利用堆叠式金属-绝缘体-金属电容的嵌入式DRAM器件技术

IEEE Custom Integrated Circuits Conference 2006 Pub Date : 2006-09-01 DOI:10.1109/CICC.2006.320987

Y. Yamagata, H. Shirai, H. Sugimura, S. Arai, T. Wake, Ken Inoue, T. Sakoh, M. Sakao, T. Tanigawa

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引用次数: 5

摘要

本文提出了一种利用金属-绝缘体-金属堆叠电容的嵌入式DRAM器件技术。针对高随机存取性能和低功耗数据流应用，从150nm代开始设计并实现了名为“全金属DRAM”的原始结构。这降低了DRAM单元和完全兼容的CMOS Trs的寄生电阻。与领先的CMOS的特性。在90nm代中，为了减小电池尺寸，引入了ZrO 2作为电容器介质材料。对于下一代55nm，高k栅极介电介质(HfSiON)将被引入CMOS平台，可以有效地用于嵌入式DRAM的缩放和性能改进

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Device Technology for embedded DRAM utilizing stacked MIM(Metal-Insulator-Metal) Capacitor

This paper presents embedded DRAM device technology utilizing stacked MIM(metal-insulator-metal) capacitor. Targeted for high random-access performance as well as low-power data-streaming applications, original structure named "full metal DRAM" has been devised and implemented from 150nm generation. This features reduced parasitic resistance of DRAM cell and fully-compatible CMOS Trs. characteristics with that of leading-edge CMOS. In 90nm generation, ZrO 2 is introduced as capacitor dielectric material for cell size reduction. For the next generation of 55nm, high-k gate dielectric(HfSiON) will be introduced in CMOS platform, which can be effectively exploited for embedded DRAM scaling and performance improvement

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IEEE Custom Integrated Circuits Conference 2006

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