Automated Design of a High-Power High-Frequency LCC Resonant Converter for Electrostatic Precipitators

This work presents an automated design procedure for series parallel resonant converters (LCC) employed in electrostatic precipitator (ESP) power supplies, which reduces the designer effort significantly. The requirements for the power supplies in ESP applications and means to derive an accurate mat...

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Bibliographic Details
Published in:IEEE transactions on industrial electronics (1982) 2013-11, Vol.60 (11), p.4805-4819
Main Authors: Soeiro, T. B., Muhlethaler, J., Linner, J., Ranstad, P., Kolar, J. W.
Format: Article
Language:English
Subjects:
Electrostatic precipitators
global optimization
Insulated gate bipolar transistors
LCC resonant converter
Mathematical model
Power supplies
Resonant frequency
Switching frequency
Zero current switching
Zero voltage switching
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Summary:This work presents an automated design procedure for series parallel resonant converters (LCC) employed in electrostatic precipitator (ESP) power supplies, which reduces the designer effort significantly. The requirements for the power supplies in ESP applications and means to derive an accurate mathematical model of the LCC converter, such as the power loss from commercial insulated-gate bipolar transistors, are described in detail in this paper. The converter parameters, such as resonant tank elements, are selected in order to improve the overall efficiency of the system, when a typical ESP energization operation range is considered. The analysis comprises two different control strategies: the conventional variable frequency control and the dual control. Both control strategies are analyzed by comparing semiconductor losses of five commercial modules. Finally, the circuit operation and design are verified with a 60 kW LCC resonant converter test setup.
ISSN:0278-0046
1557-9948
DOI:10.1109/TIE.2012.2227897