Introduction:

The participant will review the principles of Omnivise T3000 Engineering and operation of the Omnivise T3000, Each student will implement a function diagram and plant display to mimic that of a power plant turbine. Additionally, an emphasis on more advanced control system maintenance required of a control system administrator using the tools in Project View.

Objectives:

Upon successful completion of this course, the student should be able to:

  • Create an S7 runtime container
  • Implement control system changes required of control system admins
  • Utilize project view to determine the health of the system
  • Utilize spreadsheet engineering to locate specific items in the control system and make changes as required
  • Create macros and compound components for repeated use and understand the difference between them
  • Modify Alarm types and add or change sounds associated with alarms
  • Create versions and use conversions to determine changes to the control system
  • Use project settings to customize the control system
  • Use project view to build point groups and triggered reports to receive timely data
  • Modify the Omnivise T3000 workbench through indicators and Key Performance Indicators
  • Create overview diagrams to show the relationship between plant displays and function diagrams.

Course Outline:

Review and in-depth training for Project view, diagram editor and transaction analysis, Spreadsheet Engineering, including exercises to ensure understanding of the use of each version of spreadsheet engineering.

Engineering:

  • Function diagrams
  • Plant displays, including small plant displays
  • Overview diagrams
  • Macros
  • Compound Components
  • Dynamic Lines.

Alarms:

  • Create
  • Import and add sounds
  • Assign alarm types
  • Add to indicators on the workbench
  • Move and/or change diagrams using Copy and Modify
  • Project Documentation with exercises.
  • Versioning
  • Triggered Reports and Point Groups.

Overview to Omnivise T3000 System:

  • Implementation of advance functions
  • Commissioning
  • Maintenance
  • Governor control
  • Protection
  • T3000 cyber security.

Practical Exercises:

  • Using a small process simulation on a T3000 installation
  • Normal operation and handling of exceptional situations
  • Reading and analyzing plant displays
  • Trends and reports
  • Handling of simulated exceptional situations.

Practical exercises on a demonstration system, normal operation and handling of exceptional situations.