전력전자학회논문지 (The Transactions of the Korean Institute of Power Electronics)

  • 제17권6호
  • /
  • Pages.495-499
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  • 2012
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  • 1229-2214(pISSN)
  • /
  • 2288-6281(eISSN)
전력전자학회 (The Korean Institute of Power Electronics)
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개선된 자기소호회로와 아크전압 억제회로를 사용한 유도성 부하의 직류차단 특성 실험

Experiment on DC Circuit Breaker for Inductive Load by Improved Magnetic Arc-extinguisher and Arc-Attenuation Circuit

  • Lee, Sung-Min (Dept. of Electrical, Electronic and Control Eng., Kongju National University) ;
  • Kim, Hyo-Sung (Div. of Electrical, Electronic and Control Eng., Kongju Nat'l University)
  • 투고 : 2012.07.31
  • 심사 : 2012.09.19
  • 발행 : 2012.12.20
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초록

Recently, DC distribution systems become hot issues since DC type loads increase rapidly according to the expansion of IT equipment such as computers, servers, and digital devices; DC type loads will cover 50% for all electricity loads in 2020 which was mere 10% in 2000. DC distribution systems are also accelerated by the expansion of renewable power systems since they are easy to be interfaced with DC grids rather than AC grids. However, removing the fault current in DC grids is comparably difficult since the current in DC grids has non zero-crossing point like in AC grids. Thus, developing dedicated DC circuit breakers for DC grids is necessary to get safety for human and electrical facilities. Magnet arc extinguishing method is proper to small size DC circuit breakers. However, simple Magnet arc extinguishing method is not enough to break inductive fault currents. This paper proposed a novel DC circuit breaker against inductive fault current defined by IEEE C37.14-2004 Standard for Low-Voltage DC Power Circuit Breakers Used in Enclosures. The performance of the proposed DC circuit breaker was verified by an experimental circuit breaker test system built in this research.

키워드

참고문헌

  1. Hyo-sung Kim, "DC distribution systems and circuit breaking technology," The Journal of the Korean Institute of Power Electronics, Vol. 15, No. 5, pp. 40-46, 2010. 10.
  2. T.Babasaki, T.Tanaka, Y.Nozaki, T.Aoki, F.Kurokawa, "Developing of Higher Voltage Direct -Current Power-feeding Prototype System," INTELEC 2009. 31st International, pp. 1-5, 2009.
  3. Giovanna Postiglione, DC Distribution System for Home and Office, Master thesis on Department of Electric Power Engineering, Chalmers, Glothenburg, Sweden, 2001.
  4. Kyung-ho .Lee, "Prospect of DC distribution systems and safety issues," The Journal of the Korean Institute of Power Electronics, Vol. 14, No. 2, pp. 21-26, 2009. 4.
  5. S.Baek, T.Yuba, K.Kiryu, A.Nakamura, H.Miyazawa, M.Noritake, K.Hirose, "Development of plug and socket-outlet for 400 volts direct current distribution system," Power Electronics and ECCE Asia (ICPE & ECCE), 2011 IEEE 8th International Conference on, pp. 218-222, June. 2011.
  6. Sung-min Lee, Hyo-sung Kim, "Development of DC Circuit Breaker using Magnet Arc Extinguisher," The Transactions of Korean Institute of Power Electronics, Vol. 17, No. 1, pp. 21-26, 2012. 2. https://doi.org/10.6113/TKPE.2012.17.1.21
  7. C37.14-2002, IEEE Standard for Low-Voltage DC Power Circuit Breakers Used in Enclosures, 2002.
  8. IEC 60947-2 Ed.40, Low-voltage switchgear and controlgear - Part 2: Circuit-breakers.
  9. IEC 60898-1, Electrical Accessories-Circuit-Breakers for Overcurrent Protection for Household and similar Installations-Part 1: Circuit-Breakers for A.C. Operation, Vol. 28, pp. 105-112, 1992, January/February.
  10. C37.16-2000-IEEE standard for preferred ratings, related requirements, and application recommendations for low-voltage AC (635 V and below) and DC (3200 V and below) power circuit breakers.

피인용 문헌

  1. Novel DC Circuit Breaker Using Magnet-Extinguisher and Free-Wheel Diode vol.14, pp.1, 2019, https://doi.org/10.1007/s42835-018-00015-7