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  HEPHY logbook for testbeam at SPS June 2009, Page 5 of 6  Not logged in ELOG logo
ID Datedown Author Project Subject Run Number Events StartTime EndTime
  28   Thu Aug 20 12:35:13 2009 Christian Irmleralignment_beamtop right on sensor, point 3run68651060020.08.2009 12:31:3520.08.2009 12:48:04

2 alignement modules

location in beam direction: h04-h03

beam in center of sensor

HV=70V, 40MHz, 6 samples

beam on, 120 GeV

module 1 (h03) is used w inverter off and higher base line

XY coordinates: X:43 y:121.3 (top right on sensor in beam direction)

  27   Thu Aug 20 12:18:40 2009 Christian Irmleralignment_beamtop left on sensor, point 2run6863 (telescope 6864)1060020.08.2009 12:07:2820.08.2009 12:25:57

2 alignement modules

location in beam direction: h04-h03

beam in center of sensor

HV=70V, 40MHz, 6 samples

beam on, 120 GeV

module 1 (h03) is used w inverter off and higher base line

XY coordinates: X:57 y:121.3 (top left on sensor in beam direction)

  26   Thu Aug 20 11:38:11 2009 Christian Irmleralignment_beamtop center, point 7run6861 (+6862)1060020.08.2009 11:36:3520.08.2009 11:53:51

2 alignement modules

location in beam direction: h04-h03

beam in center of sensor

HV=70V, 40MHz, 6 samples

beam on, 120 GeV

module 1 (h03) is used w inverter off and higher base line

XY coordinates: X:50 y:121.3 (top center, point 7)

  25   Thu Aug 20 11:23:04 2009 Christian Irmleralignment_beambeam in center of sensor w telescoperun004 (6860 telescope)1060020.08.2009 11:09:50 20.08.2009 11:25:16

2 alignement modules

location in beam direction: h04-h03

beam in center of sensor

HV=70V, 40MHz, 6 samples

beam on, 120 GeV

module 1 (h03) is used w inverter off and higher base line

XY coordinates: X:50 y:141.3 (center- center, point 1)

  24   Thu Aug 20 11:05:26 2009 Christian Irmleralignment_beampedeatal correctionpedcorr002 20.08.2009 11:05:4120.08.2009 11:09:35

2 alignement modules

location in beam direction: h04-h03

HV=70V, 40MHz, 1 sample

beam on

module 1 (h03) is used w inverter off and higher base line

  23   Thu Aug 20 10:48:39 2009 Christian Irmleralignment_beaminternal calibrationcal002 20.08.2009 10:49:0720.08.2009 10:59:43

2 alignement modules

location in beam direction: h04-h03

HV=70V, 40MHz, 1 sample
no beam

module 1 (h03) is used w inverter off and higher base line

  22   Thu Aug 20 00:31:45 2009 Christian IrmlerITE128ITE128 shooting into strips w pitch adapter, upper positionrun00310060020.08.2009 00:27:36 

DUT: SiLC 08_1, 6 x ITE128, SiLC 08_2
HV = 70V, 40MHz, 120 GeV
TLU trigger, w/o telescope
9x9 mm beam spot

height (y) = 139.3100

ITE128 shooting into strips w pitch adapter, upper edge of sensor

  21   Thu Aug 20 00:16:45 2009 Christian IrmlerITE128pedestal correctionpedcorr001 20.08.2009 00:14:2120.08.2009 00:24:28

DUT: SiLC 08_1, 6 x ITE128, SiLC 08_2
HV = 70V, 40MHz

pedestal correction

beam on

 

  20   Wed Aug 19 22:57:13 2009 Marko Dragicevic How-To    

TLU (run from DAQPCHEPHY):

ssh eudet@eudetmac001.cern.ch
ssh tlupc
~\eudaq\bin\TLUControl.exe -d1 -a12

-t100 internal trigger
-aXX Mask for Szintis:
1   4 mm (front)
2   4 mm (front)
4   9 mm (back)
8   9 mm (back)

DAQ:

Hostname: DAQPCHEPHY.CERN.CH

XY Table PC:

Hostname: XYPCEUDET.CERN.CH

Beam Control:

