This paper is intended to discuss the features of a novel kind of monolithic active pixel sensors (MAPS) in deep submicron technology for use in charged particle trackers and vertex detectors. In such devices the triple well option, available in deep submicron processes, is exploited to implement analog and digital signal processing at the pixel level. This paper will discuss the design and performance of a deep N-well (DNW) monolithic sensor prototype including different test structures with both analog and digital functions. The paper also reports results from physical device simulations, aiming at evaluating the properties of the DNW sensor in terms of charge diffusion and charge sharing among pixels
A different approach to the design of CMOS MAPS has recently been proposed. By exploiting the triple...
This work presents the characterization of deep n-well (DNW) CMOS monolithic active pixel sensors (M...
This work presents the characterization of deep n-well (DNW) CMOS monolithic active pixel sensors (M...
This paper is intended to discuss the features of a novel kind of monolithic active pixel sensors (M...
Deep N-well CMOS monolithic active pixel sensors (DNW MAPS) represent an alternative approach to sig...
Deep N-well CMOS monolithic active pixel sensors (DNW MAPS) represent an alternative approach to sig...
Data reduction in sparsified images is an open question of utmost importance in several fields, incl...
By exploiting the triple-well option available in a deep-submicron CMOS process, we developed monoli...
By exploiting the triple-well option available in a deep-submicron CMOS process, we developed monoli...
By exploiting the triple-well option available in a deep-submicron CMOS process, we developed monoli...
This work presents the characterization of Deep N-well (DNW) active pixel sensors fabricated in a ve...
We designed and fabricated a novel monolithic active pixel sensor (MAPS), in STMicrolectronics 0.13 ...
We designed and fabricated a novel monolithic active pixel sensor (MAPS), in STMicrolectronics 0.13 ...
This work is concerned with the design and characterization of deep N-well (DNW) monolithic active p...
This work presents the features of a new kind of deep n-well monolithic active pixel sensor (DNW-MA...
A different approach to the design of CMOS MAPS has recently been proposed. By exploiting the triple...
This work presents the characterization of deep n-well (DNW) CMOS monolithic active pixel sensors (M...
This work presents the characterization of deep n-well (DNW) CMOS monolithic active pixel sensors (M...
This paper is intended to discuss the features of a novel kind of monolithic active pixel sensors (M...
Deep N-well CMOS monolithic active pixel sensors (DNW MAPS) represent an alternative approach to sig...
Deep N-well CMOS monolithic active pixel sensors (DNW MAPS) represent an alternative approach to sig...
Data reduction in sparsified images is an open question of utmost importance in several fields, incl...
By exploiting the triple-well option available in a deep-submicron CMOS process, we developed monoli...
By exploiting the triple-well option available in a deep-submicron CMOS process, we developed monoli...
By exploiting the triple-well option available in a deep-submicron CMOS process, we developed monoli...
This work presents the characterization of Deep N-well (DNW) active pixel sensors fabricated in a ve...
We designed and fabricated a novel monolithic active pixel sensor (MAPS), in STMicrolectronics 0.13 ...
We designed and fabricated a novel monolithic active pixel sensor (MAPS), in STMicrolectronics 0.13 ...
This work is concerned with the design and characterization of deep N-well (DNW) monolithic active p...
This work presents the features of a new kind of deep n-well monolithic active pixel sensor (DNW-MA...
A different approach to the design of CMOS MAPS has recently been proposed. By exploiting the triple...
This work presents the characterization of deep n-well (DNW) CMOS monolithic active pixel sensors (M...
This work presents the characterization of deep n-well (DNW) CMOS monolithic active pixel sensors (M...