Lab 6: Modeling the Heat Exchanger
- Create the Heat
Exchanger Template
- Derived a new template from the $UserDefined object, name it $HeatEx,
and assign it to the Training template toolset.
- Add to the $HeatEx template four analog field attributes named T1, T2,
T3 and T4. Configure
each field attribute as follows:
- Access mode: Input
- Data type: Float
- Engineering units: Deg F
- Enable I/O scaling: Checked
- Raw value - Maximum: 4095.0
- EU value - Maximum: 250.0
- EU range value - Minimum: -5.0
- EU range value - Maximum: 255.0
- Create
and deploy a Heat Exchanger Instance
- Create an instance of the $HeatEx template (leave the default name) and assign it to the Intake area.
- Derived a new template from the $UserDefined object, name it $HeatEx, and assign it to the Training template toolset.
- Add to the $HeatEx template four analog field attributes named T1, T2, T3 and T4. Configure each field attribute as follows:
- Access mode: Input
- Data type: Float
- Engineering units: Deg F
- Enable I/O scaling: Checked
- Raw value - Maximum: 4095.0
- EU value - Maximum: 250.0
- EU range value - Minimum: -5.0
- EU range value - Maximum: 255.0
- Create and deploy a Heat Exchanger Instance
- Create an instance of the $HeatEx template (leave the default name) and assign it to the Intake area.
|
Field Attribute |
Instance |
Attribute Name |
|
T1 |
InControl |
tagname.HE1100_TC1 |
|
T2 |
InControl |
tagname.HE1100_TC2 |
|
T3 |
InControl |
tagname.HE1100_TC3 |
|
T4 |
InControl |
tagname.HE2100_TC3 |
- Deploy the object & View the Heat Exchanger Data in Runtime
- Open Object Viewer from within the ArchestrA IDE.
- Using the watch list created in Lab 5, add a new watch window named HeatEx with the following attributes from the HeatEx_001 instance: T1/ T2/ T3/ T4
- Save the watch list.
Last modified: Friday, 21 June 2019, 10:47 AM