Tuda logbooks General E1104 ISACII E1195 E1103 E1147 S1287 S1203 S1233 S1284 S1447 23Na(a,p) S1540 S1381  S1847 Catania
  S1233  ELOG logo
New entries since:Wed Dec 31 16:00:00 1969
ID Date Author Type Category Subject
  19   Thu Dec 13 13:21:55 2012 Naomi Galinski  calibration alpha source used

 Before run: (gain changed since source run was done)

S2: 3-alpha R-00866 2.81e3 Bq 5. Aug. 10 (Tigress source)

LEDA: 241Am 3.67e5 Bq 15. Sept 09 (Dragon source)

 

After run:

S2: 3-alpha R-01037 1.11e3 Bq 15. Sept. 12 (Tigress source)

LEDA: 3-alpha R-00968A 1.11e3 Bq 1. Apr. 11 (Tigress source)

  18   Sat Dec 8 10:46:51 2012 Barry  scintillator gain change documentation in EPICS

 Here are some plots of the scintillator count rate (Scaler S4) overnight. The first shows the result of a gain shift, the second a positive effect from tuning in ISAC-I, and the third another gain shift.

  17   Sat Dec 8 09:17:42 2012 Naomi Galinski  Histogram screen shots

Screen shots of:

1) ADC 11 ch 0-7 Corresponds to LEDA 0 ch 0-7

2) ADC 4 ch 0-31 Corresponds to S2 front ch 0-31

3) ADC 2 ch 0-15 Corresponds to LEDA 4 all 16 channels

4) ADC 2 ch 4 Corresponds to a zoom in of LEDA 4 ch 4

  16   Fri Dec 7 17:40:59 2012 Sky  Integrated 8Li current screenshot
  15   Thu Dec 6 22:42:49 2012 Naomi Galinski  Run 248 & 249 - no beam current monitor

Run 248 Start 6:50 am

Run 249 Start 11:01 am

64 MeV Li8 beam.

Low intensity. Can't use scalers to count beam current.

 

  14   Thu Dec 6 22:31:53 2012 Naomi Galinski  Run 242 - alpha calibration

 3-alpha source used on S2

241Am source used on LEDA

  13   Thu Dec 6 22:30:13 2012 Naomi Galinski  Beam current and Si triggers
  12   Thu Dec 6 21:26:55 2012 Naomi Galinski  Old TDC trigger setting + Tom's log book entry scans in pdf

This is a scan of Tom's log book for an experiment. One of the pages contains their trigger setting. There might be other useful things in there too.

 https://elog.triumf.ca/Tuda/S1287/110621_025629/tuda_book13_1-47.pdf

The uploaded pdf is their TDC trigger setting which is just a crop of a page in the file above.

  11   Thu Dec 6 21:24:42 2012 Naomi Galinski  Pump down, venting, cooling preamps and epics

Pump down and venting of chamber is controlled via the TUDA epics.

 http://www.triumf.info/wiki/tuda-tactic/index.php/EPICS_and_ISAC_status

 

(I hope this procedure is correct! If not then epics will stop you from doing something stupid and you can't open valves and turn on pumps if the conditions are not right)

Pump down:

- Check manual valve to turbo pump and vent valve are closed.

- All interlocks should be closed except PV5 and RV5.

- Pump down using roughing pump first, BP5.

- Open manual valve to roughing pump slowly.

- Once CG5 is < 250 mT you can turn on turbo. Close RV5 first then turn on TP5, the turbo pump, and open BV5.

- Turn on PNG5 ion gauge when vacuum is good enough. 

- When PNG5 is < 1.e-5 T it's ok to turn on cryo pumb.

- For cryo pump CG5C has to be < 150 mT. Turn on CP5 and open GV5..

- If CG5C is not low enough in pressure then open RVC5 while monitoring TURBO V-550 monitor and making sure Power < 55W. You should see the vacuum pressure on CG5C going down. Close CG5C is turbo power is > 55 W and wait for it to go down to 27 W or lower. Repeat process till pressure is low enough to turn on cryo pump CP5/

Cooling:

- Turn on chiller by switching on and setting temperature to - 15 deg C or something low.

 

Venting:

- Bring back chiller to room temperature. If broken then turn off and wait 30 min. Preamps should be turned off.

- Close BV5 and turn off TP5, turbo pump.

- Close GV5 and turn off CP5, cryo pump.

- Turn off PNG5 ion gauge.

- All interlock should be closed to the chamber.

- Close manual turbo valve and check manual vent valve is closed.

- Open VV5, the vent valve.

- Wait 30 min for turbo to spin down 10%. Turn open manual vent valve slowly by observing pressure on manual meter and CG5 pressure gauge.

NOTE: If you're venting while preamps are still a little cold use dry nitrogen gas when venting.

