嵌入式通道源跟随器对CMOS成像仪x射线辐射的影响

2011 Proceedings of the European Solid-State Device Research Conference (ESSDERC) Pub Date : 2011-10-13 DOI:10.1109/ESSDERC.2011.6044211

Yue Chen, J. Tan, Xinyang Wang, A. Mierop, A. Theuwissen

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引用次数: 3

摘要

本文提出了一种具有针脚光电二极管5T有源像素的CMOS图像传感器(CIS)，该传感器使用具有优化行选择器(RS)的像素内埋式通道源跟随器(BSF)。根据我们之前的工作[1][2]，使用优化RS的像素内bsf可以实现显着的像素暗随机噪声降低，即降低50%，特别是随机电报信号(RTS)噪声，并且增加了像素输出摆动和动态范围。为了评估其在透视空间或医学成像应用中的性能，本文还对采用0.18μm CMOS图像传感器工艺的像素结构在x射线辐射下进行了进一步表征。结果表明，虽然x射线辐射诱导的附加类受体界面陷阱会增加暗随机噪声，但BSF像元能够抑制x射线辐射后暗随机噪声的增加。

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X-ray radiation effect on CMOS imagers with in-pixel buried-channel source follower

This paper presents a CMOS image sensor (CIS) with pinned-photodiode 5T active pixels which use an in-pixel buried channel source follower (BSF) with an optimized row selector (RS). According to our previous work [1][2], using in-pixel BSFs with optimized RS can achieve significant pixel dark random noise reduction, i.e. 50% reduction, specially for random telegraph signal (RTS) noise, and an increase of the pixel output swing and dynamic range. With significant dark random noise reduction, in order to evaluate the performance for perspective space or medical imaging application, this proposed pixel structure using 0.18μm CMOS image sensor process is also further characterized under X-ray radiation. The results show that although X-ray radiation induced additional acceptor-like interface traps will increase dark random noise, the BSF pixels are able to constrain the dark random noise increase after X-ray radiation.

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2011 Proceedings of the European Solid-State Device Research Conference (ESSDERC)

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