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224-ke Saturation signal global shutter CMOS image sensor with in-pixel pinned storage and lateral overflow integration capacitor
Document Type
Conference
Author
Sakano, YoritoSakai, ShinTashiro, YoshiakiKato, YuriAkiyama, KentaroHonda, KatsumiSato, MamoruSakakibara, MasakiTaura, TadayukiAzami, KenjiHirano, TomoyukiOike, YusukeSogo, YasunoriEzaki, TakayukiNarabu, TadakuniHirayama, TeruoSugawa, Shigetoshi
Source
2017 Symposium on VLSI Circuits VLSI Circuits, 2017 Symposium on. :C250-C251 Jun, 2017
Subject
Components, Circuits, Devices and Systems
Computing and Processing
Engineered Materials, Dielectrics and Plasmas
Fields, Waves and Electromagnetics
Power, Energy and Industry Applications
Signal Processing and Analysis
CMOS image sensors
Linearity
Capacitors
Partial discharges
Logic gates
Very large scale integration
Dynamic range
Language
Abstract
The required incorporation of an additional in-pixel retention node for global shutter complementary metal-oxide semiconductor (CMOS) image sensors means that achieving a large saturation signal presents a challenge. This paper reports a 3.875-μm pixel single exposure global shutter CMOS image sensor with an in-pixel pinned storage (PST) and a lateral-overflow integration capacitor (LOFIC), which extends the saturation signal to 224 ke, thereby enabling the saturation signal per unit area to reach 14.9 ke/μm. This pixel can assure a large saturation signal by using a LOFIC for accumulation without degrading the image quality under dark and low illuminance conditions owing to the PST.

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