DocumentCode
722490
Title
1MW bi-directional DC solid state circuit breaker based on air cooled reverse blocking-IGCT
Author
Agostini, Francesco ; Vemulapati, Umamaheswara ; Torresin, Daniele ; Arnold, Martin ; Rahimo, Munaf ; Antoniazzi, Antonello ; Raciti, Luca ; Pessina, Davide ; Suryanarayana, Harish
Author_Institution
Corp. Res., ABB Switzerland Ltd., Baden-Dättwil, Switzerland
fYear
2015
fDate
21-24 June 2015
Firstpage
287
Lastpage
292
Abstract
In this paper, we present the development of an air-cooled 1MW bi-directional DC Solid State Circuit Breaker (SSCB) based on recently developed 91mm, 2.5kV Reverse Blocking-IGCT (RB-IGCT). The power electronic switch (RB-IGCT) has been designed and optimized to have very low conduction losses, less than 1kW at 1kA (on-state voltage drop <; 1V at 1kA, 400K) and high turn-off current capability (> 6.5kA at 1.6kV, 400K) which are the most important concerns of semiconductor based circuit breaker. We also present the simulation and experimental results at the system level i.e. analyzed the influence of the Surge Arrester (SA) on the over-voltage transients during current interruption. We also analyzed the thermal management for the newly developed SSCB using ANSYS Icepak and validated experimentally.
Keywords
arresters; circuit breakers; finite element analysis; interrupters; losses; overvoltage protection; power semiconductor switches; thermal management (packaging); ANSYS; SSCB; air cooled reverse blocking-IGCT; bidirectional DC solid state circuit breaker; conduction losses; current interruption; overvoltage transients; power 1 MW; power electronic switch; semiconductor based circuit breaker; size 91 mm; surge arrester; thermal management; voltage 2.5 kV; Arresters; Cooling; Semiconductor device measurement; Surges; Switches; Switching circuits; Cooling; IGCT; Power Semiconductor Switch; Reverse Blocking-IGCT; Solid State Circuit Breaker; Thermal Management;
fLanguage
English
Publisher
ieee
Conference_Titel
Electric Ship Technologies Symposium (ESTS), 2015 IEEE
Conference_Location
Alexandria, VA
Print_ISBN
978-1-4799-1856-0
Type
conf
DOI
10.1109/ESTS.2015.7157906
Filename
7157906
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