The creation of compact thermal models of electronic components using model reduction

Twentieth Annual IEEE Semiconductor Thermal Measurement and Management Symposium (IEEE Cat. No.04CH37545) Pub Date : 2004-03-09 DOI:10.1109/STHERM.2004.1291309

X. Guo, D. Celo, P. Gunupudi, R. Khazaka, D. Walkey, T. Smy, M. Nakhla

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引用次数: 4

Abstract

This paper presents a new approach to create boundary condition independent thermal compact models based on the multidimensional model reduction (MDMR) technique. A methodology is developed for the generation of a multi dimensional compact model (MDCM) from a detailed numerical model. The MDCM is shown to have a number of advantages over resistor network models. The generation of the model is at least an order of magnitude faster then the creation of an optimized network model. The MDCM displays very high accuracy typically better than 0.1%, is very flexible allowing for the prediction of all internal temperatures, and presents no limitations on the external configuration of the compact model. A generic multi-chip module ball grid array (MCMBGA) package is used to demonstrate the technique. The MDCM created shows to have high predictive capability, boundary condition independence and a small model size. Finally, by connecting the MDCM to a printed circuit board model and simulating the system, speed ups of around 100 times are achieved.

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使用模型缩减创建电子元件的紧凑热模型

本文提出了一种基于多维模型约简(MDMR)技术建立与边界条件无关的热压缩模型的新方法。本文提出了一种由详细的数值模型生成多维紧凑模型的方法。与电阻网络模型相比，MDCM具有许多优点。模型的生成至少比创建优化的网络模型快一个数量级。MDCM显示非常高的精度，通常优于0.1%，非常灵活，可以预测所有内部温度，并且对紧凑模型的外部配置没有限制。采用通用的多芯片模块球栅阵列(MCMBGA)封装来演示该技术。所建立的MDCM具有预测能力强、边界条件无关性强、模型尺寸小等特点。最后，通过将MDCM连接到印刷电路板模型并对系统进行仿真，实现了大约100倍的速度提升。

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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Twentieth Annual IEEE Semiconductor Thermal Measurement and Management Symposium (IEEE Cat. No.04CH37545)

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