A CMOS image sensor with a simple fixed-pattern-noise-reduction technology and a hole accumulation diode

A simple fixed-pattern-noise (FPN)-reduction technology, which consists of a five-transistor pixel circuit, a hole accumulation diode for sensing elements, and a correlated-double-sampling (CDS) circuit with an I-V converter in an output stage circuit, is applied to a 1/3-inch 640/spl times/480-pixe...

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Veröffentlicht in:	IEEE journal of solid-state circuits 2000-12, Vol.35 (12), p.2038-2043
Hauptverfasser:	Yonemoto, K., Sumi, H.
Format:	Artikel
Sprache:	eng
Schlagworte:	Circuits CMOS CMOS image sensors CMOS technology Converters Dark current Diodes Dynamic range Electric potential Image converters Pixel Pixels Sensors Signal design Volt-ampere characteristics Voltage
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container_end_page	2043
container_issue	12
container_start_page	2038
container_title	IEEE journal of solid-state circuits
container_volume	35
creator	Yonemoto, K. Sumi, H.
description	A simple fixed-pattern-noise (FPN)-reduction technology, which consists of a five-transistor pixel circuit, a hole accumulation diode for sensing elements, and a correlated-double-sampling (CDS) circuit with an I-V converter in an output stage circuit, is applied to a 1/3-inch 640/spl times/480-pixel CMOS image sensor. The five-transistor pixel circuit outputs the current mode pixel signal with a reset level and a signal level successively in one pixel period. The I-V converter is designed to reduce a signal-line voltage to close to the ground level in order to give sufficient voltage to an amplification transistor in a pixel. The CDS circuit receives a pixel signal from the I-V converter and performs as an FPN-reduction circuit by subtracting a signal level from a reset level of a pixel signal. Owing to the technology, the CMOS image sensor achieved a sensitivity of 0.52 V/lx/spl middot/s, a saturation signal of 200 mV, a dynamic range of 61 dB and a dark current of 150 pA/cm/sup 2/.
doi_str_mv	10.1109/4.890320
format	Article
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The five-transistor pixel circuit outputs the current mode pixel signal with a reset level and a signal level successively in one pixel period. The I-V converter is designed to reduce a signal-line voltage to close to the ground level in order to give sufficient voltage to an amplification transistor in a pixel. The CDS circuit receives a pixel signal from the I-V converter and performs as an FPN-reduction circuit by subtracting a signal level from a reset level of a pixel signal. 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The five-transistor pixel circuit outputs the current mode pixel signal with a reset level and a signal level successively in one pixel period. The I-V converter is designed to reduce a signal-line voltage to close to the ground level in order to give sufficient voltage to an amplification transistor in a pixel. The CDS circuit receives a pixel signal from the I-V converter and performs as an FPN-reduction circuit by subtracting a signal level from a reset level of a pixel signal. Owing to the technology, the CMOS image sensor achieved a sensitivity of 0.52 V/lx/spl middot/s, a saturation signal of 200 mV, a dynamic range of 61 dB and a dark current of 150 pA/cm/sup 2/.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/4.890320</doi><tpages>6</tpages></addata></record>
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subjects	Circuits CMOS CMOS image sensors CMOS technology Converters Dark current Diodes Dynamic range Electric potential Image converters Pixel Pixels Sensors Signal design Volt-ampere characteristics Voltage
title	A CMOS image sensor with a simple fixed-pattern-noise-reduction technology and a hole accumulation diode
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