topology; Transformers; Zero voltage switching;
fLanguage
English
Publisher
ieee
Conference_Titel
Power Electronics Specialists Conference, 2004. PESC 04. 2004 IEEE 35th Annual
ISSN
0275-9306
Print_ISBN
0-7803-8399-0
Type
conf
DOI
10.1109/PESC.2004.1355252
Filename
1355252
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