集成低k/Cu工艺的90纳米模拟电路的MIM电容器

Proceedings of the IEEE 2003 International Interconnect Technology Conference (Cat. No.03TH8695) Pub Date : 2003-06-02 DOI:10.1109/IITC.2003.1219749

Jeong-Hoon Ahm, Kyung-Tae Lee, M. Jung, Yong-Jun Lee, B.J. Oh, Seong-Ho Liu, Yoon-hae Kim, Young-Wug Kim, K. Suh

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引用次数: 9

摘要

通过采用低k (k=2.7) Cu双damascene工艺的AD转换器测试车，首次演示了将MIM电容器集成到90 nm混合信号应用中。为了获得高分辨率的MIM电容器，对电极刻蚀和上铜线CMP等工艺进行了优化。优化后的工艺条件产生了更可靠的MIM电容器，寄生元件更少。当IMD的厚度小于300 nm时，上层金属互连产生的寄生电容对IMD的厚度影响较大。对于无寄生电容的MIM电容，提出了一种落在金属上的电容，与传统的电容结构相比，寄生电容减小了60%以上。

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Integration of MIM capacitors with low-k/Cu process for 90 nm analog circuit applications

Integration of MIM capacitors into 90 nm mixed-signal applications is demonstrated for the first time with the testing vehicle of AD converter using low-k (k=2.7) Cu dual damascene process. To obtain high resolution MIM capacitor, process such as electrode etching and CMP of upper Cu line was carefully optimized. The optimized process condition yields more reliable MIM capacitors with less parasitic components. The parasitic capacitance caused by surrounding upper metal interconnect gives significant effect for IMD thickness less than 300 nm. For parasitic capacitance-free MIM capacitor, a landing-metal type is suggested, and parasitic capacitance is reduced more than 60% compared with conventional capacitor structure.

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来源期刊

Proceedings of the IEEE 2003 International Interconnect Technology Conference (Cat. No.03TH8695)

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