28nm Cu/low-k芯片镀钯铜线键合评价:Al键合焊和NiPd键合焊

2015 IEEE 17th Electronics Packaging and Technology Conference (EPTC) Pub Date : 2015-12-01 DOI:10.1109/EPTC.2015.7412301

L. Wai, Dhayalan Mariyappan, C. G. Koh, T. Chai

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引用次数: 0

摘要

本研究对包钯铜芯线进行了评价，并以Ø0.6mil包钯铜芯线对铝(1.5μm Al)键垫和镍钯(2.5μm Ni/0.3μmPd)键垫进行了一系列键合质量测试。通过机械芯片优化，发现NiPd比Al键合垫具有更大的键合参数窗口。175℃高温时效1K小时后，NiPd试样的球抗剪强度有所提高。175℃时效1K h后，铝键垫试样出现一定程度的剥离，抗剪强度> 8gf /mil2。采用1.5μm厚Al键合垫和0.6mil包钯铜线结合的Cu/low-k芯片，在0时刻和96小时老化试验后进行球剪和拉丝试验，通过了球剪和拉丝试验。用Al键合垫在Cu/low-k芯片上电镀时，NiPd遵循Al表面轮廓，电镀场景适用于探针标记较大的Al键合垫。粘合球和NiPd粘合垫之间没有间隙，即使有一个大的探针标记。与Al键合焊片样品相比，NiPd焊片在长时间老化后没有形成金属间化合物，而Al键合焊片样品则存在Cu-Al金属间化合物。NiPd焊盘对Cu/低k结构具有良好的屏蔽作用，焊盘与包钯铜芯线结合后不变形。

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Assessment on palladium-coated copper wire bonding for 28nm Cu/low-k chips: Al bond pad and NiPd bond pad

In this study, palladium coated copper core wire is evaluated and a series of bond quality test is carried out on Aluminum (1.5μm Al) bond pad and Nickel Palladium (2.5μm Ni/0.3μmPd) bond pad with Ø0.6mil palladium-coated copper core wire. From the optimization with mechanical chips, it is found that NiPd has larger bond parameters windows than Al bond pad. Ball shear strength of NiPd samples becomes higher after 175°C high temperature aging test for 1K hours. Al bond pad samples have some pad peel with shear strength >8 gf/mil2 after 1K hours aging at 175°C. Cu/low-k chips with 1.5μm thick Al bond pad bonded with 0.6mil palladium-coated copper wires are ball sheared and wire pulled at time zero and after 96 hours aging test, and it passes ball shear and wire pull test. It is observed that NiPd follows the contour of Al surface during the plating on Cu/low-k chip with Al bond pad, and plating scenario applies for Al bond pad with large probe mark. There is no gap being observed in between the bonded ball and NiPd bond pad even though there is a large probe mark. NiPd pad does not form intermetallic after aging test when compare to Al bond pad sample which has Cu-Al intermetallic being found after aging for long hours. NiPd bond pad provides excellent shielding for Cu/low-k structure where there is no deformation of the bond pad after bonded with palladium-coated copper core wire.

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2015 IEEE 17th Electronics Packaging and Technology Conference (EPTC)

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