 

Some info on previous pump down and cooling times:

https://elog.triumf.ca/Tuda/ISACII/185 (first pump down)

https://elog.triumf.ca/Tuda/ISACII/188 (subsequent pump downs)

  10   Thu Dec 6 21:23:25 2012 Naomi Galinski  MIDAS UK configuration and startup

Here are some useful links and files:

 http://npg.dl.ac.uk/MIDAS/MIDASDataAcquisition/base.html

http://npg.dl.ac.uk/documents/edoc247/edoc247_7.htm

https://elog.triumf.ca/Tuda/ISACII/177 (you need to register an account to look at the configuration files Tom Davinson used)

 

You can change the files called 'latest' in:

/MIDAS/experiments/tuda/VMEconfigs

and 

/MIDAS/experiments/tuda/VMEsetups

to change/add ADC, TDC, scaler, etc. modules in the VME crates. Restore these files in the VME MODULES CONFIGURATIONS in MIDAS.

I've attached our configuration files.

 

See Tom's configuration files as examples:

https://elog.triumf.ca/Tuda/ISACII/177

  9   Thu Dec 6 21:05:46 2012 Naomi Galinski  TUDA setup - how to get TUDA ready for our experiment

 - Ground test TUDA chamber.

- Vacuum test chamber and check cooling of preamps. Temperature sensor for preamps must be attached inside chamber.

- Mount beam tuning target holes (5, 3, 1 mm) and target holders (with 10 mm holes)

- Calibrate target ladder positions and check horizontal alignment.

- Check alignment of detector holders using cross etched plastic.

- Attach inside flange to 1x services adaptor PCB (5x BNC, with two pulser -ve and +ve and three bias voltage connectors, to 10-way IDC = 2x5 ribbon cables) to multiple 10-way IDC connectors. For LEDA detectors string 8 sectors together with one cable. Use a separate board for S2 Si detectors.

- Attach preamp power supply and pulser signal to outside flange.

- Attach preamps to inside flange using 16 ribbon cables.

- On the outside these 16 ribbon cables are split into two 8 ribbon cables and go into two RAL shaping amplifiers.

- Test preamp signals for each channel with pulser. You can use the signals going into or coming out of amplifiers. Best check both to make sure you know what channels in the amps correspond to which channels in the preamps.

- Attach Si detector bias cables from inside flange to preamps using BNC to SNC cables.

- Attach Si detector bias cables from outside flange to CAEN SY40S voltage supply using BNC to BNC cables. This voltage supply only outputs -ve voltage.

- Check Si detector bias using a VT100 monitor, which is attached to the CAEN voltage supply. Add a small voltage first and make sure the leakage currents are going up but stay low.

- Attach Si signal cables to preamps using 16 ribbon cable.

- Insert alpha sources and close chamber. Before closing make sure all cables are tied onto the rails and are out of the way of the beam path and not blocking Si detectors. Close slowly making sure no cables are being pulled out of sockets and unmount target ladder if it's in the way of the Si detectors.

- Check alpha source signals from amps in atmospheric pressure first. Preamps and Si detectors must be biased, but don't leave preamps on long due to heating concerns.

- Pump down following pump down procedure. Once vacuum is less than 1e-5 T you can switch on preamp chiller. Preamps should not be turned on in vacuum without being chilled.

- Connect DAQ next. Amplifier ADC outputs go to Silena 9418 ADC modules in VME crate. Amplifier ECL outputs go to CAEN V1190 TDC modules in VME crate.

- Check DAQ configuration following procedure written in DAQ configuration.

- Connect MVME2431 module in VME master crate to computer.

- Start DAQ. First start tape drive and then MIDAS-session following MIDAS startup procedure.

- Turn on preamps and Si detector bias and start run and look at alpha signal gains and channel thresholds.

- Change amplifier gains by changing two resistors on board and change threshold on front panel. Instruction are in another elog entry.

- Take calibration source run.

- Turn off bias to preamps and Si detectors.

- Open up chamber. First turn off chiller and let it warm up to room temp. Then vent following venting procedure.

- Take out alpha source.

- Add targets to target ladder but leave one target holder with 10 mm hole free for beam tuning.

- Install detector shields for beam tuning.

- Attach target ladder current and FC scalars for operators to see beam currents.

- Pump down again and let operators tune beam. Move target ladder to different positions as beam tuning proceeds.

- Vent chamber BUT before opening get someone to swipe inside of chamber. This is a Triumf safety procedure after beam is passed through a target chamber.

- Remove detector shields, pump down and cool preamps.

- Start cryo pump after vacuum is good enough.

- Turn on bias to preamps and detectors and start taking data!!!!

