Color quality consideration when switching from FL to LED

IF 0.5 Q4 OPTICS
Maciej Listowski, Robert Supronowicz
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Żagan, Conditions necessary to replacing the conventional lamps by energy-saving lamps, Przeglad Elektrotechniczny, R. 85, 100 (2009). DirectLink M. Zalesinska, J. Zablocka, K. Wandachowicz, \"Measurement and evaluation of selected parameters for non-directional household lamps\", Prz. Elektrotech. 94, 188 (2018). CrossRef D. Czyżewski, \"LED substitutes of conventional incandescent lamps\", Prz. Elektrotech. 88, 123 (2012). DirectLink D. Czyżewski, \"LED substitutes of conventional incandescent lamps(2)\", Prz. Elektrotech. 91, 199 (2015). CrossRef Document of the International Commission on Illumination CIE 015:2018 \"Colorimetry, 4th Edition\". CrossRef CIE 13.3-1995: Method of measuring and specifying colour rendering properties of light sources,\" Commission Internationale de l'Eclairage, Vienna, Austria (1995). DirectLink Y. Ohno, M. Fein, C. Miller, \"Vision Experiment on Chroma Saturation 2016 DOE SSL R&D Workshop 14 for Color Quality Preference\", CIE 216 :2015, 60 (2015). DirectLink Y. Ohno, \"Practical Use and Calculation of CCT and Duv\", LEUKOS- J. Illum. Eng. Soc. N. Am. 10, 47, (2014). CrossRef Y. Wang, M. Wei, \"Preference among light sources with different Duv but similar colour rendition: a pilot study\", Ligh. Res. Technol. 50, 1013 (2018). CrossRef M. Royer, Analysis of color rendition specification criteria, Light-Emitting Devices, Materials, and Applications. 10940. International Society for Optics and Photonics, (2019). CrossRef ANSI/IES TM-30-20, IES Method for Evaluating Light Source Color Rendition. DirectLink J. Kowalska, \"Analysis of parameters describing the quality of the color rendering of light sources according to the IES TM-30-15 and the CIE 013.3-1995\", Prz. Elektrotech. 93, 50 (2017). CrossRef J. Kowalska, I.Fryc, \"Colour rendition quality of typical fluorescent lamps determined by CIE Colour Fidelity Index and Colour Rendering Index\", Prz. Elektrotech. 95, 94 (2019). CrossRef D. Aurelien, et al., \"Development of the IES method for evaluating the color rendition of light sources\", Opt. Express, 23, 15888 (2015). CrossRef W. Żagan, \"Honestly and prudently about LED - Future and present state of LED application in lighting\", Prz. Elektrotech. 84, 1 (2008). DirectLink W. Żagan, \"Theoretical considerations on luminous efficacy and colour rendering of light sources\", Prz. Elektrotech. 89, 284, (2013). DirectLink M. Listowski, \"The real and modeled values of photometric and colorimetric parameters comparison of white LEDs operating at wide temperature range\", Prz. Elektrotech. 98, 57 (2022). CrossRef R. Supronowicz, J. Fan, M. Listowski, A. Watras, I. Fryc, \"Application of different metrics for describing light color quality of white LED\". Photonics Lett. Pol. 13, 31 (2021). CrossRef I.Fryc, \"Measurement techniques of optical LEDs properties performed with compliance conformity with CIE 127:2007 standard\", Prz. Elektrotech. 85, 317 (2009). DirectLink I. Fryc, T. Dimitrova-Grekow, \"An Automated System for Evaluation of the Quality of Light Sources\" Proceedings of 2016 IEEE Lighting Conference of the Visegrad Countries (Lumen V4), CrossRef P. Jakubowski, J. Kowalska, R. Supronowicz, I. Fryc, \"The Influence of Spectral Measurements Uncertainty of Fluorescent Lamps on Calculated Value of Their Relative Melanopic Weighted Irradiance and Colour Quality Parameters\", 2018 VII. Lighting Conference of the Visegrad Countries (Lumen V4), 1 (2018). CrossRef P. Zhu, H. Zhu, G. C. Adhikari, S. Thapa, \"Design of circadian white light-emitting diodes with tunable color temperature and nearly perfect color rendition\", OSA Contin. 