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LHC Beam instrumentation status
LBOC 17 March 2015
E. Bravin BE-BI on behalf of many many people in several groups
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Summary
• BPM• BLM• BBQ• OFB• QFB• BCTDC• BCTF• BPF• BWS
• Expected status• Changes w.r.t. run1• Expected
limitations• Plans for the future
• BTV• BSRA• BSRL• BSRT• DIDT• BRAN• BQS• BGI• BGV
Instruments Details
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BPM
• System fully operational• Added BPMs in IR4, moved BPMs in IR5 & 6• Modif. & renamed interlock BPMs (now BPMSI/X)• Replaced racks for mitigating temperature drifts• FIP controllers renewed• Improved diagonal correction• Migrated FEs to L865 and FESA3 & RDA3• DAB firmware rewritten, but not deployed yet
– Waiting for thorough firmware-FESA validation
• Single range for interlock BPMs possible?
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BPM DOROS
• System designed and electronics being produced• 1 Box (8 channels) ready and installed on collimator at
IP1• 2nd box being prepared – should be ready for installation
next Monday on another collimator• 2 More boxes to be installed “as soon as ready” on
BPMs around ATLAS• Remaining 12 boxes will be installed in TS1 (on
collimators and around interaction points)
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BLM (1)
• System fully operational• Changes underground
– Exchanged 40 multiwire cables (ca 240 detectors)– Relocated 816 detectors (between MBs)– Added 30 ICs (TOTEM, MKI, Ions…), 100 SEM ->
LIC– Exchanged all acquisition crate backplanes– Modified all signal distribution boxes – Modified and calibrated all acquisition modules– Diamond BLM almost ready (dedicated DAQ for IP7
and IP4, scopes for other IP’s)
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BLM (2)
• Changes in surface equipment– Serviced and revalidated all processing modules and
optical receivers– Replaced all racks and added two new crates– Replaced all rear connection cables (survey,
interlocks)– Migrated FEs to L865 still FESA 2
• Updated expert naming convention of detectors• Updated OP application (added system status)• New threshold generation concept (calculation of
threshold in the database). Update of thresholds ongoing
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BLMDD
• System fully operational• Redesign of the BLMDD acquisition card• Installation of a new signal-box for new connection
scheme • BLMDD installation tested and commissioned• Verification of the 4 Detector signal path and Dump-
signal path with a current source -> Successful• Final commissioning with beam pending
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BBQ
• System fully operational• Acquisition cards and devices reshuffled
– Devices have now meaningful names: LHC.BQ.ONDEMAND.B1, LHC.BQ.GATED.B1, LHC.BQ.CONT.B1
BPF• System fully operational
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Orbit and Tune FB
• System fully operational– Main functionalities successfully tested already– Aiming for synchronous orbit, fallback free-running
mode• OFSU (now LHC.BFSU) ported to FESA3• Many fixes to OFSU and OFC• To test:
– Q proxying, upload or resp. matrix by MTG event, upload of Q Q’ ref from OP tools and MTG event
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Transformers
• DC and Fast transformers fully operational– Both DC systems (A & B) operational (required)– Fast System-B used for R&D and development– TL and Dump line transformers operational
(unchanged) • Both ring systems ported to FESA3 & RDA3 on L865• BCTF-B toroid replaced by BCTI and BCTW
– Reduce sensitivity to beam offset/bunch length• BFCCM (dIdt) electronics installed and connected to BIS
– FESA and Logging should be ready “around” startup
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Wire scanner
• System available– BWS may be in operational or quasi operational
status at startup depending on the pending firmware upgrade. Procedure for quasi-operational to follow.
• Bellows and comp. springs replaced• PMT base modified (added capacitors)
– Need 30’’ to settle HV (0 to 1500 V), HV ON for 30’• New OP application• Firmware (and FESA) will be upgraded at the first
opportunity if not done before startup.
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WS limits
• At injection the limit remains 2.7 1013 protons
~ 250 nominal bunches• At 4 TeV the limit was 3.8 1012
~ 30 nominal bunches• At 6.5 TeV there is no value yet (beam loss limited):
“At 6.5 TeV we need to measure the loss of a low intensity beam, compare it with the new loss thresholds and make the intensity extrapolation.”
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BTV
• System fully operational• Replaced RF fingers on BTV SS/ST/SE (suffered from
Cu-coating induced cold welds)• New video streaming (no more MUX)• Added second camera on BTVDD (now the images are
inverted (T<->B, L<->R) on video stream, (will be) corrected in FESA*
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BSRA
• System fully operational• Optics layout changed (reduced sensitivity on light
position and increased efficiency)• Ported to FESA3 & RDA3 on L865• Requested interlocking/cleaning feature will be added
after startup
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BSRL (LDM)
• System ready as Expert tool• Optics changed (same as for BSRA)• Added Hybrid PMT on B1 (better than APD in lab tests)• Improved correction algorithm
– Too heavy for FE CPU, will be done in app for the moment
• FESA class simplified (just raw data collection)• APD of B2 will be replaced by Hybrid PMT at first
opportunity if performance confirmed• “Deamon” server will be added if correction algorithm
prove stable
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BSRT
• System operational• Extraction mirror redesigned (reduce heating)• Optics design modified to reduce diffraction (400nm &
250nm) (also machine optics modified in IR4)• Added interferometer and Shack-Hartmann on B1• Added/consolidated T probes (not in FESA/DB yet)• Diffraction is still a limitation, tricky corrections• If the interferometer works well a second could be
installed on B2 during YETS• FESA will be rewritten based on experience with the new
system
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BRAN
• System fully operational• Systems ported to L865, still FESA2• Detectors in IP8 (BRAN-B) replaced (same FESA)
– CdTe->Cherenkov (BRAN-C) (devices doubled)• Detectors in IP2 will be upgraded to BRAN-C in TS1 (no
change for FESA devices)
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Schottky
• System ready, remains expert tool• Pick-ups substantially overhauled• New RF frontend with fast gate and YIG filter installed for
BQSV.B2– Allows to modify the operation frequency, otherwise
fixed at 4.8 GHz• Application to be developed
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BGI BGV
• Systems under development• Will not be useable until TS1 at least
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Conclusions
• Lot of work done during LS1 to improve the systems and add functionalities
• All main systems are ready• Will need some time to fully commission the systems• With every one so busy during LS1 surely many bugs
had the chance to enter and hide in our systems
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Looking forward for you help to get them out!
THANKS!