한국전기전자재료학회논문지 (Journal of the Korean Institute of Electrical and Electronic Material Engineers)

  • 제27권9호
  • /
  • Pages.600-605
  • /
  • 2014
  • /
  • 1226-7945(pISSN)
  • /
  • 2288-3258(eISSN)
한국전기전자재료학회 (The Korean Institute of Electrical and Electronic Material Engineers)
권호 표지
DOI QR코드

DOI QR Code

극저온에서 LED 응용에 관한 연구

A Study on the Application of LED at Ultra-low Temperature

  • 하희주 (한국해양대학교 전기전자공학부) ;
  • 김진욱 (한국해양대학교 전기전자공학부) ;
  • 김선재 (한국해양대학교 전기전자공학부) ;
  • 길경석 (한국해양대학교 전기전자공학부)
  • Ha, Hee-Ju (Division of Electrical and Electronics Engineering, Korea Maritime and Ocean University) ;
  • Kim, Jin-Wook (Division of Electrical and Electronics Engineering, Korea Maritime and Ocean University) ;
  • Kim, Sun-Jae (Division of Electrical and Electronics Engineering, Korea Maritime and Ocean University) ;
  • Kil, Gyung-Suk (Division of Electrical and Electronics Engineering, Korea Maritime and Ocean University)
  • 투고 : 2014.08.04
  • 심사 : 2014.08.13
  • 발행 : 2014.09.01
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

The interest in development on luminaires which are available up to $-52^{\circ}C$ is surging as demands in vessels navigating a north pole route increase. A conventional incandescent lamp used in vessels is operated stably at $-52^{\circ}C$, but many countries including Korea have eliminated the use of incandescent lamps gradually because of its low luminous efficacy. In this paper, therefore, to develop the LED luminaires with high-efficiency, long lifetime that enables to substitute for incandescent lamp, it has studied about cryogenic characteristics of LED packages, bulbs, driving circuit and power supply. This experiments were carried out according to standards IEC 60945-8.4.1. Temperature range is from $-60^{\circ}C$ to $25^{\circ}C$, and the light output depending on ambient temperature. It showed that, based on $25^{\circ}C$, light output of a CFL decreased by 80% of CFL at $-20^{\circ}C$ while each increased 12% of LED bulbs and 16~19% of LED packages at $-60^{\circ}C$.

키워드

참고문헌

  1. C. D. Nam and J. M. Kim, Asia Navigation Conference, 1 (2010).
  2. S. W. Hong, International Area Studies Review, 13, 557 (2010). https://doi.org/10.18327/jias.2010.01.13.4.557
  3. D. G. Kim, I. G. Kim, S. Y. Yu, W. Kwon, and G. S. Kil, Journal of the Korean Society for Railway, 1530 (2011).
  4. I. G. Kim, D. G. Kim, G. S. Kil, H. G. Cho, and K. L. Cho, J. KIEEME, 25, 743 (2012).
  5. S. J. Kim, D. G. Kim, I. K. Kim, G. S. Kil, and D. T. Song, J. KIEEME, 26, 773 (2013).
  6. Ice Classed Ships Main Engines, Man Diesel & Turbo
  7. Russian Maritime Register of Shipping ; Rules for Technical Supervision During Construction of Ships and Manufacture of Materials and Products for Ships Volume 2, Electronic Version of Printed Document Approved on 27.06.13.
  8. International Standard IEC 60945 ; Maritime Navigation and Radio Communication Equipment and Systems, 4th ed., 2002.
  9. Y. Guo, K. L. Pan, G. T. Ren, S. J. Chen, and F. Yuan, IEEE, 1411 (2012).
  10. L. Liu, G. Q. Zhang, D. Yang, K. Pan, H. Zhang, and F. Hou, Electronic Packaging Technology & High Density Packaging (ICEPT-HDP), 2010 11th International Conference on, IEEE, 1366 (2010).
  11. G. Weling, J. Xuejiao, Y. Fei, C. Bifeng, G. Wei, L. Ying, and Y. Weiwei, Journal of Semiconductors, 32, (2011).
  12. Illuminating Engineering Society of North America, IESNA Handbook, 9th ed. (New York, 2000) p. 6.