Analysis of Total Dose-Induced Dark Current in CMOS Image Sensors From Interface State and Trapped Charge Density Measurements

Author

Goiffon, V. ; Virmontois, C. ; Magnan, P. ; Girard, S. ; Paillet, P.

Author_Institution

ISAE, Univ. de Toulouse, Toulouse, France

Volume

57

Issue

6

fYear

2010

Firstpage

3087

Lastpage

3094

Abstract

The origin of total ionizing dose induced dark current in CMOS image sensors is investigated by comparing dark current measurements to interface state density and trapped charge density measurements. Two types of photodiode and several thick-oxide-FETs were manufactured using a 0.18-μm CMOS image sensor process and exposed to 10-keV X-ray from 3 krad to 1 Mrad. It is shown that the radiation induced trapped charge extends the space charge region at the oxide interface, leading to an enhancement of interface state SRH generation current. Isochronal annealing tests show that STI interface states anneal out at temperature lower than 100°C whereas about a third of the trapped charge remains after 30 min at 300°C.

Keywords

CMOS image sensors; annealing; field effect transistors; interface states; photodiodes; radiation effects; APS; CMOS image sensor process; X-ray; active pixel sensors; electron volt energy 10 keV; interface state density; isochronal annealing tests; photodiode; space charge region; thick-oxide-FETs; total ionizing dose-induced dark current; trapped charge density measurements; Active pixel sensors; Annealing; CMOS image sensors; Dark current; Interface states; Ionizing radiation; Photodiodes; Active pixel sensors (APS); CMOS image sensors (CIS); FOXFET; PMDFET; dark current; deep submicrometer process; interface states; ionizing radiation; shallow trench isolation (STI); total ionizing dose (TID); trapped charge;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/TNS.2010.2077653

Filename

5618600