玻璃纤维
玻璃纖維
파리섬유
FIBER GLASS
2012年
2期
20-25
,共6页
陆小建%徐明泉%张建明%濮悦%李泽财%陈强
陸小建%徐明泉%張建明%濮悅%李澤財%陳彊
륙소건%서명천%장건명%복열%리택재%진강
LED光源%光谱功率分布%波长%色温%光纤束
LED光源%光譜功率分佈%波長%色溫%光纖束
LED광원%광보공솔분포%파장%색온%광섬속
LED illuminator%spectral power distribution%wavelength%color temperature%fiber bundle
根据光谱功率分布的理论及检测原理,设计了针对高功率LED光源的检测设备,并对检测数据进行了分析,得出高功率LED光源在有光纤束连接的情况下光谱功率分布的展宽随波长的不同而不同,且光纤束会降低光源色温的结论。
根據光譜功率分佈的理論及檢測原理,設計瞭針對高功率LED光源的檢測設備,併對檢測數據進行瞭分析,得齣高功率LED光源在有光纖束連接的情況下光譜功率分佈的展寬隨波長的不同而不同,且光纖束會降低光源色溫的結論。
근거광보공솔분포적이론급검측원리,설계료침대고공솔LED광원적검측설비,병대검측수거진행료분석,득출고공솔LED광원재유광섬속련접적정황하광보공솔분포적전관수파장적불동이불동,차광섬속회강저광원색온적결론。
The authors designed a testing apparatus for the Hi-power LED illuminator based on the theory and the testing principle for spectral power distribution, and analyzed the data from the tests, coming to a conclusion that when connecting with a fiber bundle, the broadening of the spectral power distribution of the LED illuminator varies with the wavelength,and the color temperature would be lowered by the fiber bundle.
