新型3D封装低温微插入键合技术

Po Xu, A. Hu, Zhuo Chen, Ming Li, D. Mao
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引用次数: 1

摘要

本文报道了一种用于三维封装的新型低温微插入键合技术。采用在焊盘上制备的镍微锥阵列(MCA)作为凹凸下金属化(UBM)。接合温度低于焊料的熔点。在一定的温度和压力下,将MCA插入无铅Sn-Ag-Cu钎料中,达到良好的附着力。接头的连接是通过MCA与焊料之间的机械联锁和扩散来实现的。采用定向电沉积法(DEP)在Cu基体上制备了镍微锥阵列。然后在不同的温度(150℃~ 210℃)和不同的键合压力(450、560、750 gf/p)下,在衬底上键合数百个凸点。随后,进行了球剪试验,以评估焊点的机械可靠性和破坏模式。剪切试验结束后,利用扫描电镜对断裂界面的微观组织进行了研究。
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Novel low-temperature micro-insert bonding technology for 3D package
In this paper, a novel low-temperature micro-insert bonding technology for 3D package has been reported. Nickel microcone arrays (MCA) fabricated on the bonding pad was used as the under bump metallization (UBM). The bonding temperature is below the melting point of the solder. At certain temperature and pressure, the MCA inserted into the lead-free Sn-Ag-Cu solder bumps to achieve a good adhesion. The bonding of the joint is realized by the mechanical interlocking and the diffusion between the MCA and the solder. The nickel microcone arrays were prepared by directional electrodeposition (DEP) method on the Cu substrates in the solution with inorganic additives. And then hundreds of bumps were bonded on the substrates at different temperatures (150deg-210degC) and different bonding pressure (450, 560, 750 gf/p). Subsequently, ball shear testings were performed to evaluate the mechanical reliability and failure mode of the solder joints. After the shear testings, the microstructures of the fracture interfaces were investigated by SEM.
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