Temporal noise analysis and measurements of CMOS active pixel sensor operating in time domain

2013 26th Symposium on Integrated Circuits and Systems Design (SBCCI) Pub Date : 2013-10-24 DOI:10.1109/SBCCI.2013.6644859

F. S. Campos, J. Ulson, J. Swart, M. Deen, O. Marinov, D. Karam

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引用次数: 1

Abstract

Image sensors in standard CMOS technology are increasing used for consumer, industrial and scientific applications due to their low cost, high level of integration and low power consumption. Further, image sensors in mainstream complementary metal-oxide-semiconductor (CMOS) technology are preferred because they are the lowest cost and easiest/fastest option to implement. For CMOS image sensors, a key issue is their noise behavior. Therefore, we have studied the noise characteristics of CMOS image sensors operating in time domain. Two important noise sources are the reset noise and integration noise. The reset noise is due to the reset in CMOS image sensors operating in voltage domain. The integration noise is that accumulated during light integration and was found to be the constant, independent of light intensity. Our circuit analysis shows that the signal-to-noise ratio (SNR) is also constant and independent of light intensity. At low light levels the constant SNR is higher compared to others CMOS image sensors presented in the literature. We have implemented a time domain CMOS image sensor in AMS CMOS 0.35um technology. Our measurements results show that the SNR level is approximately constant to 43dB.

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CMOS有源像素传感器时域噪声分析与测量

标准CMOS技术的图像传感器由于其低成本，高集成度和低功耗而越来越多地用于消费，工业和科学应用。此外，主流互补金属氧化物半导体(CMOS)技术中的图像传感器是首选，因为它们是成本最低且最容易/最快实现的选择。对于CMOS图像传感器，一个关键问题是它们的噪声行为。因此，我们研究了工作在时域的CMOS图像传感器的噪声特性。两个重要的噪声源是复位噪声和积分噪声。复位噪声是由于CMOS图像传感器在电压域中工作时的复位引起的。积分噪声是在光积分过程中积累的噪声，是一个常数，与光强无关。我们的电路分析表明，信噪比(SNR)也是恒定的，与光强无关。在低光水平下，恒定信噪比比文献中提出的其他CMOS图像传感器更高。我们在AMS CMOS 0.35um技术上实现了一个时域CMOS图像传感器。我们的测量结果表明，信噪比水平大约恒定在43dB。

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2013 26th Symposium on Integrated Circuits and Systems Design (SBCCI)

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