2014-11-20 NA62 vacuum controls, F. Mateo TE-VSC-ICM Vacuum controls of the NA62 experiment Fernando Mateo TE-VSC-ICM 1 of 14.

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Presentation transcript:

NA62 vacuum controls, F. Mateo TE-VSC-ICM Vacuum controls of the NA62 experiment Fernando Mateo TE-VSC-ICM 1 of 14

NA62 vacuum controls, F. Mateo TE-VSC-ICM  Introduction  Experimental layout  Vacuum equipment layout  Controls architecture  Control crates  Racks layout  Interlocks  Software  PVSS SCADA application  Commissioning 2 of 14

NA62 vacuum controls, F. Mateo TE-VSC-ICM NA62 is a fixed target experiment in the SPS North Area to study very rare decays of Kaons. It is a follow-up experiment of NA48 and it reuses a large amount of its equipment. LOCATION: SPS North Area (Bld. 911 – 918. Site of Prévessin) Introduction 3 of 14

Experimental layout Vacuum sectors: 1.T10  TAX 2.TAX  CEDAR 3.CEDAR  Fast Gate Valve (99m) 4.Fast Gate Valve  Gate Valve (105m) 5.Decay volume + RICH (105m-240m) 6.LKr-Monotube (240m-243m) 7.Gate Valve  Dump & SAC NA62 vacuum controls, F. Mateo TE-VSC-ICM 4 of 14

NA62 vacuum controls, F. Mateo TE-VSC-ICM Vacuum equipment layout > 200 intruments (gauges, valves, pumps) Vacuum layout : EDMS Instruments list: EDMS Passive gauges, no Profibus Active gauges, no Profibus Active gauges, Profibus 5 of 14

NA62 vacuum controls, F. Mateo TE-VSC-ICM PLC master (VRLMS) Remote I/O (VRLRG) OLM (VRJCP006) Optical network Primary pump controller (VRPPH) Profibus I / A / T VGM / VGF Cryogenic group (VPGC) Turbomolecular group (VPGT) VGMB Remote I/O (VRLRG) VGF Roughing pumps (VPR) VGPAVGRA VV Fast valve (VVQ) Turbo group controller (VRPGMF) VRGPT300 Fast valve controller (VRVRC) DA valve controller (VAT_VP3) Special DA valve (VVX) Primary group (VPGR) Controls architecture 6 of 14 Cryo group controller (VRPYA) … Profibus gateway (VRJCP007)

NA62 vacuum controls, F. Mateo TE-VSC-ICM Control crates Commercial crates Custom-made crates 7 of 14

of 14 NA62 vacuum controls, F. Mateo TE-VSC-ICM Racks layout VAC-01 (176m) VAC-02 (176.6m) VAC-03 (177.2m) VAC-04 (190m) VAC-05 (215m) VAC-06 (240.6m) Remote I/O VAT VP3 Turbo pump controller Cryo pump controller Primary pump controller VF2 Fast Valve controller Turbo pump controller TPG300 OLM Profibus gateway FO patch panel UPS TPG300 ECN3 cavern. Positions of VAC racks measured from T10 target. Z (m)

NA62 vacuum controls, F. Mateo TE-VSC-ICM Interlocks TYPENAMEDESCRIPTION INNA62.DiEnablePumpS2S3Pumping Enable for Sector 2 and 3 (if no CEDAR window rupture) IN NOT AVAILABLE!! NA62.DiEnableVentS2S3 Venting Enable of Sector 2 and 3 (if CEDAR at atmosphere pressure). CEDAR vacuum status on DIP published safety information. OUTNA62.DoAlrS2S3VacOkEnable Inside CEDAR pumping (if S2 and S3 are under vacuum) OUTNA62.DoAlrS3S4VacOkEnable GTK cooling (if S3 and S4 are under vacuum) OUTNA62.DoAlrS5HvOkEnable High Voltage on LAV (if S5 atmosphere or under high vacuum) OUTNA62.DoAlrS5RichOkEnable Inside RICH pumping (if S5 is under vacuum) OUTNA62.DoAlrS7HvOkEnable High Voltage on SAC (if S7 atmosphere or under high vacuum) 9 of 14

NA62 vacuum controls, F. Mateo TE-VSC-ICM Many PLC functions have been reused from other systems (LHC): Primary groups Turbo groups New functions have been developed for: Cryo controllers Profibus gauges Specific interlocks (HW/SW) Software 10 of 14

NA62 vacuum controls, F. Mateo TE-VSC-ICM PVSS SCADA application All vacuum equipment has been included in VacDB. The PVSS application was developed in WinCC OA. 11 of 14

NA62 vacuum controls, F. Mateo TE-VSC-ICM Commissioning July 2014: HW commissioning & leak test of blue tube Profibus network test September-October 2014: Full pump-down with remote control system Interlocks test June 2014: Fiber optic network test. Communication with PLC master. Roughing pumps test. Communication with VRPPH controllers. Issues found and solved: bad connectors/cables, conventions mismatchs, cabling errors inside crates, profibus instabilities… November-December 2014: Documentation 12 of 14

NA62 vacuum controls, F. Mateo TE-VSC-ICM Conclusions  NA62 was a challenging experiment which involved dealing with a large variety of equipment and required the collaboration of several groups and sections of CERN.  Vacuum controls were a success: robust vacuum and nominal pressures achieved in all sectors.  Interlocks are fully operational.  The planning was strictly followed and deadlines were respected.  Few things to fix: Membrane gauge transfer function correction. Add relay boxes for VAT VP-3 controllers. Extra interlocks to be implemented? (2015 technical stop). Backup primary groups to be installed in sectors 1-2. Reorganize racks cabling, etc. 13 of 14

NA62 vacuum controls, F. Mateo TE-VSC-ICM Thank you! Special thanks to: Abel / Rodrigo / Sebastien / Berthold Jenninger for support during commissioning. Sebastien / Rodrigo for PLC software development. Victor de Jesus (EN-MEF) for equipment installation. 14 of 14