Deep N-well (DNW) MAPS have been developed in the last few years with the aim of building monolithic sensors with similar functionalities as hybrid pixels systems. These devices have been fabricated in a planar (2D) 130 nm CMOS technology. The triple-well structure available in such an ultra-deep submicron technology is exploited by using the deep N-well as the charge-collecting electrode. This paper intends to discuss the design features and measurement results of the last prototype (Apsel5T chip) recently fabricated in a 2D 130 nm CMOS technology. Recent advances in microelectronics industry have made 3D integrated circuits an option for High Energy Physics experiments. A 3D version of the Apsel5T chip has been designed in a 130 nm CMOS, two-layer, vertically integrated technology. The main features of this new 3D monolithic detector are presented in this paper.

2D and 3D CMOS MAPS with high performance pixel-level signal processing

TRAVERSI, Gianluca;GAIONI, Luigi;MANGHISONI, Massimo;RE, Valerio
2011-01-01

Abstract

Deep N-well (DNW) MAPS have been developed in the last few years with the aim of building monolithic sensors with similar functionalities as hybrid pixels systems. These devices have been fabricated in a planar (2D) 130 nm CMOS technology. The triple-well structure available in such an ultra-deep submicron technology is exploited by using the deep N-well as the charge-collecting electrode. This paper intends to discuss the design features and measurement results of the last prototype (Apsel5T chip) recently fabricated in a 2D 130 nm CMOS technology. Recent advances in microelectronics industry have made 3D integrated circuits an option for High Energy Physics experiments. A 3D version of the Apsel5T chip has been designed in a 130 nm CMOS, two-layer, vertically integrated technology. The main features of this new 3D monolithic detector are presented in this paper.
journal article - articolo
2011
Traversi, Gianluca; Gaioni, Luigi; Manghisoni, Massimo; Ratti, Lodovico; Re, Valerio
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10446/25351
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