Lecture 11 CMOS Imaging Sensor - The Hong Kong University of ...
Lecture 11 CMOS Imaging Sensor - The Hong Kong University of ...
Lecture 11 CMOS Imaging Sensor - The Hong Kong University of ...
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References<br />
1. A. Gamal, and H. Eltoukhy, “<strong>CMOS</strong> image sensors”, IEEE Circuits & Devices Mag., pp. 6-20, May 2005<br />
2. S. Mendis, S. Kemeny, R. Gee, B. Pain, C. Staller, Q. Kim, and E. Fossum, “<strong>CMOS</strong> active pixel image sensors for highly<br />
integrated imaging systems”, IEEE J. Solid-State Circuits, Vol. 32, pp. 187-197, Feb. 1997<br />
3. S. Decker, R. McGrath, K. Brehmer, and C. Sodini, “A 256×256 <strong>CMOS</strong> imaging array with wide dynamic range pixels and<br />
column-parallel digital output””, IEEE J. Solid-State Circuits, Vol. 33, pp. 2081-2091, Dec. 1998<br />
4. D. Yang, and A. Gamal, “Comparative analysis <strong>of</strong> SNR for image sensors with enhanced dynamic range”, Proc. SPIE, San<br />
Jose, CA, 1999, vol. 3649, pp. 197-2<strong>11</strong><br />
5. D. Yang, A. Gamal, B. Fowler, and H. Tan, “A 640×512 <strong>CMOS</strong> image sensor with ultrawide dynamic range floating-point<br />
pixel-level ADC”, IEEE J. Solid-State Circuits, Vol. 34, pp. 1821-1834, Dec. 1999<br />
6. D. Stoppa, A. Simoni, L. Gonzo, M. Gotardi, and G. Betta, “Novel <strong>CMOS</strong> image sensor with a 132-dB dynamic range”, IEEE<br />
J. Solid-State Circuits, Vol. 37, pp. 1846-1852, Dec. 2002<br />
7. N. Akahane, S. Sugawa, S. Adachi, K. Mori, T. Ishiyuki, and K. Mizobuchi, “A sensitivity and linearity improvement <strong>of</strong> a 100-<br />
dB dynamic range <strong>CMOS</strong> image sensor using a lateral overflow integration capacitor”, IEEE J. Solid-State Circuits, Vol. 41,<br />
pp. 851-858, Apr. 2006<br />
8. S. Adachi, W. Lee, N. Akahane, H. Oshikubo, K. Mizobuchi, and S. Sugawa, “A 200uV/e- <strong>CMOS</strong> image sensor with 100-kefull<br />
well capacity”, IEEE J. Solid-State Circuits, Vol. 43, pp. 823-830, Apr. 2008<br />
9. H. Takahashi et. al, “A 1/2.7-in 2.96 MPixel <strong>CMOS</strong> image sensor with double CDS architecture for full high-definition<br />
camcorders”, IEEE J. Solid-State Circuits, Vol. 42, pp. 2960-2967, Dec. 2007<br />
10. 12. M. Futura, Y. Nishikawa, T. Inoue, S. Kawahito, “A high-speed, high-sensitivity digital <strong>CMOS</strong> image sensor with a global<br />
shutter and 12-bit column-parallel cyclic A/D Converters”, IEEE J. Solid-State Circuits, Vol. 42, pp. 766-774, Apr. 2007<br />
<strong>11</strong>. 13. M. Snoejj, A. <strong>The</strong>uwissen, K.. Makinwa, and J. Huijsing, “A <strong>CMOS</strong> imager with column-level ADC using dynamic column<br />
fixed-pattern noise reduction”, IEEE J. Solid-State Circuits, Vol. 41, pp. 3007-3015, Dec. 2006<br />
12. 14. L. McIlrath, “A low-power low-noise ultrawide-dynamic-range <strong>CMOS</strong> imager with pixel-parallel A/D converters”, IEEE J.<br />
Solid-State Circuits, Vol. 36, pp. 846-853, May 2001<br />
© George Yuan, HKUST<br />
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