SPS CC: Final plan for interlocking of crab cavities in SPS

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Presentation transcript:

SPS CC: Final plan for interlocking of crab cavities in SPS G.Vandoni MPP 29th September 2017

Outline SPS crab-cavity test stand architecture Interlocks Functional specification Safety Machine protection Equipment protection Actions Conclusion Rationale Implementation G.Vandoni @ SPS & LHC Machine Protection Panel

Test stand architecture – tunnel INTERLOCKS FUNCTIONAL SPECIFICATION ACTIONS CONCLUSIONS Test stand architecture – tunnel New handling rails Cryogenic distribution line Crab-cavity cryomodule Y-chamber RF power waveguides Moving Transfer table Cryogenic distribution line RF power waveguides G.Vandoni @ SPS & LHC Machine Protection Panel

Test stand architecture – tunnel and surface INTERLOCKS FUNCTIONAL SPECIFICATION ACTIONS CONCLUSIONS Test stand architecture – tunnel and surface New handling rails Cryogenic distribution line RF power waveguides BA6 – surface area TA6 - alcove CC SPS test stand COLD-BOX RF power amplifiers IOT & Controls LLRF Faraday cage Cryo distribution line Cryogenic compressor He N2 Cryo distribution system Cryogenic distribution line New handling rails RF power waveguides G.Vandoni @ SPS & LHC Machine Protection Panel

Interlock types type why what Personnel safety Radiation (X-rays) TEST STAND ARCHITECTURE INTERLOCKS FUNCTIONAL SPECIFICATION ACTIONS CONCLUSIONS Interlock types type why what Personnel safety Radiation (X-rays) ODH and cryo hazard mechanical hazard Access versus RF Power to cavities Table movement Machine protection Aperture Beam & extraction versus Table position/ movement Vacuum sector valves Equipment protection RF Power versus Vacuum, cryogenics,… Beam versus HOM power Cryogenic distribution line Test program & scope imply an increase in energy + intensity and includes study of failure scenarios: flexible interlocking as we learn to know the system. G.Vandoni @ SPS & LHC Machine Protection Panel

Personnel Safety Safe Access VETO to RF Power Safe Access TEST STAND ARCHITECTURE INTERLOCKS FUNCTIONAL SPECIFICATION ACTIONS CONCLUSIONS Personnel Safety Safe Access VETO to RF Power Safe Access VETO to Table movement Valves closed when table is remotely piloted LHe level >0 VETO to Table movement Valves closed when table is locally piloted G.Vandoni @ SPS & LHC Machine Protection Panel

New EIS-machine LLRF IOT1 IOT2 TEST STAND ARCHITECTURE INTERLOCKS FUNCTIONAL SPECIFICATION ACTIONS CONCLUSIONS New EIS-machine IOT1 IOT2 LLRF G.Vandoni @ SPS & LHC Machine Protection Panel

New EIS-machine Responsability issue being sorted out LLRF TEST STAND ARCHITECTURE INTERLOCKS FUNCTIONAL SPECIFICATION ACTIONS CONCLUSIONS New EIS-machine Responsability issue being sorted out LLRF G.Vandoni @ SPS & LHC Machine Protection Panel

Machine protection - rationale TEST STAND ARCHITECTURE INTERLOCKS FUNCTIONAL SPECIFICATION ACTIONS CONCLUSIONS Machine protection - rationale LHC beam extraction in LSS6 NA slow extraction in LSS6 CCCM CCCM aperture Fast extraction to LHC Crab-cavity in beam does not yield enough aperture for extracted beam Slow extraction of fixed target beam at 400GeV, incl. extraction bump purple : raw beam envelope red: beam envelope + tolerance Crab cavity in beam gives sufficient aperture for slow extraction to NA No bumper dipole interlock (opp. to Coldex) H.Bartosik @ SPS Test Day, I https://indico.cern.ch/event/463435/ G.Vandoni @ SPS & LHC Machine Protection Panel

Machine protection - BIS board entries TEST STAND ARCHITECTURE INTERLOCKS FUNCTIONAL SPECIFICATION ACTIONS CONCLUSIONS Machine protection - BIS board entries Cryogenic distribution line BIS SPS RING – BA6 BIS EXTR1 – BA6 Software Permit VVS CIBU SPS RING CC CIBU U SPS EXTR1 CC CIBU BLM CIBU M 1 new entry, unmaskable, from CC VVS exception for V1/V3 Software permit for OP interlock CC BLM individual threshold setting 1 new entry, unmaskable, from CC G.Vandoni @ SPS & LHC Machine Protection Panel

Controls layout Transfer Table TEST STAND ARCHITECTURE INTERLOCKS FUNCTIONAL SPECIFICATION ACTIONS CONCLUSIONS Controls layout Transfer Table ACCESS ? G.Vandoni @ SPS & LHC Machine Protection Panel

Truth Table for Transfer Table TEST STAND ARCHITECTURE INTERLOCKS FUNCTIONAL SPECIFICATION ACTIONS CONCLUSIONS ACCESS Truth Table for Transfer Table G.Vandoni @ SPS & LHC Machine Protection Panel

TEST STAND ARCHITECTURE INTERLOCKS FUNCTIONAL SPECIFICATION ACTIONS CONCLUSIONS IOT Interlock modules When CM in-beam, the RF PLC status, HOM power threshold, set of RF signals interlock beam When CM out-of-beam, only the table status interlocks beam Internal, equipment protection interlocks INPUT HOM Power threshold* INPUT *HOM Power threshold 200W implemented to protect LHC-type HOM coupler feedthroughs after failure of high power new design HOM FT’s during dressed cavity tests RF status G.Vandoni @ SPS & LHC Machine Protection Panel

Documents STATUS STEPS ECR Access system in work intl check TEST STAND ARCHITECTURE INTERLOCKS FUNCTIONAL SPECIFICATION ACTIONS CONCLUSIONS Documents STATUS STEPS ECR Access system in work intl check expert check approval by project, BE-ICS, DSO… Interlocks Funct Specification EDMS 1843638 approval by project, OP, MPP Procedure for EIS lock-out as per EIS regulation Settle the issue with EIS-machine on IOT direct power interlocking Hardware and PLC logics under construction Operation due to start March 2018 Cooldown & beam permit February 2018 (interlock tests) G.Vandoni @ SPS & LHC Machine Protection Panel

Conclusions Robust, flexible interlocking based on CERN standards TEST STAND ARCHITECTURE INTERLOCKS FUNCTIONAL SPECIFICATION ACTIONS CONCLUSIONS Conclusions Cryogenic distribution line Robust, flexible interlocking based on CERN standards Safety dictates interlock of Access Safe to RF and table movement (EIS on IOT) Machine protection ensured via BIS interlocked with transfer table position Equipment protection and protection against hardware failure in beam implemented Software interlock for flexible, evolving action Thresholds implemented to allow for changes as our knowledge progresses with MDs G.Vandoni @ SPS & LHC Machine Protection Panel

Thank you for your attention L.Arnaudon, R.Calaga, V.Kain, J.Uythoven, S.Gabourin, D.Glenat, T.Ladzinski, D.Vaxelaire G.Vandoni @ SPS & LHC Machine Protection Panel