2, 2413 (2019). CrossRef Q. Dai, Y. Huang, L. Hao, Y. Lin, K. Chen, \"Spatial and spectral illumination design for energy-efficient circadian lighting\", Build. Environ. 146, 216 (2018). CrossRef A. Sánchez-Cano, J. Aporta, \"Optimization of Lighting Projects Including Photopic and Circadian Criteria: A Simplified Action Protocol\". Appl. Sci. 10, 8068 (2020). CrossRef CIE International Standard DIS 026/E:2018 CIE System for Metrology of Optical Radiation for ipRGC-Influenced Responses to Light, CrossRef I. Fryc, P. Jakubowski, K. Kołacz, \"Analysis of optical radiation parameters of compact discharge HID lamps and LED COB modules used for illuminating shop windows, Prz. Elektrotech. 93, 186 (2017). CrossRef I. Fryc, \"LED's spectral power distribution under different condition of operating temperature and driving current\", Prz. Elektrotech. 86, 187 (2010). DirectLink D. Mozyrska, M. Wyrwas, I.Fryc, \"The determination of the LEDs colorimetric parameters, in the range of their operating temperature\", Prz. Elektrotech. 88, 232 (2012). DirectLink M. Kreissl, T. Q. Tien, J. W. Tomm, \"Spatially resolved and temperature dependent thermal tuning rates of high-power diode laser arrays\", Appl. Phys. Lett. 88, 133510 (2006). CrossRef K. Wandachowicz, K. Domke, \"Measurements of the temperature-dependent changes of the photometrical and electrical parameters of LEDs\", Prz. Elektrotech. 84, 114 (2008). DirectLink I. Fryc, \"The spectral power distribution of LED driven by square shape pulses\", Prz. Elektrotech. 88, 131 (2012). DirectLink J. Fan, Y. Li, I. Fryc, C. Qian, X. Fan, G. Zhang, \"Machine-learning assisted prediction of spectral power distribution for full-spectrum white light-emitting diode\". IEEE Photonics J. 12, 1 (2019). CrossRef R. Supronowicz, I. Fryc, \"The LED spectral power distribution modelled by different functions - how spectral matching quality affected computed LED color parameters\", Proceedings of Balkan Light Junior 2019 conference (ss. 1-4), (2019). CrossRef A. Kokka, et al., \"Development of white LED illuminants for colorimetry and recommendation of white LED reference spectrum for photometry\", Metrologia 55, 526 (2018). CrossRef ANSI C78.376-2014 Electric Lamps - Specifications For The Chromaticity Of Fluorescent Lamps. DirectLink","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":" ","pages":""},"PeriodicalIF":0.5000,"publicationDate":"2022-09-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Photonics Letters of Poland","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.4302/plp.v14i3.1159","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"OPTICS","Score":null,"Total":0}
引用次数: 0

Abstract

Fluorescent lamps (FLs) used for general lighting due to European Union legislation will be withdrawn from sale by 2023. The LEDs which are proposed as substitute of FL should provide the same quality of lighting and visual comfort. The research on substituting FL lamps is based on the multi-criteria parameterization. It is indicates that LEDs substituting the FLs may not meet the end user expectations due to the Color Preference Criteria. The paper compare typical FL (4100 K) lamp named by CIE as illuminant FL3.5 with its corresponding LED substitutes available on the market. The LED substitute selection criterion were value of Corelated Color Temperature (CCT) and chromaticity point which was must be within ellipse provided by ANSI C78.376 document for 4100 K CCT. Full Text: PDF ReferencesW. Żagan, Conditions necessary to replacing the conventional lamps by energy-saving lamps, Przeglad Elektrotechniczny, R. 85, 100 (2009). DirectLink M. Zalesinska, J. Zablocka, K. Wandachowicz, "Measurement and evaluation of selected parameters for non-directional household lamps", Prz. Elektrotech. 94, 188 (2018). CrossRef D. Czyżewski, "LED substitutes of conventional incandescent lamps", Prz. Elektrotech. 