Get Information Viewing the Alarms Report To access the Current Alarms report, in the System Menu bar, click System Information > Get Information, and then in the Reports panel Type list, select Alarms. The Current Alarms table provides the following information: • Severity—whether alarm is classified as Major or Minor. • Ack’d—whether the alarm has been acknowledged, as indicated by a checkmark. • Alarm Code—system-assigned alarm code.
System Information • Extended Info—link that provides further information on the alarm, including troubleshooting information. IFEU + RAU Report The IFEU + RAU report pertains to an InterReach Spectrum system and is not applicable to this release. FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 111 © 2011 ADC Telecommunications, Inc.
Get Information Viewing the All Report The All Report consolidates all available reports into a single web page. Page 112 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
System Information Downloading a Report CAUTION! The All Report or Analog Units Report can take several minutes to download. You can download the reports to your laptop in Windows Excel format. Do the following to download a report to your computer: 1 In the System Menu bar, click System Information > Get Information. 2 On the Get Information page, in the Reports panel Type list, select the name of the report that you want to download. 3 Click Download. 4 In the File Download window, click Save.
Get Information 5 In the Save As window, navigate to where you want the report file saved, and then click Save. The file is saved as specified. Page 114 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
System Information 6 Go to the directory where the file was saved to open the file. NOTE: While Excel is often used to view this file, Excel uses characters such as hyphens and slashes to create formulas. If discrepancies are seen in this report, use a text editor to verify the report’s content. FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 115 © 2011 ADC Telecommunications, Inc.
Get Optics Information GET OPTICS INFORMATION The Get Optics Information page allows you to view information on the fiber. To access the Get Optics Information page, in the System Menu bar, click System Information > Get Optics Information.
System Information • Wavelength (nm)—number displayed is the wavelength transmitted through this port: – Non-duplex and WDM configurations 1550 nm fwd 1310 nm rev – CWDM configurations can be one of eight wavelengths: 1470 nm 1550 nm 1490 nm 1570 nm 1510 nm 1590 nm 1530 nm 1610 nm • Tx Power (dBm)—launch power level in dBm of forward path signal. The minimum FWD launch power is -2 dBm, and the maximum is 3 dBm.
Get Logs G ET L OGS The Get Logs page allows you to save compressed tar archive files of Prism logs.This feature is primarily used by ADC personnel when troubleshooting a system. However, you should know how to create a log so you can email the log to ADC if requested to do so. 1 To access the Get Logs page, in the System Menu bar, click System Information > Get Logs. 2 Click Get Logs. 3 In the File Download dialog, click Save.
System Information 4 In the Save As dialog, navigate to where you want to save the log file. After a log has been created, it is listed as an Available Log in the Get Logs page. 5 In Windows, navigate to where you saved the log zip file on your hard drive. 6 Double-click on the tar file to access the logs. FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 119 © 2011 ADC Telecommunications, Inc.
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SYSTEM MANAGEMENT Topics Page Moving or Reconfiguring Fibers .............................................................................................. 122 Edit the Properties of All Units in the System ........................................................................... 123 Reset All Units to Factory Default ........................................................................................... 124 Backing Up a System Configuration ..........................................................
Moving or Reconfiguring Fibers MOVING OR RECONFIGURING FIBERS If you need to move or reconfigure fibers during troubleshooting, follow the steps below. 1 Move Host SFPs and fibers to their new locations. 2 Do the following if a previously filled SFP position is now empty: a There will still be a GUI representation of a Remote on that SFP. To remove this ghost representation, follow the steps in “Clear All Disconnect Alarms” on page 184.
System Management E DIT THE P ROPERTIES OF A LL U NITS IN THE S YSTEM The Edit Unit Properties page that is accessible through the System Menu bar allows you to edit basic information and optionally provide notes for all the units in the system at one time. To access the Edit Unit Properties page, in the System Menu bar, click System Configuration > Edit Unit Properties.
Reset All Units to Factory Default R ESET A LL U NITS TO F ACTORY D EFAULT This procedure resets the Host and all connected Remote Units (PRU or URU) to their factory default settings. This procedure does not clear commanded Out of Service and Band Lockout settings (see Table on page 42). 1 Document all configuration data, as everything except user IDs and IP configuration will have to be re-entered.
System Management 6 Log back into the EMS to reconfigure the system. NOTE: It may take a few minutes for the EMS to recognize the Host and connected remotes. FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 125 © 2011 ADC Telecommunications, Inc.
Backing Up a System Configuration B ACKING U P A S YSTEM C ONFIGURATION The Backup page allows you to backup the system configuration. A backup file size is typically less than 1 MB, and a new backup overwrites the pre-existing backup. You use the backup file to restore the configuration as described in “Restoring a Backed Up System Configuration” on page 128. Do the following to backup a system configuration: 1 In the System Menu bar, click System Configuration > Backup. 2 Click Backup.
System Management 4 In the File Download window, click Save. 5 In the Save As window, navigate to where you want the backup file saved, and then click Save. FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 127 © 2011 ADC Telecommunications, Inc.
Restoring a Backed Up System Configuration R ESTORING A B ACKED U P S YSTEM C ONFIGURATION CAUTION! A System Restore can only occur if a previous system configuration has been backed up as described in “Backing Up a System Configuration” on page 126. CAUTION! A system restore requires that you log back into the system. Once you click the Restore button, the system will be unavailable for approximately two minutes. Perform this procedure during a maintenance window.
System Management 4 In the Choose File window, click on the back-up file to select it (the backup filename is in the format of HOSTNAME_.tgz, and then click Open. 5 In the Restore page, wait for the file name and path to display in the File box and for the ennoblement of the Upload button, and then click Upload. 6 In the Restore page, wait for the file upload message to display and for the ennoblement of the Upload and Restore buttons, and then click Restore.
Restoring a Backed Up System Configuration 7 In the confirmation dialog, click OK. Status messages display to notify you if the restoration failed or completed successfully. After a successful restoration, you are logged out of the system. 8 Log back in to the EMS to continue management activities. Page 130 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
System Management PERFORM SYSTEM TEST System Test performs an RF integrity check of the system. Certain alarms (such as the RAU Antenna Disconnect alarm) can only be set or cleared by running System Test. CAUTION! Running System Test (System Configuration > Perform System Test) with un-terminated Host DARTs may cause a false RLM Upconvert Fault. Ensure that all Host DARTs are terminated before running System Test.
Perform System Test 2 In the Bands list, select the passbands for which you want to perform System Test. Only configured passbands will be listed in the Bands list. 3 In the DART list, select the DART you want to perform System Test. Only those DARTS that are available will be listed in the DART list. CAUTION! Regardless if only 1 DART or all DARTs are selected for System Test, System Test temporarily shuts down the RF to all DARTs in the system.
System Management 4 Click Perform System Test. A System Test has started message displays. This message should be followed by one of these messages. You may need to click Refresh to see these messages. • System Test passed. • System Test failed. • System Test not available. • System Test passed – exceptions noted in log file. After a few seconds, the Last Test Results panel updates with a list of major and minor alarms with a corresponding timestamp for when System Test was run.
