Thermo-mechanical Model Optimization of HB-LED Packaging

Cadmus Yuan; Müge Erinc; Sander Gielen; Adri van der Waal; Willem van Driel; Guo Qi Zhang

doi:10.2150/jlve.35.214

Thermo-mechanical Model Optimization of HB-LED Packaging

Cadmus Yuan, Müge Erinc, Sander Gielen, Adri van der Waal, Willem van Driel, Guo Qi Zhang

Electronic Components, Technology and Materials

Research output: Contribution to journal › Article › Scientific

Abstract

Lighting is an advancing phenomenon both on the technology and on the market level due to the rapid development of the solid state lighting technology. The efforts in improving the efficacy of high brightness LED's (HB-LED) have concentrated on the packaging architecture. Packaging plays a significant role in reliability; not only on mechanical protection but also on thermal management. An efficient numerical model using the finite element technique to evaluate thermal and mechanical performance of LED packaging is presented in this article. A commercial HB-LED package is used as a benchmark example and a strategy relying on the obtained thermo-mechanical response to reduce the mesh size and density is proposed. Next, two new HB-LED concepts are simulated based on the proposed finite element modeling strategy.

Original language	English
Pages (from-to)	214-221
Number of pages	8
Journal	Journal of Light & Visual Environment
Volume	35
Issue number	3
DOIs	https://doi.org/10.2150/jlve.35.214
Publication status	Published - 2011

Keywords

high brightness LED (HB-LED)
packaging reliability
wafer levelvHB-LED

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10.2150/jlve.35.214

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title = "Thermo-mechanical Model Optimization of HB-LED Packaging",

abstract = "Lighting is an advancing phenomenon both on the technology and on the market level due to the rapid development of the solid state lighting technology. The efforts in improving the efficacy of high brightness LED's (HB-LED) have concentrated on the packaging architecture. Packaging plays a significant role in reliability; not only on mechanical protection but also on thermal management. An efficient numerical model using the finite element technique to evaluate thermal and mechanical performance of LED packaging is presented in this article. A commercial HB-LED package is used as a benchmark example and a strategy relying on the obtained thermo-mechanical response to reduce the mesh size and density is proposed. Next, two new HB-LED concepts are simulated based on the proposed finite element modeling strategy.",

keywords = "high brightness LED (HB-LED), packaging reliability, wafer levelvHB-LED",

author = "Cadmus Yuan and M{\"u}ge Erinc and Sander Gielen and {van der Waal}, Adri and {van Driel}, Willem and Zhang, {Guo Qi}",

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T1 - Thermo-mechanical Model Optimization of HB-LED Packaging

AU - Yuan, Cadmus

AU - Erinc, Müge

AU - Gielen, Sander

AU - van der Waal, Adri

AU - van Driel, Willem

AU - Zhang, Guo Qi

PY - 2011

Y1 - 2011

N2 - Lighting is an advancing phenomenon both on the technology and on the market level due to the rapid development of the solid state lighting technology. The efforts in improving the efficacy of high brightness LED's (HB-LED) have concentrated on the packaging architecture. Packaging plays a significant role in reliability; not only on mechanical protection but also on thermal management. An efficient numerical model using the finite element technique to evaluate thermal and mechanical performance of LED packaging is presented in this article. A commercial HB-LED package is used as a benchmark example and a strategy relying on the obtained thermo-mechanical response to reduce the mesh size and density is proposed. Next, two new HB-LED concepts are simulated based on the proposed finite element modeling strategy.

AB - Lighting is an advancing phenomenon both on the technology and on the market level due to the rapid development of the solid state lighting technology. The efforts in improving the efficacy of high brightness LED's (HB-LED) have concentrated on the packaging architecture. Packaging plays a significant role in reliability; not only on mechanical protection but also on thermal management. An efficient numerical model using the finite element technique to evaluate thermal and mechanical performance of LED packaging is presented in this article. A commercial HB-LED package is used as a benchmark example and a strategy relying on the obtained thermo-mechanical response to reduce the mesh size and density is proposed. Next, two new HB-LED concepts are simulated based on the proposed finite element modeling strategy.

KW - high brightness LED (HB-LED)

KW - packaging reliability

KW - wafer levelvHB-LED

UR - https://www.jstage.jst.go.jp/article/jlve/35/3/35_3_214/_article/-char/ja/

U2 - 10.2150/jlve.35.214

DO - 10.2150/jlve.35.214

M3 - Article

SN - 0387-8805

VL - 35

SP - 214

EP - 221

JO - Journal of Light & Visual Environment

JF - Journal of Light & Visual Environment

IS - 3

ER -

Thermo-mechanical Model Optimization of HB-LED Packaging

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Keywords

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