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"Luminous efficiency"

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"Luminous efficiency"

Regular Paper : Characteristics of LED Lighting Device Using Heat Sinks of 7.5 W CMP-PLA
Young Gon Kim
J Electr Electron Mater 2013;26(12):920-923.   Published online December 1, 2013
In this paper, the characteristics of a carbon nanotube composite heat sink proposed to replace the advanced Al heat sinks for LED lighting devices were studied. Proposed CMP-PLA heat sink was made by mixing 20∼70 wt% carbon nanotube, 20∼70 wt% bio-degradable polymer of melt-blended PLA (poly lactic acid) and PBS (poly butylene succinate) and PLA nucleating agents composed of the mixture of soybean oil and biotites, at 150∼220℃ with 1,000∼1,500 rpm. Optical and electric characteristics of 7.5W LED lighting devices using heat sinks with such prepared CMP-PLA were investigated. And, the properties of the heat, which was not released from the CMP-PLA type heat sinks, was also investigated. The color temperature of LED lighting devices using the CMP-PLA heat sinks was 5,956 K,which is x= 0.32 and y= 0.34 in the XY chromaticity, and the color rendering index was 75. The luminous flux and the luminous efficiency of LED lighting devices using the CMP-PLA heat sinks was 540.6 lm and 72.68 lm/W respectively. Measured initial temperature of the heat sinks was 27℃, and their temperature increased as time to be saturated at 52℃ after an hour.
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High Voltage and Discharge Engineering : Numerical Analysis of the Discharge and Luminous Characteristics of a Planar Type Xe Plasma Flat Lamp
Hyuk Hwan Kim, Won Jong Lee
J Electr Electron Mater 2011;24(10):822-833.   Published online October 1, 2011
A Xe plasma flat lamp, which has been noticed as a new eco-friendly LCD (liquid crystal display) backlight, requires the improvement of the luminance and the luminous efficiency although it has several advantages. To improve the performance of a lamp, it is necessary to understand the effects of discharge variables on the luminous characteristics of the lamp. Since it is difficult to diagnose a lamp discharge experimentally, the numerical analysis can be used instead. In this study, the luminous characteristics of a planar type Xe plasma flat lamp were analyzed with the variation of an input voltage and a pulse frequency. The numerical analysis of a lamp discharge was then performed using a RCT (relaxation continuum) model and a LFA (local field approximation) model. The comparison with the experimental results showed that the RCT model is valid for the numerical analysis of the flat lamp. The numerical analysis also showed that the modifications of a high frequency component and a voltage falling rate in the input voltage waveform could improve the luminous characteristics of the lamp.
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Effects of Hole-Injection Buffer Layer in Organic Light-Emitting Diodes
Dong Hoe Jeong, Sang Geol Kim, Hyeon Seog O, Jin Ung Hong, Jun Ung Lee, Yeong Sig Kim, Tae Wan Kim
J Electr Electron Mater 2003;16(9):816-825.   Published online September 1, 2003
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