衬底设计参数对柔性基板倒装芯片模具开裂的影响

M. Sabale, Kiran Vinerkar, S. Thakur, S. Tonapi
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引用次数: 7

摘要

电子工业的小型化趋势加上倒装芯片技术的进步,在许多产品中增加了对板上倒装芯片或直接芯片连接技术的使用。对于不能返工的产品来说尤其如此。通过使用下填料将芯片耦合到基板上,克服了可靠性问题,随后在下填料技术方面取得了重大进展,可以选择传统的毛细管流下填料,也可以选择无流和晶圆级下填料材料和工艺。虽然在有机基板上的倒装芯片以及下填技术领域已经进行了大量的研究,但在柔性基板上的倒装芯片领域仍有很多工作要做。柔性基板上的倒装芯片具有巨大的潜力,因为它在许多应用中都得到了证明,如植入式医疗设备、硬盘驱动器等。当我们从刚性基材转移到柔性基材时,厚度从标准的62 mil - 31 mil范围减少到10 mil - 4 mil范围。与硬有机基板上的倒装芯片相比,厚度的变化也改变了可靠性问题和失效模式。在本文中,我们研究了下填料几何形状(圆角的高度和宽度)对热循环过程中模具开裂的影响。封装经受-55°C至125°C加速热循环。建立了三维有限元分析模型,对柔性基板倒装芯片中各参数对模具开裂的影响进行了计算和分析。
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Effect of underfill design parameters on die cracking in flip chip on flexible substrates
The trends towards miniaturization in the electronics industry coupled with advances in flip chip technology have increased the use of flip chip on board or direct chip attach technology in many products. This is especially true for products where re-work is not an option. Reliability issues were overcome by the use of underfill to couple the chip to the substrate and subsequently significant advances were made in underfill technology to give options like traditional capillary flow underfills to no-flow and wafer level underfill materials and processes. While significant research has been conducted and published in the area of flip chip on organic substrates as well as on underfill technology, there is still a lot that needs to be done in the area of flip chip on flexible substrates. There is significant potential for flip chip on flexible substrates as it is demonstrated in many applications like implantable medical devices, hard disk drives etc. As we move from rigid to flexible substrates the thickness reduces from the standard 62 mil - 31 mil range to 10 mil - 4 mil range. The change in thickness also changes the reliability issues and failure modes as compared to flip chip on rigid organic substrates. In this paper, we have investigated the effect of underfill geometry (height and width of fillet) on die cracking during thermal cycling. Package is subjected to the -55°C to 125°C accelerated thermal cycling. A 3 Dimensional Finite Element Analysis model is created and used to computationally evaluate the effect of various parameters and draw inferences on die cracking in flip chip on flexible substrates.
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