Prediction of CMOS Image Sensor Dark Current Distribution and Noise in a Space Radiation Environment

Author

Martin, Eric ; Gilard, O. ; Nuns, T. ; David, John ; Virmontois, Cedric

Author_Institution

French Space Agency CNES, Toulouse, France

Volume

60

Issue

3

fYear

2013

fDate

Jun-13

Firstpage

2280

Lastpage

2287

Abstract

Commercial off-the-shelf CMOS image sensors were irradiated with protons at energies ranging from 30 MeV to 185 MeV. The irradiation-induced dark current increase and its distribution are studied. An empirical prediction method is used to assess the increase of both mean dark current and associated non-uniformity after a mono-energetic proton irradiation. The results are found to be in good agreement with the experimental measurements. The model also proved to be well adapted to predict dark current increase distributions for a device exposed to a multi-energetic proton beam. The impact of this dark current enhancement on the radiometric performance of the sensor is also discussed.

Keywords

CMOS image sensors; semiconductor counters; CMOS image sensor dark current distribution; commercial off-the-shelf CMOS image sensors; dark current enhancement; electron volt energy 30 MeV to 185 MeV; irradiation-induced dark current; mean dark current; mono-energetic proton irradiation; multienergetic proton beam; sensor radiometric performance; space radiation environment; Current measurement; Dark current; Performance evaluation; Photodiodes; Protons; Radiation effects; Silicon; CMOS image sensor; dark current; dark current non-uniformity; radiation effect; signal-to-noise ratio;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/TNS.2013.2258938

Filename

6522547