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Revision 1.5 by carlo, Tue Apr 28 10:52:44 2009 UTC vs.
Revision 1.7 by carlo, Thu May 21 10:26:25 2009 UTC

# Line 14 | Line 14
14   % \bibitem{label3} \note
15   % \end{subbibitems}
16  
17 < \bibitem{ref:CMS1}
18 < CMS Collaboration, \textit{The Tracker Project Technical Design Report}, CERN/LHCC/98-6,
19 < April 1998; \\
20 < CMS Collaboration, \textit{Addendum to the CMS Tracker TDR}, CERN/LHCC/2000-016, February 2000.
17 > \bibitem{ref:CMS}
18 > CMS Collaboration, S. Chatrchyan et al., The CMS Experiment at the CERN LHC,
19 > JINST 3 S08004 (2008)
20  
21 < \bibitem{ref:CMS2}
22 < Paper of CMs on JINST
21 > \bibitem{ref:ssttdr} CMS Collaboration, \textit{The Tracker Project Technical Design Report}, CERN/LHCC/98-6,
22 > April 1998
23 >
24 > \bibitem{ref:sstaddendum} CMS Collaboration, \textit{Addendum to the CMS Tracker TDR},
25 > CERN/LHCC/2000-016, February 2000
26 >
27 > \bibitem{ref:layout}
28 > D. Abbaneo, Layout and performance of the CMS silicon strip tracker,
29 > Nucl. Instr. and Meth. A 518 (2004) 331, Erratum-ibid. A 525 (2004) 626
30  
31   \bibitem{ref:mask}
32   L. Borrello {\it et al.}, Sensor Design for the CMS Silicon Strip Tracker, CMS NOTE-2003/020
# Line 37 | Line 43 | Workshop on Electronics for LHC experime
43   P. Cariola {\it et al.},Assembly of the Inner Tracker Silicon Microstrip
44   Modules, CMS NOTE-2008/004.
45  
46 < \bibitem{ref:silicon}
47 < S. Braibant {\it et al.}, Investigation of design parameters for radiation hard silicon micro strip
48 < detectors, Nucl. Instr. and Meth. A 485 (2002) 343
46 > \bibitem{ref:i2c}
47 > Philips Semiconductors, THE I2C-BUS SPECIFICATION, version 2.1, document order number: 9398 393
48 > 40011, January 2000
49  
50   \bibitem{ref:apv}
51   M. French {\it et al.}, Design and Results from the APV25, a Deep Sub-micron CMOS Front-End
52   Chip for the CMS Tracker, Nucl. Instr. and Meth. A 466 (2001) 359.
53  
54 + %\bibitem{ref:silicon}
55 + %S. Braibant {\it et al.}, Investigation of design parameters for radiation hard silicon micro strip
56 + %detectors, Nucl. Instr. and Meth. A 485 (2002) 343
57 +
58   \bibitem{ref:radtol}
59   A. Marchioro, Deep submicron technologies for HEP, Proceedings of 4th workshop on electronics for
60   LHC experiments, CERN/LHCC/98-36,40-46
61  
52 \bibitem{ref:gantry}
53 A. Homna {\it et al.}, An Automated Silicon Module Assembly System for the CMS Silicon Tracker,
54 CMS NOTE-2002/005
55
56 \bibitem{ref:layout}
57 D. Abbaneo, Layout and performance of the CMS silicon strip tracker,
58 Nucl. Instr. and Meth. A 518 (2004) 331, Erratum-ibid. A 525 (2004) 626
59
60 \bibitem{ref:ptdr}
61 CMS Collaboration, \textit{CMS Physics TDR}, Volume 1, CERN-LHCC-2006-001, 2 February 2006
62
62   \bibitem{ref:deconvolution}
63   S. Gadomski {\it et al.}, The deconvolution method of fast pulse shaping at hadron colliders,
64   Nucl. Instrum. and Meth. A 320 (1992) 217
65  
66 +
67 + \bibitem{ref:mux}
68 + P. Murray, APVMUX User Guide, Version 1.0, May 2000
69 + http://www.te.rl.ac.uk/med/projects/High Energy Physics/CMS/APVMUXPLL/pdf/UserGuide.pdf
70 +
71 + \bibitem{ref:pll}
72 + K. Kloukinas, A. Marchioro, P. Moreira and P. Placidi, A 40 MHz clock and trigger recovery circuit for the
73 + CMS tracker fabricated in a 0.25 $\mu m$ CMOS technology and using a self calibration technique, Proceedings
74 + of the 5$^{th}$ Workshop on Electronics for LHC Experiments, Snowmass, USA (1999)
75 +
76 + \bibitem{ref:dcu}
77 + G. Magazz\`u, A. Marchioro and P. Moreira, The Detector Control Unit: An ASIC for the Monitoring of the
78 + CMS Silicon Tracker, IEEE Trans. Nucl. Sci. 51 1333-1336 (2004)
79 +
80 + \bibitem{ref:aoh}
81 + J. Troska, {\it et al.}, Prototype analogue optohybrids for the
82 + CMS outer barrel and endcaptracker, CERN-2001-005,
83 + September 2001, pp. 174-178
84 + %M.Friedl, Analog optohybrids for the readout of the CMS silicon tracker,
85 + %Nucl. Instr. and Methods A 518 (2004) 515.
