Understanding Sedona 1.2 Components from Tridium
54
Understanding Sedona 1.2 Components from Tridium
description
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 - PowerPoint PPT Presentation
Transcript of 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
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
2
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.
3
Variable Types
4
Configuring Constants
5
Using Write Components
6
Converting Between Component Types
7
Float-to-Boolean and Boolean-to-Float Conversion
8
Float-to-Boolean and Boolean-to-Float Conversion
9
Negating a Boolean Variable — Inverting Your Logic
10
Boolean Product — “ANDing” Boolean Variables
11
Boolean Sum — “ORing” Boolean Variables
12
Exclusive OR — A OR B but Not Both
13
Cascading Logic Blocks and Unused Inputs
14
Cascading Logic Blocks and Unused Inputs
15
Cascading Logic Blocks and Unused Inputs
16
Boolean, Float or Integer Selection
17
Boolean, Float or Integer Selection
18
Boolean, Float or Integer Selection
19
Boolean, Float or Integer Selection
20
De-Multiplexing
21
Float Addition
22
Float Subtraction
23
Float Multiplication
24
Float Division
25
Finding Minimums and Maximums
26
Rounding Off Floats
27
Averaging Successive Readings
28
On-Delays and Off-Delays
29
On-Delays and Off-Delays
30
Using the Timer
31
Using One-Shots — Mono-Stable Multivibrators
32
Creating Ramps — A-Stable Multivibrators
33
Creating Ramps — A-Stable Multivibrators
34
Comparing Two Floats
35
A Simple Clock — the Tick Toc
36
Introducing Counters
37
Operating on Real-World Signals — Hysteresis and Limiting
38
Handling Non-Linear Signals
39
Handling Non-Linear Signals
40
Simple Set-Reset Flip Flop — Bi-Stable Multivibrator
41
The Loop Component — Basic Analog Controller
42
The Loop Component — Basic PID Controller
43
Linear Sequencer — Bar-Graph Representation of a Float
44
Linear Sequencer — Bar-Graph Representation of a Float
45
Reheat Sequencer — Four Staged Outputs from a Float Input
46
Reheat Sequencer — Four Staged Outputs from a Float Input
47
Reset — Scaling a Float Input Between Two Limits
48
Tstat — Basic On/Off Temperature Controller
49
Real-Time Clock and Scheduling
50
Real-Time Clock and Scheduling
51
Priority Arrays
52
Priority Arrays
53
Thank You
