65nm Cu/低k互连的BEOL工艺集成

Proceedings of the IEEE 2004 International Interconnect Technology Conference (IEEE Cat. No.04TH8729) Pub Date : 2004-06-07 DOI:10.1109/IITC.2004.1345745

C. Jeng, W. K. Wan, H.H. Lin, M. Liang, K. Tang, I. Kao, H. Lo, K. Chi, T.C. Huang, C. Yao, C. Lin, M. D. Lei, C. Hsia, M. Liang

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引用次数: 9

摘要

介绍了用于65纳米CMOS技术节点的多级Cu互连的低k介电材料的工艺发展、表征和性能评估。随着设计规则的缩减，对90nm节点进行了重大修改和改进，以克服这些挑战，其中包括为增强EM/SM可靠性而进行的顶部过角控制，以及为优化过孔/槽工艺而进行的在线电子束检查。采用了内部开发的ECP添加剂“Trameca”，具有良好的Cu间隙填充性和可控的驼峰高度，具有良好的CMP性能，以实现紧密的Rs分布。通过链结构和5m长梳状/弯曲结构的开放/短自由，以及符合规格的SM/EM, 100%的产量为210万，这些事实都证明了该技术是一种高度可制造的BEOL工艺，适用于65nm技术节点。

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BEOL process integration of 65nm Cu/low k interconnects

The process development, characterization and performance evaluation of low-k dielectrics to form multi-level Cu interconnects for the 65 nm CMOS technology node are presented. Significant modifications and improvements over 90nm node have been implemented to overcome those challenges as design rules shrink, which include top via corner rounding control for the robust EM/SM reliability, and inline e-beam inspection for via/trench processes optimization. An in-house developed ECP additive "Trameca" for good Cu gap filling and a controllable hump height for good CMP performance are adopted to achieve tight Rs distributions. The facts that 100% yields of 2.1 millions via chain structure and open/short free on 5m long comb/meander structures along with SM/EM meeting the spec all demonstrated the technology to be a highly manufacturable BEOL process for 65 nm technology node.

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Proceedings of the IEEE 2004 International Interconnect Technology Conference (IEEE Cat. No.04TH8729)

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