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Article Dans Une Revue IEEE Transactions on Nuclear Science Année : 2023

Capacitive Deep Trench Isolation-Based CCD-on-CMOS Image Sensor Sensitivity to Total Ionizing Dose

Résumé

This work presents a new type of charge-coupled device (CCD) manufactured using a CMOS process and featuring capacitive deep trench isolation (CDTI). The device is used in a multi-pinned phase mode (MPP) enabling almost constant oxide interface passivation. Flatband shift, dark current, and charge transfer inefficiency (CTI) induced by total ionizing dose (TID) are investigated. Despite the increase of interface states, results show that dark current can be efficiently mitigated by the use of short charge transfer duration, avoiding full interface depletion and free charge generation. It is further shown that trapping by interface states is only lightly affecting CTI as the buried channel keeps electrons far from interfaces. Finally, a clear correlation between flatband shift with full well charge (FWC) reduction is established.
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Dates et versions

hal-04293101 , version 1 (28-11-2023)

Identifiants

Citer

Alj Antoine Salih, Pierre Touron, François Roy, Stéphane Demiguel, Julien Michelot, et al.. Capacitive Deep Trench Isolation-Based CCD-on-CMOS Image Sensor Sensitivity to Total Ionizing Dose. IEEE Transactions on Nuclear Science, 2023, 70 (8), pp.2018 - 2026. ⟨10.1109/TNS.2023.3283264⟩. ⟨hal-04293101⟩
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