用于高性能沟槽电容DRAM/eDRAM自对准埋带的氮化框架浅沟槽隔离(NFSTI)

2001 International Symposium on VLSI Technology, Systems, and Applications. Proceedings of Technical Papers (Cat. No.01TH8517) Pub Date : 2001-04-18 DOI:10.1109/VTSA.2001.934490

B. Kim, Y. Fukuzaki, G. K. Worth, J. Nuetzel, G. Williams, B. Lee, Y. Takegawa, S. Halle, T. Rupp, A. Sudo, R. Divakaruni, R. Srinivasan, T. Mii, G. Bronner

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引用次数: 0

摘要

提出了一种采用氮化框架和氧化物硬掩膜的自对准埋带隔离技术。单元接入晶体管与存储节点电极的连接是沟槽型DRAM制造的关键工艺。典型的沟槽电容DRAM技术在Si衬底下形成带状连接(埋带)，以获得更好的表面平面度。由于晶圆的平面性，沟槽型e-DRAM具有显著的优势。当基规缩小到150nm以上时，由于覆盖灵敏度，表带电阻的变化是至关重要的。介绍了一种新的覆盖独立带形成方法，采用氮化框架自对准沟槽隔离工艺，消除了带与衬底之间可能存在的寄生连接。在NFSTI形成中使用掩蔽材料和Si RIE工艺，提高了阵列器件的特性。此外，由于相移效应，NFSTI工艺提高了沟槽电平对准信号的对比度。

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Nitride framed shallow trench isolation (NFSTI) for self-aligned buried strap in high performance trench capacitor DRAM/eDRAM

A self-aligned buried strap process is developed, using nitride frame with oxide hard mask in shallow trench isolation (STI). The connection between cell access transistor and storage node electrode is a key process in trench type DRAM fabrication. Typical trench cell capacitor DRAM technology forms the strap connection under Si substrate (Buried Strap) for better surface planarity. Trench based e-DRAM has significant advantages due to wafer planarity. As the ground rule shrinks beyond 150 nm, the strap resistance variation is critical due to the overlay sensitivity. A new overlay independent strap formation method is introduced, using nitride framed self-aligned trench isolation process which eliminates any possible parasitic connection between the strap and substrate. Masking material and Si RIE process used in NFSTI formation improves array device characteristics. In addition, NFSTI process improves trench level alignment signal contrast due to a phase shift effect.

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2001 International Symposium on VLSI Technology, Systems, and Applications. Proceedings of Technical Papers (Cat. No.01TH8517)

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