具有光滑种子层和对预浸料高附着力的低传输损耗铜线

Kazue Hirano, Masaya Toba, Masaki Yamaguchi
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引用次数: 2

摘要

为了在5G网络中实现超可靠、低延迟通信,FC-BGA等多层印刷电路板的高性能器件半导体封装备受关注。封装用铜布线通常采用带涂膜的半添加工艺(SAP)和/或使用表面粗糙度较大的铜箔的改进半添加工艺(MSAP)制造。虽然涂膜工艺和铜箔可以通过锚定效应在介电介质和铜籽层之间获得足够的附着力以保证可靠性,但介电介质和铜籽层之间的界面必须平滑,以实现高频电信号的低衰减。在这里,我们对我们开发的预浸料的表面进行了紫外线改性,以实现对电介质的光滑和高粘性种子层。我们还对铜箔表面进行了化学改性,以达到低传输损耗衰减和对预浸料的高附着力。利用SAP成功组装了L/S = 6/6 μm预浸料的铜线,并对预浸料表面进行了化学改性,获得了较高的剥离强度。与表面粗糙的铜箔相比,通过MSAP组装的铜导线的归一化传输损耗有所改善。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Low Transmission Loss Cu Wirings with Smooth Seed Layer and High Adhesion against Prepregs
Semiconductor packages for high performance devices with printed circuit boards having multi wiring layers such as FC-BGA have been attracting the attention in order to realize ultra-reliable and low latency communications in 5G networking. Cu wirings for the package are usually fabricated by semi-additive process (SAP) with desmear process and/or modified semi-additive process (MSAP) by using Cu foil with large surface roughness. Though a desmear process and Cu foil can obtain enough adhesion between dielectric and Cu seed layer by anchoring effect to secure reliabilities, the interface between dielectric and Cu seed layer should be smooth to achieve low attenuation of electric signals at high frequencies. Here, instead of that processes, we applied an UV modification for the surface of our developed prepreg in order to realize a smooth and high adhesive seed layer against the dielectric. We also conducted chemical modification for the surface of Cu foil to achieve low attenuation of transmission loss and high adhesion against prepreg. We successfully assembled Cu wirings with L/S = 6/6 μm on prepregs by SAP. High peel strength between Cu foil and prepreg was obtained due to chemical modification for the surface of Cu foil. The normalized transmission loss of Cu wiring assembled through MSAP was improved as compared to Cu foil with rough surface.
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