88, 123 (2012). DirectLink D. Czyżewski, "LED substitutes of conventional incandescent lamps(2)", Prz. Elektrotech. 91, 199 (2015). CrossRef Document of the International Commission on Illumination CIE 015:2018 "Colorimetry, 4th Edition". CrossRef CIE 13.3-1995: Method of measuring and specifying colour rendering properties of light sources," Commission Internationale de l'Eclairage, Vienna, Austria (1995). DirectLink Y. Ohno, M. Fein, C. Miller, "Vision Experiment on Chroma Saturation 2016 DOE SSL R&D Workshop 14 for Color Quality Preference", CIE 216 :2015, 60 (2015). DirectLink Y. Ohno, "Practical Use and Calculation of CCT and Duv", LEUKOS- J. Illum. Eng. Soc. N. Am. 10, 47, (2014). CrossRef Y. Wang, M. Wei, "Preference among light sources with different Duv but similar colour rendition: a pilot study", Ligh. Res. Technol. 50, 1013 (2018). CrossRef M. Royer, Analysis of color rendition specification criteria, Light-Emitting Devices, Materials, and Applications. 10940. International Society for Optics and Photonics, (2019). CrossRef ANSI/IES TM-30-20, IES Method for Evaluating Light Source Color Rendition. DirectLink J. Kowalska, "Analysis of parameters describing the quality of the color rendering of light sources according to the IES TM-30-15 and the CIE 013.3-1995", Prz. Elektrotech. 93, 50 (2017). CrossRef J. Kowalska, I.Fryc, "Colour rendition quality of typical fluorescent lamps determined by CIE Colour Fidelity Index and Colour Rendering Index", Prz. Elektrotech. 95, 94 (2019). CrossRef D. Aurelien, et al., "Development of the IES method for evaluating the color rendition of light sources", Opt. Express, 23, 15888 (2015). CrossRef W. Żagan, "Honestly and prudently about LED - Future and present state of LED application in lighting", Prz. Elektrotech. 84, 1 (2008). DirectLink W. Żagan, "Theoretical considerations on luminous efficacy and colour rendering of light sources", Prz. Elektrotech. 89, 284, (2013). DirectLink M. Listowski, "The real and modeled values of photometric and colorimetric parameters comparison of white LEDs operating at wide temperature range", Prz. Elektrotech. 98, 57 (2022). CrossRef R. Supronowicz, J. Fan, M. Listowski, A. Watras, I. Fryc, "Application of different metrics for describing light color quality of white LED". Photonics Lett. Pol. 13, 31 (2021). CrossRef I.Fryc, "Measurement techniques of optical LEDs properties performed with compliance conformity with CIE 127:2007 standard", Prz. Elektrotech. 85, 317 (2009). DirectLink I. Fryc, T. Dimitrova-Grekow, "An Automated System for Evaluation of the Quality of Light Sources" Proceedings of 2016 IEEE Lighting Conference of the Visegrad Countries (Lumen V4), CrossRef P. Jakubowski, J. Kowalska, R. Supronowicz, I. Fryc, "The Influence of Spectral Measurements Uncertainty of Fluorescent Lamps on Calculated Value of Their Relative Melanopic Weighted Irradiance and Colour Quality Parameters", 2018 VII. Lighting Conference of the Visegrad Countries (Lumen V4), 1 (2018). CrossRef P. Zhu, H. Zhu, G. C. Adhikari, S. Thapa, "Design of circadian white light-emitting diodes with tunable color temperature and nearly perfect color rendition", OSA Contin. 2, 2413 (2019). CrossRef Q. Dai, Y. Huang, L. Hao, Y. Lin, K. Chen, "Spatial and spectral illumination design for energy-efficient circadian lighting", Build. Environ. 146, 216 (2018). CrossRef A. Sánchez-Cano, J. Aporta, "Optimization of Lighting Projects Including Photopic and Circadian Criteria: A Simplified Action Protocol". Appl. Sci. 10, 8068 (2020). CrossRef CIE International Standard DIS 026/E:2018 CIE System for Metrology of Optical Radiation for ipRGC-Influenced Responses to Light, CrossRef I. Fryc, P. Jakubowski, K. Kołacz, "Analysis of optical radiation parameters of compact discharge HID lamps and LED COB modules used for illuminating shop windows, Prz. Elektrotech. 