FEM Thermomechanical Simulation of Low Power LED Lamp for Energy Efficient Light Sources

P. Kulha; J. Jakovenko; J. Formanek

doi:10.24084/repqj10.815

Authors

P. Kulha Department of microelectronics Faculty of Electrical Engineering Czech Technical University in Prague Author
J. Jakovenko Department of microelectronics Faculty of Electrical Engineering Czech Technical University in Prague Author
J. Formanek Department of microelectronics Faculty of Electrical Engineering Czech Technical University in Prague Author

DOI:

https://doi.org/10.24084/repqj10.815

Keywords:

FEM, thermal simulation, mechanical simulation, LED

Abstract

Modeling and simulation of thermal distribution, heat transfer, and mechanical stress are virtually essential for any design of structures and devices in electronic industry simulation tools make the design easier and enable optimization of many different parameters before fabrication of new structure. This paper presents simulation validation of 3D model of solid state lighting LED bulb for energy efficient and durable light sources. The modeling of structures was performed by CoventorWare tools utilizing finite the element method (FEM). The calculated thermal distribution has been validated with thermal measurement on a commercial LED lamp. Materials parametric study has been carried out to discover problematic parts for heat transfer from power LEDs to ambient.

FEM Thermomechanical Simulation of Low Power LED Lamp for Energy Efficient Light Sources

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E-ISSN: 2172-038X

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