This paper is devoted to the study of total ionizing dose effects in deep N-well (DNW) CMOS monolithic active pixel sensors (MAPS) for particle tracking fabricated in a STMicroelectronics 130 nm process. DNW-MAPS samples were exposed to gamma-rays up to a final dose of 1100 krad(SiO2) and then subjected to a 100 °C annealing cycle. Ionizing radiation tolerance was tested by monitoring the device noise properties and its response to charge injection through an external pulse generator throughout the irradiation and annealing campaign. The origins of performance degradation are discussed based on the results from radiation hardness characterization of single transistors belonging to the same CMOS technology and of test diodes reproducing the MAPS collecting electrode structure. Also circuit simulations have been performed to supply further evidence for the proposed degradation mechanisms.
(2009). TID effects in deep N-well CMOS monolithic active pixel sensors [journal article - articolo]. In IEEE TRANSACTIONS ON NUCLEAR SCIENCE. Retrieved from http://hdl.handle.net/10446/22829
TID effects in deep N-well CMOS monolithic active pixel sensors
Gaioni, Luigi;Manghisoni, Massimo;Re, Valerio;Traversi, Gianluca
2009-01-01
Abstract
This paper is devoted to the study of total ionizing dose effects in deep N-well (DNW) CMOS monolithic active pixel sensors (MAPS) for particle tracking fabricated in a STMicroelectronics 130 nm process. DNW-MAPS samples were exposed to gamma-rays up to a final dose of 1100 krad(SiO2) and then subjected to a 100 °C annealing cycle. Ionizing radiation tolerance was tested by monitoring the device noise properties and its response to charge injection through an external pulse generator throughout the irradiation and annealing campaign. The origins of performance degradation are discussed based on the results from radiation hardness characterization of single transistors belonging to the same CMOS technology and of test diodes reproducing the MAPS collecting electrode structure. Also circuit simulations have been performed to supply further evidence for the proposed degradation mechanisms.Pubblicazioni consigliate
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