A 0.058 mm~2 24 μW Temperature Sensor in 40 nm CMOS Process with ± 0.5 ℃ Inaccuracy from - 55 to 175 ℃

Zhu Di; Siek Liter

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A 0.058 mm~2 24 μW Temperature Sensor in 40 nm CMOS Process with ± 0.5 ℃ Inaccuracy from - 55 to 175 ℃

机译：0.058 mm〜2 24μW温度传感器，采用40 nm CMOS工艺，在-55至175℃范围内具有±0.5℃的误差

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摘要

This paper describes the design of a high-accuracy smart temperature sensor in the 40 nm standard CMOS process. Due to process scaling, the high threshold voltages, large leakage currents and low intrinsic gains, etc., cause the realization of conventional high performance analog circuits to become very challenging in advanced processes. In the proposed design, some new techniques have been utilized in order to overcome the obstacles due to process scaling. The sensor's frontend is based on substrate PNP transistors, couple with a two-step zooming ADC. This temperature sensor achieves a two-point calibrated inaccuracy of and a one-point trimmed inaccuracy of over a range of temperature from - 55 to . It draws from a 1.2 V power supply and occupies an area of 0.0578 mm(2).

机译：本文介绍了采用40 nm标准CMOS工艺的高精度智能温度传感器的设计。由于工艺的规模化，高阈值电压，大的漏电流和低的本征增益等导致传统高性能模拟电路的实现在先进工艺中变得非常具有挑战性。在所提出的设计中，已经利用了一些新技术来克服由于过程缩放所带来的障碍。传感器的前端基于衬底PNP晶体管，并带有两步缩放ADC。该温度传感器在-55至的温度范围内实现了2点的校准误差和1点的修整误差。它使用1.2 V电源供电，占地0.0578 mm（2）。

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来源
《Circuits, systems, and signal processing》 |2018年第6期|2278-2298|共21页
作者
Zhu Di; Siek Liter;
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作者单位

Infineon Technol Asia Pacific Pte Ltd, Singapore, Singapore;

Nanyang Technol Univ, Sch Elect & Elect Engn, IC Design Ctr Excellence, VIRTUS, Singapore, Singapore;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
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关键词
Temperature sensor; 40nm standard CMOS; Gain-enhancement integrator; Reconfigurable sample and hold;

机译：温度传感器;40nm标准CMOS;增益增强积分器;可重新配置的采样保持;

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机译：基于0.45 V MOSFET的90 nm CMOS温度传感器前端，具有未经校准的$ pm hbox {3.5} ^ {circ} hbox {C} hbox {3} sigma $来自$ -hbox {55}的相对误差^ { circ} hbox {C} $至105 $ ^ {circ} hbox {C} $
2. An Embedded 65 nm CMOS Remote Temperature Sensor With Digital Beta Correction and Series Resistance Cancellation Achieving an Inaccuracy of 0.4 。C (3σ) From 40 。C to 130 。C [J] . Pu Xiao, Ash Mikel, Nagaraj Krishnaswamy, Solid-State Circuits, IEEE Journal of . 2015,第9期

机译：具有数字Beta校正和串联电阻消除功能的嵌入式65 nm CMOS远程温度传感器，在40℃至130℃范围内实现0.4℃（3σ）的精度
3. An Untrimmed BJT-Based Temperature Sensor With Dynamic Current-Gain Compensation in 55-nm CMOS Process [J] . Tang Zhong, Fang Yun, Huang Zhenyan, Circuits and Systems II: Express Briefs, IEEE Transactions on . 2019,第10期

机译：具有55nm CMOS工艺动态电流增益补偿的，基于BJT的未修剪温度传感器
4. 5.3 A Highly Digital 2210μm2 Resistor-Based Temperature Sensor with a 1-Point Trimmed Inaccuracy of ± 1.3 ° C (3 σ) from -55 ° C to 125 ° C in 65nm CMOS [C] . Jan A. Angevare, Youngcheol Chae, Kofi A. A. Makinwa IEEE International Solid- State Circuits Conference . 2021

机译：5.3高度数字2210μm2电阻的温度传感器，1点修剪±1.3°C（3σ）的1点，从-55°C为65nm CMO中的125°C
5. High-temperature, high-resolution A/D conversion using 2nd- and 4th-order cascaded SigmaDelta modulation in 3.3-V 0.5 micron SOS-CMOS. [D] . Ericson, Milton Nance. 2002

机译：在3.3V 0.5微米SOS-CMOS中使用二阶和四阶级联SigmaDelta调制进行高温，高分辨率A / D转换。
6. A CMOS-Thyristor Based Temperature Sensor with +0.37 °C/−0.32 °C Inaccuracy [O] . Jing Li, Yuyu Lin, Siyuan Ye, 2020

机译：基于CMOS晶闸管的温度传感器具有+0.37°C / -0.32°C的误差
7. A 5800-μm2 Resistor-Based Temperature Sensor With a One-Point Trimmed Inaccuracy of ±1.2 °C (3σ) From −50 °C to 105 °C in 65-nm CMOS [O] . Yongtae Lee, Woojun Choi, Taewoong Kim, 2019

机译：基于5800-μm2电阻的温度传感器，单点修剪±1.2°C（3σ）的±1.2°C（3σ），在65-nm cmos中为105°C

A 0.058 mm~2 24 μW Temperature Sensor in 40 nm CMOS Process with ± 0.5 ℃ Inaccuracy from - 55 to 175 ℃

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