65nm CMOS电感耦合链路中来自电源/信号线和SRAM电路的干扰

2007 IEEE Asian Solid-State Circuits Conference Pub Date : 2007-12-01 DOI:10.1109/ASSCC.2007.4425749

K. Niitsu, Y. Sugimori, Y. Kohama, K. Osada, N. Irie, H. Ishikuro, T. Kuroda

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引用次数: 30

摘要

本文讨论了65nm CMOS电感耦合链路的干扰问题。模拟和测量了电源/信号线对SRAM的电磁干扰。对于移动应用(线路和空间)，来自电力线的干扰要小于高性能应用(网格类型)。即使在逻辑电路最坏的情况下，来自信号线的干扰也只需要9%的额外发射功率。在典型的工作范围内，对SRAM的干扰是可以忽略的。只有当电源电压远低于典型范围时，来自电感耦合链路的位线噪声才会影响SRAM的工作。与器件变化和软误差等其他影响相比，对SRAM的干扰很小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Interference from power/signal lines and to SRAM circuits in 65nm CMOS inductive-coupling link

This paper discusses interference of an inductive-coupling link in 65nm CMOS. Electromagnetic interference from power/signal lines and to SRAM was simulated and measured. Interference from power lines for mobile applications (line and space) is smaller than that for high-performance applications (mesh type). Interference from signal lines requires only 9% of additional transmit power even in the worst case of logic circuits. In typical operation range, interference to SRAM is ignorable. Only when supply voltage is much lower than typical range, the bit-line noise from the inductive-coupling link influences SRAM operation. Interference to SRAM is small compared with other influences such as device variations and soft errors.

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2007 IEEE Asian Solid-State Circuits Conference

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