Difference: AtfBpmLogbook200909NN (1 vs. 21)

Revision 2130 May 2013 - teak_5ftwiki_5furl_5fchanger_2esh

Line: 4 to 4
 

System integration

Changed:
<
<
  1. Boot VME system from new linux computer notes
>
>
  1. Boot VME system from new linux computer notes
 
  1. Calibration tone, split into diode and reference electronics (testing diode reconstruction)
  2. Ciculator and phase shifter to ping cavity and get decay time etc
  3. csy module for switching calibration tones

Revision 2030 May 2013 - teak_5ftwiki_5furl_5fchanger_2esh

Line: 4 to 4
 

System integration

Changed:
<
<
  1. Boot VME system from new linux computer notes
>
>
  1. Boot VME system from new linux computer notes
 
  1. Calibration tone, split into diode and reference electronics (testing diode reconstruction)
  2. Ciculator and phase shifter to ping cavity and get decay time etc
  3. csy module for switching calibration tones

Revision 1930 May 2013 - teak_5ftwiki_5furl_5fchanger_2esh

Line: 4 to 4
 

System integration

Changed:
<
<
  1. Boot VME system from new linux computer notes
>
>
  1. Boot VME system from new linux computer notes
 
  1. Calibration tone, split into diode and reference electronics (testing diode reconstruction)
  2. Ciculator and phase shifter to ping cavity and get decay time etc
  3. csy module for switching calibration tones

Revision 1829 May 2013 - teak_5ftwiki_5furl_5fchanger_2esh

Line: 4 to 4
 

System integration

Changed:
<
<
  1. Boot VME system from new linux computer notes
>
>
  1. Boot VME system from new linux computer notes
 
  1. Calibration tone, split into diode and reference electronics (testing diode reconstruction)
  2. Ciculator and phase shifter to ping cavity and get decay time etc
  3. csy module for switching calibration tones

Revision 1729 May 2013 - teak_5ftwiki_5furl_5fchanger_2esh

Line: 4 to 4
 

System integration

Changed:
<
<
  1. Boot VME system from new linux computer notes
>
>
  1. Boot VME system from new linux computer notes
 
  1. Calibration tone, split into diode and reference electronics (testing diode reconstruction)
  2. Ciculator and phase shifter to ping cavity and get decay time etc
  3. csy module for switching calibration tones

Revision 1621 Aug 2012 - webmanip_5fw2sw_2esh

Line: 4 to 4
 

System integration

Changed:
<
<
  1. Boot VME system from new linux computer notes
>
>
  1. Boot VME system from new linux computer notes
 
  1. Calibration tone, split into diode and reference electronics (testing diode reconstruction)
  2. Ciculator and phase shifter to ping cavity and get decay time etc
  3. csy module for switching calibration tones

Revision 1521 Aug 2012 - webmanip_5fw2sw_2esh

Line: 4 to 4
 

System integration

Changed:
<
<
  1. Boot VME system from new linux computer notes
>
>
  1. Boot VME system from new linux computer notes
 
  1. Calibration tone, split into diode and reference electronics (testing diode reconstruction)
  2. Ciculator and phase shifter to ping cavity and get decay time etc
  3. csy module for switching calibration tones

Revision 1418 Aug 2012 - webmanip_5fw2sw_2esh

Line: 4 to 4
 

System integration

Changed:
<
<
  1. Boot VME system from new linux computer notes
>
>
  1. Boot VME system from new linux computer notes
 
  1. Calibration tone, split into diode and reference electronics (testing diode reconstruction)
  2. Ciculator and phase shifter to ping cavity and get decay time etc
  3. csy module for switching calibration tones

Revision 1305 Jun 2012 - webmanip_5fw2sw_2esh

Line: 4 to 4
 

System integration

Changed:
<
<
  1. Boot VME system from new linux computer notes
>
>
  1. Boot VME system from new linux computer notes
 
  1. Calibration tone, split into diode and reference electronics (testing diode reconstruction)
  2. Ciculator and phase shifter to ping cavity and get decay time etc
  3. csy module for switching calibration tones

Revision 1216 Apr 2012 - webmanip_5fw2sw_2esh

Line: 4 to 4
 

System integration

Changed:
<
<
  1. Boot VME system from new linux computer notes
>
>
  1. Boot VME system from new linux computer notes
 
  1. Calibration tone, split into diode and reference electronics (testing diode reconstruction)
  2. Ciculator and phase shifter to ping cavity and get decay time etc
  3. csy module for switching calibration tones

Revision 1124 Nov 2010 - StewartBoogert

Line: 1 to 1
 
META TOPICPARENT name="AtfBpmLogbook"

Idea|Implemented hardware|software improvements.