Perform System Test c In the Save As dialog, navigate to where you want to save the file, and then click Save. The file is saved in Excel format. Page 134 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
System Management SCHEDULE SYSTEM TEST You can schedule a System Test to run on a specific date and time, as described in: • “Schedule System Tests by Date and Time” on page 135 • “Disable a Scheduled System Test” on page 137 Schedule System Tests by Date and Time CAUTION! Running System Test (System Configuration > Perform System Test) with un-terminated Host DARTs may cause a false RLM Upconvert Fault. Ensure that all Host DARTs are terminated before running System Test.
Schedule System Test 5 Click the icon to the right of the DATE box to schedule on which date the System Test will run. If you enter the date manually, use the YYYY/MM/DD format. For example, to run a System Test on 14 June 2011, enter: 2011/06/14. 6 In the Time box, enter the time that the System Test is to run. Use the 24-hour timeclock format of HH:MM:SS. 7 (Optional) Use the Recurrence radio buttons to set up a recurring System Test.
System Management Disable a Scheduled System Test When you disable a scheduled System Test, the Bands, DART, Date, and Time setting remain, but the test will not be run again until enabled. 1 In the System Menu bar, click System Configuration > Schedule System Test. 2 Deselect Enable. 3 Click Apply. FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 137 © 2011 ADC Telecommunications, Inc.
Set SNMP Trap Managers SET SNMP TRAP MANAGERS The Set SNMP Trap Managers page allows you to add, delete, and modify SNMP Trap Managers. The Registered Trap Manager table, at the top of the page, details any existing SNMP Trap Managers, where: • Select radio button—allows you to select an existing SNMP Trap Manager to modify or delete it.
System Management Adding an SNMP Trap Manager 1 In the System Menu bar, click System Configuration > Set SNMP Trap Managers. 2 In the Add New Trap Manager panel, do the following: a In the IP Address box enter the IP address of the device that you want to add as a trap receiver. The address must be in the xxx.xxx.xxx.xxx format. b In the Port box, enter the port on the device that will receive the traps. The normal and recommended SNMP Trap port is 162.
Set SNMP Trap Managers 3 Click Add. The Registered Trap Managers table updates with the new SNMP Trap Manager. Page 140 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
System Management Modifying an SNMP Trap Manager 1 In the System Menu bar, click System Configuration > Set SNMP Trap Managers. The Registered Trap Managers table lists existing SNMP Trap Managers. 2 In the Registered Trap Managers table, select the trap manager that you want to modify. 3 In the Add New Trap Manager panel, do any of the following: • In the IP Address box enter a new IP address. The address must be in the xxx.xxx.xxx.xxx format.
Set SNMP Trap Managers Deleting an SNMP Trap Manager 1 In the System Menu bar, click System Configuration > Set SNMP Trap Managers. The Registered Trap Managers table lists existing SNMP Trap Managers. 2 In the Registered Trap Managers table, select the trap manager that you want to delete. 3 Click Delete. 4 In the confirmation window, click OK. Page 142 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
System Management The deleted SNMP Trap Manager is removed from the Registered Trap Managers table and will no longer receive traps. FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 143 © 2011 ADC Telecommunications, Inc.
Setup SNMP SETUP SNMP 1 To access the Setup SNMP page, in the System Menu bar, click System Configuration > Setup SNMP. 2 In the SNMP V1 Agent Override panel, do the following. a In the Mode list, select the SNMP V1 Agent Override mode: • Enabled • Disabled b In the Address box, enter the SNMP V1 Agent Override address. If the SNMP Agent Override Mode is not Disabled, the system uses this address as the source address in the traps.
System Management A CTIVATE O PTIONAL F EATURES The Activate Optional Features page allows you to activate optional features available in the system that are purchased after the Host Unit has been shipped. NOTE: Activation Codes are supplied by ADC Technical Assistance (see “Appendix C: Contacting ADC/TE Connectivity” on page 297). 1 To access the Activate Optional Features page, in the System Menu bar, click System Configuration > Activate Optional Features.
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MANAGING UNITS Topics Page Basic Unit Views .................................................................................................................. 148 View Optical Ports ................................................................................................................ 149 Viewing DARTs .................................................................................................................... 151 Viewing Network Statistics .................................................
Basic Unit Views BASIC UNIT VIEWS When you click on a device icon in the System Tree, the following view opens in the EMS View Frame, in which there are three places where the selected device is identified. Notice also the indicators for active alarms. In this instance the alarm overlays on the Host and Remote Unit icons indicate that an alarm is active on each device, and the Alarm Counter shows the count of active alarms. The following graphic identifies the components in a basic unit view.
Managing Units VIEW OPTICAL PORTS The View Optical Ports page shows the current usage and alarm status of the optical ports on a Host or a PRU/URU plus the current values of key operating parameters. The Host and PRU/URU chassis have eight optical ports, but the View Optical Ports page only shows active ports (those physically connected to a Host or PRU/URU). Each port in the page represents one set of forward and reverse paths between a Host and Remote.
View Optical Ports • Wavelength (nm)—wave length transmitted through this port: – Non-duplex and WDM configurations: 1550 nm fwd or 1310 nm rev – CWDM configurations can be one of eight wavelengths: 1470 nm 1510 nm 1550 nm 1590 nm 1490 nm 1530 nm 1570 nm 1610 nm • Tx Power (dBm)—launch power level in dBm of forward path signal. The minimum FWD launch power is -2 dBm, and the maximum is 3 dBm.
Managing Units VIEWING DARTS 1 In the System Tree, click on the icon of the Host or PRU/URU for which you want to view information on its DARTs. 2 In the Unit Menu bar, click Unit Information > View DARTs to open the View DARTs page. The table in the View DARTs page provides the following information: • DART Number—identifies any installed DARTs by the slot number in which it is installed in the Host or PRU/URU chassis • DART Name—system or user-assigned name; default is UNKNOWN_DARTNAME.
Viewing Network Statistics VIEWING NETWORK STATISTICS 1 In the System Tree, click on an icon for a Host or Remote Unit. 2 In the Unit Menu bar, click Unit Information > View Network Statistics to open the View Network Statistics page. The View Network Statistics table has the following components: • Port—Identifies the ports in the network.
Managing Units • Tx Byte Counter—Transmit byte counter that increments by the number of bytes that were put on the wire including fragments of frames that were involved with collisions. This count does not include preamble/SFD or jam bytes. This counter does not count if the frame is truncated.
Viewing the Status of the Host Unit VIEWING THE STATUS OF THE HOST UNIT 1 In the System Tree, click on the Host icon. 2 In the Unit Menu bar, click Unit Information > View Status. The Unit Information > View Status page provides the following information for the selected Host. The background of each table cell is color coded to the level of the alarm; see “Viewing Parameters and Alarms” on page 44. For further information on these faults and alarms, see “Troubleshooting Alarms” on page 185.
Managing Units The Host has eight optical ports, but the Optical Status table only shows active ports (physically connected to a Remote). Each port in the table (where SFP 1 is column 1, SFP 2 is column 2, and so forth) represents one set of forward and reverse paths between a Host and Remote. Physically, this may have been accomplished with a dual-connector through that port. Each physical port contains an SFP transceiver with two connectors.
Viewing the Status of a Remote Unit VIEWING THE STATUS OF A REMOTE UNIT For further information on the faults listed in the View Status page for Remote Units, see “Troubleshooting Alarms” on page 185. 1 In the System Tree, click on the icon of the PRU/URU for which you want to view its status. 2 In the Unit Menu bar, click Unit Information > View Status. The Unit Information > View Status page provides the following information for the selected Remote Unit.
