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Proceedings Paper

Packaging technology for high power blue-green LEDs
Author(s): Mahbub Akhter; Pleun Maaskant; Declan Casey; James Rohan; Nicolas Cordero; Brian Corbett
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Paper Abstract

High brightness LEDs (HBLEDs) have been fabricated on GaN semiconductor material grown on sapphire substrate. These devices provide an optical output power in excess of 50 mW at a driving current of 1 amp. For this high current application, large size (1.8 mm × 0.6 mm) GaN LEDs are flip-chip mounted onto a heat sink to provide a low thermal resistance path from the junction to the ambient. For the flip-chip mounting, a Au/Sn/Au solder and a Au/Au thermal compression bonding process have been optimized. The bond strength of the Au/Sn solder joints and the Au-Au bonds is measured through shear testing. Good bond strength results of 224 g/f for the Au/Sn/Au solder and 288 g/f for the solid Au bonds have been achieved. The thermal modeling of the assembly is done with a finite element analysis and the optimum design has been adopted for this high current application. At present these assemblies are under lifetime test and so far nearly 6000 hours of continuous operation has been achieved.

Paper Details

Date Published: 3 June 2005
PDF: 6 pages
Proc. SPIE 5825, Opto-Ireland 2005: Optoelectronics, Photonic Devices, and Optical Networks, (3 June 2005); doi: 10.1117/12.605829
Show Author Affiliations
Mahbub Akhter, Tyndall National Institute (Ireland)
Pleun Maaskant, Tyndall National Institute (Ireland)
Declan Casey, Tyndall National Institute (Ireland)
James Rohan, Tyndall National Institute (Ireland)
Nicolas Cordero, Tyndall National Institute (Ireland)
Brian Corbett, Tyndall National Institute (Ireland)


Published in SPIE Proceedings Vol. 5825:
Opto-Ireland 2005: Optoelectronics, Photonic Devices, and Optical Networks
Gerald Farrell; David M. Denieffe; Liam Barry; John Gerard McInerney; Harold S. Gamble; Padraig Hughes; R. Alan Moore, Editor(s)

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