高动态范围CMO S成像仪的逐像素FPN降阶方法

ESSCIRC 2007 - 33rd European Solid-State Circuits Conference Pub Date : 2007-09-01 DOI:10.1109/ESSCIRC.2007.4430311

E. Labonne, G. Sicard, M. Renaudin

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引用次数: 21

摘要

提出了一种采用固定模式降噪(FPN)方法的高动态范围CMOS图像传感器。高动态范围是通过对数结构像素实现的。针对该体系结构的缺点，提出了一种芯片上的标定方法，以降低工艺变化带来的FPN。其基本原理是根据像素内参考电流代替二极管光电流对每个像素进行校准。对应于光电流和已知参考电流的两个像素电平对每个像素可用，然后双重采样技术允许消除由于阈值电压变化引起的偏移。这项工作的创新之处在于电流校准源完全在像素内实现，从而提高了FPN补偿的精度和降低了功耗。这种FPN减少方法在每个像素只保留四个晶体管的情况下执行。采用0.35 μ m、3.3 V CMOS标准工艺，设计制作了128倍128像素的测试芯片。像素测量为10倍10.6 mum2，填充系数为33%。动态范围高达100dB，帧率高达每秒30张图像，测量的FPN为总动态范围的2.9% rms。

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An on-pixel FPN reduction method for a high dynamic range CMO S imager

A high dynamic range CMOS image sensor implementing a fixed pattern noise (FPN) reduction method is presented. The high dynamic range is reach through a logarithmic architecture pixel. An on-chip calibration method is implemented to reduce the FPN caused by process variations, weakness of this architecture. The basic principle is the calibration of each pixel against an in-pixel reference current in place of the diode photocurrent. Two pixel levels corresponding to the photocurrent and a known reference current become available for every pixel Then a double sampling technique allows removing offsets due to threshold voltage variations. An innovation of this work consists in the implementation of the current calibration source totally inside the pixel, allowing a better precision of the FPN compensation and lower power consumption. This FPN reduction method is performed while keeping only four transistors per pixel. A 128times128 pixels test chip has been designed and fabricated in 0.35 mum, 3.3 V CMOS standard technology. Pixel measures 10times10.6 mum2 with a fill factor of 33%. The dynamic range is up to 100dB with a frame rate up to 30 images per second and a measured FPN of 2.9% rms of the total dynamic range.

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ESSCIRC 2007 - 33rd European Solid-State Circuits Conference

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