Managing Units DART Status Table The DART Status table presents status of the DARTs in a Remote Unit. There can be between 1 and 8 DARTs installed in a Remote Unit. If a DART column has no background color, a DART is not installed in that slot, as shown below. The DART Status table has the following elements. • DART Fault—Summary of DART Downconverter 1 Synthesizer Unlocked, Downconverter 2 Synthesizer Unlocked, Upconverter Synthesizer Unlocked, DC Supply Fault alarms, and DART FPGA status.
Viewing the Status of a Remote Unit LNA Status Table The LNA Status table presents status information for the Low Noise Amplifiers in a Remote Unit. There can be between 1 and 8 LNAs installed in a Prism Remote Unit. • LNA Power Fault—PRU/URU Low Noise Amplifier Power fault. • Module Missing Fault—LNA module is missing. LPA Status Table The LPA Status table presents status information for the Linear Power Amplifiers in a Remote Unit. There can be between 1 and 4 LPAs installed in a Prism Remote Unit.
Managing Units PD Status Table The PD Status table presents status information for the Power Detector in a Remote Unit. There can be between 1 and 4 PDs installed in a Prism Remote Unit. • System VSWR Fault—PRU/URU VSWR measurement above specification. • RF Power Low—PRU/URU RF Output Power below minimum threshold. • Module Missing Fault—Power Detector module is missing. • Duplexer Mismatch—Configured frequency range not supported by Duplexer.
Viewing the Status of a Remote Unit Remote Status Table The Remote Status table provides general status information for a Remote Unit (PRU/URU). • Host Lost—Host is not communicating with PRU/URU. • AC Power Supply Fault—Power supply is in a failed state, or the AC power is below the minimum required voltage. • Temperature High—Temperature above operating limit. Threshold is 95°C. • Temperature Low—Temperature below operating limit. Threshold is Minus 40°C.
Managing Units CLEARING DART CONFIGURATIONS This procedure does the following: • resets the gain • resets the DART name • clears all links • clears the passband • clears all associated alarms 1 In the System Tree, click on an icon for a Host or Remote Unit. 2 In the Unit Menu bar, click Unit Configuration > Clear DART Configuration, to open the Clear DART Configuration page. 3 In the Select column, select the DART(s) for which you want to clear configuration. 4 Click Clear Configuration.
Set the Capacity for a New Remote Unit RSI Board If the DART has been removed from the Host or PRU/URU chassis, then the entire DART entry disappears. If the DART is still present in the Host or PRU/URU chassis, then the DART Name and Passband is reset to default. SET THE CAPACITY FOR A NEW REMOTE UNIT RSI BOARD The Capacity setting in the Edit Properties page pertains to the PRU/URU Remote SeRF Interface (RSI) board and the number of RF groups available to the Remote Unit.
Managing Units 3 In the System Tree, click the icon of the PRU/URU whose properties you want to change. 4 In the Unit Menu bar, click Unit Configuration > Edit Properties, to open the Unit Configuration > Edit Properties page for the selected PRU. 5 In the Capacity list, set the Capacity of the new RSI board: • For all RSI boards installed in a URH, Capacity should always be set to 3.
Rebooting a Unit REBOOTING A UNIT CAUTION! The system configuration is stored on the Host. Rebooting the Host therefore results in a loss of RF for the Host and connected Remote Units until the Host comes back up. Depending on the system configuration, it can take 5 to 20 minutes before management communication is restored. CAUTION! Host configuration persists across a Reboot. However, the current EMS session will close and you will need to log back in to the EMS after the Host reboot has completed.
Managing Units RESETTING AN LPA CAUTION! Once an LPA Reset is started, Loss of Service occurs. It takes approximately 10 to 20 seconds before the LPA signal recovers. The GUI RF power reading will take longer depending on the number of Remotes equipped—for a fully loaded Prism system with 8 Remotes the power reading could take several minutes to update. NOTE: Only a user logged in under the admin or a Network Manager account can change Prism system settings through the EMS.
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ALARMS Topics Page View Current Alarms............................................................................................................. 168 Clear Current Alarms ............................................................................................................ 170 View Alarm History............................................................................................................... 170 Clearing Alarm History ...................................................................
View Current Alarms VIEW CURRENT ALARMS To access the View Current Alarms page, in the System Menu bar, click Alarms > View Current Alarms. (For information on the alarm color codes, see “Alarm Color Codes” on page 44.) The View Current Alarms table provides the following information: • Severity—whether the alarm is classified as Major or Minor. • Ack’d—whether the alarm has been acknowledged, as indicated by a checkmark. • Alarm Code—system-assigned alarm code. • Alarm Name—descriptive name of alarm.
Alarms • Extended Info—link that once clicked opens another web page, which provides further information on the alarm, including troubleshooting information, as shown in the following graphic. – Description—text description of alarm – Remedy—what you can do to correct the alarm state – Threshold—value that once surpassed generates an alarm – Notes—user-defined notes, if any, for the unit. FlexWave Prism Element Management System 7.
Clear Current Alarms CLEAR CURRENT ALARMS 1 To access the View Current Alarms page, in the System Menu bar, click Alarms > View Current Alarms. 2 In the View Current Alarms page, click Clear Alarms. 3 In the confirmation window, click OK. All current alarms, with the exception of persistent alarms, are cleared from the View Current Alarms table. VIEW ALARM HISTORY To access the View Alarm History page, in the System Menu bar, click Alarms > View Alarm History.
Alarms The View Alarm History table provides the following information: • Severity—whether the alarm is classified as Major or Minor. • Ack’d—whether the alarm has been acknowledged, as indicated by a checkmark. • Alarm Code—system-assigned alarm code. • Alarm Name—descriptive name of alarm. • Timestamp—date and time when the alarm occurred (YYYY:MM:DD:HH:MM:SS) • Unit Id—identifies the unit within the system that raised the alarm; see “Unit Identification” on page 43.
Clearing Alarm History CLEARING ALARM HISTORY 1 To access the View Alarm History page, in the System Menu bar, click Alarms > View Alarm History. 2 Click Clear History. 3 In the confirmation window, click OK. The View Alarm History page is cleared. FILTERING THE ALARM HISTORY The View Alarm History page allows you to filter, or select, which alarm histories you want to page. 1 To access the View Alarm History page, in the System Menu bar, click Alarms > View Alarm History.
Alarms b In the contains box, enter the criteria by which you want to filter the alarm history list. c Click Filter. The View Alarm History page refreshes, and now lists only those alarms that meet the specified filter criteria. In this example, only those events with the word “DART” in them display. FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 173 © 2011 ADC Telecommunications, Inc.
Manage Alarms 3 To remove the filter: a In the View list, select None. b Delete any text from the contains box. c Click Filter. MANAGE ALARMS To access the Manage Alarms page, in the System Menu bar, click Alarms > Manage Alarms. • For an example of a Manage Alarms page for a Host Unit, see Figure 23 on page 175 and Figure 24 on page 176. • For an example of a Manage Alarms page for a Remote Unit, see Figure 25 on page 177 and Figure 26 on page 178.