86 +
87 + \bibitem{ref:laserdriver}
88 + G. Cervelli, {\it et al.}, A radiation tolerant laser driver array for
89 + optical transmission in the LHC experiments, CERN-2001-
90 + 005, September 2001, pp. 155-159
91 +
92   \bibitem{ref:opto}
93   J. Troska {\it et al.}, Optical readout and control systems for the CMS Tracker,
94   IEEE Trans. Nucl. Sci., Vol 50, No. 4, pp.1067-1072. (2003)
95  
96   \bibitem{ref:fed}
97 < S.A. Baird {\it et al.}, The Front-End Driver card for the CMS Silicon Strip Tracker Readout,
98 < Eighth Workshop on Electronics for LHC Experiments, CERN/LHCC/2002-034.
97 > %S.A. Baird {\it et al.}, The Front-End Driver card for the CMS Silicon Strip Tracker Readout,
98 > %Eighth Workshop on Electronics for LHC Experiments, CERN/LHCC/2002-034.
99 > Coughlan, J. {\it et al.}, The CMS Tracker Front-End Driver, Proc. of the 9th Workshop on Electronics for LHC
100 > Experiments, Amsterdam, Netherlands, September 2003
101  
102 < \bibitem{ref:mc}, R.D'Alessandro {\it et al.}, Signals and Power Distribution in the CMS Inner Tracker,
103 < CMS NOTE-2009/xxx.
102 > \bibitem{ref:dohm} F.Benotto {\it et al.}, Design and test of the Digital Opto Hybrid Module for the CMS Inner Barrel and Disks,
103 > CMS NOTE-2008/013.
104  
105 < \bibitem{ref:lvds}
106 < “Electrical Characteristics of Low Voltage Differential Signaling
107 < (LVDS) Interface Circuits,”, ANSI/TIA/EIA-644-A-2001, 2001.
105 > \bibitem{ref:ccu} C. Ljuslin, A. Marchioro and C. Paillard,
106 > The CCU25: a network oriented Communication and Control
107 > Unit integrated circuit in a 0.25 ?m CMOS technology,
108 > Proceedings of the 8$^{th}$ Workshop on Electronics for
109 > LHC experiments, Colmar, France (2002)
110 >
111 >
112 > \bibitem{ref:doh} E. Noah {\it et al.},
113 > Qualification of the CMS Tracker Control Link Digital Optohybrid,
114 > Proceedings of the 10$^{th}$
115 > Workshop on Electronics for LHC Experiments, Boston, USA (2004)
116 >
117 > %\bibitem{ref:gantry}
118 > %A. Homna {\it et al.}, An Automated Silicon Module Assembly System for the CMS Silicon Tracker,
119 > %CMS NOTE-2002/005
120 > %\bibitem{ref:ptdr}
121 > %CMS Collaboration, \textit{CMS Physics TDR}, Volume 1, CERN-LHCC-2006-001, 2 February 2006
122  
82 \bibitem{ref:dohm}, F.Benotto {\it et al.}, Design and test of the Digital Opto Hybrid Module for the CMS Inner Barrel and Disks,
83 CMS NOTE-2008/013.
123  
124 + \bibitem{ref:mc}, R.D'Alessandro {\it et al.}, Signals and Power Distribution in the CMS Inner Tracker,
125 + CMS NOTE-2009/xxx in preparation.
