Yield Improvement in Chip to Wafer Hybrid Bonding

Ser Choong Chong, Ismael Cereno Daniel, S. Lim Pei Siang, Joseph Shim Cheng Yi, Alvin Lai Wai Song, Woon Leng Loh
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引用次数: 4

Abstract

Chip to Wafer Hybrid Bonding is an attractive way to achieve ultra-fine pitch interconnect down to 6μm. Conventional way such as solder interconnects has issues of solder merging, underfill voids, and weak intermetallic solder joints that unable to implement in ultra-fine pitch interconnects.Hybrid Bonding itself also has many issues such as Cu dishing or protrusion, oxide surface roughness and the cleanliness of the bonding surface. Singulation process is known to introduce particles such as silicon debris on the wafer’s surface. A protective layer is deposited on the wafer before the singulation process to prevent the silicon debris from sticking on the wafer’s surface. Detail optimization of cleaning process involving different protective layer and cleaning parameters were done. Yield of the diced wafer with respect to the cleanliness of the wafer’s surface has improved with optimized cleaning parameters and the right protective layer. The improved cleaning process was adopted in the preparation of the diced wafer for chip to wafer bonding. The study clearly showed that the void has drastically reduced to less than 3% in the diced wafer prepared with protective layer as compared to range of 0.2 to 91% voids for the diced wafer prepared without protective layer.
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晶片-晶片混合键合的良率提升
芯片与晶圆之间的混合键合是实现低至6μm的超细间距互连的一种有吸引力的方法。传统的焊料互连方式存在焊料合并、欠填充空隙和弱金属间焊点等问题,无法实现超细间距互连。混合键合本身也存在许多问题,如铜盘或突出,氧化物表面粗糙度和键合表面的清洁度。众所周知,模拟过程会在晶圆表面引入硅碎片等颗粒。在模拟过程之前,在晶圆上沉积一保护层,以防止硅屑粘附在晶圆表面。对不同保护层和清洗参数的清洗工艺进行了详细的优化。通过优化的清洗参数和正确的保护层,晶圆片的成品率与晶圆片表面的清洁度有关。采用改进的清洗工艺制备了片与片之间键合的晶圆片。研究清楚地表明,与没有保护层的晶圆片的0.2 - 91%的空隙相比,有保护层的晶圆片的空隙急剧减少到3%以下。
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