菲涅耳透镜在LED局部照明光源中的应用Оptimize工作平面的照明分布

IF 0.2 Q4 INSTRUMENTS & INSTRUMENTATION Devices and Methods of Measurements Pub Date : 2023-08-09 DOI:10.21122/2220-9506-2023-14-2-96-105
P. Bogdan, E. Zaytseva, I. A. Kovalenok, T. D. Tarasenko, E. V. Duboysky, Зайцева Е.Г Белорусский, П.С. Богдан, Е.Г. Зайцева, И.А. Ковалёнок, Т.Д. Тарасенко, Е.В. Дубойский
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引用次数: 0

摘要

对于广泛使用的LED光源,从中心到边缘的工作平面的照度急剧下降。本研究的目的是分析菲涅耳透镜作为一种相当简单和技术元素的使用的有效性,以增加局部照明的LED灯所产生的照明均匀性。本文提出了一种计算“LED矩阵-菲涅耳透镜”组合在透镜与矩阵之间的距离小于透镜焦距时所产生的照度分布的方法。计算结果与实验结果的对比表明,当透镜位于距工作平面50 cm处时,所建立的计算方法是正确的。这使得利用该技术解决局部照明LED光源工作平面内光照分布均匀性提高的问题成为可能。研究发现,在0.5 ~ 1.5 cm范围内,基质与透镜之间距离的变化对最大照度及其均匀性的影响小于10 ~ 100 cm范围内焦距的变化。在三种情况下,得到了工作表面照度均匀性随菲涅耳透镜焦距及其到LED矩阵距离的解析依赖关系。在第一种情况下,整个矩阵使用一个透镜,而led光强曲线的对称轴平行于透镜的轴线。在第二种情况下,一个透镜也用于整个矩阵,但光强曲线的对称轴的延续性通过透镜的前焦点。在第三种情况下,每个LED使用一个单独的菲涅耳透镜。可以确定的是,对于所有三种情况,依赖关系具有几乎相同的特征。因此,选择使用这三种选择之一可能是由于可制造性、成本效益、热稳定性和其他考虑因素。利用上述分析依赖关系的计算,可以确定“LED矩阵-菲涅耳透镜”系统的参数值,该系统的照度和均匀性指标符合标准要求。
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The Use of Fresnel Lenses in LED Sources of Local Illumination to Оptimize the Distribution of Illumination of the Working Plane
For widely used LED sources there is a sharp decrease in the illumination of the working plane from the center to the edge. The purpose of this study was to analyze the effectiveness of Fresnel lenses usage as a fairly simple and technological element to increase the uniformity of illumination created by LED lamps of local lighting.A method has been developed for calculating of the distribution of illumination created by the combination of “LED matrix – Fresnel lens” when the distance between the lens and the matrix is less than the focal length of the lens. Comparison of the calculation results and experiments for the case when the lens is located at a distance of 50 cm from the working plane indicates the correctness of the developed calculation method. This made it possible to use this technique to solve the problem of improved uniformity of illumination distribution in the working plane of local lighting LED sources.It was found that the change in the distance between the matrix and the lens in the range of 0.5–1.5 cm affects the maximum illumination and its uniformity to a lesser extent than the change in focal lengths in the range of 10–100 cm. Analytical dependences of the uniformity of the working surface illumination as a function of the Fresnel lens focal length and its distance to the LED matrix were obtained for three cases. In the first case one lens is used for the entire matrix while the axes of symmetry of the light intensity curves of LEDs are parallel to the axis of the lens. In the second case one lens is also used for the entire matrix, but the continuations of the axes of symmetry of the light intensity curves pass through the front focus of the lens. In the third one an individual Fresnel lens is used for each LED. It is established that for all three cases dependencies have almost the same character. Therefore, the choice of using one of these three options may be due to manufacturability, cost-effectiveness, thermal stability, and other considerations.Calculations using the above-mentioned analytical dependences made it possible to determine values of the parameters of the “LED matrix – Fresnel lens” system at which the indicators of illumination and uniformity meet the standards’ requirements.
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Devices and Methods of Measurements
Devices and Methods of Measurements INSTRUMENTS & INSTRUMENTATION-
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25.00%
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审稿时长
8 weeks
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