Hostname: cwo-hna453-h6b1.cern.ch
137.138.61.206

Eudet DAQ:

vnc eudetmac001.cern.ch
Cycle Run:
o) stop DAQ
o) kill eudaq Run Control
o) restart: ./STARTRUN.FORTIS.1
o) load config: testfortis_with_eudrb_beam_backpressure_WITH_SILC
o) press: Config (wait ~1 min.)
o) press: Start

  19   Wed Aug 19 22:56:07 2009 Christian IrmlerITE128ITE128 shooting into strips w pitch adapter, upper positionrun00210060019.08.2009 22:54:2320.08.2009 00:11:31

DUT: SiLC 08_1, 6 x ITE128, SiLC 08_2
HV = 70V, 40MHz, 120 GeV
TLU trigger, w/o telescope
9x9 mm beam spot

height (y) = 144.3099

ITE128 shooting into strips w pitch adapter, upper position

  18   Wed Aug 19 20:43:14 2009 Christian IrmlerITE128ITE128 shooting into strips w/o pitch adapter, low positionrun00110060019.08.2009 20:42:0819.08.2009 22:54:21

DUT: SiLC 08_1, 6 x ITE128, SiLC 08_2
HV = 70V, 40MHz, 120 GeV
TLU trigger, w/o telescope
9x9 mm beam spot

height (y) = 154.0979

ITE128 shooting into strips w/o pitch adapter, low position

  17   Wed Aug 19 15:41:17 2009 Wolfgang KiesenhoferSiLCangle scan templates    

Linie am rechten Seitenrand (in der Vorschau unten leider nicht gut zu sehen) sollte mit dem rechten Rand der Basisplatte abschließen (bezogen auf die Beam Richtung).

Attachment 1: angle_scan0.pdf
Attachment 2: angle_scan5.pdf
Attachment 3: angle_scan10.pdf
Attachment 4: angle_scan15.pdf
Attachment 5: angle_scan20.pdf
Attachment 6: angle_scan25.pdf
Attachment 7: angle_scan30.pdf
Attachment 8: angle_scan35.pdf
Attachment 9: angle_scan40.pdf
Attachment 10: angle_scan45.pdf
Attachment 11: angle_scan50.pdf
Attachment 12: angle_scan55.pdf
Attachment 13: angle_scan60.pdf
  16   Wed Aug 19 15:37:37 2009 Christian IrmlerITE128internal calibrationcal001 15:31:29 

8 modules, HV=70V, 40MHz, 1 sample
no beam

APV 4,5: inverter off, higher baseline = PAD modules

  15   Fri Aug 14 21:36:17 2009 Markus Friedl Config files    

Status of config files as of Friday 14 August 2009 late evening

Config file name Timing adjusted Sensor definition Tested
cern09_ite128_single1 YES NOT YET (?) YES

cern09_ite128_multi6

YES NOT YET (?) YES

cern09_pt_ite512_single1

YES NOT YET (?) YES

cern09_pt_ite512_multi6

YES NOT YET (?) NO

cern09_alignment_beam_single1

YES NOT YET (?) YES

cern09_alignment_beam_multi6

YES NOT YET (?) YES

cern09_belle_single

YES NOT YET (?) YES

cern09_belle_multi6

YES NOT YET (?) YES
cern09_silc_all_single YES (2008) YES (2008) NO
cern09_silc_all_multi6 YES (2008) YES (2008) NO




  14   Fri Aug 14 19:35:43 2009 Thomas BergauerPt_ITE512intcal    

HV=100V except h05-ITE-512 and h06-ITE-512 (runaway, HV off)

h01-Pt: 10uA

h02-Pt: 1.6uA

3 SiLC DUTs mit je ca. 38nA

h07-ITE-512: 3.77uA

h05-ITE-512: breakthrough

h06-ITE-512: breakthrough

  13   Fri Aug 14 16:45:25 2009 Stephan Hänsel Module - Setups    

 

  • 5mm Inbus-Schlüssel
  • 3mm Inbus Schlüssel
  • 6- 2(1) x 30 Pt-Pins
  • beim 5mm-Sockel müssen die 2 Löcher über die das optische Modul h03 verschraubt wird noch ausgeweitet werden (Thomas)
  • bei Pt-Deckel oben einzeichnen welche Balkenstellung welchem Winkel entspricht

