Slow Control System at experiment 02.07.2016D. Egorov Slow Control System at V. Shutov, D. Egorov, R. Nagdasev 1/15.

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Presentation transcript:

Slow Control System at experiment D. Egorov Slow Control System at V. Shutov, D. Egorov, R. Nagdasev 1/15

Contents: Overview of the setup Slow Control System and Tango Control System Results and future plans D. Egorov Slow Control System at

Nuclotron area beam line from the Nuclotron Building 205 ~ 160 m D. Egorov Slow Control System at 3/15

Main systems of the setup 2 m Central tracker (GEM) Outer tracker (DCH, Straw) ToF system ZDC calorimeter Centrality trigger and beam monitors Magnet SP-41 Electromagnetic calorimeter D. Egorov Slow Control System at 4/15

Slow Control System Gas control system Temperature monitoring HV system Slow Control System Database Internet Server 3 Client 2 Client 3... Access control system Alarm system D. Egorov Slow Control System at Server 1 Server 2 Client 1

Slow Control System toolkits Open Source ++- Object-oriented +-+ Freeware ++- Support of large number of controlled variables ++/-+ Community and feedback +++ Cross-platform ++-/+ COMMERCIAL D. Egorov Slow Control System at

TANGO Control System Device Archiving Service TANGO Software Bus Device TANGO Tools Client C++, Java, Python Linux, Windows Client Device C++ Java Python Device D. Egorov Slow Control System at Clients Servers

TANGO Control System D. Egorov Slow Control System at TANGO

Gas system MKS Instruments flow control equipment D. Egorov Slow Control System at 9/15 Gas flow for TOF detectors during run, –

Temperature monitoring system – Up to 255 sensors in one line, RS-485 Temperature measurements require no external components Measures temperatures from -55°C to +125°C in °C increments Digital form, no conversion needed Temperature at hall, – D. Egorov Slow Control System at

Magnetic field of SP-41 magnet Hall sensors voltage plot of magnet differential or 20 single-ended channels 16-bit resolution, 50 Samples/second ±10 V, ±5 V, ±1 V, ±500 mV, ±150 mV, ±20 mA D. Egorov Slow Control System at

TOF detectors electric current 1 В ~ 1 мкА V ~1 mA TOF detectors electric current, which allows to estimate intension of beam , 02: : D. Egorov Slow Control System at

Controllable devices HV PMT module System calibration of nuclear physics particles calorimeters (Ledgen) Client application for HV PMT modules Client application for Ledgen modules D. Egorov Slow Control System at

Online Web interface Temperature plot for 5 days in bld. 202, LHEP Voltage plot for 1.5 days in bld. 202, LHEP D. Egorov Slow Control System at Based on Python web framework Flask

Thank you for attention! D. Egorov Slow Control System at