Alpha XM-2 DSM3
The AlphaNet DSM3 embedded DOCSIS communications module allows the monitoring of an Alpha power supplies XM2 Cable UPS through existing cable network infrastructure. Advanced networking services provide quick reporting and access to critical powering information.
About
The Alpha XM-2-DSM3 connector uses SNMP to retrieve data from the device. Scheduled tests can be executed to determine the health of the UPS and its batteries.
Version Info
| Range | Description | DCF Integration | Cassandra Compliant |
|---|---|---|---|
| 1.0.0.x | Initial version | No | Yes |
| 2.0.0.x | Backwards compatibility with 8.0.6.3 | No | Yes |
Product Info
| Range | Supported Firmware Version |
|---|---|
| 1.0.0.x | 4.4.9.0_03.13_EU |
| 2.0.0.x | 4.4.9.0_03.13_EU |
Installation and Configuration
Creation
SNMP Connection - Main
This connector uses a Simple Network Management Protocol (SNMP) connection and requires the following input during element creation:
SNMP CONNECTION:
- IP address/host: The polling IP of the device.
- Device address: A unique address used by the XM to communicate with the system controller. The format of the bus address is "<DNS server>:<hostname>".
Note: In case of an existing IP of the device, fill in the IP and leave the device address empty. Otherwise, set the IP address to 0.0.0.0 and fill in a device address in the format specified above.
SNMP Settings:
- Port number: The port of the connected device, by default 161.
- Get community string: The community string used when reading values from the device, by default public.
- Set community string: The community string used when setting values on the device, by default private.
Configuration
As soon as it has been created, the element will start polling. However, at this point the used batteries and automatic tests still need to be configured, on the following pages:
- Battery Health page: Select the used battery config.
- Battery Test page: Configure the test interval, duration and execution time.
Usage
Main View page
This page displays the most important information regarding the UPS.
General page
This page contains general information about the UPS. Most of the items on this page are static.
There are several subpages:
- SNMP: Allows you to configure the Trap Addresses and the Access Addresses.
- TFPT: Allows you to configure and monitor the TFTP.
- Miscellaneous: Displays general information about the UPS and allows you to configure a number of settings.
- DDNS: Allows you to configure the polling interval, timeout polling interval, timeout polling time and fail polling interval.
XM-2 page
This page contains general information about the XM-2 power supply. It contains page buttons to the following subpages:
- Charger: Allows you to configure settings related to the charger.
- Protective Interface Module: Allows you to configure settings related to the PIS.
BSS page
This page displays all the battery voltages.
Output page
This page allows you to monitor the current and voltage of the outputs.
- Current peaks: Allows you to configure settings related to current peaks.
- RMS limits Allows you to configure the RMS limits.
Alarms page
This page contains the alarms that are available on the SNMP agent.
Battery Test page
This page displays a summary of the latest test result of the tests performed by this connector or device. The UPS can run a local test and a remote test that causes the batteries to unload. Both the local and remote test are monitored.
To start a new test on the device, click the Start test button.
The following page buttons are available:
- Battery Details: Allows you to configure maximum and minimum values for the battery.
- Battery Age: Displays the age of each of the batteries.
- Battery Config: Allows you to do basic tests of the battery.
- History: Displays the Battery History table, with basic parameters related to the battery.
- Scheduler Allows you to schedule a remote test at a specific time.
Battery Health page
On this page, you can monitor the health of the UPS and its batteries.
Input Failure page
On this page, the Input Failure Registration table keeps track of all input failure occurrences. It displays when a failure starts and ends, for how long it occurred and how big the impact on the network was.
The UPS loses contact with the network when the batteries are fully depleted during an AC failure. The number of minutes that this occurs is displayed in the Impact on Network parameter. The Input Failure Registration Summary table displays a monthly summary. It contains the total duration for the input failure, the impact on the network, and availability parameters for input failure and impact on network.
The page contains one subpage, System Downtime, which allows you to configure the maximum and minimum timeout time.
Web Interface page
This page displays the web interface of the device. Note that the client machine has to be able to access the device, as otherwise it will not be possible to open the web interface.
Modem Info page
This page displays the web interface of the modem. Note that the client machine has to be able to access the device, as otherwise it will not be possible to open the modem info page.
Notes
The connector executes some tests on the retrieved data. The results are visible in the element.
Float State test
The float state parameter is an indication of the health of the batteries and is tested when the charger is in float mode. The individual battery voltages cannot be under a certain threshold, which depends on the temperature while the charger is in float mode.
Possible values: Investigate Battery, Replace Battery, Ok.
Formula:
- IBthreshold = 13.2 + ( 25 - temperature ) * 0.0168
- RBthreshold = 12.8 + ( 25 - temperature ) * 0.0168
Battery Delta Test
The individual battery voltages cannot exceed 0.5Vdc when the inverter is active due to a local or remote test. The individual battery voltages will only be checked when a remote or local test is running. Either the value Not Tested will be displayed if no test has been performed yet, or the most recent value will be kept.
Possible values: Ok, Fail, Not Tested.
Battery Temperature Holding/Variation
The temperature of the batteries is monitored and the maximum and minimum value are stored respectively in the parameters Batteries Temperature Max Hold and Batteries Temperature Min Hold. These parameters in turn are also monitored to calculate the Battery Temperature Variation, which is the difference between the Batteries Temperature Max Hold and Batteries Temperature Min Hold.