用于大功率高密度LED阵列的低轮廓强制对流散热器的参数化设计

K. Geisler
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引用次数: 3

摘要

固态光源,如发光二极管(led),提供了许多固有的好处,并将在未来几十年主导照明行业。虽然大多数行业目前都专注于将LED技术封装在标准化的19世纪形状因素中,以解决传统灯具的大量安装基础,但固态器件的独特特性可以并且将被利用来生产21世纪及以后的新型灯具类型和照明设计的新范例。由于工作温度直接影响能源效率、输出频谱和产品寿命,因此热管理是应用需求、设计权衡和性能特征相互依赖的关键环节。本文详细介绍了用于大规模照明应用的大功率高密度led光源的设计。特别地,设计了一个低轮廓的折叠翅片铜散热器,用于38 mm × 38 mm风扇阵列的强制对流冷却。散热片的尺寸,包括散热片厚度、散热片间距、散热片长度和散热片基座厚度与散热片高度的比例,在外形因素限制和制造限制的范围内进行了调整,以生产出适合60000流明、50.8 mm × 50.8 mm LED阵列的散热方案,散热功率为600w。数值、分析和实验研究的结果表明,LED结温可以在45°C的环境中保持在最大工作极限以下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Parametric design of a low-profile, forced convection heat sink for high-power, high-density LED arrays
Solid state light sources, such as light emitting diodes (LEDs), provide many inherent benefits and will dominate the lighting industry in the coming decades. While much of the industry is currently focused on packaging LED technology in standardized 19th century form factors to address the massive installed base of traditional fixtures, the unique characteristics of solid state devices can and will be exploited to produce new luminaire types and new paradigms in lighting design for the 21st century and beyond. Since operating temperatures directly impact energy efficiency, output spectrum, and product lifetime, thermal management is a key linkage in the interdependence of application requirements, design trade-offs, and performance characteristics. This paper details the design of a high-power, high-density LED-based light source for large-scale lighting applications. In particular, a low-profile folded-fin copper heat sink was designed for forced-convection cooling by an array of 38 mm × 38 mm fans. Heat sink dimensions, including fin thickness, fin spacing, heat sink length, and heat sink base thickness to fin height ratio, were varied within form factor constraints and manufacturing limits to produce a suitable thermal solution for a 60,000+ lumen, 50.8 mm × 50.8 mm LED array dissipating 600 W of heat. Results of numerical, analytical, and experimental investigations demonstrate that LED junction temperatures can be maintained below maximum operating limits in a 45°C ambient.
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