(SK) ... SenkKopf

(ZK) ... ZylinderKopf

 

Beam Positions  (alle mit 5mm-Sockel)

 

OPTISCHER SETUP Setup-alignment-modules

upstream - BEAM VON UNTEN - APV-Nummerierung in Beamrichtung von links anfangend

1) Collimator

  • Alu-Spacer (neuer = höheren verwenden) + 4- M6 x 15 (ZK)
  • schwarzer-Spanier-x-y-z-Tisch - Schreuben dabei -> Plastikschrauben abschneiden ?!?

2) 5mm Spacer + h03 - backplane richtung Collimator -  APV3210

  • 2- M4 x 15 (SK) - 5mm Spacer durch Alignment-Boden mit h03 verschrauben
  • 3- M4 x 15 (SK) - Alignment-Boden auf Drehteller verschrauben

3) h04 - backplane richtung Collimator -  APV3210

  • 2 Positionen
  • 2- M4 x 10 (SK)

 

 

Pt + ITE-512-Stack + 3 SiLC08-Module

upstream - BEAM VON UNTEN - APV-Nummerierung in Beamrichtung von links anfangend

1) h06-ITE-512 - APV0123 (allerdings nur eineinhalb APVs gebondet!)

2) h05-ITE-512 - APV0123

3) h07-ITE-512 - APV3210 !!!

4) SiLC08-2 - APV12 - 90° gedreht

5) SiLC08-1 - APV12 - 90° gedreht

6) SiLC08-0 - APV12 - 90° gedreht

Stack 1) bis 6)

  • schwarzer Sockel +4- M4 x 35 (ZK) -> verschraubt in h06 und h07
  • 2 Gewindestangen M6 x 80 + 4 Scheiben + 4 Muttern M6 -> die 3 ITE-512er zusammen
  • 3 Gewindestangen M6 x 160 + 6 Scheiben + 5 Flügelmuttern M6 + 1 Mutter M6 -> 3- SiLC08-Module VORSICHTIG dazu

7) h02-Pt - APV0123 - überprüfen - kann rotieren ;-)

  • Schrauben gehen von oben (ausserhalb der Box): Balken - Box-Deckel - Beilagscheibe - Pt-Modul
  • Balken + 4- 2(1) x 30 Pins + 2- Scheiben + 2- M4 x 20

8) h01-Pt - APV0123 - überprüfen - kann rotieren;-)

  • Schrauben gehen von oben (ausserhalb der Box): Balken - Box-Deckel - Beilagscheibe - Pt-Modul
  • Balken + 4- 2(1) x 30 Pins + 2- Scheiben + 2- M4 x 20

 

 

ITE128-Stack

upstream - BEAM VON UNTEN - APV-Nummerierung in Beamrichtung von links anfangend

1) h21_alignment-TS05 - APV12 - 90°gedreht

2) h13_ITE-PAS - APV1

3) h14_ITE-PAS - APV1

4) h15_ITE-PAD - APV1

5) h16_ITE-PAD - APV1

6) h11_ITE-STD - APV1

7) h12_ITE-STD - APV1

8) h22-alignment-TS07 - APV12 - 90°gedreht

Schrauben verwenden je nach Sockel und Spacer

 

SiLC08-Stack

upstream - BEAM VON UNTEN - APV-Nummerierung in Beamrichtung von links anfangend

1) SiLC08-7 - APV12 - Überprüfen

2) SiLC08-6 - APV12 - Überprüfen

3) SiLC08-5 - APV12 - Überprüfen

4) SiLC08-4 - APV12 - Überprüfen

5) SiLC08-3 - APV12 - Überprüfen

6) SiLC08-2 - APV12 - Überprüfen

7) SiLC08-1 - APV12 - Überprüfen

8) SiLC08-0 - APV12 - Überprüfen 

Schrauben verwenden je nach Sockel und Spacer

  12   Tue Aug 11 14:03:57 2009 Marko Dragicevic Sensor Designs    

Screenshots

HEPHY Gallery

GDS File Viewer

 KLayout Website

 Layer Properties File Warsaw.lyp in den Attachments.

