不同表面光洁度下超声镀钯铜丝楔焊的研究

L. Hung, Y. Pai, Men Yeh Chiang, K. Hung, D. Jiang, C. Huang
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引用次数: 1

摘要

在半导体封装中,线键合是芯片与引线框架或基板之间电气连接的主要技术。金线键合具有键合速度快、电性能优异、化学性能稳定等优点。广泛应用于芯片级封装(CSP)、球栅阵列(BGA)等各种电子封装中。黄金价格在过去几年里大幅上涨。许多制造商一直在研究各种新材料替代传统金丝的方法。铜线键合是另一种互连技术。与金丝相比,铜丝的导电性比金丝好。铜线固有的刚度也使得直径小的长线材在成型过程中更能抵抗线材扫线。铜键合工艺也存在一些问题:(1)铜在空气中容易氧化。镀钯铜线的应用是防止铜在焊接过程中氧化的一种解决方案。(2)线材硬度越高,一般需要较高的超声功率和粘结力才能在金属上粘结。它也导致高风险的弹坑球粘合和撕裂的楔形粘合。研究了焊丝材料、表面光洁度和粘接机参数对焊丝性能的影响。在本研究中,将0.7mil Pd包覆的铜丝进行了电镀镍和镀金以及化学镀镍、化学镀钯和浸金(ENEPIG)两种表面处理。它的纯度是4N。Pd涂层厚度小于0.2um。用扫描电子显微镜(SEM)检测了表面光洁度特征。采用非接触式光学轮廓仪测量表面光洁度。采用显微硬度试验测定硬度。热超声镀钯铜丝楔形键合是在一个楔形键合机上进行的,楔形键合机配备了一个形成气体的工具包。利用不同的粘接力和粘接功率组合,建立了各种表面处理的金属丝粘接工艺窗口。采用焊机报警率、拉丝试验和楔焊外观试验来衡量三种表面处理方式下镀钯铜丝的焊接质量。用聚焦离子束(FIB)制备截面样品。然后利用扫描电镜对其进行观察,探讨楔形键合机理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of ultrasonic palladium coated copper wire wedge bonding on different surface finish
In semiconductor packaging, wire bonding is the main technology for electrical connections between chip and leadframe or substrate. Gold wire bonding has the advantages of a fast bonding process, excellent electrical property, and stable chemical property. It has been widely used in various electronic packages, such as chip scale package (CSP) and ball grid array (BGA). Gold prices have risen significantly over the last few years. Many manufactures have been investigating ways to replace the conventional gold wire various new material. Copper wire bonding is an alternative interconnection technology. Compared with gold wire, Cu wire is better than gold with respect to electrical conductivity. The inherent stiffness of the copper wire also makes long wire with small diameters more resistant to wire sweep during molding. There are also some problems with Cu bonding process: (1) Copper easily oxidizes in air. The application of copper wire coated with palladium is a solution to prevent copper oxidation during the bonding process. (2) The higher hardness of wire generally requires higher ultrasonic power and bond force to bond on metal. It also lead to high risk of cratering for ball bonding and tearing for wedge bond. This paper reports a study on the influence wire material, surface finish hardness and bonding machine parameter. In this study, 0.7mil Pd coated Cu wire was bonded on two kinds of surface finish, as electro-plating Nickel and Gold, and Electroless Nickel, Electroless Palladium and Immersion Gold (ENEPIG). Its purity is 4N. The thickness of Pd coating was less than 0.2um. The surface finish characteristics were examined using a scanning electron microscope (SEM). The noncontact optical profiler was used to measure surface finish roughness. Hardness was measured, using microhardness test. Thermosonic Pd coated Cu wire wedge bonding was preformed on a wedge bonder equipped with a kit to forming gas. The wire bonding process window for each surface finish was established using various combination of bond force and power. Bonder machine alarm rate, wire pull test and wedge bonding appearance were performed to measure the quality for Pd coated Cu wire bonded on three kinds of surface finish. Cross section sample was prepared Focused Ion Beam (FIB). Then, it was observed using scanning electron microscope to discuss wedge bonding mechanism.
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