Alarms Figure 23. Example of Manage Alarms Page—Host Unit Part 1 FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 175 © 2011 ADC Telecommunications, Inc.
Manage Alarms Figure 24. Example of Manage Alarms Page—Host Unit Part 2 Page 176 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
Alarms Figure 25. Example of Manage Alarms Page—Remote Unit Part 1 FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 177 © 2011 ADC Telecommunications, Inc.
Manage Alarms Figure 26. Example of Manage Alarms Page—Remote Unit Part 2 Enable and Disable Host and Remote Unit Alarms The Manage Alarms page allows you to enable and disable alarm reporting for the alarms listed in Table 23 on page 178. Table 23.
Alarms Table 23. Alarms That Can Be Enabled/Disabled (Cont.
Manage Alarms Do the following to enable/disable alarm reporting: 1 To access the Manage Alarms page, in the System Menu bar, click Alarms > Manage Alarms. 2 In the Select list, select the Remote Unit for which you want to change the threshold of the RF Power Low alarm. 3 In the Threshold Value box for the RF Power Low alarm, enter the new threshold, which must be between 0 dB - 40 dB. 4 Click Apply.
Alarms Antenna Disconnect Alarm In the Manage Alarms page, there is an Antenna Disconnect Severity menu, which pertains only to Remote Access Units (RAUs) in an InterReach Spectrum system. This feature is therefore not applicable to a FlexWave Prism system and should not be changed from its default setting. FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 181 © 2011 ADC Telecommunications, Inc.
Manage Contact Alarms MANAGE CONTACT ALARMS 1 To access the Manage Contact Alarms page, in the System Menu bar, click Alarms > Manage Contact Alarms. 2 In the Select menu, select for which unit contact alarms are to be configured.
Alarms ACKNOWLEDGE ALL ALARMS 1 To access the Acknowledge All Alarms page, in the System Menu bar, click Alarms > Acknowledge All Alarms. 2 Click Acknowledge All. 3 In the confirmation window, click OK. An All alarms have been acknowledged message displays. FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 183 © 2011 ADC Telecommunications, Inc.
Clear All Disconnect Alarms CLEAR ALL DISCONNECT ALARMS NOTE: Clear All Disconnects is not applicable to the Host—it is applicable only to PRUs. CAUTION! This procedure removes all information related to the disconnected units from the configuration database. 1 To access the Clear All Disconnects page, in the System Menu bar, click Alarms > Clear All Disconnects. 2 Click Clear All Disconnects.
Alarms TROUBLESHOOTING ALARMS This section lists and defines alarms that the FlexWave Prism EMS reports, and provides remedies for those alarms. The MIB Trap name for each alarm is also listed. Major Alarms—Host Unit Alarm: Remote Lost Trap: fwuHstSERFRmtLostFault Alarm Code: Definition: Remedy: AC1 Remote Unit (PRU/URU) not communicating with Host. Check that the PRU/URU has power and that the power switch is on.
Troubleshooting Alarms Alarm: DART Fault Trap: fwuHstDARTFault Alarm Code: Definition: Remedy: AC29 Summary of DART Downconverter 1 Synthesizer Unlocked, Downconverter 2 Synthesizer Unlocked, Upconverter Synthesizer Unlocked, DC Supply Fault alarms, and DART FPGA status. Inspect alarms (Alarms > View Current Alarms) for upconverter/downconverter/DC supply alarms on the same Host DART and follow the remedies for those alarms. If none of these alarms are found, unplug and replug the DART in the Host.
Alarms Alarm: Module Missing Fault Trap: fwuHstModuleMissingFault Alarm Code: Definition: Remedy: AC2 One of the Host pluggable modules is missing (DART/SFP). Either replace Host module or clear DART configuration (Unit Configuration > Clear DART Configuration). Alarm: RLM Upconvert Fault Trap: fwuHstRLMUpconvertFailureFault Alarm Code: Definition: Remedy: AC48 Reverse Link Monitor (RLM) fault active.
Troubleshooting Alarms Alarm: Temperature High Trap: fwuHstOverTempFault Alarm Code: Definition: Threshold: Remedy: AC4 Temperature above operating limit. 62°C Check for Host Fan Fault alarm (Alarms > View Current Alarms). Verify that ambient temperature is less than 50°C. Verify Host air intake and exhaust vents are clear of debris.
Alarms Major Alarms—Remote Units The following alarms apply to both the Prism Remote Unit (PRU) and the URH Remote Unit (URU). Alarm: Module Missing Fault Trap: fwuRmtModuleMissingFault Alarm Code: Definition: AC68 A pluggable module is missing from a Remote Unit, and can be any of the following: DART, SFP, LNA, LPA, or PD. Either replace the PRU/URU module or clear DART configuration (Unit Configuration > Clear DART Configuration).
Troubleshooting Alarms Alarm: DART Hardware Mismatch Trap: fwuRmtDARTHardwareMismatchFault Alarm Code: Definition: Remedy: AC98 Host DART does not support the selected passband. Fault occurs when a Host DART is replaced with another DART of the incorrect type. Install a DART that supports the selected passband.
Alarms Alarm: REV Test Tone Low Trap: fwuRmtUplinkFailureDetectLowFault Alarm Code: Definition: Remedy: AC125 Reverse test tone not at expected level. Retry System Test (System Configuration > Perform System Test). If alarm persists, replace the DART. Alarm: Upconvert Fault Trap: fwuRmtUpconvertfailureFault Alarm Code: Definition: AC126 Band specific alarm raised during Forward Link Monitoring on PRU/URU. Retry System Test (System Configuration > Perform System Test).
Troubleshooting Alarms Alarm: Host Lost Trap: fwuRmtSeRFHstLostFault Alarm Code: Definition: Remedy: AC88 Host not communicating with PRU/URU. Check that the Host has power and that the power switch is on. Check that at least one of the PRU/URU SFPs is connected to this Host and has acceptable RX power. Alarm: SeRF Fault Trap: fwuRmtSERFFault Alarm Code: Definition: AC87 Summary of SeRF Synthesizer Unlocked alarm and SeRF FPGA status.
Alarms Major Alarms—PRU/URU SFPs The following alarms apply to SFPs installed in a Prism Remote Unit (PRU) or in a URH Remote Unit (URU). NOTE: Cascading Remote Units is not supported in this release. Alarms that pertain to cascaded Remote Units are included as reference only.
Troubleshooting Alarms Alarm: Optical RX No Light Trap: fwuRmtSERFOptRxNoLightFault Alarm Code: Definition: Remedy: AC82 No signal detected by optical receiver. Check/repair optical overdrive conditions (Unit Information > View Optical Ports). Ensure that fiber optic connections are clean. Check for kinks or sharp bends in the fiber optic cable; replace fiber optic cable if unable to correct any problems found.
Alarms Major Alarms—PRU or URU LPA The following alarms apply to LPAs installed in a Prism Remote Unit (PRU) or URH Remote Unit (URU). Alarm: LPA DC Fault Trap: fwuRmtLPADcFault Alarm Code: Definition: Remedy: AC109 PRU/URU Linear Power Amplifier (LPA) DC fault. Caused by internally detected problem with the LPA. Impact is loss of RF service. Reset LPA. If alarm persists, replace the RF Module.
