Plasma chemical cleaning of chip carrier in a downstream hollow cathode discharge

G. Nicolussi, E. Beck
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引用次数: 3

Abstract

Assembly & Packaging processes of semiconductor devices such as die attach, wire bonding, and molding can greatly benefit from Plasma Cleaning. The removal of surface contaminants prior to these process steps results in more reliable connections between the bonding surfaces. In this paper we present a new plasma process for die and chip carrier cleaning. Highly reactive radicals are generated in a hollow cathode discharge using different gas mixture; i.e. argon/hydrogen, argon/oxygen, and argon/ nitrogen. The radicals react with surface contaminants to form volatile compounds which subsequently degas from the substrate surface. The employment of a hollow cathode plasma source ensures a high degree of ionization and molecular fragmentation of the working gas. At the same time, the plasma potential was kept below 30 V. As a result, the cleaning process is purely chemical and not associated with surface erosion due to physical sputtering caused by energetic ions. Visual inspection, wire pull test, and contact angle measurements were used to confirm the cleaning efficiency.
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下游空心阴极放电中芯片载体的等离子体化学清洗
半导体器件的组装和封装过程,如晶片连接、电线粘合和成型,可以从等离子清洗中受益匪浅。在这些工艺步骤之前去除表面污染物会使粘合表面之间的连接更可靠。本文提出了一种新的等离子体清洗模具和芯片载体的方法。在空心阴极放电中使用不同的气体混合物产生高活性自由基;即氩气/氢气,氩气/氧气和氩气/氮气。自由基与表面污染物反应形成挥发性化合物,随后从底物表面脱气。空心阴极等离子体源的使用保证了工作气体的高度电离和分子破碎。同时,等离子体电位保持在30v以下。因此,清洁过程是纯化学的,而不是由于高能离子引起的物理溅射而导致的表面侵蚀。采用目视检查、拉丝试验和接触角测量来确认清洗效率。
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