We developed monolithic active pixel detectors that exploit the triple well option of CMOS 130 nm technology to implement analog and digital signal processing at the pixel level. The charge collecting element is realized using the deep N-well (DNW) and partially overlaps the analog circuit. With this scheme we were able to implement a full in-pixel signal processing chain, composed of a charge preamplifier, shaper, discriminator, and latch. This approach has been validated by a first prototype (APSEL0), and we report here on the extensive measurements performed on the second prototype (APSEL1), containing various single pixel structures with analog readout and an 8 times 8 matrix of 50 times 50 mum2 pixels with sequential digital readout. F...
We present a new approach to the design of monolithic active pixel sensors (MAPS) in CMOS technology...
We present a new approach to the design of monolithic active pixel sensors (MAPS) in CMOS technology...
We present a new approach to the design of monolithic active pixel sensors (MAPS) in CMOS technology...
We developed monolithic active pixel detectors that exploit the triple well option of CMOS 130 nm te...
We developed monolithic active pixel detectors that exploit the triple well option of CMOS 130 nm te...
We developed monolithic active pixel detectors that exploit the triple well option of CMOS 130nm tec...
We developed monolithic active pixel detectors, by exploiting the triple well option available in a ...
We developed monolithic active pixel detectors, by exploiting the triple well option available in a ...
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...
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 ...
We present a new approach to the design of monolithic active pixel sensors (MAPS) in CMOS technology...
We present a new approach to the design of monolithic active pixel sensors (MAPS) in CMOS technology...
We present a new approach to the design of monolithic active pixel sensors (MAPS) in CMOS technology...
We developed monolithic active pixel detectors that exploit the triple well option of CMOS 130 nm te...
We developed monolithic active pixel detectors that exploit the triple well option of CMOS 130 nm te...
We developed monolithic active pixel detectors that exploit the triple well option of CMOS 130nm tec...
We developed monolithic active pixel detectors, by exploiting the triple well option available in a ...
We developed monolithic active pixel detectors, by exploiting the triple well option available in a ...
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...
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 ...
We present a new approach to the design of monolithic active pixel sensors (MAPS) in CMOS technology...
We present a new approach to the design of monolithic active pixel sensors (MAPS) in CMOS technology...
We present a new approach to the design of monolithic active pixel sensors (MAPS) in CMOS technology...