分子记忆的插值感测电路

Proceedings of the IEEE 2002 Custom Integrated Circuits Conference (Cat. No.02CH37285) Pub Date : 2002-08-07 DOI:10.1109/CICC.2002.1012776

Y. Nishida, Wentai Liu

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引用次数: 1

摘要

本文提出了一种新的多态分子记忆传感电路。该电路采用内插式传感方案，实现了对分子记忆细胞的低功耗和高速传感。采用一种新颖的“基准电平偏置减小”电路技术，将电流阈值的偏置减小到接近于零。我们的插值传感电路由两个检测放大器和两个插值器组成。在2.5 V时，放大器和插补器的总电流分别为587 /spl mu/A和161 /spl mu/A。在TSMC 0.25-/spl mu/m工艺下，传感电路的整体上升时间为41 ns，下降时间为56 ns。

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An interpolating sense circuit for molecular memory

Presented herein is a novel sensing circuit for multistate molecular memory technologies. The circuit employs an interpolating sensing scheme to achieve low power dissipation and high speed sensing of molecular memory cells. A novel "reference level offset reduction" circuit technique is used to reduce the current thresholder's offset to nearly zero. Our interpolating sensing circuit consists of two sense amplifiers and two interpolators. At 2.5 V, the total current for the amplifiers and interpolators is 587 /spl mu/A and 161 /spl mu/A, respectively. The sense circuit exhibits an overall rise time of 41 ns and fall time of 56 ns in TSMC 0.25-/spl mu/m process.

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Proceedings of the IEEE 2002 Custom Integrated Circuits Conference (Cat. No.02CH37285)

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