Archivio Istituzionale della RicercaFuture high luminosity colliders will require front-end electronics with unprecedented performance, both in space and time resolution (tens of micrometers and tens of picoseconds) and in radiation hardness (tens of megagray). Moreover, the high number of events will generate an enormous quantity of data (some terabits per second), and the limited bandwidth requires to perform data selection as close as possible to the front-end stage, to reduce the amount of data transmitted and stored for off-line analysis.The TimeSpOT (TIME and SPace real-time Operating Tracker) project, funded by INFN, is developing a complete demonstrator of a tracking device including all the features needed for future high luminosity experiments.In this presentation, we describe the first prototype of the readout electronics in 28 nm CMOS technology. The modules of the front-end circuitry have been designed and integrated in a test chip, which will allow us to characterize each block separately, and to connect them in a processing chain to evaluate the overall performance.
A Pixel Read-Out Front-End in 28 nm CMOS with Time and Space Resolution / Barbaro, M.; Cadeddu, S.; Casu, L.; Canio, F. D.; Frontini, L.; Lai, A.; Liberali, V.; Napoli, C.; Piccolo, L.; Rivetti, A.; Shojaii, J.; Sonedda, S.; Stabile, A.; Traversi, G.. - (2019), pp. 1-4. (Intervento presentato al convegno 2019 IEEE Nuclear Science Symposium and Medical Imaging Conference, NSS/MIC 2019 tenutosi a gbr nel 2019) [10.1109/NSS/MIC42101.2019.9059838].
A Pixel Read-Out Front-End in 28 nm CMOS with Time and Space Resolution
Piccolo L.;
2019
Abstract
Future high luminosity colliders will require front-end electronics with unprecedented performance, both in space and time resolution (tens of micrometers and tens of picoseconds) and in radiation hardness (tens of megagray). Moreover, the high number of events will generate an enormous quantity of data (some terabits per second), and the limited bandwidth requires to perform data selection as close as possible to the front-end stage, to reduce the amount of data transmitted and stored for off-line analysis.The TimeSpOT (TIME and SPace real-time Operating Tracker) project, funded by INFN, is developing a complete demonstrator of a tracking device including all the features needed for future high luminosity experiments.In this presentation, we describe the first prototype of the readout electronics in 28 nm CMOS technology. The modules of the front-end circuitry have been designed and integrated in a test chip, which will allow us to characterize each block separately, and to connect them in a processing chain to evaluate the overall performance.
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https://hdl.handle.net/11583/2846517