混合电路的计算机热分析

IEEE Transactions on Parts, Hybrids, and Packaging Pub Date : 1977-09-01 DOI:10.1109/TPHP.1977.1135213

R. David

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引用次数: 51

摘要

编写了一个计算机程序对混合电路进行稳态分析。该程序的输出给出了混合电源中每个功耗元件的温度。该程序是基于解决拉普拉斯方程在三维使用傅里叶技术。所做的假设是:没有对流或辐射，任何单一材料的恒定和各向同性导热系数，混合封装底部的温度恒定。贝塞尔不等式允许人们输入所需的精度，并确定无穷级数应该截断的位置。理论上，该程序将获得任何期望的精度低于100%，但实际考虑到计算机运行时间限制精度到90%至95%的区域。该程序已通过将计算机结果与已知的理论精确解和样品混合动力车的实际测量结果进行比较来测试。与已知的理论精确解相比，计算机结果的准确率在95%到100%之间。当与实际测量的混合样本进行比较时，计算机结果的准确度在90%到95%之间。该程序已成功应用于二十多个电路设计中。它也被用来评价简单类型的热分析。

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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Computerized Thermal Analysis of Hybrid Circuits

A computer program was written to perform steady-state analysis for hybrid circuits. The output of the program gives the temperature of each power dissipating element in the hybrid. The program is based upon solution of Laplace's equation in three dimensions using Fourier techniques. The assumptions made are: no convection or radiation, constant and isotropic thermal conductivity for any single material, and constant temperature at the bottom of the hybrid package. Bessel's inequality allows one to input the desired accuracy and to determine where the infinite series should be truncated. Theoretically, the program will attain any desired accuracy less than 100 percent, but practical considerations of computer run times limit accuracies to the 90- to 95-percent region. The program has been tested by comparing computer results to known theoretical exact solutions and to actual measurements on sample hybrids. When compared to known theoretical exact solutions, the computer result accuracy is between 95 and 100 percent. When compared to actual measurements on sample hybrids, the computer result accuracy is between 90 and 95 percent. This program has been used successfully on over twenty circuit designs. It has also been used to evaluate simpler types of thermal anal- yses.

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IEEE Transactions on Parts, Hybrids, and Packaging

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