1 UNICOS PVSS Evolution 2009-10 Cryogenics Control Enrique BLANCO Industrial Controls & Electronics Group.

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Presentation transcript:

1 UNICOS PVSS Evolution Cryogenics Control Enrique BLANCO Industrial Controls & Electronics Group

Enrique Blanco [CERN EN/ICE PLC] LHC Cryogenics km Cryogenic point

Enrique Blanco [CERN EN/ICE PLC] RM 78 Sector 78 (3.3 Km) 4.- Cryogenics Control System: Refrigerators Architecture (P8) 3 LHCA QURA LHCCA QURCA QSCCA LHCCB QSCCB LHCB QSRB QSCB QUI QSDN QSAA Comp 4.5K Comp 1.8K Main Dryer Comp 1.8K Comp 4.5K QURCB Cold Box 4.5K LN2 Buffer CB 1.8K Connection Box UCB 4.5K QSRA QSKA QSCA QSAB Main Dryer Local & Central Control Rooms SCADA Data Servers RM 81 Alcoves Sector 81 (3.3 Km) Tunnel Cavern Surface Shaft QSDN RM PA Profibus DP WorldFIP Return Module S78 & S81

Enrique Blanco [CERN EN/ICE PLC] Cryogenics Control System Tunnel Architecture 4 LSS ARC UNICOSPLCs RadTol electronics Ethernet (TN) FESAFECs LHC Tunnel (3.3 Km) WorldFIP Protected areas (radiation free) PA DP PA DP Radiation areas PA DP PA DP shaft (~100 m) Profibus DP Local & Central Control Rooms SCADA Data Servers fiber copper Tunnel Alcoves

Enrique Blanco [CERN EN/ICE PLC] LHC Cryogenics: SCADA architecture 5 q8ds2 1.8K q8ds3 Sect 81 q8ds5 q8ds1 4.5K q4ds2 1.8K q4ds3 Sect 34 q4ds1 Sect 45 q4ds5 4.5K q6ds2 1.8K q6ds3 Sect 67 q6ds5 P6 P4 P8 4.5K / 1.8K q2ds2 Sect 23 q2ds1 P2 q18ds2 Sect 12 q18ds3 P18 Sect 78 CRYOGENICS qLHC Sect 56 q6ds1 4.5K 4.5 / 1.8K

Enrique Blanco [CERN EN/ICE PLC] LHC Cryogenics Px: SCADA architecture 6 Cryogenics Sector R 4.5 K 1.8 K Sector L TN LHC cryogenic point Instrumentation CIET Sector R Sector L GPN I Windows Terminal Servers cerntsablb01 Cryogenics Experts P C WTS cernts P C I Cryogenics Experts Cryogenics Operation O CERN Control Rooms

Enrique Blanco [CERN EN/ICE PLC] LHC Cryogenics: some control system hints 7

Enrique Blanco [CERN EN/ICE PLC] PLC and SCADA Baseline PLC and SCADA Instances Diagnostics tools System Integrity CMW interface Long-Term archiving LHC alarm system Simplified HMI tool to create process synoptics (drag & drop) O Precise placeholders where the control engineer must write the process logic C UNified Industrial COntrol System UNICOS framework usage 8 UNICOS Specifications P Logic P Process Engineer Control Engineer O Operators C I/O Channels Field Objects (Valves, Heaters, …) Process Control Objects (Compressors, feedbox, …) Instances C

Enrique Blanco [CERN EN/ICE PLC] The input to the UNICOS application: SPECS (xls file)  The specs XLS file is created either by hand (recurrent intervention of the instrumentation, control and operation engineers) or automatically.  The automatic creation is done via a dedicated application VBA querying several databases (e.g. LHC Layout)  Some of the parameters needed to generate automatically the full code of the PLC are stored locally  Far from being optimal. Action in progress. 9

Enrique Blanco [CERN EN/ICE PLC] UNICOS application creation Instances From XLS specs (both to PLC and SCADA) using the Standard UNICOS generators : Schneider and Siemens PLC Logic Completing by hand or automatically by the templates creation in the generator. Those templates are done using the logic parameters included in the XLS specs Also there are predefined parameterized PLC functions. SCADA panels Classic panels created & edited by control engineers or/and by operators Static base panels configured via the window tree and initialized with addSymbol PVSS functionalities. Configuration comes from the LHC Layout data base. SCADA customization unCryo package: - Libraries & scripts (user access, dedicated calculations,…) - Panels (e.g. customized beep, multiple commands (PIDs),…) - Access Control mechanisms (architecture dependent) - SOFT & CMW Front-ends: dedicated calculations & external communications WindowTree & Trend tree generated automatically and imported in HMI Unicos HMI customization by XML configuration (using standard UNICOS mechanisms) 10

Enrique Blanco [CERN EN/ICE PLC] UNICOS application deployment 11 devices DB device type templates Instantiation generation Instance Generator PLC device instance Supervision device instance PLC SCADA UNICOS FW UNICOS baseline Devices Specification Device instantiation Scripts Logic skeleton Logic Files Logic templates Basic Logic generation Logic DB Logic Generator Placeholder Skeletons PLC logic

Enrique Blanco [CERN EN/ICE PLC] UNICOS application deployment Platforms PLC Schneider or Siemens Baseline UNICOS Generated code SCADA Data server: HP proliant running LINUX SLC4 Clients: OWS windows managed by CMF (linux is also an option) 12

Enrique Blanco [CERN EN/ICE PLC] UNICOS application update Settings (e.g. deadbands, archiving, …) Online modification and modify to specs whenever possible Devices Spares creation allows online modification. Changes are reported back to the original specs. SCADA: online change of the device PLC: online change of the device and in logic (if needed) store the new version in PARADis (versioning mechanism) Specs update (may need Database updates) Reverse engineering Recreate current settings in the application (PLC * + SCADA) in the XLS specs + generator. 13 * Only available for PLCs Schneider