Journal of the Korean institute of surface engineering (한국표면공학회지)

The Korean Institute of Surface Engineering (한국표면공학회)
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Heat dissipation of Al2O3 Insulation layer Prepared by Anodizing Process for Metal PCB

Metal PCB에 있어서 양극산화법으로 제작한 Al2O3절연막의 방열특성

  • 조재승 (주식회사 제이스) ;
  • 김정호 (주식회사 제이스) ;
  • 고상원 (한국산업기술대학교 신소재공학과) ;
  • 임실묵 (한국산업기술대학교 신소재공학과)
  • Received : 2015.03.19
  • Accepted : 2015.04.20
  • Published : 2015.04.30
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Abstract

High efficiency LED device is being concerned due to its high heat loss, and such heat loss will cause a shorter lifespan and lower efficiency. Since there is a demand for the materials that can release heat quickly into the external air, the organic insulating layer was required to be replaced with high thermal conductive materials such as metal or ceramics. Through anodizing the upper layer of Al, the Breakdown Voltage of 3kV was obtained by using an uniform thickness of $60{\mu}M$ aluminum oxide($Al_2O_3$) and was carried out to determine the optimum process conditions when thermal cracking does not occur. Two Ni layers were formed above the layer of $Al_2O_3$ by sputtering deposition and electroplating process, and saccharin was added for the purpose of minimizing the remain stress in electroplating process. The results presented that the 3-layer film including the Ni layer has an adhesive force of 10N and the thermal conductivity for heat dissipation is achieved by 150W/mK level, and leads to improvement about 7 times or above in thermal conductivity, as opposed to the organic insulation layer.

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References

  1. Z. G. Piao, E. A. Moon, I. J. Kim, G. B. Cho, and H. C. Kim ; J. of Advanced Engineering and Technology, 2 (2009) 165.
  2. J. Hu, L. Yang, and M. W. Shin ; J. Phys. D: Appl. Phys., 41 (2008) 035107. https://doi.org/10.1088/0022-3727/41/3/035107
  3. M. H. Shin and J. P. Kim ; Introduction to LED Packaging Technology, Bookshill co., (2008) 289.
  4. S. Y. Jung and T. Y. Seong ; Electron. Mater. Lett., 8 (2012) 549. https://doi.org/10.1007/s13391-012-2025-y
  5. J. C. Hsieh, D. T. W. Lin, and C. H. Cheng ; IEEE Transaction on Electron Devices, 58 (2011) 1141. https://doi.org/10.1109/TED.2011.2106215
  6. L. Kim and M, W. Shin ; IEEE Transactions on Components and Packaging Technologies, 30 (2007)
  7. H. H. Kim, S. H. Choi, S. H. Shin, Y. K. Lee, S. M. Choi, and S. Yi ; Microelectron. Reliab., 48 (2008) 445. https://doi.org/10.1016/j.microrel.2007.08.009
  8. M. K. Ko, J. H. Ahn, Y. C. Lee, K. S. Kim, J. W. Yoon, and S. B. Jung ; Korean J. Met. Mater., 50 (2011) 71.
  9. Y. B. Yoon and J. W. Park ; IEEE Transactions on Components and Packaging Technologies, 32 (2009) 825. https://doi.org/10.1109/TCAPT.2009.2033414
  10. D. W. Hong, S. J. Lee and J. H. Cho ; Korean Journal of Optics and Photonics, 20 (2009) 236. https://doi.org/10.3807/KJOP.2009.20.4.236
  11. Kelvin Shih ; LED Junction Temperature Measurement and its Applications to Automotive Lamp Design, SPE international, (2004) 25.
  12. J. H. Yuan, F. Y. He, D. C. Sun, and X. H. Xia ; Chem. Mater., 16 (2004) 1841. https://doi.org/10.1021/cm049971u
  13. W. Bensalahy, M. Feki, M. Wery and H.F. Ayedi ; J. Mater. Sci. Technol., 26(2010) 113. https://doi.org/10.1016/S1005-0302(10)60018-7
  14. 장동규, 신영의, 최명기, 남원기, 신현필, 박영상; PCB SMT 품질관리, 도서출판 골드, 서울(2006) 667.
  15. 장동규, 신영의, 최명기, 남원기, 홍태환 ; PCB 핵 심기술 핸드북, 도서출판 골드, 서울(2005) 441.

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