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A 2.8 μm Pixel for Time of Flight CMOS Image Sensor with 20 ke-Full-Well Capacity in a Tap and 36 Quantum Efficiency at 940 nm Wavelength

机译：用于飞行时间的2.8μm像素CMOS图像传感器，在龙头和940nm波长下的36％量子效率下具有20个KE-全井容量

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A 2.8μm 4-tap global shutter pixel has been realized for a compact and high-resolution time of flight (ToF) CMOS image sensor. 20,000 e- of high full-well capacity (FWC) per a tap is obtained by employing a supplementary MOS capacitor. 36% of high quantum efficiency (QE) has been achieved by backside scattering technology (BST) and thick silicon process. In addition, demodulation contrast (DC) is improved to 86 % by additional deep photodiode doping process for static potential gradient in a photodiode.

机译：已经实现了2.8μm4-Tap全局快门像素，用于紧凑且高分辨率的飞行时间（TOF）CMOS图像传感器。通过采用补充MOS电容来获得每次轻度的20,000 e-高全井容量（FWC）。通过背面散射技术（BST）和厚的硅工艺实现了36％的高量子效率（QE）。另外，通过额外的深光电二极管掺杂工艺在光电二极管中提高了解调对比度（DC）以提高到86％。

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《International Electron Devices Meeting》|2020年|33.2.1-33.2.4|共4页
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Yonghun Kwon; Sungyoung Seo; Sunghyuck Cho; Sung-Ho Choi; Taeun Hwang; Youngchan Kim; Young-Gu Jin; Youngsun Oh; Min-Sun Keel; Daeyun Kim; Myunghan Bae; Yeomyung Km; Seung-Chul Shin; Sunju Hong; Seok-Ha Lee; Ho Woo Park; Yitae Kim; Kyoungmin Koh; JungChak Ahn;
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关键词
Sensitivity; Wavelength measurement; Doping; CMOS image sensors; Silicon; Photodiodes; Demodulation;

机译：灵敏度;波长测量;掺杂;CMOS图像传感器;硅;光电二极管;解调;

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专利

1. A VGA Indirect Time-of-Flight CMOS Image Sensor With 4-Tap 7- mu m Global-Shutter Pixel and Fixed-Pattern Phase Noise Self-Compensation [J] . Keel Min-Sun, Jin Young-Gu, Kim Youngchan, IEEE Journal of Solid-State Circuits . 2020,第4期

机译：VGA间接飞行时间CMOS图像传感器，带有4分拍7- MU M全球快门像素和固定模式噪声自补偿
2. A 10 ps Time-Resolution CMOS Image Sensor With Two-Tap True-CDS Lock-In Pixels for Fluorescence Lifetime Imaging [J] . Seo Min-Woong, Kagawa Keiichiro, Yasutomi Keita, Solid-State Circuits, IEEE Journal of . 2016,第1期

机译：具有两抽头True-CDS锁定像素的10ps时间分辨率CMOS图像传感器，用于荧光寿命成像
3. A 3 Megapixel 100 Fps 2.8 src="/images/tex/241.gif" alt="mu"> m Pixel Pitch CMOS Image Sensor Layer With Built-in Self-Test for 3D Integrated Imagers [J] . Yeh S.-F., Hsieh C.-C., Yeh K.-Y. Solid-State Circuits, IEEE Journal of . 2013,第3期

机译：具有内置自我功能的3兆像素100 Fps 2.8 src =“ / images / tex / 241.gif” alt =“ mu”> m像素间距CMOS图像传感器层-3D集成成像仪测试
4. A 640×480 Indirect Time-of-Flight CMOS Image Sensor with 4-tap 7-μm Global-Shutter Pixel and Fixed-Pattern Phase Noise Self-Compensation Scheme [C] . Min-Sun Keel, Young-Gu Jin, Youngchan Kim, Symposium on VLSI Circuits . 2019

机译：具有4抽头7微米全局快门像素和固定模式相位噪声自补偿方案的640×480间接飞行时间CMOS图像传感器
5. An 8-Tap CMOS Lock-In Pixel Image Sensor for Short-Pulse Time-of-Flight Measurements [O] . Yuya Shirakawa, Keita Yasutomi, Keiichiro Kagawa, 2020

机译：用于短脉冲飞行时间测量的8针CMOS锁相像素图像传感器
6. Quantum Efficiency of Back-illuminated CMOS Sensor with 1.4×1.4 μm2 Pixel Size [O] . Takeo Ejima, Tadashi Hatano 2018

机译：背部照明CMOS传感器的量子效率，具有1.4×1.4μm2像素尺寸
7. Advances in ultra-low power, highly integrated, active pixel sensor CMOS imagers for space and radiation environments [R] . Stirbl, R., Pain, B., Cunningham, T., 2001

机译：用于空间和辐射环境的超低功耗，高度集成，有源像素传感器CmOs成像器的进步

A 2.8 μm Pixel for Time of Flight CMOS Image Sensor with 20 ke-Full-Well Capacity in a Tap and 36 Quantum Efficiency at 940 nm Wavelength

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