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Detector URD summaries

Detector URD summaries. or, what we understand from your URD. Introduction. This presentation will cover all detectors that have submitted a URD: SPD, SSD, TPC, HMPID, Muon-Trigger It will concentrate on the following aspects:

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Detector URD summaries

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  1. Detector URD summaries or,what we understand from your URD

  2. Introduction • This presentation will cover all detectors that have submitted a URD: • SPD, SSD, TPC, HMPID, Muon-Trigger • It will concentrate on the following aspects: • Logical view of the detector’s control system (identify sub-systems) • Location of equipment, type of equipment • Communication • Functional or operational requirements • No need for the exact number of channels or parameters, an order of magnitude is sufficient. DCS Workshop

  3. Introduction • The aim is, based on this, to define solutions to suit your requirements • plug-and-play solutions • limited development from your side, support from us • ease of integration later • Explicitly excluded gas and other external systems • But need requirements on the interaction with these systems DCS Workshop

  4. SPD Overview SPD HV LV FEE Cooling Equipment bias PS V/I-monitor plant VME crate V-reg. board temperature detector configuration DCS Workshop

  5. HV SPD bias “Entry point”for DCS The sub-system concerned Ethernet Equipment All locations above the “plug” CAEN 1 crate PX UX 120 channels All locations below the “plug” SPD Detector DCS Workshop

  6. LV SPD PS V-reg. board For each VR: • Over-Current • Inhibit GPIB, RS232, Voltage? Eutron 40 crates Eutron Eutron Ethernet PX 40 channels UX VMEJTAG ctrl JTAG V-reg. board V-reg. board V-reg. board 20 boards (total 840 VR) 840 voltages SPD DCS Workshop

  7. FEE SPD V/I-monitor temperature Parameters to/from Pilot: • V/I-monitor • Monitor 3 Voltages and their Currents on the ladders (6/Pilot) • Temperature (1/Pilot) • Configuration parameters (~50/Pilot) configuration PX UX Ethernet ? Router 120 VME boards Router Router Localoptical link JTAG Pilot 120 Pilots Pilot Pilot DCS Workshop

  8. In case of control or feedback In case of monitoring only I/O device Cooling SPD plant detector PX UX Ethernet plant 1 PLC PLC 10 channels Coolanttemperature,pressure, … SPD DCS Workshop

  9. Equipment SPD VME crate Crate control: VME crates in the cavern: • Router boards • JTAG controller CANbus ? (VME) Crate(s) ? crates PX UX VME Crate(s) ? crates DCS Workshop

  10. SPD status • High Voltage: CAEN SY1527  Solution available • Low Voltage • power supply: Eutron  To be studied (interface) • Voltage regulators: L4913  Depending on (JTAG/VME) implementation • Front End Electronics • V/I - monitor • Temperature  Depending on (JTAG/VME) implementation • Configuration • Cooling • Plant  Common effort (ST/CV) • Detector  Need more information/requirements • Crate control  Little information available DCS Workshop

  11. SPD summary • Some solutions are depending on the interface to the VME/JTAG boards • Solution to interface to LV power supply has to be studied • but should be technically feasible • Need more requirements for the cooling • On-detector equipment, functionality • Technology choices will depend on this • Need information on crates and/or other equipment to be controlled (especially in the cavern) • Concern of radiation for equipment in the cavern (VME) • Planning and milestones missing DCS Workshop

  12. SSD Overview SSD HV LV FEE Equip. Env. Cooling bias PS V-regulation Temp. plant crate temperature detector status DCS Workshop

  13. HV LV SSD bias PS LV power supply: High Voltage: PX Ethernet PX Ethernet UX UX CAEN CAEN 5 crates 1 crate CAEN CAEN 448 channels 144 channels FEROM JTAG distr. SSD End Cap Module SSD DCS Workshop

  14. FEE SSD V-regulation temperature Parameters to/from FEROM: • Temperature • Status and control registers Parameters to/from JTAG distr.: • Status and control registers Parameters to/from ECM (per chip): • Voltage regulation • V/I monitoring • Status and control registers • Temperatures status PX UX JTAG, Fieldbus ? FEROM 8 crates FEROM FEROM 2 crates JTAG distr. JTAG distr. ECM ECM Are JTAG distr. and ECM accessed directlyor through FEROM? 144 ECM’s (max 31 chips/ECM) ECM DCS Workshop

