DocumentCode
965515
Title
Optimization Design of High-Voltage-Balancing Circuit Based on the Functional Model of IGCT
Author
Bai, Hua ; Zhao, Zhengming ; Eltawil, Mohamed ; Yuan, Liqiang
Author_Institution
Tsinghua Univ., Beijing
Volume
54
Issue
6
fYear
2007
Firstpage
3012
Lastpage
3021
Abstract
Integrated gate commutated thyristors (IGCTs) are commonly used for high-voltage three-level pulsewidth-modulation-controlled voltage-source inverters. IGCTs are utilized in series connection when the output voltage is greater than the maximum rated voltage. Special measure must be taken to ensure the safety and reliable operation of the inverters, and to equalize the voltages across the IGCT modules, such as the dynamic voltage-balancing circuit using an snubber circuit. Based on the IGCT functional model, this paper presents an optimization design procedure of a high-voltage-balancing circuit for a 6-kV/1250-kW inverter. A tradeoff is made between the voltage imbalance, maximum turn-on current, endurance, and losses. Simulation and experiments validate the feasibility of this procedure. In addition, the specific transient processes in the three-level topology with voltage-balancing circuit are simulated, and their inner mechanisms are analyzed.
Keywords
invertors; optimisation; snubbers; thyristors; IGCT modules; functional model; high-voltage balancing circuit; high-voltage inveters; integrated gate commutated thyristors; optimization; power 1250 kW; pulsewidth modulation; series connection; snubber circuit; three-level topology; voltage 6 kV; voltage-source inverters; Circuit simulation; Design optimization; Integrated circuit measurements; Integrated circuit reliability; Pulse inverters; Safety; Snubbers; Thyristors; Transient analysis; Voltage measurement; Dead band; dynamic balancing circuit; integrated gate commutated thyristor (IGCT); three-level inverter;
fLanguage
English
Journal_Title
Industrial Electronics, IEEE Transactions on
Publisher
ieee
ISSN
0278-0046
Type
jour
DOI
10.1109/TIE.2007.907002
Filename
4376274
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