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Proceedings Paper

An electrical model of InGaN based high power light emitting diodes with self-heating effect
Author(s): Bingqian Li; Yuchun Feng; Yuhua Liu
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Paper Abstract

We present an electrical model for InGaN based high power light-emitting diodes (LEDs) with self-heating effect. The model consists of an ideal diode connected with a series resistor. Because of the self-heating effect, the temperature of the p-n junction (Tj) is much higher than case temperature (TC), the maximum Tj in our experiment is 148K high above case temperature. For the Tj rises caused by self-heating effect, some temperature-dependent parameters, such as the band gap (Eg) of InGaN which influence the reverse saturation current, the hole mobility (μp) which influence the series resistance of p-type GaN, can be written as the function of forward current (I) and voltage (U). The voltage drops on p-n junction and equivalent series resistance are extracted from the measured I-V curve, and then the values of equivalent series resistance at different forward power are obtained. By the self-heating effect, the values of equivalent series resistance show a very strong forward power-dependent characteristics, the maximum equivalent series resistance in this paper is about 1.6Ωat high forward power, nearly twice of the minimum one. It is worthwhile to point out that the equivalent series resistance changed by self-heating effect and its influence on electronically property of GaN based LEDs can not be neglected even at the low resistance level about 1Ωin our experiment.

Paper Details

Date Published: 14 September 2007
PDF: 8 pages
Proc. SPIE 6669, Seventh International Conference on Solid State Lighting, 66691C (14 September 2007); doi: 10.1117/12.728673
Show Author Affiliations
Bingqian Li, Foshan Univ. (China)
Yuchun Feng, Shenzhen Univ. (China)
Yuhua Liu, Foshan Univ. (China)


Published in SPIE Proceedings Vol. 6669:
Seventh International Conference on Solid State Lighting
Ian T. Ferguson; Nadarajah Narendran; Tsunemasa Taguchi; Ian E. Ashdown, Editor(s)

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