Title of article
Forecasting noise and radiation hardness of CMOS front-end electronics beyond the 100 nm frontier
Author/Authors
Re، نويسنده , , V. and Gaioni، نويسنده , , L. and Manghisoni، نويسنده , , M. and Ratti، نويسنده , , L. and Traversi، نويسنده , , G.، نويسنده ,
Pages
4
From page
358
To page
361
Abstract
The progress of industrial microelectronic technologies has already overtaken the 130 nm CMOS generation that is currently the focus of IC designers for new front-end chips in LHC upgrades and other detector applications. In a broader time span, sub-100 nm CMOS processes may become appealing for the design of very compact front-end systems with advanced integrated functionalities. This is especially true in the case of pixel detectors, both for monolithic devices (MAPS) and for hybrid implementations where a high resistivity sensor is connected to a CMOS readout chip. Technologies beyond the 100 nm frontier have peculiar features, such as the evolution of the device gate material to reduce tunneling currents through the thin dielectric. These new physical device parameters may impact on functional properties such as noise and radiation hardness. On the basis of experimental data relevant to commercial devices, this work studies potential advantages and challenges associated to the design of low-noise and rad-hard analog circuits in these aggressively scaled technologies.
Keywords
CMOS , Front-end , Device scaling , Readout electronics , Noise
Journal title
Astroparticle Physics
Record number
1992319
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