Prediction of LED luminaire spectral power distribution using a mathematical model developed based on interpolation method

IF 0.5 Q4 OPTICS Photonics Letters of Poland Pub Date : 2022-12-31 DOI:10.4302/plp.v14i4.1177

R. Sikora, P. Markiewicz, A. Pawlak

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Abstract

LED luminaires with controllable luminous flux are increasingly used, mainly due to the need to reduce electricity consumption, which is the equivalent of improving the energy efficiency of a lighting installation. Changing the dimming level changes the spectral power distribution of the luminaire or light source. Knowledge of dimming characteristics including spectral power distribution relationships provides the opportunity to optimize control algorithms and predict the impact of lighting parameters on the work surface. The paper presents a mathematical model to calculate the spectral power distribution of an LED luminaire for any level of dimming. Two interpolation methods were used to develop the model, fitted by polynomial functions and spline functions. Validation of the model was performed for two values of control voltage-dimming levels. Full Text: PDF ReferencesJ. Silva, J.F.G. Mendes, L.T. Silva, "Assessment Of Energy Efficiency In Street Lighting Design", WIT Transaction on Ecology and the Environment 129, 705 (2010). CrossRef A. Nardelli, E. Deuschle, L.Dalpaz de Azevedo, J. Lorenço Novaes Pessoa, E. Ghisi, "Assessment of Light Emitting Diodes technology for general lighting: A critical review", Renewable and Sustainable Energy Rev. 75, 368 (2017). CrossRef O. Rabaza, D. Gómez-Lorente, F. Pérez-Ocón, A. Peña-García, "A simple and accurate model for the design of public lighting with energy efficiency functions based on regression analysis", Energy 107, 831 (2016). CrossRef S. Raggiunto, A. Belli, L. Palma, P. Ceregioli, M. Gattari, P. Pierleoni, "An Efficient Method for LED Light Sources Characterization", Electronics 8(10), 1089 (2019). CrossRef I. Rachev, T. Djamiykov, M. Marinov, N. Hinov, "Improvement of the Approximation Accuracy of LED Radiation Patterns", Electronics 8, 337 (2019). CrossRef

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基于插值法建立的数学模型预测LED灯具光谱功率分布

光通量可控的LED灯具越来越多地被使用，主要是因为需要减少电力消耗，这相当于提高了照明设备的能效。改变调光级别会改变灯具或光源的光谱功率分布。包括光谱功率分布关系的调光特性的知识提供了优化控制算法和预测照明参数对工作表面的影响的机会。本文提出了一个数学模型来计算LED灯具在任何调光水平下的光谱功率分布。该模型采用了两种插值方法，分别用多项式函数和样条函数拟合。对控制电压调光水平的两个值进行了模型验证。全文：PDF参考文献J。Silva，J.F.G.Mendes，L.T.Silva，“街道照明设计中的能源效率评估”，WIT生态与环境交易129705（2010）。CrossRef A.Nardelli，E.Deuschle，L.Dalpaz de Azevedo，J.Lorenço Novaes Pessoa，E.Ghisi，“普通照明用发光二极管技术的评估：批判性评论”，可再生和可持续能源修订版75368（2017）。CrossRef O.Rabaza，D.Gómez Lorente，F.Pérez Ocón，A.PeñA-GarcíA，“基于回归分析的具有能效函数的公共照明设计的简单准确模型”，energy 107831（2016）。CrossRef S.Raggiunto，A.Belli，L.Palma，P.Ceregioli，M.Gattari，P.Pierleoni，“LED光源表征的有效方法”，《电子学》8（10），1089（2019）。CrossRef I.Rachev，T.Djamiykov，M.Marinov，N.Hinov，“提高LED辐射模式的近似精度”，《电子学》，8337（2019）。CrossRef

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来源期刊

Photonics Letters of Poland OPTICS-

CiteScore

1.40

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0.00%

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