Troubleshooting Alarms Alarm: LPA Over Power Trap: fwuRmtLPAOverPowerFault Alarm Code: Definition: Threshold: Remedy: AC107 PRU/URU Linear Power Amplifier (LPA) output power level above operating limit. Variable by LPA band. Causes include, forward path gains are set too high or Host RF input levels are too high. Impact is loss of RF service. Reduce PRU forward gain ("System Configuration -> Configure Remote Forward Gain"). Reset the LPA, and then monitor RF output power levels.
Alarms Minor Alarms—Host Unit DARTs Alarm: DART ALC Limiting Trap: fwuHstDARTALCLimitingFault Alarm Code: Definition: Threshold: Remedy: AC33 Host DART forward path Automatic Level Control active. +19 - Fwd Gain Decrease the Host DART forward path gain (System Configuration > Configure Host Forward Gain), or reduce the RF signal level from the BTS/BDA.
Troubleshooting Alarms Minor Alarms—Host Unit SFPs Alarm: Optical RX High BER Trap: fwuHstSERFOptRxBERFault Alarm Code: Definition: Threshold: Remedy: AC13 High bit error rate (BER) detected by fiber optic receiver. 0.00001 Check/repair optical overdrive conditions (Unit Information > View Optical Ports). Ensure that fiber optic connections are clean. Check for kinks or sharp bends in the fiber optic cable; replace fiber optic cable if unable to correct any problems found.
Alarms Alarm: DART Temperature Low Trap: fwuRmtDARTLowTempFault Alarm Code: Definition: Threshold: Remedy: AC100 DART temperature below operating limit. -40°C Check ambient conditions; fix low temperature conditions in the DART's location. Alarm: Delay Out Of Range Trap: fwuRmtRangingFault Alarm Code: Definition: Remedy: AC96 PRU/URU delay settings outside the valid range. Enter forward and reverse delay values (System Configuration > Configure Delay) within the displayed range.
Troubleshooting Alarms Minor Alarms—PRU/URU SFPs The following alarms apply to SFPs installed in a Prism Remote Unit (PRU) or in a URH Remote Unit (URU). Alarm: Optical RX High BER Trap: fwuRmtSERFOptRxBERFault Alarm Code: Definition: Threshold: Remedy: AC81 High bit error rate (BER) detected by fiber optic receiver. 0.00001 Check/repair optical overdrive conditions (Unit Information > View Optical Ports). Ensure that fiber optic connections are clean.
Alarms Contact Alarms—Host System Card Alarm: Host Major Contact Alarm Output Active Trap: fwuHstContactAlarmOutput1 Alarm Code: Definition: Remedy: AC41 User configurable Major Contact Alarm Output active. Check for any major alarms (Alarms > View Current Alarms). Follow the remedies for those alarms. Alarm: Host Minor Contact Alarm Output Active Trap: fwuHstContactAlarmOutput2 Alarm Code: Definition: Remedy: AC42 User configurable Minor Contact Alarm Output active.
Troubleshooting Alarms Alarm: Contact Alarm Input 2 Active Trap: fwuRemoteContactAlarmInput2 Alarm Code: Definition: Remedy: AC66 Remote Unit (PRU/URU) Contact Alarm Input #2 active. Check equipment connected to Remote Unit (PRU/URU) Contact Alarm Input 2, or check contact polarity (i.e., Normally Open or Normally Closed). Page 202 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
USERS Topics Page Understanding FlexWave EMS User Accounts ........................................................................... 204 Manage Users Page ..............................................................................................................205 Add a New User ............................................................................................................. 205 Change a User’s Access Level..................................................................................
Understanding FlexWave EMS User Accounts UNDERSTANDING FLEXWAVE EMS USER ACCOUNTS The EMS provides security, which can be broadly classified as: • User Authentication, which defines the way a user is identified prior to being allowed to log on to the EMS. User Authentication ensures that only known users have access by providing a method of identifying each user through a user ID and password.
Users MANAGE USERS PAGE The Manage Users page allows you to: • “Add a New User” on page 205 • “Change a User’s Access Level” on page 207 • “Change a User Password” on page 208. Add a New User CAUTION! If Auto Complete (that is, remember username/password) is turned on in your web browser, when you add a new user, the browser automatically fills in Prism user names and passwords with the saved information. To avoid this, disable Auto Complete in your browser.
Manage Users Page 4 Click Add. The following message displays, listing the new user by Name. Additionally, the Add New User fields are cleared so you can add other users as needed. 5 In the System Menu bar, click Users > Manage Users to see an updated list of users. Page 206 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
Users Change a User’s Access Level 1 In the System Menu bar, click Users > Manage Users to see a list of users. 2 To change a user’s access, select the user in the Select column, which activates the operational buttons. 3 Click Change Access. 4 Verify that the name listed for Selected User is the user whose access level you want to change. 5 In the Change Access Level page, use the Access Level menu to change the access level for this user.
Manage Users Page 7 In the System Menu bar, click Users > Manage Users to see an updated list of users. At this time the operational buttons, with the exception of Add New User and Refresh, will be disabled, as no user is selected. Change a User Password NOTE: Only the admin user or a user with the Network Manager access level can change the password of another user. 1 In the System Menu bar, click Users > Manage Users to see a list of users.
Users 3 Click Change Password. 4 In the Change Password page, do the following: a Verify that the name listed for Selected User is for the user whose password you want to change. b In the New Password box, enter a new password for this user. The Password must contain at least 6 alphanumeric or special characters, and cannot be empty or contain spaces. c In the Confirm Password box, enter the exact same password as you entered in the New Password box. 5 Click Change Password.
Change Your Personal Password CHANGE YOUR PERSONAL PASSWORD 1 In the System Menu bar, click Users > Change Password. 2 In the Change Password page, do the following: a In the Old Password box, enter your existing password. b In the New Password box, enter a new password for this user. The Password must contain at least 6 alphanumeric or special characters, and cannot be empty or contain spaces. c In the Confirm Password box, enter the exact same password as you entered in the New Password box.
Users RECOVERING A PASSWORD If a user changes his or her password and then forgets the new password, the admin user needs to recreate an account for the user. If the password is changed and then forgotten for the admin user, the admin should contact ADC for assistance. FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 211 © 2011 ADC Telecommunications, Inc.
Delete a User DELETE A USER 1 In the System Menu bar, click Users > Manage Users to see a list of users. 2 Select the user whose account is to be deleted in the Select column, which activates the operational buttons. 3 Click Delete. 4 In the confirmation dialog, which identifies the user being deleted, click OK. The User deleted successfully message displays and the Users table is updated in the Manage Users page. Page 212 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
UPGRADING THE SYSTEM AND UNITS Topics Page Upload the Upgrade Files ...................................................................................................... 214 Updating a Prism System ...................................................................................................... 216 Commit the Upgrade ............................................................................................................ 219 Abort an Update ........................................................
Upload the Upgrade Files U PLOAD THE U PGRADE F ILES Use the Upload page to transfer the required upgrade files from a computer or laptop to your Prism system or unit. Each software upgrade requires the following files to go from one version to the next: • upgrade.x-y.tar.gz.md5 • upgrade.x-y.tar.gz where • x identifies the version from which the unit/system is being upgraded • y identifies the version to which the unit/system is being upgraded.
