Board and system level effects on plastic package thermal performance

1996 Proceedings 46th Electronic Components and Technology Conference Pub Date : 1996-05-28 DOI:10.1109/ECTC.1996.550754

T. Zhou, M. Hundt

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引用次数: 8

Abstract

The objective of this work is to understand the effect of the board/system environment on package thermal performance. It is found that for most plastic packages and in typical application environment, the majority of heat is conducted to the board. The junction to ambient thermal resistance can be obtained by the package thermal resistance and board thermal resistance. For a particular package, as the board and system environment changes, the package thermal resistance does not change, what changes is the board resistance. Thermal enhancement can be achieved in board and system level in additional to package level. The board and system act as the system heat sink. The thermal resistance of this heat sink is represented by the board to ambient thermal resistance. In this study, the sensitivity of the board thermal resistance to different parameters is examined by simulation. These parameters include: package size and placement, board construction and mounting, and the component interaction. It is suggested that by carefully designing the board and system, the optimal thermal performance can be reached.

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板级和系统级对塑料封装热性能的影响

这项工作的目的是了解电路板/系统环境对封装热性能的影响。研究发现，对于大多数塑料封装，在典型的应用环境中，大部分热量都传导到电路板上。结对环境热阻可由封装热阻和板热阻求得。对于特定的封装，随着电路板和系统环境的变化，封装的热阻不会改变，改变的是电路板的电阻。除了封装级外，还可以在板级和系统级实现热增强。主板和系统充当系统散热器。该散热器的热阻由单板对环境热阻表示。在本研究中，通过仿真测试了电路板热阻对不同参数的敏感性。这些参数包括:封装尺寸和位置，电路板结构和安装，以及组件的相互作用。建议通过精心设计电路板和系统，可以达到最佳的热工性能。

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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