6.4 Single-shot 200Mfps 5×3-aperture compressive CMOS imager

F. Mochizuki, K. Kagawa, S. Okihara, M. Seo, Bo Zhang, T. Takasawa, K. Yasutomi, S. Kawahito
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引用次数: 20

Abstract

Ultra-high-speed cameras are a powerful tool for biology as well as physics and mechanics to analyze the process of ultra-high-speed phenomena. The frame rate of the state-of-the-art burst-readout ultra-high-speed silicon imagers has reached approximately 20Mfps [1,2]. To observe faster phenomena such as plasma generation in laser processing, the state of electrons in a chemical reaction, and so on, much faster cameras are desired. There are several factors that prevent the speed-up of the ultra-high-speed imager: high gate control voltages and high power dissipation for high-efficiency multi-stage charge transfer in CCD imagers, and the current density limit of the power and ground lines and RC-constant of the vertical readout lines in CMOS imagers. Computational imaging can be a promising option to break the design limit of solid-state ultra-high-speed imagers. Several dedicated CMOS imagers have been demonstrated [3,4]. This paper presents a demonstration of a single-chip ultra-high-speed multi-aperture CMOS imager based on compressive sampling. The imager performs single-shot burst-readout image acquisition at a frame rate of 200Mfps.
6.4单镜头200Mfps 5×3-aperture压缩CMOS成像仪
超高速相机是生物学、物理学和力学分析超高速现象过程的有力工具。最先进的突发读出超高速硅成像仪的帧率已达到约20Mfps[1,2]。为了观察更快的现象,如激光加工中的等离子体产生,化学反应中的电子状态等,需要更快的相机。阻碍超高速成像仪加速的因素主要有:CCD成像仪中为实现高效多级电荷传输而产生的高栅极控制电压和高功耗;CMOS成像仪中电源、地线的电流密度限制和垂直读出线的rc常数。计算成像技术有望突破固态超高速成像仪的设计限制。一些专用的CMOS成像仪已经被证明[3,4]。介绍了一种基于压缩采样的单片超高速多孔径CMOS成像仪。成像仪以200Mfps的帧率进行单镜头突发读出图像采集。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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