J. de Vos, S. Van Huylenbroeck, A. Jourdain, N. Heylen, Lan Peng, G. Jamieson, N. Tutunjyan, S. Sardo, Andy Miller, E. Beyne
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引用次数: 13
摘要
本文提出了一种采用sicn - sicn介电键合的面对面晶圆键合(W2W)技术,并结合了一种新颖的直径为1 μ m的顶部和底部晶圆之间的最后连接,称为“一孔入洞TSV”。该方案不仅减少了互连间距,而且减少了处理步骤。一杆进洞TSV引入了创新的集成修改。在W2W键合之前,在顶部晶圆上引入了一个蚀刻腔,从而简化了通过最后的蚀刻过程。大大减少了TSV蚀刻的介电部分的蚀刻时间,最大限度地减少了顶部着陆金属打开着陆晶圆金属垫的过度蚀刻时间。重点介绍了关键集成步骤,如CMP工艺、晶圆键合和减薄至5 μ m Si厚度,以及键合的300mm Si晶圆之间的对准公差和连接性良率。
"Hole-in-One TSV", a New Via Last Concept for High Density 3D-SOC Interconnects
This paper presents face-to-face wafer-to-wafer (W2W) bonding using SiCN-to-SiCN dielectric bonding, in combination a novel 1µm diameter via last connection between top and bottom wafers, called "hole-in-one TSV". This scheme reduces besides the interconnection pitch and also the number of processing steps. The hole-in-one TSV is introducing an innovating integration modification. With the introduction of a cavity etched in the top wafer prior to W2W bonding, the via last etch process is simplified. The etch time of the dielectric part of the TSV etch is heavily reduced, minimizing the over etch time on the top landing metal to open the landing wafer's metal pad. Critical integration steps like CMP processes, wafer bonding and thinning to 5µm Si thickness are highlighted, together with alignment tolerances and connectivity yield between the bonded 300mm Si wafers.
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