受约定约束的互连

HITEN 99. Third European Conference on High Temperature Electronics. (IEEE Cat. No.99EX372) Pub Date : 1999-07-04 DOI:10.1109/HITEN.1999.827475

A. Chilton

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引用次数: 0

摘要

用传统焊料连接高温电子电路的元件意味着必须选择在比电路工作温度更高的温度下熔化的合金。此外，为了使这些焊料合金具有足够的流动性，工艺温度必须大大高于简单的熔化温度。因此，仅仅为了实现互连，这些部件就必须承受相当大的压力。这将影响电路的可靠性，或者只是这些高温会破坏组件。作者概述了一种方法，远离共晶焊接，允许加工温度降低，焊点继续发展，因为电路在高温下工作。事实上，合金的熔化温度应该随着暴露在高温下而升高。这可能会导致重新加工接头的困难，但这可以通过用低熔化相填充接头来克服。

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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Interconnections constrained by convention

Interconnecting components for high temperature electronic circuits by conventional solders has meant that alloys have had to be selected that melt at even higher temperatures than the operating temperature of the circuit. Further, to get these solder alloys to be sufficiently fluid the process temperature has to be considerably greater than the simple melting temperature. Thus the components must be considerably stressed simply to make the interconnections. This will impact on circuit reliability or simply these high temperatures will destroy the component. The author outlines an approach which, far from eutectic soldering, allows processing temperatures to be reduced and the solder joint to continue to develop as the circuit is operating at high temperatures. Indeed the melting temperature of the alloy should increase with exposure to high temperatures. This may lead to difficulties of reworking the joints but this could be overcome by flooding the joint with the low melting phase.

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HITEN 99. Third European Conference on High Temperature Electronics. (IEEE Cat. No.99EX372)

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