Litcius/Paper detail

Fully Depleted, Trench-Pinned Photo Gate for CMOS Image Sensor Applications

F. Roy, Andrej Suler, Thomas Dalleau, Romain Duru, Daniel L. Benoit, Jihane Arnaud, Y. Cazaux, C. Chaton, L. Montès, P. Morfouli, Guo‐Neng Lu

2020Sensors21 citationsDOIOpen Access PDF

Abstract

Tackling issues of implantation-caused defects and contamination, this paper presents a new complementary metal-oxide-semiconductor (CMOS) image sensor (CIS) pixel design concept based on a native epitaxial layer for photon detection, charge storage, and charge transfer to the sensing node. To prove this concept, a backside illumination (BSI), p-type, 2-µm-pitch pixel was designed. It integrates a vertical pinned photo gate (PPG), a buried vertical transfer gate (TG), sidewall capacitive deep trench isolation (CDTI), and backside oxide-nitride-oxide (ONO) stack. The designed pixel was fabricated with variations of key parameters for optimization. Testing results showed the following achievements: 13,000 h+ full-well capacity with no lag for charge transfer, 80% quantum efficiency (QE) at 550-nm wavelength, 5 h+/s dark current at 60 °C, 2 h+ temporal noise floor, and 75 dB dynamic range. In comparison with conventional pixel design, the proposed concept could improve CIS performance.

Topics & Concepts

Shallow trench isolationOptoelectronicsImage sensorMaterials scienceDark currentCMOSPhotodiodePixelCapacitanceNoise (video)TrenchGate oxideOxideElectrical engineeringOpticsPhotodetectorComputer scienceLayer (electronics)ElectrodeNanotechnologyEngineeringTransistorPhysicsImage (mathematics)MetallurgyVoltageQuantum mechanicsArtificial intelligenceCCD and CMOS Imaging SensorsThin-Film Transistor TechnologiesInfrared Target Detection Methodologies