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Simulation based experimental study of the temperature and power density distribution in a high-power LED

Materials
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Contributing authors of JOANNEUM RESEARCH:
Univ.-Prof. DI Dr. Paul HartmannMag.a Dr.in Susanne SchweitzerDI Wolfgang Nemitz
Authors
Fulmek, Paul; Nemitz, Wolfgang; Wenzl, Franz Peter; Schweitzer, Susanne; Hartmann, Paul; Nicolics, Johann
Abstract:
Temperature variations strongly influence the performance of light-emitting diodes (LEDs). The electrical properties of the LED, the power and the quality of the emitted light, and their long-term stability depend on the operating temperatures. The required electrode structures of LEDs lead to an inhomogeneous current distribution, heat generation, and light emission, which additionally exhibits a time-dependence. A high-power LED chip is studied on a microscopic scale by electro-thermal 2D-simulations, and by thermography. Temperature variations in the active LED region caused by the electrode structure are shown, and their steady-state and transient consequences are discussed.
Title:
Simulation based experimental study of the temperature and power density distribution in a high-power LED
Herausgeber (Verlag):
IEEE
Seiten:
179–182
ISBN
978-1-4799-8859-4
Publikationsdatum
2015-05-06

Publikationsreihe

Herausgeber(Verlag)
IEEE
Adress
Eger, Hungary
Proceedings
2015 38th International Spring Seminar on Electronics Technology (ISSE)
More files and links
DOI-Url:
https://www.doi.org/ 10.1109/ISSE.2015.7247985
Jahr/Monat:
2015
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