Inline Rth control: Fast thermal transient evaluation for high power LEDs

19th International Workshop on Thermal Investigations of ICs and Systems (THERMINIC) Pub Date : 2013-12-02 DOI:10.1109/THERMINIC.2013.6675208

Thomas Dannerbauer, T. Zahner

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引用次数: 7

Abstract

As junction-to-case thermal resistance RthJC is a primary performance and reliability parameter for high power Light Emitting Diodes (LED) an accurate specification of this value is of paramount importance. Currently thermal transient characterization methods are reserved to research and quality laboratories. Especially the thermal calibration procedure requires an enormous effort of time. Therefore the RthJC specification of a high volume production is based on a statistical approach. However, high test coverage or even a single unit test is desired. This paper presents a method for inline Rth control for high power LEDs. By skipping the conventional thermal calibration procedure the method compares the measured response of the device under test with a completely thermal characterized reference curve of a reference device. It enables to detect variations in thermal interface materials, e.g. failures in the thermal adhesive attach, with sufficient accuracy within some hundred milliseconds testing time. The achieved measurement results verify the applicability of inline Rth control in a high volume production.

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在线温度控制:高功率led的快速热瞬态评估

由于结壳热阻RthJC是高功率发光二极管(LED)的主要性能和可靠性参数，因此该值的准确规格至关重要。目前，热瞬态表征方法仅局限于研究和质量实验室。特别是热校准过程需要大量的时间。因此，大批量生产的RthJC规范是基于统计方法的。然而，高测试覆盖率甚至单个单元测试是需要的。本文提出了一种大功率led的内嵌Rth控制方法。通过跳过传统的热校准程序，该方法将被测设备的测量响应与参考设备的完全热特性参考曲线进行比较。它能够检测热界面材料的变化，例如热粘接的故障，在几百毫秒的测试时间内具有足够的精度。实现的测量结果验证了在线Rth控制在大批量生产中的适用性。

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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19th International Workshop on Thermal Investigations of ICs and Systems (THERMINIC)

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