Programmable Safety Controller SCR P
3. Select appropriate Status Output settings:
•
Name
•
Module
•
I/O (where applicable)
•
Terminal
•
Input or Output (where applicable)
•
Signal Convention
7.3 Designing the Control Logic
To design the control logic:
1. Add the desired Safety and Non-Safety Inputs:
•
On the Equipment tab: click
changed in the input Properties window)
•
On the Functional View tab: click any of the empty placeholders in the left column
See
Adding Inputs and Status Outputs
2. Add Logic and/or Function Blocks (see
the empty placeholders in the middle area.
Note: The response time of the Safety Outputs can increase if a large number of blocks are added
to the configuration. Use the function and logic blocks efficiently to achieve the optimum
response time.
3. Create the appropriate connections between added inputs, Function and Logic Blocks, and Safety Outputs.
Note: The Check List on the left displays connections that are required for a valid configuration
and all items must be completed. The Safety Controller will not accept an invalid configuration.
Tip: To aid with creating a valid configuration, the program displays helpful tooltips if you attempt
to make an invalid connection.
7.4 Saving and Confirming a Configuration
Confirmation is a verification process where the Safety Controller analyzes the configuration generated by the Software for
logical integrity and completeness. The user must review and approve the results before the configuration can be saved and
used by the Safety Controller. Once confirmed, the configuration can be sent to a Safety Controller or saved on a PC or an
SCR P-FPS drive.
56
Figure 38: Status Output Properties
under the module to which the input will be connected (the module can be
on p. 52 for more information and device properties.
Logic Blocks
on p. 66 and
www.bernstein.eu
- Tel: + 49 571 793 0
Function Blocks
on p. 68) by clicking any of