DocumentCode
138054
Title
Degradation of silicone in white LEDs during device operation: A finite element approach to product reliability prediction
Author
Watzke, S. ; Altieri-Weimar, P.
Author_Institution
Osram Opto Semicond. GmbH, Regensburg, Germany
fYear
2014
fDate
7-9 April 2014
Firstpage
1
Lastpage
5
Abstract
Silicone, which is a very common material for Light Emitting Diode (LED) packaging components like lens, casting and housing, undergoes degradation during high temperature and current operation. Indeed, electrical and optical losses cause material shrinkage and hardening, inducing mechanical stress within the LED assembly, which can end up into crack formation in silicone. In order to evaluate the reliability of LED package regarding the silicone crack, a degradation material model is developed, which is based on the experimental investigation of the mechanical properties of silicone during degradation. A coupled thermo-optical model is used for the calculation of the temperature distribution in the device during steady-state operation. The crack reliability model, which is build combining the stress simulation results based on finite element approach and the visual inspection of the corresponding LED package during steady-state operation, is used to estimate the package lifetime depending on the operation conditions.
Keywords
cracks; finite element analysis; light emitting diodes; packaging; reliability; silicones; thermo-optical effects; LED package; coupled thermo-optical model; degradation material model; device operation; finite element approach; mechanical properties; package lifetime; reliability prediction; silicone crack; silicone degradation; steady-state operation; temperature distribution; visual inspection; white LED; Abstracts; Reliability;
fLanguage
English
Publisher
ieee
Conference_Titel
Thermal, mechanical and multi-physics simulation and experiments in microelectronics and microsystems (eurosime), 2014 15th international conference on
Conference_Location
Ghent
Print_ISBN
978-1-4799-4791-1
Type
conf
DOI
10.1109/EuroSimE.2014.6813779
Filename
6813779
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