A 0.5 V SIMOX-MTCMOS circuit with 200 ps logic gate

1996 IEEE International Solid-State Circuits Conference. Digest of TEchnical Papers, ISSCC Pub Date : 1996-02-08 DOI:10.1109/ISSCC.1996.488524

T. Douseki, S. Shigematsu, Y. Tanabe, M. Harada, H. Inokawa, T. Tsuchiya

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引用次数: 41

Abstract

Multi-threshold CMOS (MTCMOS) circuit technology combining low-Vth CMOS logic gates and high-Vth MOSFETs is suitable for 1 V LSIs for battery-operated portable equipment. Improvements in MTCMOS device technology promise to lead to higher operating frequencies. However, higher frequencies will increase power consumption even if the supply voltage is 1 V. To reduce the power consumption, it is necessary to lower the supply voltage below 1 V, without sacrificing speed. A circuit consisting of depletion-mode MOSFETs operates with 200 mV supply. However, it cannot be applied to an LSI with more than 1 k gates because active-mode leakage current is too large. In addition, the circuit needs backgate bias, which is much larger than the supply voltage, to increase the threshold voltage and to reduce the leakage current in the sleep mode. To generate the large back-gate bias, multiple supply voltages or a boost circuit are required. The proposed low supply-voltage MTCMOS circuit with SIMOX technology uses enhancement-mode MOSFFTs and contains no boost circuit. High-speed operation of this SIMOX-MTCMOS circuit at 0.5 V supply is obtained by use of low-Vth CMOS logic gates consisting of fully-depleted body-floating MOSFETs.

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一个带200ps逻辑门的0.5 V SIMOX-MTCMOS电路

结合低电压CMOS逻辑门和高电压mosfet的多阈值CMOS (MTCMOS)电路技术适用于电池供电便携式设备的1v lsi。MTCMOS器件技术的改进有望带来更高的工作频率。但是，即使电源电压为1v，更高的频率也会增加功耗。为了降低功耗，有必要在不牺牲速度的情况下将电源电压降低到1 V以下。由耗尽型mosfet组成的电路在200mv电源下工作。然而，由于有源模式漏电流太大，它不能应用于超过1k栅极的LSI。此外，该电路需要比电源电压大得多的后门偏置，以提高阈值电压并降低休眠模式下的漏电流。为了产生大的后门偏置，需要多个电源电压或升压电路。提出的低供电电压MTCMOS电路采用SIMOX技术，采用增强型mosfft，不包含升压电路。该SIMOX-MTCMOS电路在0.5 V电源下的高速工作是通过使用由完全耗尽的浮体mosfet组成的低电压CMOS逻辑门来实现的。

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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来源期刊

1996 IEEE International Solid-State Circuits Conference. Digest of TEchnical Papers, ISSCC

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