Title :
Proton, Electron, and Heavy Ion Single Event Effects on the HAS2 CMOS Image Sensor
Author :
Beaumel, M. ; HerveÌ, Dominique ; Van Aken, Dirk ; Pourrouquet, P. ; Poizat, Marc
Author_Institution :
EADS SODERN, Limeil-Brévannes, France
Abstract :
The single event effects (SEEs) sensitivity of the HAS2 CMOS image sensor has been characterized with protons, electrons, and heavy ions. The read-out integrated circuit (ROIC) of the sensor was found to be sensitive to charged particle-induced upset. Vulnerable elements of the ROIC were identified by the analysis of image corruption events under beam. The charge collected from the passage of protons and electrons in the photosensitive zone has also been measured and compared to the results of Monte Carlo simulations. The charge collection depth of the sensor was found to differ significantly from the epitaxial layer thickness of the device.
Keywords :
CMOS image sensors; Monte Carlo methods; electrons; photochemistry; photodetectors; protons; radiation hardening (electronics); readout electronics; semiconductor epitaxial layers; HAS2 CMOS image sensor; Monte Carlo simulation; ROIC; SEE; charge collection depth; charged particle-induced upset; electron; epitaxial layer thickness; heavy ion single event effect; image corruption beam event; photosensitive zone; proton; read-out integrated circuit; Arrays; Protons; Radiation effects; Shift registers; Single event upsets; CMOS; electron radiation effects; heavy ions; image sensors; proton radiation effects; radiation effects in ICs; single event effects; single event transients; single event upset;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2014.2307759