System integration

Changed:
<
<
  1. Boot VME system from new linux computer notes
>
>
  1. Boot VME system from new linux computer notes
 
  1. Calibration tone, split into diode and reference electronics (testing diode reconstruction)
  2. Ciculator and phase shifter to ping cavity and get decay time etc
  3. csy module for switching calibration tones

Revision 1021 Sep 2009 - StewartBoogert

Line: 1 to 1
 
META TOPICPARENT name="AtfBpmLogbook"

Idea|Implemented hardware|software improvements.

Line: 21 to 21
 
  1. Reference EDM displays
  2. Diode EDM displays
  3. Status PV per BPM (nolo, nocal, uncal, refsat, dipsat, allsat, undef, t0err, ok)
Changed:
<
<
  1. Warning system
>
>
  1. Warning system
 
  1. Tune up all cavities script (calibration tone)
  2. Improve calibration so large signal is obtained when BPM is moved
  3. Add calibration script to EDM
Line: 33 to 33
 
  1. SVD calibration of mover/non-mover BPMs
  2. Debug log data EDM button
  3. Store data button
Changed:
<
<
  1. C-band RF electronics readbacks
>
>
  1. C-band RF electronics readbacks
 
  1. Consistent EDM displays
  2. EPICS control of S-Band attenuators and amplifiers
  3. Orbit calculation for non-mover BPMs
Line: 47 to 47
 
  1. Insert mover flips

Tests

Changed:
<
<
  1. EDM/Control from atfcc computers
  2. Automation (cron) system tests
>
>
  1. EDM/Control from atfcc computers
  2. Automation (cron) system tests
 

Basic measurements

  1. Cavity basic RF measurements

Revision 921 Sep 2009 - StewartBoogert

Line: 1 to 1
 
META TOPICPARENT name="AtfBpmLogbook"

Idea|Implemented hardware|software improvements.

Line: 18 to 18
 
  1. Saturation correction code
  2. T0 correction code
  3. Single button switch between beam and calibration tone
Changed:
<
<
  1. Reference EDM displays
>
>
  1. Reference EDM displays
 
  1. Diode EDM displays
Changed:
<
<
  1. Status PV per BPM (nolo, nocal, uncal, refsat, dipsat, allsat, undef, t0err, ok)
>
>
  1. Status PV per BPM (nolo, nocal, uncal, refsat, dipsat, allsat, undef, t0err, ok)
 
  1. Warning system
  2. Tune up all cavities script (calibration tone)
  3. Improve calibration so large signal is obtained when BPM is moved
Line: 28 to 28
 
  1. Change all temp and LO PVs to match BPMs
  2. Python -> EDM to switch to cal mode
  3. Add temp/LO to archiver
Changed:
<
<
  1. Integrate temp/LO into BPM display
  2. SQL database for calibration data, reference orbit data, etc
>
>
  1. Integrate temp/LO into BPM display
  2. SQL database for calibration data, reference orbit data, etc
 
  1. SVD calibration of mover/non-mover BPMs
  2. Debug log data EDM button
  3. Store data button
  4. C-band RF electronics readbacks
Changed:
<
<
  1. Consistent EDM displays
  2. EPICS control of S-Band attenuators and amplifiers
>
>
  1. Consistent EDM displays
  2. EPICS control of S-Band attenuators and amplifiers
 
  1. Orbit calculation for non-mover BPMs
  2. Self describing data format
  3. Corrector calibration code

Revision 820 Sep 2009 - StewartBoogert

Line: 1 to 1
 
META TOPICPARENT name="AtfBpmLogbook"

Idea|Implemented hardware|software improvements.

Line: 14 to 14
 

Software

  1. bpmProcessedServer/bpmProcessor all work on cbpm-lsx
  2. caRepeater in startup script not needed with all IoCs on different machines
Changed:
<
<
  1. Automatic code restart (cron?)
>
>
  1. Automatic code restart (cron?) Is this needed?
 
  1. Saturation correction code
  2. T0 correction code
Changed:
<
<
  1. Single button switch between beam and calibration tone
>
>
  1. Single button switch between beam and calibration tone
 
  1. Reference EDM displays
  2. Diode EDM displays
  3. Status PV per BPM (nolo, nocal, uncal, refsat, dipsat, allsat, undef, t0err, ok)

Revision 718 Sep 2009 - StewartBoogert

Line: 1 to 1
 
META TOPICPARENT name="AtfBpmLogbook"

Idea|Implemented hardware|software improvements.