Upgrading the System and Units 7 Select the *.tar.gz file, and then click Open. The Choose File dialog closes and the name of the selected file displays in the Upgrades > Upload page File box. 8 Click Upload. Wait for the File has been uploaded message to display. FlexWave Prism Element Management System 7.1 User Manual ADCP-77-177 • Issue 1 • July 2011 Page 215 © 2011 ADC Telecommunications, Inc.
Updating a Prism System 9 In the Upload page, Click Browse. 10 In the Choose File dialog, navigate to where the upgrade *.tar.gz and *.tar.gz.md5 files are stored. 11 Select the *.tar.gz.md5 upgrade file, and then click Open. 12 The Choose File dialog closes and the name of the selected file displays in the Upgrades > Upload page File box. 13 Click Upload. Wait for the File has been uploaded message to display.
Upgrading the System and Units The Software/Firmware table provides the following information: • Module Type—type of unit (Host, PRU, or URU). • Name—user-assigned name for the unit. • Unit Id—identifies the unit within the system (see “Unit Identification” on page 43). • Version—version of installed software/firmware. • Upgrade Status—the following states can be seen.
Updating a Prism System 3 Update the Host and the Remote Unit(s): a In the System Menu bar, click Upgrades > Update Units. In the Update Units page, you are notified that the file that you uploaded in “Upload the Upgrade Files” on page 214 is ready for use. If an upgrade file is not listed, repeat the steps in “Upload the Upgrade Files” on page 214. b In the Select Unit Type list, select Host+DRU+PRU+URU.
Upgrading the System and Units CAUTION! At this point, the system goes offline for the approximate time listed in Table 25 on page 216. d Wait approximately four minutes, and then log back in to the EMS to complete this procedure. 4 Complete Step 1 on page 216 to verify the status of the Host/Remote Unit(s) updates. COMMIT THE UPGRADE NOTE: If you need to abort an update, go to“Abort an Update” on page 220. 1 Complete the steps in “Updating a Prism System” on page 216.
Abort an Update ABORT AN UPDATE An upgrade can be aborted, if necessary. NOTE: If you want to commit an update, go to “Commit the Upgrade” on page 219. 1 To access the Upgrades Abort page, in the System Menu bar, click Upgrades > Abort. 2 Click Abort. 3 In the confirmation window, click OK. The system informs you when the abort operation has completed. Page 220 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
Upgrading the System and Units UPDATING INDIVIDUAL UNITS Only perform a unit update on a unit when the unit is being added to the system as a new or replacement unit, and the new unit requires a firmware update to match the firmware version of the other units within the system. CAUTION! If this procedure is performed on a Host Unit, the Host is taken offline (see estimates in Table 25 on page 216). Perform this procedure during normal maintenance time.
Updating Individual Units 4 In the Unit Menu bar, click Unit Upgrades, Upgrade. NOTE: If you have not uploaded the required update files, the following page opens, and the Update button is disabled. You cannot continue until the correct update files have been loaded. 5 Click Update. Within four minutes, the EMS logs you off and terminates the EMS session. CAUTION! At this point, the system goes offline for the approximate time listed in Table 25 on page 216.
Upgrading the System and Units 8 Commit the update to the unit. (If you need to abort an update, go to “Abort an Update” on page 220.) a In the System Menu bar, click Upgrades > Commit. b In the Upgrades > Commit page, click Commit. c In the confirmation window, click OK. The system informs you when the commit operation has completed. 9 Complete Step 1 on page 216 to verify the status of the update. FlexWave Prism Element Management System 7.
Updating Individual Units Intentionally Blank Page Page 224 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
SPECIAL FEATURES Topics Page Run Script........................................................................................................................... 226 Run Command..................................................................................................................... 226 Configure Feature ................................................................................................................ 227 This section describes special features of the Prism EMS.
Run Script R UN S CRIPT The Run Script page, accessed via Special Features > Run Script, is not applicable to a Prism system and should not be used. R UN C OMMAND The Run Command page, accessed via Special Features > Run Command, is not applicable to a Prism system and should not be used. Page 226 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
Special Features C ONFIGURE F EATURE CAUTION! This procedure requires a system reboot. The system configuration is stored on the Host. Rebooting the Host therefore results in a loss of RF for the Host and connected Remote Units until the Host comes back up. Depending on the system configuration, it can take 5 to 20 minutes before management communication is restored. CAUTION! Host configuration will not persist across a Configure Feature Reboot—all settings will revert to factory default.
Configure Feature Intentionally Blank Page Page 228 © 2011 ADC Telecommunications, Inc FlexWave Prism Element Management System 7.
USING AN SNMP INTERFACE Topics Page SNMP Overview ................................................................................................................... 230 Working with Prism MIB Files................................................................................................. 231 Accessing Prism MIBs...................................................................................................... 233 System Date and Time MIB Format ...................................................
SNMP Overview SNMP OVERVIEW SNMP (Simple Network Management Protocol) is an international standard for remote control of online devices. A typical scenario involves the devices being controlled, remote computers (called managers) that can control them, a network connection, and SNMP software. The SNMP software includes SNMP manager software on controlling computers, SNMP agent software on managed devices, and one or more MIBs used by the SNMP managers for each controlled device.
Using an SNMP Interface WORKING WITH PRISM MIB FILES NOTE: Examples shown in this chapter use a browser from AdventNet or iReasoning. Procedural details may vary with another browser, but the basic steps are the same. NOTE: In the Prism system, the database accessed through the SNMP interface is the same database as used by the EMS graphical user interface. There is therefore a similarity between MIB objects and the parameters displayed in the EMS Web pages.
Working with Prism MIB Files In a manager browser, a MIB looks like the EMS System Tree’s hierarchy of folders and files, as shown in Figure 29. Figure 29. Prism MIB Tree MIB items are arranged in a hierarchy of groups, like a hierarchy of folders. Known OIDs specify scalars (objects). MIB objects are arranged in groups and tables. To be specified completely, table entries require one or more row indices. Each set of objects (within a single folder) represents one such group or table.
Using an SNMP Interface Accessing Prism MIBs The Prism Agent MIB can be accessed using any SNMP manager with an active network connection. The IP address of the Host must be known and entered in the MIB browser. 1 On the manager computer, open the MIB Browser. 2 Load the MIB files in the following order: a ADC-FWU-URH-TC-MIB.mib b ADC-FWU-IRS-TC-MIB.mib c ADC-FLEXWAVE-URH.mib 3 Enter the IP address of the Host of the Prism system in the text box provided next to Host. 4 Enter the Port number as 161.
Working with Prism MIB Files System Date and Time MIB Format fwuHstSystemDateandTime allows you to set the system date and time, where the input is as follows: YYYY-MM-DD,HH:MM:SS.D (24-Hour Time Format) where fields are required (none are optional) and indicate the following in 24-Hour time format. • YYYY—Year • MM—Month • DD—date • HH—Hour • MM—Min ute • SS—Seconds You can input the month, date, hour, minutes, seconds, and deci seconds as a single digit or as a double digit (that is, prefixed with 0).
Using an SNMP Interface Band Types Table 26 lists the band types for Host RF DARTs, and Table 27 on page 236 lists the band types for Remote IF DARTs. Table 26.
Prism MIB Objects Table 27.
