基于q因子的返工站回流焊返修设计系统

Proceedings of 2005 International Conference on Asian Green Electronics, 2005. AGEC. Pub Date : 2005-03-15 DOI:10.1109/AGEC.2005.1452315

X. Sheng, H. Ding, Y. Yin, Y.P. Wu

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引用次数: 0

摘要

目前回流焊是PCB组装的主要工艺。我们现在有有限差分(FD)和计算流体动力学(CFD)建模工具，可以建立回流焊过程模型并计算出实际回流炉的详细表示。本文介绍了利用上述建模工具开发的返工站回流焊回溯设计系统。在实际曲线与理想曲线不一致的情况下，用加热因子(q因子)来评价所获得的曲线是否能很好地完成焊接任务。通过调整热分布图，使特征点在计算上满足部件和焊料的要求，从而可以在不进行任何实际回流运行的情况下获得最佳分布图。同时，系统在设备控制器上引入了工艺配方的闭环实现，提高了执行的可重复性。该系统用于设置金属APR-5000返工站的底部和顶部加热器轮廓。

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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A reflow soldering retro-design system for rework station based on Q-factor

Currently reflow soldering is the primary process used for the assembly of PCB. We now have finite difference (FD) and computational fluid dynamics (CFD) modeling tools, which can establish the reflow soldering process models and compute out the detailed representations of the real reflow ovens. This paper presents the development of a reflow soldering retro-design system for rework stations with the above modeling tools. Heating factor (Q-factor) is used to evaluate whether the achieved profile fulfils the soldering task well despite the real curve different from the ideal one. The behavior of adjusting the heat profile to make the feature points meet the requirements of components and solders computationally may then get the optimal profile without any actual reflow running. Meanwhile, the system introduces the closed-loop implementation of process recipe on the device controller so as to enhance the execution repeatability. This system is used to set the bottom and top heater profiles of a Metcal APR-5000 rework station.

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Proceedings of 2005 International Conference on Asian Green Electronics, 2005. AGEC.

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