by E. Mandelli, L. Blanquart, P. Denes, K. Einsweiler, R. Marchesini, G. Meddeler, M. Ackers, P. Fischer, G. Comes and I. Perić
Reference:
Digital column readout architecture for the ATLAS pixel $ 0.25 \mu {}m $ front end IC (E. Mandelli, L. Blanquart, P. Denes, K. Einsweiler, R. Marchesini, G. Meddeler, M. Ackers, P. Fischer, G. Comes and I. Perić), In Nuclear Science Symposium Conference Record, 2001 IEEE, volume 1, 2001.
Bibtex Entry:
@InProceedings{1008527,
author = "E. Mandelli and L. Blanquart and P. Denes and K.
Einsweiler and R. Marchesini and G. Meddeler and M.
Ackers and P. Fischer and G. Comes and I. Perić",
title = "Digital column readout architecture for the ATLAS
pixel $ 0.25 \mu {}m $ front end IC",
booktitle = "Nuclear Science Symposium Conference Record, 2001
IEEE",
year = "2001",
volume = "1",
pages = "600--603 vol.1",
month = nov,
DOI = "10.1109/NSSMIC.2001.1008527",
ISSN = "1082-3654",
keywords = "CMOS integrated circuits;digital readout;digital
signal processing chips;nuclear electronics;position
sensitive particle detectors;radiation
hardening;silicon radiation detectors;0.25 micron;ATLAS
pixel front end IC;Si;Si detector;digital column
readout architecture;forbidden states;low noise;quarter
micron technology;radiation-hard front-end chip;single
point defects;testability approach;Collaboration;Design
for testability;Digital integrated
circuits;Helium;Integrated circuit noise;Large Hadron
Collider;Protons;Prototypes;Radiation detectors;Silicon
radiation detectors",
}