Attachment 1: Wafer.gds
Attachment 2: SensorSTD.gds
Attachment 3: SensorPAS.gds
Attachment 4: SensorPAD.gds
Attachment 5: Sensor512.gds
Attachment 6: Warsaw.lyp
<?xml version="1.0"?>
<layer-properties>
 <properties>
  <frame-color>#01ff6b</frame-color>
  <fill-color>#01ff6b</fill-color>
  <frame-brightness>0</frame-brightness>
  <fill-brightness>0</fill-brightness>
  <dither-pattern>I3</dither-pattern>
  <visible>true</visible>
  <transparent>false</transparent>
  <width>1</width>
  <marked>false</marked>
  <animation>0</animation>
  <name>NPlus</name>
  <source>1/0@1</source>
 </properties>
 <properties>
  <frame-color>#ff0000</frame-color>
  <fill-color>#ff0000</fill-color>
  <frame-brightness>0</frame-brightness>
  <fill-brightness>0</fill-brightness>
  <dither-pattern>I9</dither-pattern>
  <visible>true</visible>
  <transparent>false</transparent>
  <width>1</width>
  <marked>false</marked>
  <animation>0</animation>
  <name>PPlus</name>
  <source>2/0@1</source>
 </properties>
 <properties>
  <frame-color>#ff8000</frame-color>
  <fill-color>#ff8000</fill-color>
  <frame-brightness>0</frame-brightness>
  <fill-brightness>0</fill-brightness>
  <dither-pattern>I0</dither-pattern>
  <visible>true</visible>
  <transparent>false</transparent>
  <width>1</width>
  <marked>false</marked>
  <animation>0</animation>
  <name>Via</name>
  <source>3/0@1</source>
 </properties>
 <properties>
  <frame-color>#00ffff</frame-color>
  <fill-color>#00ffff</fill-color>
  <frame-brightness>0</frame-brightness>
  <fill-brightness>0</fill-brightness>
  <dither-pattern>I15</dither-pattern>
  <visible>true</visible>
  <transparent>false</transparent>
  <width>1</width>
  <marked>false</marked>
  <animation>0</animation>
  <name>Metal</name>
  <source>4/0@1</source>
 </properties>
 <properties>
  <frame-color>#ff00ff</frame-color>
  <fill-color>#ff00ff</fill-color>
  <frame-brightness>0</frame-brightness>
  <fill-brightness>0</fill-brightness>
  <dither-pattern>I2</dither-pattern>
  <visible>true</visible>
  <transparent>false</transparent>
  <width>1</width>
  <marked>false</marked>
  <animation>0</animation>
  <name>Passivation</name>
  <source>5/0@1</source>
 </properties>
 <properties>
  <frame-color>#91ff00</frame-color>
  <fill-color>#91ff00</fill-color>
  <frame-brightness>0</frame-brightness>
  <fill-brightness>0</fill-brightness>
  <dither-pattern>I3</dither-pattern>
  <visible>true</visible>
  <transparent>false</transparent>
  <width>1</width>
  <marked>false</marked>
  <animation>0</animation>
  <name>PolySilicon</name>
  <source>6/0@1</source>
 </properties>
 <properties>
  <frame-color>#008050</frame-color>
  <fill-color>#008050</fill-color>
  <frame-brightness>0</frame-brightness>
  <fill-brightness>0</fill-brightness>
  <dither-pattern>I2</dither-pattern>
  <visible>true</visible>
  <transparent>false</transparent>
  <width>1</width>
  <marked>false</marked>
  <animation>0</animation>
  <name>PolySiHeads</name>
  <source>7/0@1</source>
 </properties>
 <properties>
  <frame-color>#ffa080</frame-color>
  <fill-color>#ffa080</fill-color>
  <frame-brightness>0</frame-brightness>
  <fill-brightness>0</fill-brightness>
  <dither-pattern>I0</dither-pattern>
  <visible>true</visible>
  <transparent>false</transparent>
  <width>1</width>
  <marked>false</marked>
  <animation>0</animation>
  <name>Via2</name>
  <source>8/0@1</source>
 </properties>
 <properties>
  <frame-color>#000080</frame-color>
  <fill-color>#000080</fill-color>
  <frame-brightness>0</frame-brightness>
  <fill-brightness>0</fill-brightness>
  <dither-pattern>I12</dither-pattern>
  <visible>true</visible>
  <transparent>false</transparent>
  <width>1</width>
  <marked>false</marked>
  <animation>0</animation>
  <name>Metal2</name>
  <source>10/0@1</source>
 </properties>
 <properties>
  <frame-color>#ffa080</frame-color>
  <fill-color>#ffa080</fill-color>
  <frame-brightness>0</frame-brightness>
  <fill-brightness>0</fill-brightness>
  <dither-pattern>I1</dither-pattern>
  <visible>true</visible>
  <transparent>false</transparent>
  <width>1</width>
  <marked>false</marked>
  <animation>0</animation>
  <name>Margins</name>
  <source>11/0@1</source>
 </properties>
 <properties>
  <frame-color>#805000</frame-color>
  <fill-color>#805000</fill-color>
  <frame-brightness>0</frame-brightness>
  <fill-brightness>0</fill-brightness>
  <dither-pattern>I0</dither-pattern>
  <visible>true</visible>
  <transparent>false</transparent>
  <width>1</width>
  <marked>false</marked>
  <animation>0</animation>
  <name>Dicing Lines</name>
  <source>12/0@1</source>
 </properties>
 <custom-dither-pattern>
  <pattern>
   <line>................................</line>
   <line>................................</line>
   <line>................................</line>
   <line>................................</line>
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   <line>................................</line>
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   <line>................................</line>
   <line>................................</line>
   <line>................................</line>
   <line>................................</line>
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   <line>................................</line>
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   <line>................................</line>
   <line>................................</line>
   <line>................................</line>
  </pattern>
  <order>1</order>
  <name></name>
 </custom-dither-pattern>
</layer-properties>
  11   Fri Jul 31 19:23:26 2009 Thomas Bergauer Laser Spot size    
10cm nach Kollimator: Durchmesser 1.45mm (FWHM) 20cm nach Kollimator: Durchmesser 1,54mm (FWHM)
Attachment 1: laser_spot_overview.jpg
laser_spot_overview.jpg
Attachment 2: laser_spot_10cm.jpg
laser_spot_10cm.jpg
Attachment 3: laser_spot_20cm.jpg
laser_spot_20cm.jpg
Attachment 4: laser_spot_30cm.jpg
laser_spot_30cm.jpg
  10   Fri Jul 17 14:03:21 2009 Stephan Hänsel What to measure    

