Siemens pa module p03-01 manual Step By Step Instructions, Task, Training Objective, Programming

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Industry Sector, IA&DT

STEP BY STEP INSTRUCTIONS

TASK

In this task, the display structure will be expanded by another level in order to show more detail for the individual tanks and reactors.

In the example, create in the display for reactor R001 a detail view with a bar display for the reactor level, an online trend display and a message window for displaying the alarms associated with Reactor R001.

Then, for better reusability (for example, for Reactor 002) change the bar display into a user defined object.

TRAINING OBJECTIVE

In this chapter, the student learns the following:

–To set up an ActiveX Control for displaying alarms

–To filter the display of alarms matching the hierarchy

–To insert and parameterize an ActiveX Control of the type ‘Online Trend’ to display archive variables

–To create from a group of objects a user defined object

–Parameterizing and using user defined objects

These instructions are based on the project ‘PCS7_SCE_0203_Ueb_R1305_en.zip‘.

PROGRAMMING

1.First, insert a picture in the folder ‘Reactor R001’ and name it ‘Reactor R001‘. (→ Reactor R001 → Insert New Object → Picture → Reactor_R001)

SCE Training Curriculum	Page 10 of 42	To be used only at Educational and R&D Facilities
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P03-01_AdvancedLayout_R1309_en.doc

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Contents SCE Training Curriculum Industry Sector, IA&DTfor Integrated Automation Solutions Totally Integrated Automation TIA PA Module P03-01Additional information relating to SCE Matching SCE Trainer Packages for these curriculumsContinued education Note on UsageTHEORY IN BRIEF TRAINING OBJECTIVEADVANCED LAYOUT OF UIS Multi purpose plant HIERARCHY OF FLOW DIAGRAMSTHEORY CURVESThe Purpose of Curves Updates Acquisition and Storage of Curve ValuesDesigning Curve Displays PrehistoryProcess Control Primary TaskCommissioning or AnalysisACTIVEX CONTROLS Working areaLITERATURE USER DEFINED OBJECTSTRAINING OBJECTIVE STEP BY STEP INSTRUCTIONSTASK PROGRAMMING2. Then, adapt the settings of the plant hierarchy to the expansion. → Tools → Plant Hierarchy → Settings 4. Then, the block icons have to be generated in the new picture Page 13 of 7. Now, once more activate in the ‘Plant View’ Compile and Download Objects. → SCEPCS7Prj → PLC → Compile and Download Objects 9. Now, in the ‘Component view’, start WinCC by highlighting and opening ‘OS1’. → OS1 → Open Object 11. Now, in the Object Properties, first change the geometry corresponding to your resolution for example, 1024x616 at 1024X768 and the background colors to ‘white’. For the color setting to be accepted, the static in the global color scheme has to be switched to ‘No‘. → Object Properties → Colors → Background color → white → Effects → Global Color scheme → No 12. Next, from the project library, drag in the face plate for reactor R001. → View → Library → Project Library → ReactorV10 Page 18 of value 1000 → Minimum value 0→ 17. Now, the display is positioned exactly over the reactor and some levels are moved to the back Arrange → Within the level → One to back for the stirrer, the heater and the labeling to be visible again then open the Properties for additional adaptations. → Properties 19. Then, select ‘Axis‘. Here, set the attribute ‘Scale‘ to ‘No‘ 21. In the object palette, under the tab ‘Control‘ select the WinCC AlarmControl. Then draw a rectangle with the mouse. → Object palette → Controls → WinCC AlarmControl selection by adding message blocks with the buttons message blocks → Online configuration → Online configuration Do not retain → OK 27. Next, select from the object palette, under the tab ‘Control‘, the WinCC OnlineTrendControl. Then, draw a rectangle with the mouse to position the window for the curve view. → Object palette→ Controls → WinCC OnlineTrendControl Page 26 of Page 27 of Page 28 of Page 29 of Page 30 of 1000 ml. → Value axes → Object name Value axis Temperature → Label C → value Value axis Manipulated variable → Level Value axis Level → OK ‘ReactorR001’ 38. Then, highlight all objects and right click on the selection. Now, select ‘Create customized object‘. → Customized object → Create → StaticText2 Text → OK 44. Next, change the name of the user defined object in the library to click on‘’ for ‘Dynamic’ and then select the tag. → → Tag A1multipurposeplant/ T2reaction/reactorR001/ A1T2L001/ A1T2L001/ MonitorA1T2L001/PV#Value → OK 49. Finally, we should position the faceplates picture blocks correctly, label and save them → → Project Library → customObjectreactorV10 53. In the properties you can now access, under ‘UserDefined’, the selected properties of the customObject. Thus, you created an object with a specific selection of properties that can be used again and again quickly and effectively. → Properties → Object Properties → UserDefined EXERCISES TASKS