DocumentCode
1707140
Title
Design and Reliability Analysis of High Power DC Thyristor Breaker
Author
Wen, J.L. ; Fu, P. ; Tang, G.F. ; Liu, Z.Z.
Author_Institution
China Electr. Power Res. Inst., Beijing
fYear
2006
Firstpage
1
Lastpage
8
Abstract
As a new type of circuit interrupter, DC thyristor breaker is very suit for high power DC system, such as subway, poloidal field power supply system of TOKAMAK (nuclear fusion experiment device), in which the transfer principle and force commutation technology was applied. In this paper, firstly, design of high power DC thyristor breaker has been finished, including main circuit design, snubber circuit design, commutation circuit optimize design, charger circuit design. Secondly, the reliability analysis of high power DC thyristor breaker has been presented, such as turn-off reliability analysis, turn-on reliability analysis, on-state and off-state reliability analysis. In these design and reliability analysis, some important conclusion have been derived, especially such as optimize design formulation of commutation circuit, the influences of distribution resistance in commutated circuit, the influence of stray inductance and their dispersivity in parallel connection thyristor branches for turn-off reliability, the influences of snubber circuit design for turn-on reliability, on- state and off-state reliability and so on. At last, we finished development and experiment of a bi-directional DC thyristor breaker for the poloidal field power supply system in EAST Super-conductive TOKAMAK Experiment result validated the correctness of the work above.
Keywords
interrupters; power system reliability; thyristor applications; charger circuit design; circuit interrupter; commutated circuit; commutation circuit optimize design; distribution resistance; high power DC system; high power DC thyristor breaker; main circuit design; off-state reliability analysis; on-state reliability analysis; snubber circuit design; stray inductance; turn-off reliability analysis; turn-on reliability analysis; Circuit synthesis; Design optimization; Fusion reactors; Inductance; Interrupters; Power supplies; Power system reliability; Snubbers; Thyristors; Tokamaks; Commutation Circuits; DC Thyristor Breaker; Force Commutation Technology; Parameters Optimize; Reliability Analysis; Transfer Principle;
fLanguage
English
Publisher
ieee
Conference_Titel
Power System Technology, 2006. PowerCon 2006. International Conference on
Conference_Location
Chongqing
Print_ISBN
1-4244-0110-0
Electronic_ISBN
1-4244-0111-9
Type
conf
DOI
10.1109/ICPST.2006.321810
Filename
4116196
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