A Novel Submodule Applied in HVDC Hybrid DC Breaker Topology

Wu Junmin; Zhang Xizi; Li Cui; Zhang Jun; Zhao Zhibin

doi:10.1051/e3sconf/20186404003

All issues

Volume 64 (2018)

E3S Web Conf., 64 (2018) 04003

References

Open Access

Issue		E3S Web Conf. Volume 64, 2018 2018 3^rd International Conference on Power and Renewable Energy


Article Number		04003
Number of page(s)		5
Section		Electrical Theory and New Technology
DOI		https://doi.org/10.1051/e3sconf/20186404003
Published online		27 November 2018

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Huang A, Peng C, Song X. Design and development of a 7.2 kV/200A hybrid circuit breaker based on 15 kV SiC emitter turn-off (ETO) thyristor[C]// Electric Ship Technologies Symposium. IEEE, 2015. [Google Scholar]
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W. GRIESHABER, L. VIOLLEAU “Development and test of a 120 kV direct current circuit breaker”[C] (Cigré session 2014) [Google Scholar]
Wei xioaguang, Gao chong, Luo xiang, et al. Design scheme of new high voltage DC circuit breaker for flexible DC transmission network [J]. Automation of Electric Power Systems, 2013, 37 (15): 95–102. [Google Scholar]
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Zhang xuena, Zhao chengyong, Pang hui et al. Mmc - based DC side fault control and protection strategy for multi-terminal DC transmission system [J]. Automation of Electric Power Systems, 2013, 37 (15): 140-145. [CrossRef] [Google Scholar]
Wang shanshan, Zhou xiaoxin, Tang gaungfu, et al. Analysis of over-current of modular multilevel converter HVDC module with double extremely short path [J]. Proceedings of the CSEE, 2011 (1): 1-7. [Google Scholar]
Hassanpoor A, Hafner J, Jacobson B. Technical assessment of load commutation switch in hybrid HVDC breaker[J]. IEEE Transactions on Power Electronics, 2014, 30 (10): 3667-3673. [Google Scholar]
Cwikowski O, Barnes M, Shuttleworth R, et al. Analysis and simulation of the proactive hybrid circuit breaker[C]// IEEE, International Conference on Power Electronics and Drive Systems. IEEE, 2015. [Google Scholar]
Basler T, Lutz J, Jakob R, et al. The influence of asymmetries on the parallel connection of IGBT chips under short-circuit condition[C]// - European Conference on Power Electronics and Applications. IEEE, 2011: 1–8. [Google Scholar]
Musing A, Ortiz G, Kolar J W. Optimization of the current distribution in press-pack high power IGBT modules[C]// Power Electronics Conference. 2010: 1139-1146. [Google Scholar]
Lutz J. Packaging and Reliability of Power Modules[C]// International Conference on Integrated Power Systems. VDE, 2014: 1-8. [Google Scholar]
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Basler T, Lutz J, Jakob R, et al. Surge current capability of IGBTs[C]// International Multi-Conference on Systems, Signals and Devices, Ssd. 2012: 1-6. [Google Scholar]

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[1] Wen Jialiang, Ge jun, Pan yan, et al. Development and prospect of power electronic devices for DC power network [J]. Power System Technology, 2016 (3). [Google Scholar]

[2] Wen Jialiang, Wu rui, Peng chang et al. Analysis of application prospect of DC power network in China [J]. Proceedings of the CSEE, 2012, 32 (13): 7-12. [Google Scholar]

[3] Xu zheng, Tu ruiqing, Qiu peng. Looking at the development direction of DC power transmission technology from the 2010 international power grid conference [J]. High Voltage Engineering, 2010, 36: 3070-3077. [Google Scholar]

[4] Wen jun, Zhang yigong, Han minxiao, et al. A new generation of HVDC technology [J]. Power System Technology, 2003, 01: 47-51. [Google Scholar]

[5] Huang A, Peng C, Song X. Design and development of a 7.2 kV/200A hybrid circuit breaker based on 15 kV SiC emitter turn-off (ETO) thyristor[C]// Electric Ship Technologies Symposium. IEEE, 2015. [Google Scholar]

[6] Franck C M. HVDC circuit breakers?A review identifying future research needs[J]. Power Delivery. IEEE Transactions on, 2011, 26(2): 998-1007. [CrossRef] [Google Scholar]

[7] JÜRGEN HÄFNER, BJÖRN JACOBSON” Proactive Hybrid HVDC Breakers - A key innovation for reliable HVDC grids”[C] (Cigré session 2012) [Google Scholar]

[8] Eicher S, Rahimo M, Tsyplakov E. 4.5kV Press Pack IGBT Designed for Ruggedness and Reliability[J]. Power Electronics, 2004, 3: 1534-1539 vol.3. [Google Scholar]

[9] W. GRIESHABER, L. VIOLLEAU “Development and test of a 120 kV direct current circuit breaker”[C] (Cigré session 2014) [Google Scholar]

[10] Wei xioaguang, Gao chong, Luo xiang, et al. Design scheme of new high voltage DC circuit breaker for flexible DC transmission network [J]. Automation of Electric Power Systems, 2013, 37 (15): 95–102. [Google Scholar]

[11] DC research institute of China netcom research institute: “the 200 kv high voltage DC circuit breaker developed by China netcom research institute has reached the international leading level.” [EB/OL]. [Google Scholar]

[12] http://www.sgcc.com.cn/xwzx/gsxw/2015/05/325722.shtml [Google Scholar]

[13] Yao tao, Scheme design and principle verification of high voltage DC circuit breaker [D]. China electric power research institute, 2014. [Google Scholar]

[14] Zhang xuena, Zhao chengyong, Pang hui et al. Mmc - based DC side fault control and protection strategy for multi-terminal DC transmission system [J]. Automation of Electric Power Systems, 2013, 37 (15): 140-145. [CrossRef] [Google Scholar]

[15] Wang shanshan, Zhou xiaoxin, Tang gaungfu, et al. Analysis of over-current of modular multilevel converter HVDC module with double extremely short path [J]. Proceedings of the CSEE, 2011 (1): 1-7. [Google Scholar]

[16] Hassanpoor A, Hafner J, Jacobson B. Technical assessment of load commutation switch in hybrid HVDC breaker[J]. IEEE Transactions on Power Electronics, 2014, 30 (10): 3667-3673. [Google Scholar]

[17] Cwikowski O, Barnes M, Shuttleworth R, et al. Analysis and simulation of the proactive hybrid circuit breaker[C]// IEEE, International Conference on Power Electronics and Drive Systems. IEEE, 2015. [Google Scholar]

[18] Basler T, Lutz J, Jakob R, et al. The influence of asymmetries on the parallel connection of IGBT chips under short-circuit condition[C]// - European Conference on Power Electronics and Applications. IEEE, 2011: 1–8. [Google Scholar]

[19] Musing A, Ortiz G, Kolar J W. Optimization of the current distribution in press-pack high power IGBT modules[C]// Power Electronics Conference. 2010: 1139-1146. [Google Scholar]

[20] Lutz J. Packaging and Reliability of Power Modules[C]// International Conference on Integrated Power Systems. VDE, 2014: 1-8. [Google Scholar]

[21] Hong T, Pfirsch F, Reinhold B, et al. Transient avalanche oscillation of IGBTs under high current[C]// Ispsd. 2014: 43-46. [Google Scholar]

[22] Basler T, Lutz J, Jakob R, et al. Surge current capability of IGBTs[C]// International Multi-Conference on Systems, Signals and Devices, Ssd. 2012: 1-6. [Google Scholar]