by L. Blanquart, J. Richardson, P. Denes, K. Einsweiler, E. Mandelli, G. Meddeler, P. Fischer, M. Ackers, G. Comes and I. Perić
Reference:
Analog front-end cell designed in a commercial $ 0.25 \mu {}m $ process for the ATLAS pixel detector at LHC (L. Blanquart, J. Richardson, P. Denes, K. Einsweiler, E. Mandelli, G. Meddeler, P. Fischer, M. Ackers, G. Comes and I. Perić), In Nuclear Science, IEEE Transactions on, volume 49, 2002.
Bibtex Entry:
@Article{1043503,
author = "L. Blanquart and J. Richardson and P. Denes and K.
Einsweiler and E. Mandelli and G. Meddeler and P.
Fischer and M. Ackers and G. Comes and I. Perić",
journal = "Nuclear Science, IEEE Transactions on",
title = "Analog front-end cell designed in a commercial $ 0.25
\mu {}m $ process for the {ATLAS} pixel detector at
{LHC}",
year = "2002",
volume = "49",
number = "4",
pages = "1778--1782",
keywords = "CMOS analogue integrated circuits;nuclear
electronics;radiation hardening (electronics);silicon
radiation detectors;ATLAS detector;CMOS analog
integrated circuit;CMOS processes;LHC;Large Hadron
Collider;Si;analog pixel front-end cell;analog test
chip format;crosstalk performance;detection
threshold;digital-to-analog converters;fast
discriminator;fully differential
amplifier;preamplifier;radiation hardness
purposes;time-walk performance;Bandwidth;CMOS
process;Crosstalk;Detectors;Electrons;Impedance;Laboratories;Large
Hadron Collider;Preamplifiers;Testing",
DOI = "10.1109/TNS.2002.801682",
ISSN = "0018-9499",
month = aug,
}