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19 May 2005 Large CMOS imager using Hadamard transform based multiplexing
Boris S. Karasik, Mark Wadsworth
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Proceedings Volume 5798, Spaceborne Sensors II; (2005) https://doi.org/10.1117/12.602840
Event: Defense and Security, 2005, Orlando, Florida, United States
Abstract
We have developed a concept design for a large (~10k × 10k) CMOS imaging array whose elements are grouped in small subarrays with N pixels in each. The subarrays are code-division multiplexed using the Hadamard Transform (HT) based encoding. The Hadamard code improves the signal-to-noise (SNR) ratio to the reference of the read-out amplifier noise by a factor of N1/2. This way of grouping pixels reduces the number of hybridization bumps by N. A single chip layout has been designed and the architecture of the imager has been developed to accommodate the HT based multiplexing into the existing CMOS technology. The imager architecture allows for a trade-off between the speed and the sensitivity. The envisioned imager would operate at a speed >100 fps with the pixel noise < 20 e-. The power dissipation would be ~ 100 pW/pixel. The combination of the large format, high speed, high sensitivity and low power dissipation are very attractive for space applications.
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Boris S. Karasik and Mark Wadsworth "Large CMOS imager using Hadamard transform based multiplexing", Proc. SPIE 5798, Spaceborne Sensors II, (19 May 2005); https://doi.org/10.1117/12.602840
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KEYWORDS
Imaging systems
Multiplexing
Charge-coupled devices
Signal to noise ratio
Sensors
Signal processing
Amplifiers
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