Development Research Summary of CMOS High-Speed Image Sensors

Authors

  • Haichuan Kang

DOI:

https://doi.org/10.54097/xa7wxw50

Keywords:

CMOS image sensor, image noise, high-speed image sensor, CMOS process

Abstract

The CMOS high-speed image sensor is a new type of image sensor that has the advantages of high speed, low power consumption, and low noise, and has received widespread attention and research. The CMOS high-speed image sensor has a wide range of applications in medical imaging, industrial inspection, and security monitoring both domestically and internationally. However, this sensor still has some problems in image noise, such as dark current and dark noise. This article proposes strategies such as using new materials and optimizing device structures for optimization. With the continuous advancement of technology, the performance of this sensor in resolution, frame rate, dynamic range, and other aspects will be further improved.

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References

[1] Fan Hongxing, Zhang Xiaochao, Liu Lei, Zhou Peng, Zhao Bo. Design of CMOS linear array image sensor data acquisition system based on FPGA [J]. Modern electronic technology. 2015, 38(14):129-132. DOI:10.16652/j.issn.1004-373x.2015.14.045.

[2] Xu Jiangtao, Cheng Silu. Intelligent imaging and recognition CMOS image sensor technology [J]. Aerospace Return and Remote Sensing, 2021, 42(06):95-110.

[3] Nakabo Y, Ishikawa M, Toyoda H, et al. 1 ms ColumnParallel Vision System and Its Application of HighSpeed Target Tracking [C]. San Francisco, CA, Proceedings of the 2000 IEEE International ConferenceonRobotics and Automation.

[4] Shimizu K, Hirai S. CMOS+FPGA Vision System for Visual Feedback of Mechanical Systems [C]. Orlando, FL, Proceedings of the 2006 IEEE InternationalConference on Robotics and Automation.

[5] Dou Runjiang, Cao Zhongxiang, Li Quanliang, Feng Peng, Li-yuan Liu, Liu Jian, Wu Nanjian. High-speed CMOS image sensor and its application [J]. Journal of Tianjin University (Natural Science and Engineering Technology Edition), 2021, 54(04):426-434.

[6] Ar0234cs2.3 megapixel CMOS image sensor [J]. Sensor World, 2020, 26 (10): 52-53.doi: 10.16204/j.cnki.sw.2020.10.011.

[7] Wu Wenjing. Research on signal processing circuit design of high-speed CMOS image sensor [J]. Digital Communication World, 2020(01):128.

[8] Guo Zhongjie, Wu Longsheng. Research on design technology of radiation-resistant and low-noise CMOS image sensor [J]. Journal of Sensing Technology, 2020, 33(02):221-226.

[9] Sheng Liangrui, Ma Xiaoxi, Yang Qilong, et al. Research on Aero-optical Effect Correction Based on wavefront sensor of light field camera [J]. Semiconductor Photoelectricity, 2020, 41 (03): 432-436. DOI: 10.16818/J.ISSN 1001-5868.2020.000.

[10] Gong Jian, Liu Liang, He Youjin, et al. Study on infrared polarization scattering characteristics and correction of marine aerosol [J]. Laser and Infrared, 2019, 49(3):322-328.

[11] Zheng Ran, Zhao Ruiguang, Liu Chao, et al. Automatic detection of radiation-induced random telegraph noise of CMOS active pixel sensor based on real-time threshold [J]. Journal of Radiation Research and Radiation Technology, 2018, 36(2): 020701-1-020701-8.

[12] Wang Bo, Li Yudong, Guo Qi, et al. Study on the mechanism of dark signal degradation induced by 60Co-y ray irradiation on CMOS active pixel sensor [J]. Acta Physica Sinica, 2014, 63(5): 056102-1-056102-7.

[13] Rebecca, Li Bin Bridge, Xu Jiangtao. A time sequence for eliminating line noise of CMOS image sensor [J]. Journal of Sensing Technology, 2011, 24(10):1450-1453.

[14] Zhao Yuanfu, Liu Liyan, Liu Xiaohui, et al. Radiation Effects on Scientific CMOS Image Sensor [J]. Journal of Semiconductors. 2015, 36(11):114001-114007.

[15] https :/ /www. onsemi. com/ products/ sensors/ image - sensors - pro- cessors/ image-sensors/ star1000 [R]. ON Semiconductor.

[16] Gao Jing, Heng Jiawei, Nie Kaiming, et al. Design of column-level monoclinic ADC for CMOS image sensor based on adaptive correlated multi-sampling technology [J]. Journal of Sensing Technology, 2021, 34(04):504-514.

[17] Tu Bihai, Yao Pingping, Meng Binghuan, et al. Study on nonuniformity correction of multi-angle polarization imager detector [J]. Acta Photonica, 2020, 49(9):139-148.

[18] Qiao Meiying, Xu Chengkuan, Tang Xiaxia, et al. Application of DA-LM algorithm in error correction of MEMS acceleration sensor [J]. Journal of Sensing Technology, 2021, 34(2):223-231.

[19] Wei Hongyan, Yin Chao. Study on error correction of photonic crystal fiber sensor based on pattern recognition [J]. Journal of Laser, 2021,42(3):100-103.

[20] Huang Meiyi. Research on Automatic Error Correction of Image Sensor Based on Deep Learning Algorithm [J]. Automation Technology and Application, 2023, 42 (05): 8-11. DOI: 10.20033/j.1003-7241. (2023) 05-0008-04.

[21] Liujing, Du Minghui. Key technologies and new progress of CMOS image sensor [J]. Sensor technology, 2004 (11): 9-11. DOI: 10.13873/J.1000-978204.11.003.

[22] Xu Jiangtao, Cheng Silu. Intelligent imaging and recognition CMOS image sensor technology [J]. Aerospace Return and Remote Sensing, 2021, 42(06):95-110.

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Published

11-02-2025

Issue

Vol. 2 No. 1 (2025)

Section

Articles

License

Copyright (c) 2025 Journal of Computer Science and Artificial Intelligence

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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

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