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System Integration Tool

System Integration Tool. Basic Introduction. Content. I. Nomenclature II. Introduction III. Implementation IV. Integration V. Control. I. Nomenclature. Nomenclature . Functional: Devices are named by their type and channel number: „ IsegHV01.Channel7 “ Geographical:

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System Integration Tool

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  1. System Integration Tool Basic Introduction

  2. Content • I.Nomenclature • II.Introduction • III.Implementation • IV.Integration • V.Control „System Integration Tool “

  3. I.Nomenclature Nomenclature • Functional: • Devices are named by their type and channel number: • „IsegHV01.Channel7“ • Geographical: • Devices are named by their job within the dectector: • „L1_B01_S1_A/7_M1A_HV“ „System Integration Tool “

  4. II.Introduction Reminder • So what do we need in order to operate a detector Module? • HV • VDD • VDDA • More??? • See next slide… „System Integration Tool “

  5. II.Introduction Environm. Module T HV VDD VDDA Optoboard T Sensors VVDC VPin VISet Data Cover Regulator Station T BBIM BBM Distance from interaction point Interlock HV-PP4 LV-PP4 System Iseg Wiener SC-OLink Data Door BOC CAN-Open protocol TCP/IP CAN-Open protocol DCS-PCs Module operation „System Integration Tool “

  6. II.Introduction Chaos • So now we have all this for a SINGLE Module! • What a pain will it be for 1744 of them!?! • How are we going to handle this? „System Integration Tool “

  7. II.Introduction Global control station Temperature monitoring High voltage Graphical user interface JCOP tool Detector control stations DAQ- DCS- communication (DDC) System integration tool (SIT) Front end integration tool (FIT) Finite state machine (FSM) Low voltage Data bases FIT: Functional part mapping set values Configuration data base SIT: Geographical part Layers Layers Layers Layers store data Conditions data base Bi-Staves or Bi-Sectors Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Data Acquisition (DAQ) Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector Modules

  8. II.Introduction What the SIT does • System Integration Tool • Mapping between Detector parts and power supply channels, temperature sensors etc. • Abstraction layer used by FSM and DDC • Responsible for archiving and smoothing of values „System Integration Tool “

  9. II.Introduction Layers Layers Layers Layers Bi-staves or discs Bi-staves or discs Bi-staves or discs Bi-staves or discs Bi-staves or discs Bi-staves or discs Bi-staves or discs Bi-staves or discs Bi-staves or discs Bi-Staves or Bi-Sectors Bi-staves or discs Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector modules Detector Modules Overview of the DCS-Software DAQ-DCS-communication (DDC) Finite state machine (FSM) PVSS based DCS System integration tool (SIT) Temperature monitoring Front end integration tool (FIT) High voltage Functional part Geographical part Low voltage Data base interface „System Integration Tool “

  10. II.Introduction Sorry, what was the goal again? • You… • don‘t want to know, which Iseg-channel might be connected to a certain module! • are not interested in the naming sceme of a regulator board! • don‘t even care what todays connectivity is! • But… • you want to operate the HV, LV, Optical Link • you want to know your Modules‘ temperatures • you want to let the FSM do some work for you • So let the software handle the details for you! • System Integration Tool (1. Step) • FSM (2. Step) „System Integration Tool “

  11. III.Implementation How does it work? (1) • PVSS uses so called „Data Points“ (DPs). • Each DP has a unique name. • If you switch on an Iseg-channel, you manipulate an element of one DP belonging to this Iseg-channel. • What if the channel could have a second name, reflecting it‘s geographical assignment? „System Integration Tool “

  12. III.Implementation How does it work? (2) • PVSS DPs can have a second name, called „Alias“. • Each alias has to be unique. • With the alias, you can manipulate a DP in the same way, as if you would know it‘s name: IsegHV01.Channel7 Power TRUE VSet 150 V L1_B01_S1_A/7_M1A_HV IMon 0.7 mA „System Integration Tool “

  13. III.Implementation How does it work? (3) • Ok, but how does the system know, which alias to assign to which DP? • This can be done by hand for each DP… • Or with an XML-file containing the „mapping“ • Once the aliases have been set, they can be used by everyone • DDC and FSM rely on them to be there! „System Integration Tool “

  14. III.Implementation Structure of the SIT Two main parts • Integration: • Defines connections between Detector parts and off-detector hardware • Facilitates automatic setting of archive and smoothing values for each connected device • Control: • Uses the geographical Detector structure in order to control (switch on / off, change voltages etc.) • Provides a basic graphical representation of the Detector „System Integration Tool “

  15. IV.Integration The main window (1) • 2 buttons: • „Integration“ to open the integration navi panel • „Graphical Control“ to open the control navi panel „System Integration Tool “

  16. IV.Integration Integration Navigation • Just navigate to the PCC (Parallel Cooling Circuit: can be either a Bi-Stave or Bi-Sector) of your choice… „System Integration Tool “

  17. IV.Integration Detector Integration „System Integration Tool “

  18. IV.Integration Example of an XML-file ATLPIX_3:Y1106S1_BBIM02A.Ibox0.Temp1 D1C_B01_S2_TOpto „System Integration Tool “

  19. V.Control The main window (2) • 2 buttons: • „Integration“ to open the integration navi panel • „Graphical Control“ to open the control navi panel „System Integration Tool “

  20. V.Control Graphical Detector Overview „System Integration Tool “

  21. V.Control User Interface „System Integration Tool “

  22. V.Control Half Stave / Sector overview panel • Displays all DCS-relevant data of one ROU (Read-Out Unit: Half Stave / Sector) • Shows only monitoring values • Allows to change values by using reference panels from the FITs (right-click on a voltage to open them) • Trending can be accessed by right-clicking on the ROU name („L1_B01_S1_A/6“ in the picture) „System Integration Tool “

  23. V.Control FIT reference panels • Allow setting of values, switching on/off of channels • Are the same as in the FITs „System Integration Tool “

  24. V.Control Module (reference) panel • Displays all DCS-relevant data of one Detector Module • Shows only monitoring values • Allows to change values by using reference panels from the FITs (right-click on a voltage to open them) • Is a reference itself, so you’ll see it at least 6 times on each ROU • Trending can be accessed by right-clicking on the Module name („M3A“ in the picture) „System Integration Tool “

  25. V.Control Trending „System Integration Tool “

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