Origami

 

Testbeam08 Module

- Anglescan

 

Pt Modules (2Stück - je 2 Sensoren):

Anglescan

- einzelne module (auch als "stub" (fixer Abstand zwischen ihnen) ?)

wichtig: brauchen wir 2 Testbeam08 module um 90° verdreht für höheninformation??? (sensoren in den Pt-modulen sind nicht 100%ig parallel - MESSEN!)

 

Optical Modules:(DAUER ca 18 Stunden)

- tests in box mit laserbeam (laser auf anderer Höhe al beam?!? - sonst geht der beam durch den Laser)

 

ITE Modules:

- 8 ter stack: (2 Testbeam08 module quer + 2 x 1stmetal128 + 2 x 2nd metal 128 + 2 x normal128)

- 2ndmetal512 module 3 stück bauen und im beam versetzt einbauen parasitär bei den spanier-modulen)

 

zusätliche ideen:

- CMS-Tracker slice (2Pt + 2 optische + 3 2ndmetal512 hintereinander in unterschiedlichen winkeln um einen tracker-slice zu simulieren - CMS-layout !?!)

 

 

  9   Thu Jul 9 10:29:58 2009 Stephan HänselSiLCMeasurements - Modules    

Pt Modules:

- Sensoren sind Luftfeuhtigkeitsempfindlich

- die Sensoren brauchen einige Zeit unter Spannung bis sie sich bei einem akzeptablen Strom stabilisieren 

small Problems:

 

Optical Modules:

small Problems with h03-Module:

ITE Modules:

 

ELOG V3.1.5-fc6679b