Title :
Investigation of a Sequential Three-Dimensional Process for Back-Illuminated CMOS Image Sensors With Miniaturized Pixels
Author :
Coudrain, Perceval ; Magnan, Pierre ; Batude, Perrine ; Gagnard, Xavier ; Leyris, Cédric ; Vinet, Maud ; Castex, Arnaud ; Lagahe-Blanchard, Chrystelle ; Pouydebasque, Arnaud ; Cazaux, Yvon ; Giffard, Benoit ; Ancey, Pascal
Author_Institution :
Inst. Super. de l´´Aeronautique et de l´´Espace, Univ. de Toulouse, Toulouse, France
Abstract :
A new 3-D CMOS image sensor architecture is presented as a potential candidate for submicrometer pixels. To overcome the scaling challenge related to miniaturized pixel design rules, far beyond traditional 3-D stacking alignment capabilities, a sequential construction is applied. This paper gives a technical overview of this 3-D scheme and validates a part of its building blocks. As a consequence of a sequential process, the thermal budget is limited to ensure bottom device immunity. Subsequently, high-quality SOI film transfer above the first layer by direct bonding and etch back is demonstrated. Finally, the low-temperature processing of HfO2/TiN fully depleted silicon-on-insulator readout transistors is detailed and evaluated from a low frequency noise point of view.
Keywords :
CMOS image sensors; bonding processes; etching; hafnium compounds; readout electronics; semiconductor device noise; silicon-on-insulator; titanium compounds; transistors; 3-D stacking alignment; HfO2-TiN; back-illuminated CMOS image sensors; bottom device immunity; depleted silicon-on-insulator readout transistors; direct bonding; etch back; high-quality SOI film transfer; low-frequency noise; miniaturized pixels; sequential 3D process; sequential construction; thermal budget; Bonding; CMOS image sensors; CMOS technology; Etching; Image sensors; Lighting; Photodiodes; Pixel; Production; Stacking; 3-D integration; CMOS image sensors (CISs); fully depleted silicon-on-insulator (FDSOI) transistors; pixel miniaturization; sequential integration;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2009.2030990
