An Over 90 dB Intra-Scene Single-Exposure Dynamic Range CMOS Image Sensor Using a 3.0 μm Triple-Gain Pixel Fabricated in a Standard BSI Process †

To respond to the high demand for high dynamic range imaging suitable for moving objects with few artifacts, we have developed a single-exposure dynamic range image sensor by introducing a triple-gain pixel and a low noise dual-gain readout circuit. The developed 3 μm pixel is capable of having thre...

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Autores principales: Takayanagi, Isao, Yoshimura, Norio, Mori, Kazuya, Matsuo, Shinichiro, Tanaka, Shunsuke, Abe, Hirofumi, Yasuda, Naoto, Ishikawa, Kenichiro, Okura, Shunsuke, Ohsawa, Shinji, Otaka, Toshinori
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2018
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5796480/
https://www.ncbi.nlm.nih.gov/pubmed/29329210
http://dx.doi.org/10.3390/s18010203
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author Takayanagi, Isao
Yoshimura, Norio
Mori, Kazuya
Matsuo, Shinichiro
Tanaka, Shunsuke
Abe, Hirofumi
Yasuda, Naoto
Ishikawa, Kenichiro
Okura, Shunsuke
Ohsawa, Shinji
Otaka, Toshinori
author_facet Takayanagi, Isao
Yoshimura, Norio
Mori, Kazuya
Matsuo, Shinichiro
Tanaka, Shunsuke
Abe, Hirofumi
Yasuda, Naoto
Ishikawa, Kenichiro
Okura, Shunsuke
Ohsawa, Shinji
Otaka, Toshinori
author_sort Takayanagi, Isao
collection PubMed
description To respond to the high demand for high dynamic range imaging suitable for moving objects with few artifacts, we have developed a single-exposure dynamic range image sensor by introducing a triple-gain pixel and a low noise dual-gain readout circuit. The developed 3 μm pixel is capable of having three conversion gains. Introducing a new split-pinned photodiode structure, linear full well reaches 40 ke(−). Readout noise under the highest pixel gain condition is 1 e(−) with a low noise readout circuit. Merging two signals, one with high pixel gain and high analog gain, and the other with low pixel gain and low analog gain, a single exposure dynamic rage (SEHDR) signal is obtained. Using this technology, a 1/2.7”, 2M-pixel CMOS image sensor has been developed and characterized. The image sensor also employs an on-chip linearization function, yielding a 16-bit linear signal at 60 fps, and an intra-scene dynamic range of higher than 90 dB was successfully demonstrated. This SEHDR approach inherently mitigates the artifacts from moving objects or time-varying light sources that can appear in the multiple exposure high dynamic range (MEHDR) approach.
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spelling pubmed-57964802018-02-13 An Over 90 dB Intra-Scene Single-Exposure Dynamic Range CMOS Image Sensor Using a 3.0 μm Triple-Gain Pixel Fabricated in a Standard BSI Process † Takayanagi, Isao Yoshimura, Norio Mori, Kazuya Matsuo, Shinichiro Tanaka, Shunsuke Abe, Hirofumi Yasuda, Naoto Ishikawa, Kenichiro Okura, Shunsuke Ohsawa, Shinji Otaka, Toshinori Sensors (Basel) Article To respond to the high demand for high dynamic range imaging suitable for moving objects with few artifacts, we have developed a single-exposure dynamic range image sensor by introducing a triple-gain pixel and a low noise dual-gain readout circuit. The developed 3 μm pixel is capable of having three conversion gains. Introducing a new split-pinned photodiode structure, linear full well reaches 40 ke(−). Readout noise under the highest pixel gain condition is 1 e(−) with a low noise readout circuit. Merging two signals, one with high pixel gain and high analog gain, and the other with low pixel gain and low analog gain, a single exposure dynamic rage (SEHDR) signal is obtained. Using this technology, a 1/2.7”, 2M-pixel CMOS image sensor has been developed and characterized. The image sensor also employs an on-chip linearization function, yielding a 16-bit linear signal at 60 fps, and an intra-scene dynamic range of higher than 90 dB was successfully demonstrated. This SEHDR approach inherently mitigates the artifacts from moving objects or time-varying light sources that can appear in the multiple exposure high dynamic range (MEHDR) approach. MDPI 2018-01-12 /pmc/articles/PMC5796480/ /pubmed/29329210 http://dx.doi.org/10.3390/s18010203 Text en © 2018 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Takayanagi, Isao
Yoshimura, Norio
Mori, Kazuya
Matsuo, Shinichiro
Tanaka, Shunsuke
Abe, Hirofumi
Yasuda, Naoto
Ishikawa, Kenichiro
Okura, Shunsuke
Ohsawa, Shinji
Otaka, Toshinori
An Over 90 dB Intra-Scene Single-Exposure Dynamic Range CMOS Image Sensor Using a 3.0 μm Triple-Gain Pixel Fabricated in a Standard BSI Process †
title An Over 90 dB Intra-Scene Single-Exposure Dynamic Range CMOS Image Sensor Using a 3.0 μm Triple-Gain Pixel Fabricated in a Standard BSI Process †
title_full An Over 90 dB Intra-Scene Single-Exposure Dynamic Range CMOS Image Sensor Using a 3.0 μm Triple-Gain Pixel Fabricated in a Standard BSI Process †
title_fullStr An Over 90 dB Intra-Scene Single-Exposure Dynamic Range CMOS Image Sensor Using a 3.0 μm Triple-Gain Pixel Fabricated in a Standard BSI Process †
title_full_unstemmed An Over 90 dB Intra-Scene Single-Exposure Dynamic Range CMOS Image Sensor Using a 3.0 μm Triple-Gain Pixel Fabricated in a Standard BSI Process †
title_short An Over 90 dB Intra-Scene Single-Exposure Dynamic Range CMOS Image Sensor Using a 3.0 μm Triple-Gain Pixel Fabricated in a Standard BSI Process †
title_sort over 90 db intra-scene single-exposure dynamic range cmos image sensor using a 3.0 μm triple-gain pixel fabricated in a standard bsi process †
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5796480/
https://www.ncbi.nlm.nih.gov/pubmed/29329210
http://dx.doi.org/10.3390/s18010203
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