Characterization of a thick copper pillar bump process

2007 12th International Symposium on Advanced Packaging Materials: Processes, Properties, and Interfaces Pub Date : 2007-10-01 DOI:10.1109/ISAPM.2007.4419942

W. Flack, Ha-Ai Nguyen, E. Capsuto, C. McEwen

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引用次数: 7

Abstract

As pin counts and interconnection densities increase there is growing interest in copper pillar bumps for flip chip and wafer-level packaging. This trend is driven by the need to increase interconnect performance as well as reduce interconnect cost. Copper pillars retain their shape during solder reflow, allowing finer interconnect pitches with predictable standoff heights. The fabrication of copper pillar bumps requires the use of a very thick photoresist layer for copper and nickel electroplating. This photoresist material must be capable of coating, exposing, developing, electroplating and stripping with conventional track equipment and standard ancillary process chemicals. For the electroplating process the photoresist profile, plating durability and stripability are important considerations. This study will characterize a photoresist for a single coat, 55 μm thick copper process. The lithographic performance of the thick positive photoresist will be optimized using a broad band, low numerical aperture stepper. Results will show good adhesion to copper with no surface treatment and no photoresist cracking during plating. Cross sectional SEM analysis, process latitude, and copper-nickel electroplating performance are used to establish the lithographic capabilities.

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厚铜柱碰撞工艺的表征

随着引脚数和互连密度的增加，人们对用于倒装芯片和晶圆级封装的铜柱凸点越来越感兴趣。这一趋势是由提高互连性能和降低互连成本的需求驱动的。铜柱在焊料回流过程中保持其形状，允许更精细的互连间距和可预测的对峙高度。铜柱凸起的制造需要使用非常厚的光刻胶层来电镀铜和镍。这种光刻胶材料必须能够使用传统的轨道设备和标准的辅助工艺化学品进行涂层、曝光、显影、电镀和剥离。对于电镀工艺而言，光刻胶的外形、镀层耐久性和剥离性是重要的考虑因素。本研究将对55 μm厚铜单涂层的光刻胶进行表征。采用宽频带、低数值孔径步进器优化厚正光刻胶的光刻性能。结果表明，在不进行表面处理的情况下，与铜的附着力良好，在电镀过程中不会产生光刻胶开裂。横截面SEM分析、工艺纬度和铜镍电镀性能用于确定光刻能力。

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2007 12th International Symposium on Advanced Packaging Materials: Processes, Properties, and Interfaces

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