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

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

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.

[1] Marc Levoy,et al. A dual in-pixel memory CMOS image sensor for computation photography , 2011, 2011 Symposium on VLSI Circuits - Digest of Technical Papers.

[2] Shoji Kawahito,et al. CMOS Lock-in Pixel Image Sensors with Lateral Eelectric Field Cotrol for Time-Resolved Imaging , 2013 .

[3] Mohan Shankar,et al. Compressive video sensors using multichannel imagers. , 2010, Applied optics.

[4] Toshiki Arai,et al. A 252-${\rm V/lux}{\cdot}{\rm s}$, 16.7-Million-Frames-Per-Second 312-kpixel Back-Side-Illuminated Ultrahigh-Speed Charge-Coupled Device , 2013, IEEE Transactions on Electron Devices.

[5] Shahram Shirani,et al. Compressive Sensing Image Sensors-Hardware Implementation , 2013, Sensors.

[6] Abbas El Gamal,et al. A 256×256 CMOS image sensor with ΔΣ-based single-shot compressed sensing , 2012, 2012 IEEE International Solid-State Circuits Conference.

[7] Rihito Kuroda,et al. A global-shutter CMOS image sensor with readout speed of 1Tpixel/s burst and 780Mpixel/s continuous , 2012, 2012 IEEE International Solid-State Circuits Conference.