无铅焊料的凹凸金属化

2000 Proceedings. 50th Electronic Components and Technology Conference (Cat. No.00CH37070) Pub Date : 2000-05-21 DOI:10.1109/ECTC.2000.853309

T. Korhonen, P. Su, S. Hong, M. A. Korhonen, C.Y. Li

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引用次数: 10

摘要

研究了几种以CuNi合金为可焊层的碰撞下金属化(UBM)工艺。在回流过程中，镍减缓了UBM在焊料中的溶解和金属间化合物的形成。制备了含Ni的UBMs，并用共晶SnAg焊料球回流。用扫描电镜分析了钎料/UBM界面，以找出Ni浓度如何影响反应，以及需要多少Ni才能获得足够慢的反应速率。在散装底物上也进行了回流，以研究当有无限量的CuNi可用时的反应。为了确定衬底材料在焊料中的溶解速度，将不同浓度的CuNi箔浸入纯锡和共晶PbSn焊锡液中，焊接时间从30秒到30分钟不等。由于镍金属化通常具有高应力，因此采用晶圆曲率法测量UBMs中的应力。应力与Ni含量的关系图表明，随着Ni含量的增加，应力有所增加，但CuNi层下的附着层对应力的影响要大得多。

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Under bump metallizations for lead free solders

Several under bump metallization (UBM) schemes using CuNi alloys as the solderable layer were investigated. The nickel slows down the dissolution of the UBM into the solder and the formation of intermetallics during reflow. Ni containing UBMs were fabricated and reflowed with eutectic SnAg solder balls. The solder/UBM interfaces were analysed with SEM to find out how the Ni concentration affects the reaction, and how much Ni is needed to obtain a sufficiently slow reaction rate. Reflows were also made on top of bulk substrates to study the reaction when there is an unlimited amount of CuNi available. To determine the rate of dissolution of the substrate material into solder, CuNi foils of different concentrations were immersed in pure Sn and eutectic PbSn solder baths for soldering times ranging from 30 seconds to 30 minutes. Since nickel metallizations often have high stresses, stress in the UBMs was measured by the wafer curvature method. Stress vs. Ni content plots show that while stresses increase somewhat with the Ni content, the adhesion layer under the CuNi layer has a much larger effect on the stress.

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2000 Proceedings. 50th Electronic Components and Technology Conference (Cat. No.00CH37070)

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