ID |
Date |
Author |
Type |
Subject |
31
|
Fri Nov 27 12:23:25 2009 |
Stephan Hänsel | Measurements | Run 20077 - Pedestal | 16196 events
with 2 Micromegas modules
Beam: 5,6 GeV
silicon sledge 35cm inside from TPC-support-front and 36mm above center position
- -> front Z: 5mm too far inside the gap
- -> back Z: 5mm too far outside the gap
HV: 200V -> 1,2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,632 / 1,739 // 0,622 / 1,752
|
30
|
Fri Nov 27 12:22:19 2009 |
Stephan Hänsel | Measurements | Run 20075 - Micromegas 817 | 46196 events (usable: 42433 events)
with 2 Micromegas modules (TPCDAQ stopped at 46195 events)
Beam: 5,6 GeV
silicon sledge 35cm inside from TPC-support-front and 36mm above center position
- -> front Z: 5mm too far inside the gap
- -> back Z: 5mm too far outside the gap
rate: 4,1 Hz
HV: 200V -> 1,2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,632 / 1,739 // 0,622 / 1,752
|
29
|
Fri Nov 27 12:21:00 2009 |
Stephan Hänsel | Measurements | Run 20074 - Micromegas 816 | 10010 events
with 2 Micromegas modules (TPCDAQ stopped at 10003 events)
Beam: 5,6 GeV
silicon sledge 35cm inside from TPC-support-front and 36mm above center position
- -> front Z: 5mm too far inside the gap
- -> back Z: 5mm too far outside the gap
rate: 4,1 Hz
HV: 200V -> 1,2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,632 / 1,739 // 0,622 / 1,752
|
28
|
Thu Nov 5 19:46:15 2009 |
Stephan Hänsel | Measurements | Run 20073 - Micromegas 815 | 10070 events
with 2 Micromegas modules (TPCDAQ stopped at 9864 events)
Beam: 5,6 GeV
silicon sledge 35cm inside from TPC-support-front and 36mm above center position
- -> front Z: 5mm too far inside the gap
- -> back Z: 5mm too far outside the gap
HV: 200V -> 1,2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,632 / 1,739 // 0,622 / 1,752
|
27
|
Thu Nov 5 19:44:28 2009 |
Stephan Hänsel | Measurements | Run 20070 - positionrun | 2257 events without Micromegas
Beam: 5,6 GeV
silicon sledge 35cm inside from TPC-support-front and 36mm above center position
- -> front Z: 5mm too far inside the gap
- -> back Z: 5mm too far outside the gap
HV: 200V -> 1,2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,632 / 1,739 // 0,622 / 1,752
|
26
|
Thu Nov 5 19:36:48 2009 |
Stephan Hänsel | Measurements | Run 20069 - pedestal | 13600 events without Micromegas
Beam: 5,6 GeV
silicon sledge 35cm inside from TPC-support-front
HV: 200V -> 1,2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,632 / 1,739 // 0,622 / 1,752
|
25
|
Thu Nov 5 19:34:58 2009 |
Stephan Hänsel | Measurements | Run 20065 - pedestal | 18400 events without Micromegas
Beam: 5,6 GeV
silicon sledge 35cm inside from TPC-support-front
HV: 200V -> 1,2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,632 / 1,739 // 0,622 / 1,752
|
24
|
Thu Nov 5 19:33:53 2009 |
Stephan Hänsel | Measurements | Run 20064 - pedestal | 12199 events without Micromegas
Beam: 5,6 GeV
silicon sledge 35cm inside from TPC-support-front
HV: 100V -> 1µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,648 / 1,760 // 0,638 / 1,774
|
23
|
Wed Nov 4 18:24:48 2009 |
Stephan Hänsel | Measurements | Run 20063 - Micromegas #808 | crashed at 18577 events - TPC 19220 events
Beam: 5,6 GeV
one Micromegas module in center position
silicon sledge 35cm inside from TPC-support-front
HV: 200V -> 2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,627 / 1,605 // 0,618 / 1,617
|
22
|
Wed Nov 4 18:19:44 2009 |
Stephan Hänsel | Measurements | Run 20062 - data | 6493 events without Micromegas
Beam: 5,6 GeV
silicon sledge 35cm inside from TPC-support-front
HV: 200V -> 2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,621 / 1,722 // 0,610 / 1,734
|
21
|
Wed Nov 4 17:12:47 2009 |
Stephan Hänsel | Measurements | Run 20061 - Latency Scan -> 70 | LATENCY IS SET TO 70
spillsize = 500
Beam: 5,6 GeV
silicon sledge 35cm inside from TPC-support-front
HV: 200V -> 2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,621 / 1,722 // 0,610 / 1,734
|
20
|
Wed Nov 4 16:31:42 2009 |
Stephan Hänsel | Measurements | Run 20059 - Micromegas #807 | crashed at 3648 events -> TPC got much more events
Beam: 5,6 GeV
one Micromegas module in center position
silicon sledge 35cm inside from TPC-support-front
HV: 200V -> 2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,621 / 1,722 // 0,610 / 1,734
|
19
|
Wed Nov 4 16:12:33 2009 |
Stephan Hänsel | Measurements | Run 20057 - Micromegas #806 | 1076 events
trigger rate 7,25Hz
bx = real trigger number
HV: 200V -> 2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,621 / 1,722 // 0,610 / 1,734
|
18
|
Wed Nov 4 16:10:24 2009 |
Stephan Hänsel | Measurements | Run 20056 - Micromegas #805 | 10989 events
HV: 200V -> 2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,621 / 1,722 // 0,610 / 1,734
trigger rate 7,25Hz
!!!!! in eventfile: time-stamp instead of real trigger number !!!!!
