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Overview of ionizing radiation effects in image sensors fabricated in a deep-submicrometer CMOS imaging technology

机译：在深亚微米CMOS成像技术中制造的图像传感器中的电离辐射效应概述

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An overview of ionizing radiation effects in imagersudmanufactured in a 0.18-μm CMOS image sensor technology is presented. Fourteen types of image sensors are characterized and irradiated by a 60Co source up to 5 kGy. The differences between these 14 designs allow us to separately estimate the effect of ionizing radiation on microlenses, on low- and zero-threshold-voltage MOSFETs and on several pixel layouts using P+ guard-rings and edgeless transistors. After irradiation, wavelength dependent responsivity drops are observed. All the sensors exhibit a large dark current increase attributed to the shallow trench isolation that surrounds the photodiodes. Saturation voltage rises and readout chain gain variations are also reported. Finally, the radiation hardening perspectives resulting from this paper are discussed.

机译：概述了使用0.18μmCMOS图像传感器技术制造的成像器中的电离辐射效应。十四种类型的图像传感器的特征在于，并通过高达5 kGy的60Co源进行辐照。这14种设计之间的差异使我们能够分别估计电离辐射对微透镜，低阈值电压和零阈值MOSFET以及使用P +保护环和无边晶体管的几种像素布局的影响。辐照后，观察到波长相关的响应度下降。所有传感器都表现出很大的暗电流增加，这归因于围绕光电二极管的浅沟槽隔离。还报告了饱和电压上升和读出链增益变化。最后，讨论了本文得出的辐射硬化观点。

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Goiffon Vincent; Estribeau Magali; Magnan Pierre;
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年度 2009
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正文语种 {"code":"en","name":"English","id":9}
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专利

1. Overview of Ionizing Radiation Effects in Image Sensors Fabricated in a Deep-Submicrometer CMOS Imaging Technology [J] . Goiffon V., Estribeau M., Magnan P. Electron Devices, IEEE Transactions on . 2009,第11期

机译：深亚微米CMOS成像技术制造的图像传感器中的电离辐射效应概述
2. Color Mixing Improvement of CMOS Image Sensor With Air-Gap-Guard Ring in Deep-Submicrometer CMOS Technology [J] . T. H. Hsu, Y. K. Fang, D. N. Yaung, IEEE Electron Device Letters . 2005,第5期

机译：深亚微米CMOS技术中带有气隙保护环的CMOS图像传感器的混色改进
3. Radiation Hardness Comparison of CMOS Image Sensor Technologies at High Total Ionizing Dose Levels [J] . Rizzolo Serena, Goiffon Vincent, Corbiere Franck, IEEE Transactions on Nuclear Science . 2019,第1期

机译：高总电离剂量水平下CMOS图像传感器技术的辐射硬度比较
4. Multi-MGy Total Ionizing Dose Induced MOSFET Variability Effects on Radiation Hardened CMOS Image Sensor Performances [C] . Serena Rizzolo, Vincent Goiffon, Marius Sergent, European Conference on Radiation and Its Effects on Components and Systems . 2017

机译：Multi-MGy总电离剂量诱导的MOSFET可变性对辐射硬化CMOS图像传感器性能的影响
5. Heavy ion radiation effects on CMOS image sensors. [D] . Mebrahtu, Henok T. 2006

机译：重离子辐射会对CMOS图像传感器产生影响。
6. Proton Radiation Effects on Dark Signal Distribution of PPD CMOS Image Sensors: Both TID and DDD Effects [O] . Yuanyuan Xue, Zujun Wang, Wei Chen, 2017

机译：质子辐射对PPD CMOS图像传感器暗信号分布的影响：TID和DDD效应
7. Radiation Effects in Pinned Photodiode CMOS Image Sensors: Pixel Performance Degradation Due to Total Ionizing Dose [O] . Goiffon Vincent, Estribeau Magali, Marcelot Olivier, 2012

机译：固定光电二极管CMOS图像传感器中的辐射效应：由于总电离剂量导致像素性能下降
8. 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

Overview of ionizing radiation effects in image sensors fabricated in a deep-submicrometer CMOS imaging technology

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