  15. Equip. Env. SSD Temp. crate Crate control: Environment: VME crates in the cavern: • FEROM • JTAG distribution CANbus ? (VME) Crate(s) ? crates ? PX PX UX UX (VME) Crate(s) 10(+) crates I/O Device T SSD DCS Workshop

  16. SSD status • High Voltage: CAEN SY1527  Solution available • Low Voltage • power supply: CAEN SY1527  Solution available • Front End Electronics • Voltage regulation • V/I - monitor  Need more detailed information • Temperature  Depending on communication implementation • Configuration • Cooling • Plant  Common effort (ST/CV)? • Detector  No information • Crate control  Need more information • Environment (temperature)  Solution available, choice of technology DCS Workshop

  17. SSD summary • Need another discussion on the interface to the FEE • Define in more detail what is needed • Need more requirements for the cooling • On-detector equipment, functionality • Need information on crates and/or other equipment to be controlled (especially in the cavern) • Concern of radiation for equipment in the cavern (HV, LV) • Planning and milestones • First tests with SY1527: now • First detector only in 2003 • Need to define more detailed planning and milestones DCS Workshop

  18. TPC TPC Equip. HV LV FEE Cooling Laser chambers PS V-regulation crate plant laser fieldcage temperature readout … error status fieldcage screen DCS Workshop

  19. HV TPC chambers fieldcage Chambers: Fieldcage: RS232, Profibus? CANbus(18 nodes) FUG ISEG 1 crate 3 crates ISEG ISEG PX PX UX 1 channel UX 288 channels TPC TPC DCS Workshop

  20. LV Equip. TPC PS crate Power supply: Crate control: CANbus(22 nodes) CANbus ? Wiener (VME) Crate(s) 22 crates ? crates Wiener Wiener PX PX UX UX 808 channels (VME) Crate(s) ? crates TPC DCS Workshop

  21. FEE TPC V-regulation temperature • V-regulation • V-regulator status (8/FEC + 4/RCU) • Power main switch (2/FEC + 1/RCU) • Voltages (2/FEC + 2/RCU) • Currents (2/FEC + 2/RCU) • Temperature (1/FEC + 1/RCU) • Error status (1/FEC + 1/RCU) PX error status UX Profibus, Ethernet ? RCU 216 RCU’s RCU RCU Local private bus FEC 4356 FEC’s FEC FEC DCS Workshop

  22. Cooling TPC plant readout readout: fieldcage: fieldcage screen PX UX Ethernet PX plant 1 PLC PLC UX Ethernet 44 channels 4 channels Heater Heater PLC PLC 1-2 PLCwith remote I/O ? 1 PLC T T TPC TPC DCS Workshop

  23. TPC status • High Voltage • Chambers: ISEG  Solution available (basic, work ongoing) • Fieldcage: FUG  To be studied (interface) • Low Voltage power supply: Wiener  Solution available (basic, work ongoing) • Front End Electronics • Voltage regulation • Environment  Depending on implementation of communication • Status • Crate control  No information • Cooling • Plant  Common effort (ST/CV) • Readout  Prototype test set-up available  Investigating final solution • Fieldcage  Investigating final solution, depending on first tests • Thermal screen • Laser calibration  No information DCS Workshop

  24. TPC prototyping Prototyping status: • Readout cooling system • Investigate front-end solutions • Study thermal behavior • Readout HV (ISEG) and LV (Wiener) system • Connection to hardware from PVSS • Fieldcage • HV power supply • Resistor rod cooling • Current monitor DCS Workshop

  25. TPC planning Planning: • September 2002 • Electronics (FEC) tests • Basic HV and LV DCS functionality • February 2003 • Electronics (RCU) tests • Basic HV and LV DCS functionality, evolving based on operational experience • DCS connection to RCU • Will include test-beam DCS Workshop

  26. TPC planning Planning: • April 2004 • Pre-installation at SXL2 • Card by card, chamber by chamber, sector by sector tests • HV, LV, cooling, gas; DCS with increasing functionality and integration • 2005 • Cosmic running with TPC at surface • Full TPC DCS to allow (unattended) cosmic running • 2006 • Installation and commissioning DCS Workshop

