tib_module.in

CMSSW/Geometry/TrackerCommonData/data/Materials/tib_module.in

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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173	`TIB MODULES` `============` `$$ This includes all the volumes that make up the TIB modules` `$$ as well as the electronics on the module string !` `Input file for mixture.f` `Start new mixtures with a '#' in the first column` `Start the components with a '' in the first column` `You can type any kind of comment in as long as you don't start it` `with '#' or '' !` `.....................................................................` `For mixture declaration: Name of Mixture, Name of GMIX for title file,` `Monte Carlo Volume, MC Area` `For items in a compound: Item number, Comment, Material (has to be` `written exactly as in material.input file),` `Volume, Multiplicity, type` `Type is one of the following: SUP for support` `SEN for sensitive volumes` `CAB for cables` `COL for cooling` `ELE for electronics` `.....................................................................` `o Hybrid for single sided module [moved to tibtid_common.in]` `o Hybrid for double sided module [moved to tibtid_common.in]` `o TIB HV kapton` `-------------` `20071013 GSguazzoni` `MCVolume: 31.7cm^20.3mm = 0.951 cm^3` `(1) Kapton thickness 120 micron` `(2) Copper traces and pad estimated 2.45cm^2` `(3) SMD resistors` `(4) SMD capacitors (~0.2g)` `(5) Silicon sensor siliconic glue (0.5g)` `(6) Module aluminum fixings` `(7) Stainless steel screws` `......................................................................` `# "TIB KaptonHV" "TIB_ModKaptonBox" 0.95100 -1.` ` 1 "Kapton" "T_Kapton" 0.01200 31.7 ELE` `* 2 "Copper" "Copper" 0.00038 2.45 ELE` `* 3 "Resistors" "Ceramic" 0.00320 1 ELE` `* 4 "Capacitors" "Barium_Titanate" 0.01661 2 ELE` `* 5 "Glue" "Silicone_Gel" 0.51813 1 SUP` `* 6 "Inserts" "Aluminium" 0.00926 2 SUP` `* 7 "Screws" "Iron" 0.00381 2 SUP` `......................................................................` `======================================================================` `o TIB SS Module AOH box` `---------------------` `20071013 GSguazzoni` `MCVolume: 3.6cm3.6cm0.22cm = 2.8512 cm^3` `(5), (6) Hybrid AOH tail is fully contained here` `(8), (9), (10) Half hybrid LV tail here (other half in SSMCModConn)` `(11), (12) Part of module HV tail here (other part in SSMCModConn)` `(11) Kapton thickness 120micron, surface ~4cm2` `(12) Copper thickness 35micron, occupancy ~12%` `......................................................................` `# "TIBSSAOHBox" "TIB_SSAOHBox" 2.85120 -1.` `* 1 "AOH" "TIBTID_AOH" 3.45000 1 ELE` `* 2 "NAIS Conn case" "Polyethylene" 0.16842 1 ELE` `* 3 "NAIS Conn pins" "T_Bronze" 0.01237 1 ELE` `* 4 "Stiffner" "T_FR4" 0.11176 1 ELE` `* 5 "AOH tail" "TIBTID_HybridTails" 0.01860 3.66 ELE` `* 6 "Half LV tail" "TIBTID_HybridTails" 0.01860 1.47 ELE` `* 7 "Kapton HV tail (part)" "T_Kapton" 0.04800 1 ELE` `* 8 "Copper HV tail (part)" "Copper" 0.00168 1 ELE` `* 9 "Screws" "Iron" 0.00381 2 SUP` `......................................................................` `======================================================================` `o TIB DS Module AOH box` `---------------------` `20071014 GSguazzoni` `MCVolume: 3.6cm6.0cm0.22cm = 4.752 cm^3` `......................................................................` `# "TIBDSAOHBox" "TIB_DSAOHBox" 4.75200 -1.` `* 1 "2x SS AOH Box" "TIB_SSAOHBox" 2.85120 2 ELE` `......................................................................` `======================================================================` `o TIB Module hybrid ledge` `-----------------------` `20071014 GSguazzoni` `MCVolume: 0.44383 cm^3` `(1) Aluminium` `(2) Carbon fiber leg` `NB The ledge description in the simulation is simplified: the` `resulting MC volume is smaller than real physical volume!` `NB Part of the DS Module ledge is in the module volume itself!` `......................................................................` `# "Module Hyb Ledge" "TIB_ModHybLedge" 0.44383 -1.` `* 1 "Aluminum" "Aluminium" 0.85076 1 SUP` `* 2 "CF leg" "Carbon fibre str." 0.17751 1 SUP` `......................................................................` `======================================================================` `o TIB Module dummy ledge` `-----------------------` `20071014 GSguazzoni` `MCVolume: 0.42 cm^3` `(1) Aluminium` `(2) Carbon fiber leg` `NB The ledge description in the simulation is simplified: the` `resulting MC volume is smaller than real physical volume!` `NB Part of the DS Module ledge is in the module volume itself!` `......................................................................` `# "Module Dummy Ledge" "TIB_ModDummyLedge" 0.42000 -1.` `* 1 "Aluminum" "Aluminium" 0.74753 1 SUP` `* 2 "CF leg" "Carbon fibre str." 0.17751 1 SUP` `......................................................................` `======================================================================` `o TIB AOH ledge` `-----------------------` `20071014 GSguazzoni` `MCVolume: 0.24037 cm^3` `(1) Aluminium` `NB The ledge description in the simulation is simplified: the` `resulting MC volume is smaller than real physical volume!` `......................................................................` `# "AOH Ledge" "TIB_AOHLedge" 0.24037 -1.` `* 1 "Aluminium" "Aluminium" 0.49630 1 SUP` `......................................................................` `======================================================================` `o TIB DS Module Spacers` `---------------------` `20071014 GSguazzoni` `MCVolume: 1.1.0.035 cm^3` `Volumes per cm2` `......................................................................` `# "DS Module Spacer per cm2" "TIB_Spacer" 0.03500 -1.` `* 1 "Alumina" "Alumina" 0.02500 1 SUP` `* 2 "Glue" "Epoxy" 0.01000 1 SUP` `......................................................................` `======================================================================` `# "END" "END" 0. 0.` `this has to be the last line !`

