用于自对准倒装芯片组装的新型焊盘

Y. Martin, S. Kamlapurkar, N. Marchack, J. Nah, T. Barwicz
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引用次数: 3

摘要

在倒装芯片键合中,通过焊料表面张力进行自对准,为低成本、高通量、亚微米精度的组件组装打开了大门。这对用于高速光通信和传感器的集成光子学尤其有影响[1,2]。组装成品率取决于焊料诱导力的细节和熔化焊料表面的几何形状。低曲率的熔化焊料是最好的平衡焊料力,以获得最佳的重新对准产量,但导致浅接触角和焊料脱湿的传统焊盘。我们介绍并演示了具有浅角度边缘的嵌入式焊盘的概念。这样的几何形状使得熔融焊料表面的曲率任意低,甚至平坦或微凹的形状。焊料固定在凹焊盘的倾斜边缘,可以使其在长而窄的管道中流动。这两个方面是扩大焊点诱导芯片对准技术的制造和工艺窗口的关键。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel Solder Pads for Self-Aligned Flip-Chip Assembly
Self-alignment via solder-surface tension in flip-chip bonding opens the door to low-cost, high-throughput assembly of components with sub-micron accuracy. This is especially impactful to integrated photonics as used for high speed optical communication and sensors [1,2]. Assembly yield hinges on the details of solder-induced forces and on the geometry of the melted solder surface. Low curvature of melted solder is best to balance solder forces for optimal re-alignment yield but leads to shallow contact angles and solder de-wetting on traditional solder pads. We introduce and demonstrate the concept of recessed solder pads with shallow angled edges. Such geometry enables arbitrarily-low curvature of the molten solder surface and even flat or slightly concave shapes. The solder stays anchored at the angled edges of recessed pads and can be made to flow in long and narrow conduits. Both aspects are key to widening the fabrication and process window for the solder-induced chip-alignment technology.
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