Line: 25 to 25
 
  1. Tune up all cavities script (calibration tone)
  2. Improve calibration so large signal is obtained when BPM is moved
  3. Add calibration script to EDM
Changed:
<
<
  1. Change all temp and LO PVs to match BPMs
  2. Python -> EDM to switch to cal mode
>
>
  1. Change all temp and LO PVs to match BPMs
  2. Python -> EDM to switch to cal mode
 
  1. Add temp/LO to archiver
  2. Integrate temp/LO into BPM display
Deleted:
<
<
  1. Integrate temp/LO into archive
 
  1. SQL database for calibration data, reference orbit data, etc
  2. SVD calibration of mover/non-mover BPMs
  3. Debug log data EDM button
  4. Store data button
Added:
>
>
  1. C-band RF electronics readbacks
  2. Consistent EDM displays
 
  1. EPICS control of S-Band attenuators and amplifiers
  2. Orbit calculation for non-mover BPMs
  3. Self describing data format

Revision 617 Sep 2009 - StewartBoogert

Line: 1 to 1
 
META TOPICPARENT name="AtfBpmLogbook"

Idea|Implemented hardware|software improvements.

Line: 20 to 20
 
  1. Single button switch between beam and calibration tone
  2. Reference EDM displays
  3. Diode EDM displays
Added:
>
>
  1. Status PV per BPM (nolo, nocal, uncal, refsat, dipsat, allsat, undef, t0err, ok)
 
  1. Warning system
  2. Tune up all cavities script (calibration tone)
  3. Improve calibration so large signal is obtained when BPM is moved
Line: 31 to 32
 
  1. Integrate temp/LO into archive
  2. SQL database for calibration data, reference orbit data, etc
  3. SVD calibration of mover/non-mover BPMs
Changed:
<
<
  1. Debug log data EDM button
  2. Store data button
>
>
  1. Debug log data EDM button
  2. Store data button
 
  1. EPICS control of S-Band attenuators and amplifiers
  2. Orbit calculation for non-mover BPMs
  3. Self describing data format
Added:
>
>
  1. Corrector calibration code
  2. Simulation mode (single BPM or whole system?)
 

Analysis

  1. determine base line parameters for all cavities before operations 0910

Revision 517 Sep 2009 - StewartBoogert

Line: 1 to 1
 
META TOPICPARENT name="AtfBpmLogbook"

Idea|Implemented hardware|software improvements.

Line: 12 to 12
 
  1. Remove OWIS cards and move VME cards to the left

Software

Changed:
<
<
  1. bpmProcessedServer/bpmProcessor all work on cbpm-lsx
  2. caRepeater in startup script
>
>
  1. bpmProcessedServer/bpmProcessor all work on cbpm-lsx
  2. caRepeater in startup script not needed with all IoCs on different machines
 
  1. Automatic code restart (cron?)
  2. Saturation correction code
  3. T0 correction code
Added:
>
>
  1. Single button switch between beam and calibration tone
 
  1. Reference EDM displays
Added:
>
>
  1. Diode EDM displays
 
  1. Warning system
  2. Tune up all cavities script (calibration tone)
  3. Improve calibration so large signal is obtained when BPM is moved
Line: 26 to 28
 
  1. Python -> EDM to switch to cal mode
  2. Add temp/LO to archiver
  3. Integrate temp/LO into BPM display
Added:
>
>
  1. Integrate temp/LO into archive
 
  1. SQL database for calibration data, reference orbit data, etc
  2. SVD calibration of mover/non-mover BPMs
  3. Debug log data EDM button
Line: 53 to 56
 
  1. Move C-band electronics from Eel's bedroom
  2. AWG via cbpm-win GPIB?
  3. NIM 100 MHz amplifier
Changed:
<
<
  1. Check broken NIM bin
>
>
  1. Check broken NIM bin
 
  1. Install RF source
  2. Move nanosun into racks
Changed:
<
<

For Doug

  1. Level Cband cal tone
  2. Dawn VME serial/network interace
  3. Ask about circulators/phase shifters
  4. Engineering units for temperature and LO
>
>

For Doug (emailed!)

  1. Level Cband cal tone
  2. Dawn VME serial/network interace
  3. Ask about circulators/phase shifters
  4. Engineering units for temperature and LO
  5. Remove attenuators
 

For Stew

  1. Get Sband circulators and phase shifters

Revision 417 Sep 2009 - StewartBoogert

Line: 1 to 1
 
META TOPICPARENT name="AtfBpmLogbook"

Idea|Implemented hardware|software improvements.

Line: 12 to 12
 
  1. Remove OWIS cards and move VME cards to the left

Software

Added:
>
>
  1. bpmProcessedServer/bpmProcessor all work on cbpm-lsx
 
  1. caRepeater in startup script
  2. Automatic code restart (cron?)
  3. Saturation correction code

Revision 317 Sep 2009 - StewartBoogert

Line: 1 to 1
 
META TOPICPARENT name="AtfBpmLogbook"

Idea|Implemented hardware|software improvements.

