A novel COB structure with integrated multifunction

Zhiguo Xie; Cheng Li; Binhai Yu; Yaohao Wang

doi:10.1088/1674-4926/34/5/055001

J. Semicond. > 2013, Volume 34 > Issue 5 > 055001

SEMICONDUCTOR INTEGRATED CIRCUITS

A novel COB structure with integrated multifunction

Zhiguo Xie^{1, 2,}, Cheng Li¹, Binhai Yu¹ and Yaohao Wang¹

+ Author Affiliations

Corresponding author: Xie Zhiguo, Email:xiezhiguo@nationstar.com

DOI: 10.1088/1674-4926/34/5/055001

Abstract: A novel COB (chip-on-board) structure with integrated multifunction is presented. The structure is prepared by laminating copper plate with FR4 board and then coating with a silver layer to offer high reflectivity and high conductivity. In comparison with MCPCB (aluminum) and ceramics (Al₂O₃) board, the substrate brings about 10% higher light extracting efficiency than aluminum board and 5% higher flux maintenance ratio than ceramics (Al₂O₃) board at 3000 h. With integrated multifunction, through an IC component driving high voltage serial LED chips, the COB can be directly connected to AC 110 V or 220 V power supply in lighting application.

Key words: COB, integrated multifunction, high reflectivity, high conductivity, AC driving

References

[1]	Kückmann O. High power LED arrays special requirements on packaging technology. Proc SPIE, 2006, 6134:613404 doi: 10.1117/12.646321
[2]	Hsu J T, Han W K, Chen C. Design of multi-chips LED module for lighting application. Proc SPIE, 2002, 4776:457151 http://lpi-llc.com/Papers/SPIE05_5942-13.pdf
[3]	Ha M, Graham S. Development of a thermal resistance model for chip-on-board packaging of high power LED arrays. Microelectron Reliab, 2012, 52:836 doi: 10.1016/j.microrel.2012.02.005
[4]	Kim J S, Jeon S L, Le D W. Thermal and optical properties of COB type LED module based on Al₂O₃ and AlN ceramic submounts. J Appl Sci, 2010, 10:3388 doi: 10.3923/jas.2010.3388.3391
[5]	Wu H H, Lin K H, Lin S T. A study on the heat dissipation of high power multi-chip COB LEDs. Microelectron J, 2012, 43:280 doi: 10.1016/j.mejo.2012.01.007
[6]	Wu H H, Lin K H, Lin S T. Efficient heat dissipation design of high-power multi-chip cob package LED modules. Advanced Materials Research, 2012, 463:1332
[7]	Wu D, Wang K, Liu S. Enhancement of light extraction efficiency of multi-chips light-emitting diode array packaging with various microstructure arrays. IEEE 61st Electronic Components and Technology Conference, 2011 http://www.osapublishing.org/abstract.cfm?&uri=oe-23-11-A640
[8]	Ao J P, Sato H, Mizobuchi T. Monolithic blue LED series arrays for high-voltage AC operation. Physica Status Solidi A, 2002, 194:376 doi: 10.1002/(ISSN)1521-396X

Fig. 1. Basic COB architecture.

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Fig. 2. COB substrate fabricating steps.

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Fig. 3. High voltage module with serial dies.

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Fig. 4. AC direct driving LEDs by IC device.

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Fig. 5. Novel COB object.

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Fig. 6. Flux efficiency in COB packages.

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Fig. 7. Luminous maintenance rate curve.

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Fig. 8. Simulation of junction temperature left to right: ceramics (Al$_{2}$O$_{3})$, aluminum, copper.

DownLoad: Full-Size Img PowerPoint

Table 1. COB optical electric features.

[1]	Kückmann O. High power LED arrays special requirements on packaging technology. Proc SPIE, 2006, 6134:613404 doi: 10.1117/12.646321
[2]	Hsu J T, Han W K, Chen C. Design of multi-chips LED module for lighting application. Proc SPIE, 2002, 4776:457151 http://lpi-llc.com/Papers/SPIE05_5942-13.pdf
[3]	Ha M, Graham S. Development of a thermal resistance model for chip-on-board packaging of high power LED arrays. Microelectron Reliab, 2012, 52:836 doi: 10.1016/j.microrel.2012.02.005
[4]	Kim J S, Jeon S L, Le D W. Thermal and optical properties of COB type LED module based on Al₂O₃ and AlN ceramic submounts. J Appl Sci, 2010, 10:3388 doi: 10.3923/jas.2010.3388.3391
[5]	Wu H H, Lin K H, Lin S T. A study on the heat dissipation of high power multi-chip COB LEDs. Microelectron J, 2012, 43:280 doi: 10.1016/j.mejo.2012.01.007
[6]	Wu H H, Lin K H, Lin S T. Efficient heat dissipation design of high-power multi-chip cob package LED modules. Advanced Materials Research, 2012, 463:1332
[7]	Wu D, Wang K, Liu S. Enhancement of light extraction efficiency of multi-chips light-emitting diode array packaging with various microstructure arrays. IEEE 61st Electronic Components and Technology Conference, 2011 http://www.osapublishing.org/abstract.cfm?&uri=oe-23-11-A640
[8]	Ao J P, Sato H, Mizobuchi T. Monolithic blue LED series arrays for high-voltage AC operation. Physica Status Solidi A, 2002, 194:376 doi: 10.1002/(ISSN)1521-396X

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Received: 27 November 2012 Revised: Online: Published: 01 May 2013

A novel COB (chip-on-board) structure with integrated multifunction is presented. The structure is prepared by laminating copper plate with FR4 board and then coating with a silver layer to offer high reflectivity and high conductivity. In comparison with MCPCB (aluminum) and ceramics (Al₂O₃) board, the substrate brings about 10% higher light extracting efficiency than aluminum board and 5% higher flux maintenance ratio than ceramics (Al₂O₃) board at 3000 h. With integrated multifunction, through an IC component driving high voltage serial LED chips, the COB can be directly connected to AC 110 V or 220 V power supply in lighting application.

A novel COB structure with integrated multifunction

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