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Understanding Sedona 1.2 Components from Tridium

Understanding Sedona 1.2 Components from Tridium. Components on Wiresheets Create Applications. With Sedona release 1.2.28, Tridium added, modified and reorganized their components and kits

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Understanding Sedona 1.2 Components from Tridium

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  1. Understanding Sedona 1.2 Components from Tridium

  2. Components on Wiresheets Create Applications • With Sedona release 1.2.28, Tridium added, modified and reorganized their components and kits • Contemporary Controls re-distributes these Tridium kits without modification and therefore they can be used on all Contemporary Controls’ Sedona products • Custom components and kits are not addressed in this presentation

  3. Components are Found in the Following Tridium Kits • basicSchedule • datetimeSTD • func • hvac • logic • math • pricomp • timing • types In previous releases, Tridium put all components in the Control kit. Now they are sorted by function. Components discussed in this presentation can be found in one of these kits.

  4. Variable Types

  5. Configuring Constants

  6. Using Write Components

  7. Converting Between Component Types

  8. Float-to-Boolean and Boolean-to-Float Conversion

  9. Float-to-Boolean and Boolean-to-Float Conversion

  10. Negating a Boolean Variable — Inverting Your Logic

  11. Boolean Product — “ANDing” Boolean Variables

  12. Boolean Sum — “ORing” Boolean Variables

  13. Exclusive OR — A OR B but Not Both

  14. Cascading Logic Blocks and Unused Inputs

  15. Cascading Logic Blocks and Unused Inputs

  16. Cascading Logic Blocks and Unused Inputs

  17. Boolean, Float or Integer Selection

  18. Boolean, Float or Integer Selection

  19. Boolean, Float or Integer Selection

  20. Boolean, Float or Integer Selection

  21. De-Multiplexing

  22. Float Addition

  23. Float Subtraction

  24. Float Multiplication

  25. Float Division

  26. Finding Minimums and Maximums

  27. Rounding Off Floats

  28. Averaging Successive Readings

  29. On-Delays and Off-Delays

  30. On-Delays and Off-Delays

  31. Using the Timer

  32. Using One-Shots — Mono-Stable Multivibrators

  33. Creating Ramps — A-Stable Multivibrators

  34. Creating Ramps — A-Stable Multivibrators

  35. Comparing Two Floats

  36. A Simple Clock — the Tick Toc

  37. Introducing Counters

  38. Operating on Real-World Signals — Hysteresis and Limiting

  39. Handling Non-Linear Signals

  40. Handling Non-Linear Signals

  41. Simple Set-Reset Flip Flop — Bi-Stable Multivibrator

  42. The Loop Component — Basic Analog Controller

  43. The Loop Component — Basic PID Controller

  44. Linear Sequencer — Bar-Graph Representation of a Float

  45. Linear Sequencer — Bar-Graph Representation of a Float

  46. Reheat Sequencer — Four Staged Outputs from a Float Input

  47. Reheat Sequencer — Four Staged Outputs from a Float Input

  48. Reset — Scaling a Float Input Between Two Limits

  49. Tstat — Basic On/Off Temperature Controller

  50. Real-Time Clock and Scheduling

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