This paper presents the design and the charac-terization of a front-end circuit, designed in 28 nm CMOS, for real-time dosimetry in radiation diagnostics and radiation therapy. The front-end circuit is optimized for sensors made of hydrogenated amorphous silicon. The scheme is based on a current- to- frequency converter to sustain a large range of input currents. Three different programmable solutions have been investigated to be compatible with a wide variety of sensor sizes and applications. The front-end has been designed around three key specifications: an input capacitance between 1 pF and 50 pF, an input current from 100 pA to 2 µA, and a measurement time ranging from 400 µs to 60 ns. A first prototype has been fabricated and it is being characterized in laboratory.
A Front-End Circuit in 28 nm CMOS for Hydrogenated Amorphous Silicon Detectors in Clinical Dosimetry
Calcagnile, Lucio;Caricato, Anna Paola;Lovecchio, Nicola;Martino, Maurizio;Maruccio, Giuseppe;Monteduro, Anna Grazia;Moscatelli, Francesco;Pedio, Maddalena;Peverini, Francesca;Rizzato, Silvia;Servoli, Leonello;Zema, Nicola
2024
Abstract
This paper presents the design and the charac-terization of a front-end circuit, designed in 28 nm CMOS, for real-time dosimetry in radiation diagnostics and radiation therapy. The front-end circuit is optimized for sensors made of hydrogenated amorphous silicon. The scheme is based on a current- to- frequency converter to sustain a large range of input currents. Three different programmable solutions have been investigated to be compatible with a wide variety of sensor sizes and applications. The front-end has been designed around three key specifications: an input capacitance between 1 pF and 50 pF, an input current from 100 pA to 2 µA, and a measurement time ranging from 400 µs to 60 ns. A first prototype has been fabricated and it is being characterized in laboratory.| File | Dimensione | Formato | |
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A_Front-End_Circuit_in_28_nm_CMOS_for_Hydrogenated_Amorphous_Silicon_Detectors_in_Clinical_Dosimetry.pdf
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