Analysis of thermal transient data with synthesized dynamic models for semiconductor devices

Proceedings of 1994 IEEE/CHMT 10th Semiconductor Thermal Measurement and Management Symposium (SEMI-THERM) Pub Date : 1900-01-01 DOI:10.1109/STHERM.1994.288990

J. Sofia

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引用次数: 10

Abstract

A technique for synthesizing dynamic models comprised of discrete thermal resistances and capacitances directly from thermal step-response data on packaged semiconductor devices has been developed. Such models reveal the effective internal-package thermal resistances which comprise the overall junction-to-ambient or junction-to-case thermal resistance. These models can discriminate lumped internal constituent resistances including die/die-attachment spreading, internal package spreading, and case-to-air dissipation. The thermal step-response has been experimentally and analytically studied using the electrical method of junction temperature measurement. The interpretation and accuracy of these synthetic models have been investigated on a collection of test-case devices. Overshoot anomalies exhibited by junction-to-case thermal step responses have been examined experimentally and explained with synthetic model analysis. The application of synthetic models to computing thermal impedance for non-constant or cyclic device-powering conditions is also presented.<>

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半导体器件热瞬态数据的综合动态模型分析

本文提出了一种直接从封装半导体器件上的热阶跃响应数据合成由离散热阻和热容组成的动态模型的方法。这些模型揭示了有效的内部封装热阻，包括整体结对环境或结对外壳的热阻。这些模型可以区分集中的内部组成电阻，包括模具/模具附件扩散，内部封装扩散和外壳到空气的耗散。利用结温测量的电学方法对热阶跃响应进行了实验和分析研究。这些综合模型的解释和准确性已在一系列测试用例设备上进行了研究。结-壳热阶跃响应所表现出的超调异常已经通过实验进行了检验，并用综合模型分析进行了解释。本文还介绍了综合模型在非恒定或循环器件供电条件下的热阻抗计算中的应用

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Proceedings of 1994 IEEE/CHMT 10th Semiconductor Thermal Measurement and Management Symposium (SEMI-THERM)

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