Using an SNMP Interface Parameters in ADC-FLEXWAVE-URH-MIB System-Level Parameters System Date and Time SNMP MIB: Description: Values: fwuHstSystemDateAndTime The date and time settings on the system 1970-01-01,00:00:00 to 2037-12-31,23:59:59; see “System Date and Time MIB Format” on page 234 Default: System time Syntax: DateAndTime Access Level: Octet String System Alarm Acknowledge SNMP MIB: Description: Values: fwuSystemAlarmAck Acknowledges all or individual alarms 0 = Acknowledge all alarms Greate
Prism MIB Objects DART Band Type for System Test User Commanded SNMP MIB: Description: Values: Default: Syntax: Access Level: fwuUserCommLinkTestDartBandType Band type (the RF DART type) of selected units See “Band Types” on page 235.
Using an SNMP Interface Host Unit Parameters Host Parameters Host Number SNMP MIB: Description: Values: Default: Syntax: Access Level: fwuHstNumber Number enumerating a Host A number greater than 0 1 Integer32 Read Only Host Name SNMP MIB: Description: Values: fwuHstName User defined name of the Host Alphanumeric Characters. Except as first character, the underscore (_) character is allowed. Must be 5 to 40 characters in length, with no spaces.
Prism MIB Objects Host Alarm Status Summary SNMP MIB: Description: Syntax: Access Level: fwuHstAlarmStatusSummary Alarm Status Summary for Host ALARM-TYPE Read Only Temperature Measurement SNMP MIB: Description: Values: Syntax: Access Level: fwuHstTempMeas Host system temperature value in Celsius SIZE ( 1…8) Octal String Read Only Linking Mode SNMP MIB: Access Level: Values: Default: Syntax: Access Level: fwuHstLinkingMode The DART Linking mode on the System 2 = Manual 2 Integer Read-Write Host SeRF
Using an SNMP Interface PPC HW Monitor SW Version SNMP MIB: Description: fwuHstSERFPPCHWMonSWVer Software Version of the hardware Monitor process running on the Host Syntax: Display String Access Level: Read Only PPC Application Monitor SW Version SNMP MIB: Description: fwuHstSERFPPCAPPMonSWVer Software Version of the Application Monitor process running on the Host Syntax: Display String Access Level: Read Only SNMP Agent SW Version SNMP MIB: Description: Syntax: Access Level: fwuHstSERFPPCSNMPAgentSW
Prism MIB Objects Linux First Stage Boot Loader Version SNMP MIB: Description: Syntax: Access Level: fwuHstSERFLinuxBootLoaderVer Boot Loader1 Version of the Host system Display String Read Only SeRF FPGA Version SNMP MIB: Description: Syntax: Access Level: fwuHstSERFFPGAVer Version of FPGA Loaded on SeRF Display String Read Only RI ADC Part Number SNMP MIB: Description: Syntax: Access Level: fwuHstSERFRIADCPartNumber Host SeRF Inventory - ADC Part Number Display String Read Only RI Serial Number SNM
Using an SNMP Interface pThread Software Version SNMP MIB: Description: Syntax: Access Level: fwupThreadSoftwareVersion The version number of pThread process DisplayString Read Only Subagent Software Version SNMP MIB: Description: Syntax: Access Level: fwuSubagentSwVersion The version number of the subagent DisplayString Read Only Web Server Software Version SNMP MIB: Description: Syntax: Access Level: fwuWebServerSwVersion The version number of web server DisplayString Read Only Host SeRF Optics Par
Prism MIB Objects SFP Transmission Color SNMP MIB: Description: Syntax: Access Level: fwuHstSERFOptSFPTxColor SFP wavelength in nanometer (nm) Integer32 Read Only FWD Launch Power SNMP MIB: Description: Syntax: Access Level: fwuHstSERFOptFwdLaunchPowerMeas Value of Host Transmit measured optical power in dBm DisplayString Read Only REV Receive Power SNMP MIB: Description: Syntax: Access Level: fwuHstSERFOptRevLaunchPowerMeas Value of Host Receive measured optical power in dBm DisplayString Read Only
Using an SNMP Interface Host SeRF ENET Switch Parameters Ethernet Port Number SNMP MIB: Description: Values: Syntax: Access Level: fwuHstSERFEthPortNumber An identifier for each Ethernet port 1…12 Unsigned32 Read Only Ethernet Port Type SNMP MIB: Description: Syntax: Access Level: fwuHstSERFEthPortType An identifier for the type of Ethernet port EnetType Read Only Host SFP ID SNMP MIB: Description: Values: Syntax: Access Level: fwuHstSERFEthPortSFPId Identifier of SFP to which the Ethernet port connec
Prism MIB Objects Receive-multicast-packets SNMP MIB: Description: Syntax: Access Level: fwuHstSERFEthPortRxMulticastPkts Receive multicast packet counter Counter64 Read Only Receive-broadcast-packets SNMP MIB: Description: Syntax: Access Level: fwuHstSERFEthPortRxBroadcastPkts Receive broadcast packet counter Counter64 Read Only Rx-fragmented-frames SNMP MIB: Description: Syntax: Access Level: fwuHstSERFEthPortRxFragmtdFrames Receive fragments counter Counter64 Read Only Rx-jabber-frames SNMP MIB: D
Using an SNMP Interface Tx-broadcast-packets SNMP MIB: Description: Syntax: Access Level: fwuHstSERFEthPortTxBroadcastPkts Transmit broadcast packet counter Counter64 Read Only Host SeRF FPGA Parameters Status SNMP MIB: Description: Values: fwuHstSERFFPGAStatus Gives the status if FPGA on SeRF Card 0 = PPC can talk to FPGA 1 = PPC cannot talk to FPGA Default: 0 Syntax: Integer Access Level: Read Only Host List of Remotes Parameters Monitor Index SNMP MIB: Description: Syntax: Access Level: fwuHMmonI
Prism MIB Objects Host DART Module Parameters Card Number SNMP MIB: Description: Values: Syntax: Access Level: fwuHstDARTNumber A unique identifier for each DART Module Object Range 1 - 8 Integer Read Only Card Name SNMP MIB: Description: Values: fwuHstDARTName A user defined name for each DART Module Alphanumeric Characters. Except as first character, the underscore (_) character is allowed. Must be between 5 and 32 characters in length, with no spaces.
Using an SNMP Interface Diversity Status SNMP MIB: Description: Values: fwuHstDARTDiversityStatus Diversity Status of Host DART Module 0 = Non-diversity 1 = Diversity Default: 0 Syntax: Integer Access Level: Read Only Forward Gain SNMP MIB: Description: Default: Syntax: Access Level: fwuHstDARTForwardGain Primary Gain of Host DART Module 0 GainType Read-Write Reverse Gain SNMP MIB: Description: Values: Default: Syntax: Access Level: fwuHstDARTReverseGain Primary Gain of Host DART Module 5…36, Units =
Prism MIB Objects RI ADC Part Number SNMP MIB: Description: Syntax: Access Level: fwuHstDARTRIADCPartNumber Host DART Inventory Data - ADC Part Number Display String Read Only RI Serial Number SNMP MIB: Description: Syntax: Access Level: fwuHstDARTRISerialNumber Host DART Inventory Data - Serial Number Display String Read Only RI Date Code SNMP MIB: Description: Syntax: Access Level: fwuHstDARTRIDateCode Host DART Inventory Data Code Display String Read Only DART RI HW Version SNMP MIB: Description:
Using an SNMP Interface Peak Average Input Power Level 2 SNMP MIB: Description: fwuHstDARTPeakInputPwrLvl2 Peak Average input Power level2. For Diversity systems, this will be NA. Default: NA Syntax: DisplayString Access Level: Read Only Min Average Input Power Level 1 SNMP MIB: Description: fwuHstDARTPeakAvgInputPwrLvl1 Minimum Average Input Power Level1. For Diversity systems, this will be NA.