126  
127 < \bibitem{ref:hlt}
128 < The CMS Collaboration, The CMS High Level Trigger,  
129 < Eur.Phys.J. C46 (2006) 605-667
89 <
90 < \bibitem{ref:arc}
91 < M. Axer {\it et al.}, Test of CMS tracker silicon detector modules with the ARC readout system
92 < Nucl. Instr. and Meth. A 518 (2004) 321
127 > \bibitem{ref:grounding} J. Bernardini{\it et al.},
128 > The Grounding and Shielding of the
129 > Tracker Inner Barrel and Disks (TIB/TID), CMS NOTE-2009/xxx in preparation
130  
131 < \bibitem{ref:database}
132 < xxxxxxx Tracker Construction Database xxxxxxxxxx
131 > \bibitem{ref:database} http://cmsdoc.cern.ch/~cmstrkdb/
132 > %xxxxxxx Tracker Construction Database xxxxxxxxxx
133   %??????da cercare
97 \bibitem{bib:fedpci}
98 Referenza al fed pci
134  
135 < \bibitem{bib:specs:tsc}
136 < Referenza alla tsc
135 > \bibitem{ref:pt1000} PT1000 reference (to be found)
136 >
137 > \bibitem{ref:hmx}  PhyMetrics, Medford, NY, USA, http://www.hygrometrics.com
138 >
139 > \bibitem{ref:burnin} M. D'Alfonso {\it et al.},
140 > Validation tests of the CMS TIB/TID structures,
141 > CMS NOTE-2009/xxx in preparation
142 >
143 > \bibitem{ref:tsc} Institut de Physique Nucleaire de Lyon,
144 > CMS Trigger Sequencer Card User Manual Version 4.0,\\
145 > http://lyoinfo.in2p3.fr/cms/cmstraces/tscweb/tsc.html
146 > and TSC/TPO manual at\\
147 > http://lyoinfo.in2p3.fr/cms/cmstraces/tscweb/doc/tsc04.pdf
148 >
149 > \bibitem{ref:xdaq} J. Gutleber, L. Orsini,
150 > Software Architecture for Processing Clusters Based on I$_2$O,
151 > Cluster Computing 5, 55-64 (2002)
152 >
153 > \bibitem{ref:gain} Da trovare una ref dove si afferma che il gain ottimale
154 > della catena ottica analogica del tracciatore e' 0.8
155 >
156 > %\bibitem{ref:lvds}
157 > %Electrical Characteristics of Low Voltage Differential Signaling
158 > %(LVDS) Interface Circuits,”, ANSI/TIA/EIA-644-A-2001, 2001.
159 >
160 > %\bibitem{ref:hlt}
161 > %The CMS Collaboration, The CMS High Level Trigger,  
162 > %Eur.Phys.J. C46 (2006) 605-667
163 >
164 > %\bibitem{ref:arc}
165 > %M. Axer {\it et al.}, Test of CMS tracker silicon detector modules with the ARC readout system
166 > %Nucl. Instr. and Meth. A 518 (2004) 321
167 >
168 > %\bibitem{bib:fedpci}
169 > %Referenza al fed pci
170 >
171  
172   \bibitem{ref:modtest}
173   S. Albergo {\it et al.}, Test of the Inner Tracker Silicon Mirostrip Modules,
174   CMS NOTE - 2009/001
175  
176 < \bibitem{ref:grounding}
177 < The TIB grounding scheme, CMS Note in preparation
176 > \bibitem{ref:lasertemp} CMS Tracker Optical Readout Link Specification
177 > Part 2.2: Laser Transmitter
178 > Version 3.7, 30 Oct 2003
179 > CERN EP/CME EDMS \\
180 > https://edms.cern.ch/document/312575/3.7
181 >
182  
183   \bibitem{fluencemaps}
184   Reference on the fluence maps (TDR?).
# Line 114 | Line 187 | Reference on the fluence maps (TDR?).
187   E.~Migliore, {\em Investigations of operating scenarios for the
188   sensors of the CMS Silicon Tracker}, CMS Note 2001/023 (2001).
189  
117 \bibitem{ref:mux}
190  
119 \bibitem{ref:aoh}
191  
121 \bibitem{ref:pll}
192  
123 \bibitem{Gill:2005ui}
193  
194   \end{thebibliography}

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