A Fully MOSFET Voltage Reference with Low Power Consumption and High Power Supply Rejection Ratio for IoT Microsystems

IF 0.7 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS

Jordan Journal of Electrical Engineering Pub Date : 2022-01-01 DOI:10.5455/jjee.204-1642106587

Hosein Rayat, R. Dastanian

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引用次数: 2

Abstract

In this work, a fully MOSFET voltage reference (FMVR) circuit with a current consumption of 7.6 nA and a supply voltage of 1 V is proposed. To generate the complementary to absolute temperature (CTAT) voltage, the voltage of a PN junction generated by a PMOS transistor - which is part of the bias circuit - is used. Generation of proportional to absolute temperature (PTAT) voltage is carried-out by utilizing three stages of self-cascode transistors biased in the sub-threshold region. A fraction of the CTAT voltage is added to the PTAT voltage without using an additional circuit to enable acquiring an output reference voltage of about 0.648 V with minimal temperature dependence. The proposed voltage reference is simulated in 0.18 μm of CMOS process and its area occupation is 0.0023 mm2. The obtained post-layout simulation results demonstrate that the proposed FMVR has a temperature coefficient equivalent to 12.9 ppm/°C under the temperature variation from -25 °C to 120 °C. Moreover, the line regulation under supply voltage variation from 0.9 V to 2 V is found to be equal to 0.02 %/V, and a power supply rejection ratio of 44 dB is acquired. Comparing the main parameters of the proposed FMVR - to the state-of-the-art circuits - shows that it has higher efficiency with smaller area and lower power consumption.

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用于物联网微系统的低功耗和高电源抑制比的全MOSFET电压基准

在这项工作中，提出了一个电流消耗为7.6 nA，电源电压为1 V的全MOSFET基准电压(FMVR)电路。为了产生对绝对温度(CTAT)的互补电压，使用PMOS晶体管(偏置电路的一部分)产生的PN结电压。利用在亚阈值区域偏置的三级自级联晶体管产生与绝对温度成正比的电压。在不使用额外电路的情况下，将CTAT电压的一小部分添加到PTAT电压中，以获得约0.648 V的输出参考电压，温度依赖性最小。该电压基准在0.18 μm的CMOS工艺中进行仿真，其面积为0.0023 mm2。布置后仿真结果表明，在-25 ~ 120℃温度范围内，FMVR的温度系数为12.9 ppm/℃。此外，在电源电压从0.9 V变化到2 V时，线路稳压等于0.02 %/V，电源抑制比为44 dB。将所提出的FMVR的主要参数与最先进的电路进行比较，表明它具有更高的效率，更小的面积和更低的功耗。

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

Jordan Journal of Electrical Engineering

CiteScore

0.20

自引率

14.30%

发文量