The Results of the Testing of Led Light According to the Method of Measuring the Lighting Engineering Parameters

A. Kolesnyk, D. Usichenko, L. Nazarenko
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Abstract

The paper presents results of the thermographic and numerical analyses of the chosen design of the LED lamp radiator. The LED technology is characterized by the most dynamic development in the ligh ting market. The object of the test is the LED-1 product, which represents the unit module of the multi-module lighting system. Due to high heat fl ux on the small surface of the individual diodes, problems related to the light source cooling become to be one of the basic ones. The parameters of the test modes for the eff ects of changes in temperature are selected taking into account the physical and mechanical properties of the materials used in the manufacture of the product. Tests were conducted in a windless, dark room. Heat was discharged through convection and radiation. The tests in a dark room were conducted. Heat was discharged through convection and radiation. A thermoelectric transducer chromel-copel with dimensions of 400 μm was used to measure the temperature. The temperature was measured by passing a nominal current of 1,67 A through the module. The test results were analyzed and processed. Based on the result it was decided that the works will be continued using the advanced test stand, equipped with the system of the forced air circulation, control and data acquisition system connected with set of the temperature measurers and improved barriers, preventing the interference of the light fl ux with the thermographic measurement. The results of studies of thermal conditions and lighting parameters of the sample of the LED lamp in the process of robots are given. The ability of LED modules to resist the destructive action of heat has been determined. Inspection of potentially unreliable structural elements, strength of fasteners has been done. The luminous effi ciency of LED modules is calculated by indirect and direct, thermal and optical measurements. For the clarity of the working picture was a measured base spectral characteristic. The case temperature, with basic measurements, was 45 °C, and the ambient temperature was 24,2 °C. Analyzing the measurement results — the deviation of the light characteristics amounted to < 10 %. Bringing measurement results to model drawings in CAD SolidWorks allowed us to create a consistent computer model of the product. The model allows with sufficient accuracy to carry out all the calculations for thermal and mass-dimensional data.
根据照明工程参数测量方法对Led灯的测试结果
本文介绍了LED灯散热器的热成像和数值分析结果。LED技术的特点是在照明市场上发展最为活跃。测试对象是LED-1产品,它代表了多模块照明系统的单元模块。由于单个二极管的小表面上的高热流,与光源冷却相关的问题成为基本问题之一。温度变化影响的测试模式的参数是在考虑产品制造中使用的材料的物理和机械性能的情况下选择的。测试是在一个无风、黑暗的房间里进行的。热量通过对流和辐射排出。测试是在黑暗的房间里进行的。热量通过对流和辐射排出。用一个尺寸为400μm的热电换能器chromel copel测量温度。通过使1.67A的标称电流通过模块来测量温度。对测试结果进行了分析和处理。根据结果,决定使用先进的试验台继续进行工作,该试验台配备了强制空气循环系统、控制和数据采集系统,并连接了一套温度测量仪和改进的屏障,以防止光线干扰热成像测量。给出了机器人加工过程中LED灯样品的热条件和照明参数的研究结果。已经确定了LED模块抵抗热量破坏作用的能力。已对可能不可靠的结构元件、紧固件强度进行了检查。LED模块的发光效率通过间接测量和直接测量、热测量和光学测量来计算。为了工作图像的清晰度,测量了基本光谱特性。经过基本测量,外壳温度为45°C,环境温度为24.2°C。分析测量结果——光特性的偏差达<10%。将测量结果带到CAD SolidWorks中的模型图中,使我们能够创建一个一致的产品计算机模型。该模型允许以足够的精度对热尺寸和质量尺寸数据进行所有计算。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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