Line: 53 to 53
 
  1. AWG via cbpm-win GPIB?
  2. NIM 100 MHz amplifier
  3. Check broken NIM bin
Changed:
<
<
  1. Install RF source
  2. Move nanosun into racks
>
>
  1. Install RF source
  2. Move nanosun into racks
 

For Doug

  1. Level Cband cal tone
Line: 64 to 64
 

For Stew

  1. Get Sband circulators and phase shifters
Changed:
<
<
  1. Remind Honda about RF measurements
>
>
  1. Remind Honda about RF measurements
 

Revision 216 Sep 2009 - StewartBoogert

Line: 1 to 1
 
META TOPICPARENT name="AtfBpmLogbook"
Changed:
<
<

Idea|Implemented hardware|software improvements.

>
>

Idea|Implemented hardware|software improvements.

 

System integration

Changed:
<
<
  1. Boot VME system from new linux computer notes
  2. Calibration tone, split into diode and reference electronics (testing diode reconstruction
>
>
  1. Boot VME system from new linux computer notes
  2. Calibration tone, split into diode and reference electronics (testing diode reconstruction)
 
  1. Ciculator and phase shifter to ping cavity and get decay time etc
Changed:
<
<
  1. csy module for switching calibration tones
  2. Cal tone for S-band system
>
>
  1. csy module for switching calibration tones
  2. Cal tone for S-band system
 
  1. Remove OWIS cards and move VME cards to the left

Software

Added:
>
>
  1. caRepeater in startup script
 
  1. Automatic code restart (cron?)
  2. Saturation correction code
  3. T0 correction code
Deleted:
<
<
  1. Warning system
 
  1. Reference EDM displays
Added:
>
>
  1. Warning system
 
  1. Tune up all cavities script (calibration tone)
  2. Improve calibration so large signal is obtained when BPM is moved
  3. Add calibration script to EDM
  4. Change all temp and LO PVs to match BPMs
Added:
>
>
  1. Python -> EDM to switch to cal mode
 
  1. Add temp/LO to archiver
Added:
>
>
  1. Integrate temp/LO into BPM display
 
  1. SQL database for calibration data, reference orbit data, etc
  2. SVD calibration of mover/non-mover BPMs
  3. Debug log data EDM button
  4. Store data button
  5. EPICS control of S-Band attenuators and amplifiers
  6. Orbit calculation for non-mover BPMs
Added:
>
>
  1. Self describing data format

Analysis

  1. determine base line parameters for all cavities before operations 0910
  2. Improve IQ rotation code
  3. Insert mover flips
 

Tests

  1. EDM/Control from atfcc computers
Line: 37 to 46
 
  1. Cavity basic RF measurements
  2. Electronics basic measurements
  3. Digitizer measurements
Added:
>
>
  1. Cal tone coupling

House keeping (Alex + Stew in KEK)

  1. Move C-band electronics from Eel's bedroom
  2. AWG via cbpm-win GPIB?
  3. NIM 100 MHz amplifier
  4. Check broken NIM bin
  5. Install RF source
  6. Move nanosun into racks

For Doug

  1. Level Cband cal tone
  2. Dawn VME serial/network interace
  3. Ask about circulators/phase shifters
  4. Engineering units for temperature and LO

For Stew

  1. Get Sband circulators and phase shifters
  2. Remind Honda about RF measurements
 

Revision 111 Sep 2009 - StewartBoogert

Line: 1 to 1
Added:
>
>
META TOPICPARENT name="AtfBpmLogbook"

Idea|Implemented hardware|software improvements.

System integration

  1. Boot VME system from new linux computer notes
  2. Calibration tone, split into diode and reference electronics (testing diode reconstruction
  3. Ciculator and phase shifter to ping cavity and get decay time etc
  4. csy module for switching calibration tones
  5. Cal tone for S-band system
  6. Remove OWIS cards and move VME cards to the left

Software

  1. Automatic code restart (cron?)
  2. Saturation correction code
  3. T0 correction code
  4. Warning system
  5. Reference EDM displays
  6. Tune up all cavities script (calibration tone)
  7. Improve calibration so large signal is obtained when BPM is moved
  8. Add calibration script to EDM
  9. Change all temp and LO PVs to match BPMs
  10. Add temp/LO to archiver
  11. SQL database for calibration data, reference orbit data, etc
  12. SVD calibration of mover/non-mover BPMs
  13. Debug log data EDM button
  14. Store data button
  15. EPICS control of S-Band attenuators and amplifiers
  16. Orbit calculation for non-mover BPMs

Tests

  1. EDM/Control from atfcc computers
  2. Automation (cron) system tests

Basic measurements

  1. Cavity basic RF measurements
  2. Electronics basic measurements
  3. Digitizer measurements

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