An 18-nW CMOS Current and Voltage Reference Circuit With Low Line Sensitivity and Wide Temperature Range

IF 2.2 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE IEEE Solid-State Circuits Letters Pub Date : 2024-03-30 DOI:10.1109/LSSC.2024.3407583

I-Fan Lin;Yu-Chu Tsai;Heng-Li Lin;Yu-Te Liao

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Abstract

This letter presents a design for a voltage and current reference (VCR) that utilizes a 0.18-

$\mu $

m CMOS process. The design employs stacked-diode MOS transistors (SDMTs) to generate a voltage that is complementary to absolute temperature for the current reference (CR). By adjusting the transistor size ratio, this bias voltage exhibits the similar temperature coefficient (TC) as that of the resistor in the CR. To enhance temperature compensation, a reversely biased transistor is employed in the voltage reference (VR). Additionally, the cascode current mirror and SDMTs in the VR mitigate supply sensitivity in both voltage and current outputs. The VCR achieves a TC of 124 ppm/°C in VR and 264 ppm/°C in CR over a temperature range of

$- 40~^{\circ }$

C to

$130~^{\circ }$

C. Furthermore, it achieves a line sensitivity of 0.011 %/V in VR and 0.094 %/V in CR while operating at 18.51 nW at room temperature. The active chip area of the VCR is approximately

$25~000~\mu $

m2.

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具有低线路灵敏度和宽温度范围的 18-nW CMOS 电流和电压基准电路

这封信介绍了一种电压和电流基准 (VCR) 的设计，它采用了 0.18 英寸 CMOS 工艺。该设计采用堆叠二极管 MOS 晶体管 (SDMT) 为电流基准 (CR) 产生与绝对温度互补的电压。通过调整晶体管尺寸比，该偏置电压显示出与 CR 中电阻器相似的温度系数 (TC)。为了加强温度补偿，电压基准 (VR) 采用了反向偏置晶体管。此外，VR 中的级联电流镜和 SDMT 可减轻电压和电流输出中的电源敏感性。此外，在室温下以 18.51 nW 工作时，VR 的线路灵敏度为 0.011 %/V，CR 的线路灵敏度为 0.094 %/V。VCR 的有源芯片面积约为 25~000~\mu $ m2。

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

IEEE Solid-State Circuits Letters Engineering-Electrical and Electronic Engineering

CiteScore

4.30

自引率

3.70%

发文量