|
17
|
Wed Nov 4 15:31:39 2009 |
Stephan Hänsel | Measurements | Run 20055 - Pedestal | 15399 triggers
HV: 200V -> 2µA
LV:
- 01,30 / 02,60 // 01.30 / 02.60
- 0,621 / 1,722 // 0,610 / 1,734
|
16
|
Wed Nov 4 15:29:00 2009 |
Stephan Hänsel | Measurements | Run 20055 - Pedestal | |
15
|
Tue Nov 3 11:18:46 2009 |
Stephan Hänsel | Setup | Beam Off | close shutter:
- close shutter T24/1 with the button "Beam Shutter zu" (green) -> bottom green light next to the keys should go on
- close shutter T24 with the button "Beam Shutter auf" (green) -> bottom green light next to the keys should go on
- turn all four keys -> (the top) 4 green lights should go out next to each pair of keys
go to T24/1 (LPTPC area):
- just open the door -> the two green and the big red lights go out
If you do not need the test beam any more:
- open door at test beam area T24 -> the two green and the big red lights go out
- call Control Room 3500
- switch off bending magnets
|
14
|
Tue Nov 3 10:45:01 2009 |
Stephan Hänsel | Setup | Beam On | clear test beam areas:
go to T24 (front area):
- use (red) key from interlock
- go into T24 area, close door, use red key in keyhole next to door -> big red light on
- push the white buttons "Absuche" below the three red "Not Aus" (emergency stop) buttons
- go back to the door, turn key and keep it turned!
- open the door, move out and close it again behind you
- now it is the time to return the key again -> two green lights should go on
go to T24/1 (LPTPC area):
- use (black) key from interlock
- go into T24/1 area, close door, use black key in keyhole next to door -> big red light on
- push the white buttons "Absuche" below the three red "Not Aus" (emergency stop) buttons
- go back to the door, turn key and keep it turned!
- open the door, move out and close it again behind you
- now it is the time to return the key again -> two green lights should go on
power bending magnets:
- choose beam energy according to list sticked to monitor
get beam:
- phone Control Room 3500
- tell them to put the wire into DesyII at the position written in their lock book
open shutter:
- go back to hut
- put back the red and black keys into the interlock
- turn all four keys -> 5 green lights should be on next to each pair of keys
- open shutter T24 with the button "Beam Shutter auf" -> bottom green light next to the keys should go out
- open shutter T24/1 with the button "Beam Shutter auf" -> bottom green light next to the keys should go out
- now you should see beam
-> start data taking
|
13
|
Mon Nov 2 13:59:09 2009 |
Stephan Hänsel | Setup | ToDo before data-taking | in hut:
- plug twisted pair cable from CCUM into PC (Attention - connector contains more pins, look at marks - use the most right pins when you look from the back of the PC))
- power on CCUM in spacing behind electronic hut
- switch on opto-electrical converter for FED (on top of PC (switch in the back) and switch on power supply (front))
- LV on -> 01,30 and 02,60 (two times)
- HV on -> 200V
T24/1
- power the scintillators for triggering
- move envelope into beamline - sledge front to sensor center is 220,5mm
-> switch on the beam |
12
|
Mon Nov 2 13:22:50 2009 |
Stephan Hänsel | Setup | DAQ | start data-taking:
ssh xxx@bastion.desy.de -X
ssh xdaq@flctpcikhero1.desy.de -X
-
at PC reboot:
- source xdaq_profile
- cd scripts
- ./fedpmc 0 + ctrl C when ready //initialise the first FED
- ./fedpmc 1 + ctrl C when ready //initialise the second FED
- ./gatecalib //sets adresses for the TSC + gate
- ./setdll 3 5 //sets width of the gate
when controllring newly connected
- source xdaq_profile (if not done before)
- cd scripts
- ./ProgramTest.exe -pci -reset //-> controllring 0x4c90
test of devices:
- source xdaq_profile (if not done before)
- cd scripts
- ./ProgramTest.exe -pci -scanCCU // searches for CCUs
- ./ProgramTest.exe -pci -scantrackerdevice // searches for CCUs and APVs
start xdaq:
- source xdaq_profile (if not done before)
- /opt/firefox/firefox & -> http://ikhero2.desy.de:40000 // not working for now
- ./xdaq.sh -p40000
- reload firefox
HyperDAQ:
- -> Control Panel -> Configure Cluster -> load /home/xdaq/xml/peak_silc.xml
- tick: Configure Cluster
- -> submit
- -> view Applications -> Tracker Supervisor:
- choose run type -> normal
- tick: TLU in physics Run
- type spillsize = 20
- tick: No gate
if xdaq kills itself:
analysis:
- root:
- in /Analysis/AC1Analysis-1.4>
- .L runAna_silc.C
- runAna(pedestalnumber,runnumber)
get file with number of single events in all 4 sensors + HitProfile
- root
- .L readClusterTree_silc.cxx++
- readClusterTree_silc(event number)
|
|