Axon ACP CDV29
The CDV29 is a reference (B&B/tri-level) distribution amplifier with 9 outputs and Synapse reference inputs.
The Axon ACP - CDV29 connector can be used to display and configure information related to this device.
About
This connector can be automatically generated by the connector Axon ACP.
There are different possibilities available for alarm monitoring and trending.
Version Info
| Range | Key Features | Based on | System Impact |
|---|---|---|---|
| 1.0.0.x | Initial version [SLC Main] | - | - |
Product Info
| Range | Supported Firmware |
|---|---|
| 1.0.0.x | 0100, 0200, 0300, 0400 |
System Info
| Range | DCF Integration | Cassandra Compliant | Linked Components | Exported Components |
|---|---|---|---|---|
| 1.0.0.x | Yes | Yes | - | - |
Installation and configuration
Creation
The element using this connector can be automatically created by the parent element using the Axon ACP connector, but it can also be a standalone element.
Connections
Serial Main Connection
This connector uses a serial connection and requires the following input during element creation:
SERIAL CONNECTION:
Interface connection:
- IP address/host: The polling IP or URL of the destination.
- Bus address: The bus address of the device, being the slot number of the card.
Serial Broadcast Connection
This connector uses a serial connection and requires the following input during element creation:
SERIAL CONNECTION:
Interface connection:
- IP address/host: The polling IP or URL of the destination.
- Bus address: The bus address of the device.
Usage
This element has the following data pages:
- General: This page displays general information about the card: Card Name, Card Description, SW Revision, HW Revision, etc.
- Amplifier
- Alarm Priority: This page displays the event messages of the card, i.e., special messages generated asynchronously on the card.
DataMiner Connectivity Framework
The Axon ACP connector supports the usage of DCF.
DCF can also be implemented through the DataMiner DCF user interface and through DataMiner third-party connectors (for instance a manager).
Interfaces
Physical Interfaces
- REF Input 1: A single fixed interface of type input.
- REF Input 2: A single fixed interface of type input.
- REF Output 1: A single fixed interface of type output.
- REF Output 2: A single fixed interface of type output.
- REF Output 3: A single fixed interface of type output.
- REF Output 4: A single fixed interface of type output.
- REF Output 5: A single fixed interface of type output.
- REF Output 6: A single fixed interface of type output.
- REF Output 7: A single fixed interface of type output.
- REF Output 8: A single fixed interface of type output.
- REF Output 9: A single fixed interface of type output.
Connections
Internal Connections
Depending on the state of the Active Input, the following connections are established:
REF 1:
Between REF Input 1 and REF Output 1.
- Between REF Input 1 and REF Output 2.
- Between REF Input 1 and REF Output 3.
- Between REF Input 1 and REF Output 4.
- Between REF Input 1 and REF Output 5.
- Between REF Input 1 and REF Output 6.
- Between REF Input 1 and REF Output 7.
- Between REF Input 1 and REF Output 8.
- Between REF Input 1 and REF Output 9.
REF 2:
Between REF Input 2 and REF Output 1.
- Between REF Input 2 and REF Output 2.
- Between REF Input 2 and REF Output 3.
- Between REF Input 2 and REF Output 4.
- Between REF Input 2 and REF Output 5.
- Between REF Input 2 and REF Output 6.
- Between REF Input 2 and REF Output 7.
- Between REF Input 2 and REF Output 8.
- Between REF Input 2 and REF Output 9.