Compensation for Process and Temperature Dependency in a CMOS Image Sensor

机译：补偿CMOS图像传感器中的工艺和温度相关性

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摘要

This paper analyzes and compensates for process and temperature dependency among a (Complementary Metal Oxide Semiconductor) CMOS image sensor (CIS) array. Both the analysis and compensation are supported with experimental results on the CIS’s dark current, dark signal non-uniformity (DSNU), and conversion gain (CG). To model and to compensate for process variations, process sensors based on pixel source follower (SF)’s transconductance gm,SF have been proposed to model and to be compared against the measurement results of SF gain ASF. In addition, ASF’s thermal dependency has been analyzed in detail. To provide thermal information required for temperature compensation, six scattered bipolar junction transistor (BJT)-based temperature sensors replace six image pixels inside the array. They are measured to have an untrimmed inaccuracy within ±0.5 °C. Dark signal and CG’s thermal dependencies are compensated using the on-chip temperature sensors by at least 79% and 87%, respectively.

机译：本文分析并补偿了（互补金属氧化物半导体）CMOS图像传感器（CIS）阵列之间的工艺和温度依赖性。 CIS的暗电流，暗信号不均匀性（DSNU）和转换增益（CG）的实验结果均支持分析和补偿。为了建模和补偿过程变化，已经提出了基于像素源跟随器（SF）跨导gm，SF的过程传感器进行建模，并与SF增益ASF的测量结果进行比较。此外，还对ASF的热依赖性进行了详细分析。为了提供温度补偿所需的热信息，六个基于散布双极结晶体管（BJT）的温度传感器替换了阵列内的六个图像像素。经测量，它们在±0.5°C范围内具有未修剪的误差。利用片上温度传感器分别补偿了暗信号和CG的热依赖性，至少分别补偿了79％和87％。

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期刊名称 Sensors (Basel Switzerland)
作者
Shuang Xie; Albert Theuwissen;
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作者单位

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年(卷),期 2019(19),4
年度 2019
页码 870
总页数 15
原文格式 PDF
正文语种
中图分类
关键词
temperature sensors delta-sigma (Δ-σ) modulator CMOS image sensor (CIS) thermal compensation dark current dark signal non-uniformity (DSNU) process variability process variations conversion gain (CG);

机译：温度传感器;Δ-Σ（Δ-σ）调制器;CMOS图像传感器（CIS）;热补偿;暗电流;暗信号不均匀性（DSNU）;过程可变性;过程变化;转换增益（CG）;

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专利

1. On-Chip Smart Temperature Sensors for Dark Current Compensation in CMOS Image Sensors [J] . Shuang Xie, Albert J. P. Theuwissen IEEE sensors journal . 2019,第18期

机译：片上智能温度传感器，用于CMOS图像传感器中的暗电流补偿
2. A CMOS-Imager-Pixel-Based Temperature Sensor for Dark Current Compensation [J] . Xie Shuang, Prouza Accel Abarca, Theuwissen Albert Circuits and Systems II: Express Briefs, IEEE Transactions on . 2020,第2期

机译：用于暗电流补偿的基于CMOS-Imager - 像素的温度传感器
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. Temperature Sensor with Process and Mismatch Auto-Compensation Technique in 28 nm CMOS [C] . Francesco De Canio, Gianluca Traversi IEEE International Symposium on Circuits and Systems . 2018

机译：具有工艺和失配自动补偿技术的28 nm CMOS温度传感器
5. Differential Integrator Pixel Architecture for Dark Current Compensation in CMOS Image Sensors [D] . Mehri Dehnavi, Marzieh. 2015

机译：CMOS图像传感器暗电流补偿的差分积分器像素架构
6. A Linearization Time-Domain CMOS Smart Temperature Sensor Using a Curvature Compensation Oscillator [O] . Chun-Chi Chen, Hao-Wen Chen 2013

机译：使用曲率补偿振荡器的线性化时域CMOS智能温度传感器
7. Paper Demonstrations of Polarization Imaging Capability and Novel Functionality of Polarization-Analyzing CMOS Image Sensor with 65 nm Standard CMOS Process [O] . Takashi Tokuda, Kiyotaka Sasagawa, Norimitsu Wakama, 2014

机译：论文偏振成像能力和具有65nm标准CMOS工艺的偏振分析CMOS图像传感器的新功能的示范

Compensation for Process and Temperature Dependency in a CMOS Image Sensor

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