The development of component-level thermal compact models of a C4/CBGA interconnect technology: the Motorola PowerPC 603/sup TM/ and PowerPC 604/sup TM/ RISC microprocessors

1996 Proceedings 46th Electronic Components and Technology Conference Pub Date : 1996-05-28 DOI:10.1109/ECTC.1996.517392

J. Parry, H. Rosten, G. Kromann

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引用次数: 43

Abstract

Thermal resistance networks or "compact" models of the PowerPC 603 and PowerPC 604 microprocessors in controlled-collapsed-chip-connection/ceramic-ball-grid-array (C4/CBGA) single-chip package are derived from "detailed" three-dimensional conduction models of the parts by both analytical and data fitting techniques. The behavioral correctness of these models is assessed by comparing the die-junction temperatures predicted for the compact model with the detailed model results for a range of boundary conditions applied at the surfaces of the package. The performance of these models is then verified by comparing the detailed and compact models in an application-specific environment (a wind tunnel) using a computational-fluid dynamics program. The interaction between the package and its environment is also discussed. The work reported here forms part of a long term European research program to create and validate generic thermal models of a range of electronic parts.

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开发了采用C4/CBGA互连技术的组件级热紧凑模型:摩托罗拉PowerPC 603/sup TM和PowerPC 604/sup TM/ RISC微处理器

热阻网络或“紧凑”模型的powerpc603和powerpc604微处理器在控制-崩溃芯片连接/陶瓷球网格阵列(C4/CBGA)单芯片封装是由零件的“详细”三维传导模型通过分析和数据拟合技术导出。这些模型的行为正确性是通过比较紧凑模型预测的模结温度与应用于封装表面的一系列边界条件的详细模型结果来评估的。然后，通过使用计算流体动力学程序在特定应用环境(风洞)中比较详细模型和紧凑模型，验证这些模型的性能。还讨论了包与其环境之间的相互作用。这里报告的工作是欧洲长期研究计划的一部分，该计划旨在创建和验证一系列电子部件的通用热模型。

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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1996 Proceedings 46th Electronic Components and Technology Conference

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