  27. TPC summary • Solution to interface to Fieldcage HV PS to be studied • but should be technically feasible • Solution for FEE controls depend on choice of communication and availability of prototype • Need information on crates and/or other equipment to be controlled (especially in the cavern) • Final solution on cooling depends on prototype results • Started discussing operational requirements DCS Workshop

  28. HMPID Overview HMPID HV LV FEE Liq. Circ. Equip. Env. chambers PS temperature circulation Temp. crate distribution Humid. DCS Workshop

  29. HV LV HMPID chambers PS LV power supply: High Voltage: PX CANbus PX Ethernet UX UX Wiener CAEN 1 crate 10 crates Wiener Wiener 49 channels 112 channels HMPID HMPID DCS Workshop

  30. FEE HMPID temperature • Only temperatures of FEE & RO electronics are identified • I/O Device could be PLC ? PX UX I/O Device Are these really the only parameters? How are these temperatures accessed? FE boards 70 Boards FE boards FE boards DCS Workshop

  31. Equip. Env. HMPID Temp. crate Humid. Crate control: Environment: CANbus ? (VME) Crate(s) ? crates ? PX PX UX UX (VME) Crate(s) ? crates I/O Device H T HMPID DCS Workshop

  32. Liq. Circ. HMPID circulation distribution PX UX Ethernet circulation PLC distribution 1-2 PLC HMPID modules DCS Workshop

  33. HMPID status • High Voltage: CAEN SY1527  Solution available • Low Voltage PS: Wiener  Solution available (basic, work ongoing) • Front End Electronics • Temperature  Need more information/requirements • Liquid circulation  Prototype, standard solution; self-contained • Crate control  No information • Environment  Solution available Need more information/requirements DCS Workshop

  34. HMPID prototyping Prototyping status: • HMPID prototyping well ahead of others • HV (CAEN) and LV (proto) system • Connection to hardware from PVSS (using framework) • Liquid Circulation prototype • Using Siemens PLC • Connection to hardware from PVSS • Started integration sub-systems • Investigation Finite State Machine (FSM) DCS Workshop

  35. HMPID summary • Well advanced in prototyping solutions • Need further clarification on interface with FEE • Define in more detail what is needed • Need information on crates and/or other equipment to be controlled • Need more information on environment parameters to be monitored (temperature etc.) • Technology choice depend on requirements • Concern of radiation for equipment in the cavern (HV, LV) • Started to look in operational and integration aspects • Need to define more detailed planning with milestones DCS Workshop

  36. Muon-Trg Overview Muon-Trg HV LV Equipment Environment chambers PS Temperature VME crate PM Humidity Atm. pressure Efficiency Sys. DCS Workshop

  37. HV LV Muon-Trg chambers PS PM LV power supply: High Voltage: PX CANbus PX Ethernet UX UX Wiener CAEN 2 crates 2 crates Wiener 72 channels 28 channels 16 channels RPC PM Muon-Trg Muon-Trg DCS Workshop

  38. Equipment Environment Muon-Trg Temperature VME crate Humidity Crate control: Environment: Atm. pressure CANbus ? Efficiency Sys. ? PX (VME) Crate(s) UX ? crates I/O Device PX P H UX T Muon-Trg VME Crates(Wiener ?) 17 crates I/O Deviceor PLC Efficiency System DCS Workshop

  39. Muon-Trg status • High Voltage: CAEN SY1527  Solution available • Low Voltage PS: Wiener  Solution available (basic, work ongoing) • Crate control: Wiener crates  Solution available  Any other? • Environment  Solution available Need more information/requirements • Efficiency monitoring system  Need more information/requirements DCS Workshop

  40. Muon-Trg summary • Is there really no interface with FEE? • Adjustment of HV settings depending on atm. Pressure • Not critical, can be done through supervisory level • Need more information on efficiency monitor system • Concern of radiation for equipment in the cavern (HV, LV, VME) • Need to define more detailed planning with milestones DCS Workshop

  41. Conclusions • Standard equipment well under control and solutions are available now • Need more information on some sub-systems to define adequate solutions • Radiation in the cavern is a worry for commercial equipment • Crate (or other equipment) control is missing, important for areas that are not accessible (cavern) • Need detailed planning • To judge when things are needed • To be able to help you efficiently DCS Workshop

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