93, 186 (2017). CrossRef I. Fryc, "LED's spectral power distribution under different condition of operating temperature and driving current", Prz. Elektrotech. 86, 187 (2010). DirectLink D. Mozyrska, M. Wyrwas, I.Fryc, "The determination of the LEDs colorimetric parameters, in the range of their operating temperature", Prz. Elektrotech. 88, 232 (2012). DirectLink M. Kreissl, T. Q. Tien, J. W. Tomm, "Spatially resolved and temperature dependent thermal tuning rates of high-power diode laser arrays", Appl. Phys. Lett. 88, 133510 (2006). CrossRef K. Wandachowicz, K. Domke, "Measurements of the temperature-dependent changes of the photometrical and electrical parameters of LEDs", Prz. Elektrotech. 84, 114 (2008). DirectLink I. Fryc, "The spectral power distribution of LED driven by square shape pulses", Prz. Elektrotech. 88, 131 (2012). DirectLink J. Fan, Y. Li, I. Fryc, C. Qian, X. Fan, G. Zhang, "Machine-learning assisted prediction of spectral power distribution for full-spectrum white light-emitting diode". IEEE Photonics J. 12, 1 (2019). CrossRef R. Supronowicz, I. Fryc, "The LED spectral power distribution modelled by different functions - how spectral matching quality affected computed LED color parameters", Proceedings of Balkan Light Junior 2019 conference (ss. 1-4), (2019). CrossRef A. Kokka, et al., "Development of white LED illuminants for colorimetry and recommendation of white LED reference spectrum for photometry", Metrologia 55, 526 (2018). CrossRef ANSI C78.376-2014 Electric Lamps - Specifications For The Chromaticity Of Fluorescent Lamps. DirectLink
从FL切换到LED时的颜色质量考虑
根据欧盟立法,用于普通照明的荧光灯将于2023年停止销售。被提议作为FL的替代品的LED应提供相同质量的照明和视觉舒适性。FL灯的替代研究是基于多准则参数化的。这表明,由于颜色偏好标准,取代FL的LED可能无法满足最终用户的期望。本文将CIE命名为光源FL3.5的典型FL(4100K)灯与其市场上相应的LED替代品进行了比较。LED替代品的选择标准是核心色温(CCT)和色度点的值,该值必须在ANSI C78.376文件为4100 K CCT提供的椭圆内。全文:PDF参考资料W。Żagan,用节能灯取代传统灯具的必要条件,Przegled Elektrotechniczny,R.85100(2009)。DirectLink M.Zalesinska,J.Zablock,K.Wandachowicz,“非定向家用灯选定参数的测量和评估”,Prz。Elektrotech。94188(2018)。CrossRef D.Czyżewski,“传统白炽灯的LED替代品”,Prz。Elektrotech。88123(2012)。DirectLink D.Czyżewski,“传统白炽灯的LED替代品(2)”,Prz。Elektrotech。91199(2015)。国际照明委员会的CrossRef文件CIE 015:2018“比色法,第4版”。CrossRef CIE 13.3-1995:测量和规定光源显色性能的方法,“国际照明委员会,奥地利维也纳(1995)。DirectLink Y.Ohno,M.Fein,C.Miller,“色度饱和度视觉实验2016 DOE SSL颜色质量偏好研发研讨会14”,CIE 216:2015,60(2015)。DirectLink Y。Ohno,“CCT和Duv的实际应用和计算”,LEUKOS-J.Illum。Eng.Soc.N.Am.10,47,(2014)。王,魏,“具有不同Duv但颜色表现相似的光源之间的偏好:一项初步研究”,李。Res.Technol。501013(2018)。CrossRef M.Royer,色彩再现规范标准分析,发光器件、材料和应用。10940.国际光学与光子学会,(2019)。CrossRef ANSI/IES TM-30-20,评估光源颜色再现的IES方法。DirectLink J.Kowalska,“根据IES TM-30-15和CIE 013.3-1995描述光源显色质量的参数分析”,Prz。Elektrotech。93,50(2017)。CrossRef J.Kowalska,I.Fric,“由CIE保真度指数和显色指数确定的典型荧光灯的显色质量”,Prz。Elektrotech。95,94(2019)。CrossRef D.Aurelian等人,“评估光源颜色再现的IES方法的发展”,Opt。Express,2315888(2015)。CrossRef W.Żagan,“关于LED的诚实和谨慎-LED在照明中应用的未来和现状”,Prz。Elektrotech。84,1(2008)。DirectLink W.Żagan,“光源的发光效率和显色的理论考虑”,Prz。Elektrotech。89284,(2013)。DirectLink M.Listowski,“在宽温度范围内运行的白色LED的光度和色度参数比较的真实值和建模值”,Prz。Elektrotech。98,57(2022)。CrossRef R.Supronovicz,J.Fan,M.Listowski,A.Watras,I.Fric,“不同指标在描述白色LED光色质量中的应用”。光子通讯。波尔。13,31(2021)。CrossRef I.Fryc,“符合CIE 127:2007标准的光学LED性能测量技术”,Prz。Elektrotech。85117(2009)。DirectLink I.Fryc,T.Dimitrova Grekow,“光源质量评估的自动化系统”,2016年维谢格拉德国家IEEE照明会议论文集(Lumen V4),CrossRef P.Jakubowski,J.Kowalska,R.Suproowicz,I.Fryc,“荧光灯光谱测量不确定度对其相对黑色素加权辐照度和色质参数计算值的影响”,2018 VII。维谢格拉德国家照明会议(Lumen V4),1(2018)。CrossRef P.Zhu,H.Zhu,G.C.Adhikari,S.Thapa,“具有可调色温和近乎完美色彩再现的昼夜节律白色发光二极管的设计”,OSA Contin。24213(2019)。戴,黄,郝,林,陈,“节能昼夜节律照明的空间和光谱照明设计”,建筑。包围146216(2018)。CrossRef A.Sánchez Cano,J.Aporta,“包括摄影和昼夜节律标准在内的照明项目优化:简化行动方案”。Appl。科学。108068(2020)。CrossRef CIE国际标准DIS 026/E:2018受ipRGC影响的光响应的光辐射计量CIE系统,CrossRef I.Fryc,P.Jakubowski,K。
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