Ultra-high resolution temperature measurement and thermal management of RF power devices using heat pipes

11th International Symposium on Power Semiconductor Devices and ICs. ISPSD'99 Proceedings (Cat. No.99CH36312) Pub Date : 1999-05-26 DOI:10.1109/ISPSD.1999.764083

Jun He, V. Mehrotra, M. C. Shaw

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引用次数: 4

Abstract

A new technique, designated pyrospectroscopy, for measuring temperatures with ultra-high resolution in semiconductor devices is demonstrated. This technique is based on Raman spectroscopy and offers a spatial resolution of about 1 /spl mu/m and a temperature resolution in the 1-2/spl deg/C range. The ability to resolve temperatures at this spatial resolution is demonstrated experimentally in functioning RF power amplifier devices, where heat is concentrated in extremely small emitter regions. Highly localized temperature gradients in a 900-1200 MHz Si power amplifier die are shown. In contrast, these data indicate that the temperatures measured separately by infrared microscopy underestimate the localized device temperature at the same position by as much as 20/spl deg/C. Finally, a unique thermal management approach using heat pipes is demonstrated, which results in a 20% decrease in temperature of a RF power device accompanied by a 55% reduction in thermal resistance for the case investigated.

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使用热管的射频功率器件的超高分辨率温度测量和热管理

介绍了一种用于半导体器件超高分辨率温度测量的新技术——热释光谱学。该技术基于拉曼光谱，空间分辨率约为1 /spl μ m，温度分辨率在1-2/spl度/C范围内。在这种空间分辨率下的温度分辨能力在功能性射频功率放大器器件中得到了实验证明，其中热量集中在极小的发射极区域。显示了900-1200 MHz Si功率放大器芯片的高度局部温度梯度。相比之下，这些数据表明，红外显微镜单独测量的温度低估了相同位置的局部器件温度高达20/spl度/C。最后，展示了一种使用热管的独特热管理方法，该方法使射频功率器件的温度降低了20%，同时热阻降低了55%。

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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11th International Symposium on Power Semiconductor Devices and ICs. ISPSD'99 Proceedings (Cat. No.99CH36312)

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