Total dose and displacement damage effects in a radiation-hardened CMOS APS

Author

Bogaerts, Jan ; Dierickx, Bart ; Meynants, Guy ; Uwaerts, Dirk

Author_Institution

FillFactory, Mechelen, Belgium

Volume

50

Issue

1

fYear

2003

fDate

1/1/2003 12:00:00 AM

Firstpage

84

Lastpage

90

Abstract

A 512×512 CMOS active pixel sensor (APS) was designed and fabricated in a standard 0.5-μm technology. The radiation tolerance of the sensor has been evaluated with Co-60 and proton irradiation with proton energies ranging from 11.7 to 59 MeV. The most pronounced radiation effect is the increase of the dark current. However, the total ionizing dose-induced dark current increase is orders of magnitude smaller than in standard devices. It behaves logarithmically with dose and anneals at room temperature. The dark current increase due to proton displacement damage is explained in terms of the nonionizing energy loss of the protons. The fixed pattern noise does not increase with total ionizing dose. Responsivity changes are observed after Co-60 and proton irradiation, but a definitive cause has not yet been established.

Keywords

CMOS image sensors; dark conductivity; integrated circuit noise; proton effects; radiation hardening (electronics); 0.5 micron; 11.7 to 59 MeV; 262144 pixel; 512 pixel; CMOS active pixel sensor; Co-60 irradiation; displacement damage effects; fixed pattern noise; proton displacement damage; proton irradiation; proton nonionizing energy loss; radiation effect; radiation-hardened CMOS APS; responsivity changes; sensor radiation tolerance evaluation; total ionizing dose-induced dark current; Annealing; CMOS image sensors; CMOS technology; Charge transfer; Dark current; Electrons; Ionizing radiation sensors; Protons; Radiation effects; Space technology;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/TED.2002.807251

Filename

1185167