用于系统集成的高纵横比铜填充TSV硅介面

C. Song, K. Xue, S. Yang, Z. Yong, H. Li, X. Jing, U. Lee, W. Zhang
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引用次数: 2

摘要

3D集成需要垂直堆叠模具,同时在器件的输入/输出引脚之间形成永久的电气和机械连接。硅通孔(TSV)是实现三维集成的关键元件之一。本文介绍了不同的衬垫和屏障/种子方法来实现10×100 um无空隙的铜填充tsv。还研究了这些衬垫和屏障/种子的机械和电气性能,以便为工艺优化提供可靠性指导。研究发现,PECVD TEOS薄膜具有高击穿电压、高电容和低阶跃覆盖率的特点,而热氧化膜具有几乎100%的阶跃覆盖率和低泄漏电流。因此,形成了热氧化物/ PECVD TEOS双层,以结合每层的优点。当含HF溶液蚀刻Si时,较薄的热氧化层也可以扩大Cu TSV背面的显示窗口。最终实现了功能芯片的2.5D集成,并观察到良好的眼图。为了进一步扩大TSV的宽高比,还研究了新的屏障/种子沉积方法,并成功地实现了无空洞镀铜。
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Si interposer with high aspect ratio copper filled TSV for system integration
3D integration requires vertical stacking of dies while forming permanent electrical and mechanical connections between the input/output pins of the devices. Through silicon via (TSV) is one of the key elements for 3D integration. This paper presents different liner and barrier/seed approaches for realizing 10×100 um void-free copper filled TSVs. Mechanical and electrical performances of these liner and barrier/seed are also studied in order to give reliability guidelines for process optimization. It is found that the PECVD TEOS film shows high breakdown voltage, capacitance and low stepcoverage, while the thermal oxide film offers almost 100% stepcoverage and low leakage current. Hence thermal oxide/ PECVD TEOS bi-layer is formed to combine the advantage of each layer. A thin thermal oxide layer can also enlarge the Cu TSV backside reveal process window when Si is etched by HF contained solution. 2.5D integration of functional chips is finally achieved, from which good eye diagram is observed. For further scaling up the aspect ratio of TSV, novel barrier/seed deposition methods are also investigated and void-free Cu plating is successfully achieved.
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