Survey of the slow control project for the PANDA cluster-jet target - - PowerPoint PPT Presentation

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Survey of the slow control project for the PANDA cluster-jet target - - PowerPoint PPT Presentation

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National Centre for Nuclear Research, Poland Survey of the slow control project for the PANDA cluster-jet target Target Session of LII PANDA Meeting 1 Arkadiusz Chlopik Universitt Gieen, March 17, 2015 National Centre for Nuclear

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Survey of the slow control project for the PANDA cluster-jet target

Target Session of LII PANDA Meeting 1

Arkadiusz Chlopik

Universität Gießen, March 17, 2015

National Centre for Nuclear Research, Poland

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Arkadiusz Chlopik

National Centre for Nuclear Research, Poland

  • 1. Subsystems of the cluster-jet target

1.1. Cluster-jet source 1.1.1. Cluster-jet source vacuum system 1.1.2. Laval nozzle temperature control 1.1.3. Hydrogen pressure control and gas-flow measurement via the Laval nozzle 1.1.4. Nitrogen distribution system to purge hydrogen from the cluster-jet vacuum system (not discussed at the moment) 1.1.5. Supply system of ultra-pure hydrogen via heated Pd-filter (in charge

  • f SMI Vienna)

1.2. Cluster-jet beam-dump 1.2.1. Cluster-jet beam-dump vacuum system 1.2.2. Nitrogen distribution manifold to purge hydrogen from the beam- dump (not discussed at the moment)

  • 2. EPICS supervisory in cluster-jet target slow control
  • 3. Foreseen devices for the cluster-jet target slow control and their estimated

cost

  • 4. Manpower and slow control time schedule

Agenda

Universität Gießen, March 17, 2015

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Arkadiusz Chlopik

National Centre for Nuclear Research, Poland

Subsystems of cluster-jet target

Universität Gießen, March 17, 2015

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Arkadiusz Chlopik

National Centre for Nuclear Research, Poland

Hardware serving the control of cluster-jet source vacuum system

Universität Gießen, March 17, 2015

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Arkadiusz Chlopik

National Centre for Nuclear Research, Poland

Hardware serving the control of cluster-jet beam-dump vacuum system

Universität Gießen, March 17, 2015

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Arkadiusz Chlopik

Hardware serving Laval nozzle temperature and pressure control and gas-flow measurement

National Centre for Nuclear Research, Poland

Universität Gießen, March 17, 2015

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Arkadiusz Chlopik

National Centre for Nuclear Research, Poland

Data exchange between layers – making running phase

Universität Gießen, March 17, 2015

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Arkadiusz Chlopik

National Centre for Nuclear Research, Poland

Data exchange between layers – final setup

Universität Gießen, March 17, 2015

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Arkadiusz Chlopik

National Centre for Nuclear Research, Poland

New CompactRIO Chassis Integrated with Controller

Model Type NI cRIO-9074 NI cRIO-9081 NI cRIO-9082

Processor and memory 400 MHz industrial real-time processor 1.06 GHz dual-core Intel Celeron processor, 16 GB nonvolatile storage, 2 GB DDR3 800 MHz RAM 1.33 GHz dual-core Intel Core i7 processor, 32 GB nonvolatile storage, 2 GB DDR3 800 MHz RAM Operating System Vx Works LabVIEW Real-Time for determinism or Windows Embedded Standard 7 for flexibility LabVIEW Real-Time for determinism or Windows Embedded Standard 7 for flexibility Chassis 8-slot Spartan-3 (2M gate) FPGA chassis 8-slot Spartan-6 LX75 FPGA chassis 8-slot Spartan-6 LX150 FPGA chassis Peripherals Two 10/100BASE-T Ethernet ports; RS232 serial port for connection to peripherals 1 MXI-Express, 4 USB Hi- Speed, 2 Gigabit Ethernet, and 2 serial ports for connectivity, expansion 1 MXI-Express, 4 USB Hi- Speed, 2 Gigabit Ethernet, and 2 serial ports for connectivity, expansion Price (with power supply + mounting accessories) ~2900 euro ~6600 euro ~7500 euro Universität Gießen, March 17, 2015

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Arkadiusz Chlopik

National Centre for Nuclear Research, Poland

Pictures of CompactRIO Chassis

NI cRIO-9074 NI cRIO-9081 NI cRIO-9082

Universität Gießen, March 17, 2015

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Arkadiusz Chlopik

National Centre for Nuclear Research, Poland

NI cRIO-9081 and NI cRIO-9082 Peripherals

Universität Gießen, March 17, 2015

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Arkadiusz Chlopik

National Centre for Nuclear Research, Poland

Estimated hardware costs

Universität Gießen, March 17, 2015

Device Type Source Beam-dump Unit price [PLN] Total [PLN]

NI cRIO-9082 w/ power supply , panel mount kit and 10m cables 1 pcs 1 pcs 33 358,00 + 23% VAT 82 060,68 NI 9477 (Digital Output) 2 pcs 2 pcs 2 195,00 + 23% VAT 10 799,40 NI 9425 (Digital Input) 2 pcs 2 pcs 1 775,00 + 23% VAT 8 634,60 NI ENET- RS485/4 w/ rack mount kit 1 pcs 5 413,00 + 23% VAT 13 315,98 NI PS-16 (Power Supply) 2 pcs 2 pcs 1 254,00 + 23% VAT 6 169,68 PC Computer or laptop 1 pcs 1 pcs ~ 8 000,00 + 23% VAT 29 520,00 RS232-RS485 Converter 12 pcs 5 pcs 800,00 + 23% VAT 16 728,00

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Arkadiusz Chlopik

National Centre for Nuclear Research, Poland

Estimated hardware costs continued

Universität Gießen, March 17, 2015

In total: 136 545,00 + 23% VAT => 167 950,35 PLN => ~40 000,00 euro There will be also necessary 2 LabVIEW licenses for 43 260,00 PLN + 23% VAT each, what in total is 106 419,60 PLN => ~25 338,00 euro There are not included cables, extra mechanical parts, so the prices are subject to change

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Arkadiusz Chlopik

National Centre for Nuclear Research, Poland

Manpower and slow control tasks time schedule

Universität Gießen, March 17, 2015

Actually there are 4 people part time working for cluster-jet target slow control After signing the contract we plan to employ 2 more collaborators The time schedule for cluster-jet target slow control tasks is still in preparation and will be presented in the nearest future Critical dates:

  • when the Muenster cluster-jet target will become available for

experimenting with slow control

  • when the in-kind contract will be signed and funds start flowing