A Front-End Circuit in 28 nm CMOS for Hydrogenated Amorphous Silicon Detectors in Clinical Dosimetry.
Giovanni MazzaLorenzo PiccoloLuca AntogniniSaba AzizAishah BashiriLucio CalcagnileDaniela CalvoDomenico CaputoAnna Paola CaricatoRoberto CatalanoRoberto CirioGiuseppe Antonio Pablo CirroneTommaso CrociGiacomo CuttoneGianpiero De CesarePaolo De RemigisSylvain DunandMichele FabiLuca FrontiniCatia GrimaniMariacristina GuarreraMaria IonicaKeida KanxheriMatthew LargeFrancesca LentaValentino LiberaliNicola LovecchioMaurizio MartinoGiuseppe MaruccioMauro MenichelliAnna Grazia MonteduroArianna MorozziFrancesco MoscatelliAugusto NascettiStefania PallottaDaniele PasseriMaddalena PedioMarco PetaseccaGiada PetringaFrancesca PeveriniPisana PlacidiGianluca QuartaSilvia RizzatoFederico SabbatiniLeonello ServoliAlberto StabileCinzia TalamontiJonathan Emanuel ThometLuca TostiMattia VillaniRichard James WheadonNicolas WyrschNicola ZemaPublished in: MOCAST (2024)
Keyphrases
- cmos technology
- silicon on insulator
- metal oxide semiconductor
- low power
- low voltage
- power consumption
- parallel processing
- object detection
- back end
- low cost
- power dissipation
- integrated circuit
- thin film
- clinical practice
- patient data
- clinical applications
- high speed
- image sensor
- mixed signal
- ibm power processor
- medical data
- clinical data
- intraoperative
- steady state