  8   Thu Dec 6 20:28:23 2012 Naomi Galinski  DAQ configuration

 VME crate (master): VME V430 

1x MVME2431 VME processor module, slot 1

1x SBS master, slot 2

1x SAC S9418 ACQ controller, slot 5 - trigger condition set here

14x Silena 9418 ADC, slot 7-10 (geographic location doesn't matter only jumper address)

 

VME crate (slave): VME430 - we didn't use this since the power supply died but we still needed a VME crate connected to the master crate

1x SBS slave, slot 1 (needs to be plugged in!)

2x CAEN V560 scalers

4x CAEN V1190 TDC

 

Debugging notes:

Turn slave crates on first and master crate last

VME crates must be of type V430 for MIDAS UK. We used V64x crates and unable to read scaler and TDC modules. Error messages result if you try to load modules in the wrong type caret into MIDAS UK. 

HOWEVER, SBS modules MUST be plugged in. Probably some firmware coding in MVME2431 tells MIDAS there are two VME crates. SIGBUS error results if slave crate is not connected to the master crate.

  7   Thu Dec 6 11:03:10 2012 Naomi Galinski  Detector specs

S2 500 um: I think the bias is - 75V. I pulled that out from a previous Tuda experiment elog

VT100 monitor readout:

S2-1 75 V - leakage current ~ 5 uA

 

LEDA: 1 mm. Ritu's LEDA detectors have reverse order connectors. Special adaptors needed to bias them properly with -130 V.

VT100 monitor readouts:

LEDA-1-0 130 V - leakage currents for all LEDA sectors are < 1 um

LEDA-1-1 130 V

LEDA-1-2 130 V

LEDA-1-3 130 V

LEDA-1-4 130 V

LEDA-1-5 130 V

LEDA-1-6 130 V

LEDA-1-7 130 V

 

  6   Thu Dec 6 10:58:31 2012 Naomi Galinski  Amplifier gain and thresholds

 Gain: 

Max channel no. in Silena 9418 ADCs is 4096. We want the max channel correspond to just above 70 MeV.

We have the 241Am single source in front of the LEDA and the 3-alpha source in front of the S2. Therefore we want the 5.4856 MeV alpha peak in the LEDA channels and 5.8048 MeV alpha peak in the S2 channels to sit at ~ 300 ch.

To achieve this we put the 3.3 kOhm restsros in the LED and 4.7 kOhm resistors into the S2 amplifiers

 

Threshold:

All LEDA and S2 amplifiers were initially set at a threshold of 30 mV.

 

Instructions on how to change the gain and threshold of the amplifiers are in attached file.

  5   Thu Dec 6 10:41:35 2012 Naomi Galinski  3-alpha source energies

 239Pu: Ealpha = 5.1055 MeV (11.94%)

Ealpha = 5.1443 MeV (17.11%)

Ealpha = 5.1566 MeV (70.77%)

 

241Am: Ealpha = 5.388 MeV (1.66%)

Ealpha = 5.4428 MeV (13.1%)

Ealpha = 5.4856 MeV (84.3%)

 

244Cm: Ealpha = 5.7626 MeV (23.6%)

Ealpha = 5.8048 MeV (76.4%)

  4   Thu Dec 6 10:38:12 2012 Naomi Galinski  MIDAS ADC channels

 LEDA: 8 sectors with 16 segments each

S9418#11.adc0 - 15 -> Sector 0

S9418#11.adc16 - 31 -> Sector 1

S9418#1.adc0 - 15 -> Sector 2

S9418#1.adc16 - 31 -> Sector 3

S9418#2.adc0 - 15 -> Sector 4

S9418#2.adc16 - 31 -> Sector 5

S9418#3.adc0 - 15 -> Sector 6

S9418#3.adc16 - 31 -> Sector 7

 
S2: Front 48 annular segments, Back 16 sectors

S9418#4.adc0 - 15 -> Front

S9418#4.adc16 - 31 -> Front

S9418#5.adc0 - 15 -> Front

S9418#5.adc16 - 31 -> Back

 
Scintillator for beam current monitoring at end of TUDA:
 
S9418#12.adc0
 
S9418#12.adc1

 

  3   Thu Dec 6 10:08:12 2012 Naomi Galinski  16O 4+ stable beam tuning

 242 pA @ upstream FC

229 pA @ TUDA FC through 1 can hole

209 pA through 5 mm hole in target ladder

202 pA through 3 mm hole in target ladder

119 pA through 1 mm hole in target ladder

213 pA @ end of Tuda in FC

223 pA @ upstream FC again, this time baseline better

  2   Thu Dec 6 09:56:17 2012 Naomi Galinski  Si detector distances

Face of S2 is 5.2 cm from target.

Face of LEDA is 55.7 cm from face of S2.

  1   Thu Dec 6 09:54:42 2012 Naomi Galinski  Target and target ladder position

 1.75 mg/cm2 C foils located at position 1 (69.4 mm) and 3 (99.2 mm)

ELOG V2.9.2-2455