硅通孔(TSV)失效的频域和时域测量

D. Jung, Joohee Kim, Heegon Kim, J. J. Kim, Joungho Kim, J. Pak, J. Yook, J. C. Kim
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引用次数: 10

摘要

作为对电子器件小型化需求无限增长的解决方案,基于硅通孔(TSV)的三维集成电路(3D-IC)带来了另一个技术发展的时代。然而,仍然需要克服的挑战之一是提高产品的可靠性。由于TSV制造工艺的不稳定性,可能会导致不同类型的失效,影响3D-IC的性能。TSV测试方法对于基于TSV的3D-IC集成到产品中至关重要。其中一种主要的故障类型是通道中的断开故障。缺陷点不仅要检测,而且要定位,以便选择合适的通道进行恢复过程。通过对制造的试验车进行频域和时域测量,可以检测出沿通道断开的位置。测量S11和S22震级进行频域分析。比较两个图中的下降程度,以测试在检测到断开之前来自每个端口的信号传播的距离。应用类似的思想,对时域反射(TDR)波形进行时域测量分析。端口1和端口2的TDR波形通过其上升时间进行比较,上升时间取决于通道内的寄生并联电容。这些数值可以被量化,以进行更精确的TSV检测。
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Frequency and time domain measurement of through-silicon via (TSV) failure
As a solution to limitlessly growing demand on miniaturization of electronic devices, through silicon via (TSV) based 3-dimensional integrated circuits (3D-IC) have brought another era of technology evolution. However, one of the remaining challenges to overcome is to increase the reliability of the products. Due to the instability of TSV fabrication process, different types of failure may be caused, affecting the performance of 3D-IC. TSV test method is essential for TSV based 3D-IC to be integrated in the products. One of the main failure types is disconnection failure in the channel. The point of defect not only has to be detected, but also has to be localized, so that appropriate channel is chosen to go through the recovery process. By measuring the fabricated test vehicles in frequency and time domain, the location of disconnection along the channel can be detected. S11 and S22 magnitudes are measured for frequency domain analysis. The degrees of decrease in two plots are compared to test how far the signals from each port travel before detecting the disconnection. Applying the similar idea, time domain measurement is analyzed with time-domain reflectometry (TDR) waveforms. The TDR waveforms from port 1 and port 2 are compared by their rising times, which depend on parasitic shunt capacitances within the channel. The values may be quantified for more precise TSV testing.
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