Nonlinearities in thin-silicon die strength tests

P. Huang, M. Tsai
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引用次数: 6

Abstract

While the semiconductor packages are evolving toward smaller package size and higher performance, the 3D IC or stacked-die packages are gaining popular. For these applications, IC wafers have to be ground to be relatively thin and the dies cut from these wafers have to possess sufficient strength against high stresses resulting from process handling, reliability testing, and operation. Hence, the strength of the dies, especially for the thin dies, has to be determined to ensure good reliability of the packages. Three-point bending test is widely used for measuring die strength; however the feasibility of the test is still questionable for determining strength of relatively thin dies. Meanwhile, the pin-on-elastic-foundation (PoEF) test [1] with special feature of bi-axial stress mode and elimination of the die edge effect has been proved more simple and reliable, but not for thin dies. In this study, the three-point bending test (under un-axial stress state) and the PoEF test (under bi-axial stress state) are evaluated for aiming at the thin-die strength determination which may features geometrical and contact nonlinearities. The feasibility of both test methods with their linear theories is evaluated by a nonlinear finite element method (NFEM) with taking into account geometrical and contact nonlinearities. The results show that these nonlinearities would cause an error of strength prediction by the linear beam theory for thin dies. For three-point bending test, the concept of moment equilibrium associated with the fitting equation for Fx extracted from the NFEM simulation is proposed and proved workable with good accuracy. The similar problem is faced in the PoEF test. The fitting equations based on the NFEM results are also proposed for calculating the strength of thin dies with better accuracy than theoretical formulation. Therefore, the nonlinearities has to be taken into account for both tests when the thin silicon dies are tested for strength.
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薄硅模强度试验中的非线性
随着半导体封装向着更小的封装尺寸和更高的性能发展,3D集成电路或堆叠芯片封装越来越受欢迎。对于这些应用,IC晶圆必须磨得相对较薄,并且从这些晶圆上切割的模具必须具有足够的强度,以抵抗工艺处理,可靠性测试和操作产生的高应力。因此,必须确定模具的强度,特别是薄模具,以确保封装的良好可靠性。三点弯曲试验被广泛用于测试模具强度;然而,该试验在确定相对较薄的模具强度方面的可行性仍然值得怀疑。同时,具有双轴应力模态和消除模具边缘效应的特殊特性的弹基销(PoEF)试验[1]已被证明更简单可靠,但对于薄模具则不适用。针对可能存在几何非线性和接触非线性的薄型模具强度确定问题,对三点弯曲试验(非轴向应力状态下)和PoEF试验(双轴应力状态下)进行了评价。考虑几何非线性和接触非线性,采用非线性有限元法对两种试验方法的线性理论可行性进行了评价。结果表明,这些非线性会导致用线性梁理论对薄模具进行强度预测时出现误差。对于三点弯曲试验,提出了力矩平衡的概念,并将其与NFEM模拟中提取的Fx拟合方程相结合,证明了其可行性和准确性。PoEF测试也面临着类似的问题。并提出了基于有限元结果的薄型模具强度计算拟合方程,其精度优于理论计算公式。因此,在对薄硅模具进行强度测试时,必须考虑到这两种测试的非线性。
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