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TIB MODULES
============

$$  This includes all the volumes that make up the TIB modules
$$  as well as the electronics on the module string !


Input file for mixture.f
Start new mixtures with a '#' in the first column
Start the components with a '*' in the first column
You can type any kind of comment in as long as you don't start it
with '#' or '*' !
.....................................................................
For mixture declaration: Name of Mixture, Name of GMIX for title file, 
                         Monte Carlo Volume, MC Area
For items in a compound: Item number, Comment, Material (has to be 
                 written exactly as in material.input file), 
                 Volume, Multiplicity, type
      Type is one of the following:  SUP for support
                                     SEN for sensitive volumes
                                     CAB for cables
                                     COL for cooling
                                     ELE for electronics
..................................................................... 

o  Hybrid for single sided module [moved to tibtid_common.in]
o  Hybrid for double sided module [moved to tibtid_common.in]

o TIB HV kapton 
  -------------

20071013 GSguazzoni

MCVolume: 31.7cm^2*0.3mm = 0.951 cm^3

(1) Kapton thickness 120 micron
(2) Copper traces and pad estimated 2.45cm^2 
(3) SMD resistors
(4) SMD capacitors (~0.2g)
(5) Silicon sensor siliconic glue (0.5g)
(6) Module aluminum fixings 
(7) Stainless steel screws
               
......................................................................
# "TIB KaptonHV"            "TIB_ModKaptonBox"      0.95100   -1.
* 1 "Kapton"                "T_Kapton"              0.01200   31.7 ELE
* 2 "Copper"                "Copper"                0.00038   2.45 ELE
* 3 "Resistors"             "Ceramic"               0.00320    1   ELE
* 4 "Capacitors"            "Barium_Titanate"       0.01661    2   ELE
* 5 "Glue"                  "Silicone_Gel"          0.51813    1   SUP
* 6 "Inserts"               "Aluminium"             0.00926    2   SUP
* 7 "Screws"                "Iron"                  0.00381    2   SUP
......................................................................
======================================================================

o TIB SS Module AOH box  
  ---------------------

20071013 GSguazzoni

MCVolume: 3.6cm*3.6cm*0.22cm =  2.8512 cm^3

(5), (6) Hybrid AOH tail is fully contained here
(8), (9), (10) Half hybrid LV tail here (other half in SSMCModConn)
(11), (12) Part of module HV tail here (other part in SSMCModConn)
(11) Kapton thickness 120micron, surface ~4cm2
(12) Copper thickness 35micron, occupancy ~12%

