Bumpless interconnect of 6-μm pitch Cu electrodes at room temperature

2008 58th Electronic Components and Technology Conference Pub Date : 2008-05-27 DOI:10.1109/ECTC.2008.4550161

A. Shigetou, T. Itoh, K. Sawada, T. Suga

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引用次数: 43

Abstract

Bumpless interconnect of 6-mum-pitch Cu electrodes was realized at room temperature with the surface activated bonding (SAB) method. In this study, we propose a novel bumpless structure, where the electrodes and a surrounding Cu frame are fabricated with the same height to increase bond strength and demonstrate the feasibility of a sealing interconnection between Cu surfaces. The Cu damascene process, assisted by the reactive ion beam etching (RIE) process, was used to fabricate the Cu structures. 1,048,748 electrodes were fabricated in a square of about 6-mm2 area; 923,521 connections were placed inside the 10-mum-wide Cu frame. These 923,521 electrodes were arranged into a spiral chain to enable the detection of the positions with insufficient interconnection by electrical resistance measurements. Using the SAB conditions optimized in the previous studies, we found that 744,769 electrodes among them were successfully interconnected. The failure in the electrical interconnection reappeared in some lines near the frame of all samples. The optical beam induced resistance change (OBIRCH) analysis, in which particularly high resistance is presented as a bright contrast, showed that these insufficient connections might be due to sample preparation error rather than a bond defect, because high resistance was observed only at some specific electrodes amid the line in this area. In other well-bonded area, the mean contact resistance was as low as 0.08 Omega; it is considered that a sealing effect was achieved at the frame structure because there was little increase in the contact resistance in high temperature storage test performed at 150degC for 1000 h, in ambient air.

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6 μm间距Cu电极在室温下的无凹凸互连

采用表面活化键合(SAB)方法，在室温下实现了6 μ m-间距铜电极的无凹凸互连。在这项研究中，我们提出了一种新的无凹凸结构，其中电极和周围的铜框架具有相同的高度，以增加结合强度，并证明了铜表面之间密封互连的可行性。采用反应离子束刻蚀(RIE)工艺辅助Cu damascense工艺制备Cu结构。在约6 mm2的面积上，共制造了1,048,748个电极;在10毫米宽的铜框架内放置了923,521个连接。这923,521个电极被排列成螺旋链，以便通过电阻测量来检测互连不足的位置。使用先前优化的SAB条件，我们发现其中744,769个电极成功互连。在所有样品的框架附近的一些线路上再次出现电气互连故障。在光束诱导电阻变化(OBIRCH)分析中，特别高的电阻呈现为明亮的对比，表明这些连接不足可能是由于样品制备错误而不是键缺陷，因为仅在该区域线中的某些特定电极上观察到高电阻。在其他键合良好的区域，平均接触电阻低至0.08 ω;在环境空气中150℃、1000 h的高温储存试验中，接触电阻几乎没有增加，因此可以认为在框架结构上达到了密封效果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 58th Electronic Components and Technology Conference

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