Thermal Analysis of High Power LED Charging Work Light

碩士 === 崑山科技大學 === 機械工程研究所 === 107 === In this research, a 0.5W48PCS LED lighting engine is used on the high-power LED charging work light thermal analysis. A LED MCPCB attached on the extrude-aluminum-fin is experimental test in the laboratory. Base on its heat transfer surface areas to design an a...

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Bibliographic Details
Main Authors: Cheng-Ming Su, 蘇承民
Other Authors: Shao-Shu Chu
Format: Others
Language:zh-TW
Published: 2019
Online Access:http://ndltd.ncl.edu.tw/handle/bj68w7
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spelling ndltd-TW-106KSUT04890222019-07-04T06:00:32Z http://ndltd.ncl.edu.tw/handle/bj68w7 Thermal Analysis of High Power LED Charging Work Light 高功率LED充電工作燈 熱分析研究 Cheng-Ming Su 蘇承民 碩士 崑山科技大學 機械工程研究所 107 In this research, a 0.5W48PCS LED lighting engine is used on the high-power LED charging work light thermal analysis. A LED MCPCB attached on the extrude-aluminum-fin is experimental test in the laboratory. Base on its heat transfer surface areas to design an aluminum die-casting module to improve the high-power LED charging work light thermal dissipation mechanism. Therefore, the number of subcontracts and repeated experimental verifications can be reduced and shorten the development cycle. A commercial software is applied to simulate and analyze the thermal characteristics of the working light. In order to search solutions to limit the risk of product mold development failure. The results are indicated heat transfer surface areas of the aluminum die-casting module is 1.6 times of the extrude-aluminum -fin. In ambient temperature conditions, compared with LED aluminum-extruded-fin and aluminum die-cast module lamps, structure integrated thermal dissipation mechanism is effectively descend the lamp temperature of about 18C. In the latter case, the average temperature difference between actual measurement and numerical simulation is approximately 2C Shao-Shu Chu 朱紹舒 2019 學位論文 ; thesis 83 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 崑山科技大學 === 機械工程研究所 === 107 === In this research, a 0.5W48PCS LED lighting engine is used on the high-power LED charging work light thermal analysis. A LED MCPCB attached on the extrude-aluminum-fin is experimental test in the laboratory. Base on its heat transfer surface areas to design an aluminum die-casting module to improve the high-power LED charging work light thermal dissipation mechanism. Therefore, the number of subcontracts and repeated experimental verifications can be reduced and shorten the development cycle. A commercial software is applied to simulate and analyze the thermal characteristics of the working light. In order to search solutions to limit the risk of product mold development failure. The results are indicated heat transfer surface areas of the aluminum die-casting module is 1.6 times of the extrude-aluminum -fin. In ambient temperature conditions, compared with LED aluminum-extruded-fin and aluminum die-cast module lamps, structure integrated thermal dissipation mechanism is effectively descend the lamp temperature of about 18C. In the latter case, the average temperature difference between actual measurement and numerical simulation is approximately 2C
author2 Shao-Shu Chu
author_facet Shao-Shu Chu
Cheng-Ming Su
蘇承民
author Cheng-Ming Su
蘇承民
spellingShingle Cheng-Ming Su
蘇承民
Thermal Analysis of High Power LED Charging Work Light
author_sort Cheng-Ming Su
title Thermal Analysis of High Power LED Charging Work Light
title_short Thermal Analysis of High Power LED Charging Work Light
title_full Thermal Analysis of High Power LED Charging Work Light
title_fullStr Thermal Analysis of High Power LED Charging Work Light
title_full_unstemmed Thermal Analysis of High Power LED Charging Work Light
title_sort thermal analysis of high power led charging work light
publishDate 2019
url http://ndltd.ncl.edu.tw/handle/bj68w7
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AT sūchéngmín gāogōnglǜledchōngdiàngōngzuòdēngrèfēnxīyánjiū
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