......................................................................
# "TIBSSAOHBox"            "TIB_SSAOHBox"           2.85120   -1.
* 1 "AOH"                  "TIBTID_AOH"             3.45000    1  ELE
* 2 "NAIS Conn case"       "Polyethylene"           0.16842    1  ELE
* 3 "NAIS Conn pins"       "T_Bronze"               0.01237    1  ELE
* 4 "Stiffner"             "T_FR4"                  0.11176    1  ELE
* 5 "AOH tail"             "TIBTID_HybridTails"     0.01860 3.66  ELE
* 6 "Half LV tail"         "TIBTID_HybridTails"     0.01860 1.47  ELE
* 7 "Kapton HV tail (part)" "T_Kapton"              0.04800    1  ELE
* 8 "Copper HV tail (part)" "Copper"                0.00168    1  ELE 
* 9 "Screws"               "Iron"                   0.00381    2  SUP
......................................................................
======================================================================

o TIB DS Module AOH box  
  ---------------------

20071014 GSguazzoni

MCVolume: 3.6cm*6.0cm*0.22cm = 4.752 cm^3
              
......................................................................
# "TIBDSAOHBox"            "TIB_DSAOHBox"          4.75200   -1.
* 1 "2x SS AOH Box"        "TIB_SSAOHBox"          2.85120    2  ELE
......................................................................
======================================================================

o TIB Module hybrid ledge
  -----------------------

20071014 GSguazzoni

MCVolume: 0.44383 cm^3
          
(1) Aluminium
(2) Carbon fiber leg

NB The ledge description in the simulation is simplified: the
   resulting MC volume is smaller than real physical volume!
NB Part of the DS Module ledge is in the module volume itself!

......................................................................
# "Module Hyb Ledge"       "TIB_ModHybLedge"        0.44383   -1.
* 1 "Aluminum"             "Aluminium"              0.85076    1  SUP
* 2 "CF leg"               "Carbon fibre str."      0.17751    1  SUP
......................................................................
======================================================================
               
o TIB Module dummy ledge
  -----------------------

20071014 GSguazzoni

MCVolume: 0.42 cm^3
          
(1) Aluminium
(2) Carbon fiber leg

NB The ledge description in the simulation is simplified: the
   resulting MC volume is smaller than real physical volume!
NB Part of the DS Module ledge is in the module volume itself!

......................................................................
# "Module Dummy Ledge"     "TIB_ModDummyLedge"      0.42000   -1.
* 1 "Aluminum"             "Aluminium"              0.74753    1  SUP
* 2 "CF leg"               "Carbon fibre str."      0.17751    1  SUP
......................................................................
======================================================================
               
o TIB AOH ledge
  -----------------------

20071014 GSguazzoni

MCVolume: 0.24037 cm^3
          
(1) Aluminium

NB The ledge description in the simulation is simplified: the
   resulting MC volume is smaller than real physical volume!

......................................................................
# "AOH Ledge"              "TIB_AOHLedge"           0.24037   -1.
* 1 "Aluminium"            "Aluminium"              0.49630    1  SUP
......................................................................
======================================================================

o TIB DS Module Spacers
  ---------------------

20071014 GSguazzoni

MCVolume: 1.*1.*0.035 cm^3

Volumes per cm2

......................................................................
# "DS Module Spacer per cm2" "TIB_Spacer"          0.03500   -1.
* 1 "Alumina"              "Alumina"               0.02500    1  SUP
* 2 "Glue"                 "Epoxy"                 0.01000    1  SUP
......................................................................
======================================================================

# "END"  "END"  0.  0.   
this has to be the last line !