Prism MIB Objects Power Level Mode SNMP MIB: Description: Values: fwuHstDARTInputPowerMode DART power level Mode 0 = snapshot 1 = maxHold Default: 0 Syntax: Integer Access Level: Read-Write Power Level Max Hold Reset SNMP MIB: Description: Values: fwuHstDARTPwrLevelMaxHoldReset Host DART Input Power Level Max Hold Reset -1 = Not Applicable 0 = Normal 1 = Reset Default: -1 Syntax: Integer Access Level: Read-Write Last Max Hold Reset Time SNMP MIB: Description: Syntax: Access Level: fwuHstDARTLastMax
Using an SNMP Interface RI Serial Number SNMP MIB: Description: Syntax: Access Level: fwuHstSysCardRISerialNumber Rmt Inventory Data - Serial Number Display String Read Only RI Date Code SNMP MIB: Description: Syntax: Access Level: fwuHstSysCardRIDateCode Rmt Inventory Data - Date Code Display String Read Only RI HW Version SNMP MIB: Description: Syntax: Access Level: fwuHstSysCardRIHWVer Rmt Inventory Data - Hardware Version Display String Read Only 10 MHz Reference Clock SNMP MIB: Description: Valu
Prism MIB Objects Output Reference Clock SNMP MIB: Description: fwuHstSysCardOutputRefClock System Card Reference clock. System Module supports only 10 MHz and System Board II supports both 10 MHz and 30 MHz Clock output.
Using an SNMP Interface Alarm Status Summary SNMP MIB: Description: Syntax: Access Level: fwuRmtAlarmStatusSummary Summary of alarm status of the (connected) Remote Unit. AlarmType Read Only Type SNMP MIB: Description: Syntax: Access Level: fwuRmtType Type of Remote. unitType Read Only Temperature Measurement SNMP MIB: Description: Syntax: Access Level: fwuRmtTempMeasurement Temperature of each Remote Unit in celsius.
Prism MIB Objects DART Id SNMP MIB: Description: Values: Syntax: Access Level: fwuUsrCommLinkTestDartId To identify the DART 1-8 Unsigned32 Read-Write Prism Remote System Card RI ADC Part Number SNMP MIB: Description: Syntax: Access Level: fwuRmtSysCardRIADCPartNumber Remote Unit Inventory Data: ADC Part Number.
Using an SNMP Interface Output Reference Clock SNMP MIB: Description: fwuRmtSysCardOutputRefClock Remote System Card Reference clock.
Prism MIB Objects Compact Flash SW Version SNMP MIB: Description: Values: fwuRmtSERFCompactFlashSWVer Compact Flash Software Version of the remote system. Format of: aa.bb.cc.dd where each of aa, bb, cc, dd must be between 00 and 99 Syntax: Display String Access Level: Read Only PPC HW Monitor SW Version SNMP MIB: Description: Syntax: Access Level: fwuRmtSERFPPCHWMonSWVer Hardware monitor process Software Version of the remote system.
Using an SNMP Interface SeRF FPGA Version SNMP MIB: fwuRmtSERFFPGAVer Syntax: Display String Access Level: Read Only RI ADC Part Number SNMP MIB: Description: Syntax: Access Level: fwuRmtSERFRIADCPartNumber Remote SeRF Inventory - ADC Part Number. Display String Read Only pThread Software Version SNMP MIB: Description: Syntax: Access Level: fwuRmtpThreadSoftwareVer The version number of pThread process.
Prism MIB Objects Prism Remote SeRF Optics Optics Number SNMP MIB: Description: Values: Syntax: Access Level: fwuRmtSERFOptSFPNumber A unique identifier of each SFP 1-8 Integer Read Only Optics Name SNMP MIB: Description: Values: fwuRmtSERFOptSFPName User defined name of each Remote SFP. Alphanumeric Characters. Except as first character, the underscore (_) character is allowed. Must be between 5 and 32 characters with no spaces.
Using an SNMP Interface Mate Name SNMP MIB: Description: Values: Syntax: Access Level: fwuRmtSERFOptMateName Name of Remote mate. Inherits valid values from Remote name DisplayString Read Only Mate Unit ID SNMP MIB: Description: Values: Syntax: Access Level: fwuRmtSERFOptMateId Numerical ID of companion Remote Unit.
Prism MIB Objects Prism Remote SeRF ENET Switch Ethernet Port Number SNMP MIB: Description: Values: Syntax: Access Level: fwuRmtSERFEthPortNumber A unique identifier for each Ethernet port. Port number, which can be between 1 and 12 Unsigned32 Read Only Ethernet Port Type SNMP MIB: Description: Values: fwuRmtSERFEthPortType An identifier for the type of Ethernet port.
Using an SNMP Interface Receive-multicast-packets SNMP MIB: Description: Syntax: Access Level: fwuRmtSERFEthPortRxMulticastPkts Receive multicast packet counter. Counter64 Read Only Receive-broadcast-packets SNMP MIB: Description: Syntax: Access Level: fwuRmtSERFEthPortRxBroadcastPkts Receive broadcast packet counter. Counter64 Read Only Rx-fragmented-frames SNMP MIB: Description: Syntax: Access Level: fwuRmtSERFEthPortRxFragmtdFrames Receive fragments counter.
Prism MIB Objects Tx-broadcast-packets SNMP MIB: Description: Syntax: Access Level: fwuRmtSERFEthPortTxBroadcastPkts Transmit broadcast packet counter Counter64 Read Only Prism Remote SeRF FPGA FPGA Status SNMP MIB: Description: Values: fwuRmtSERFFPGAStatus Remote SeRF Card FPGA status.
Using an SNMP Interface Passband SNMP MIB: Description: Values: Default: Syntax: Access Level: fwuRmtDARTPassBand Passband for the selected DART Size of the passband, which can be between 0 and 40 -1 Octet String Read-Write Operating Mode SNMP MIB: Description: Default: Syntax: Access Level: fwuRmtDARTOperatingMode Operating mode of the DART Module. 1 ModeType Read-Write Diversity Status SNMP MIB: Description: Values: fwuRmtDARTDiversityStatus Diversity Status of Host DART Module.
Prism MIB Objects Reverse Delay SNMP MIB: Description: Syntax: Access Level: fwuRmtDARTReverseDelay Remote DART Module reverse delay in Micro Seconds DelayType Read-Write FPGA Program Version SNMP MIB: Description: Syntax: Access Level: fwuRmtDARTFPGAProgramVer FPGA Version on the Remote Unit DART Module. DisplayString Read Only FPGA Status SNMP MIB: Description: fwuRmtDARTFPGAStatus Remote DART FPGA Status. It indicates if the SeRF FPGA can talk to DART FPGA or not.
Using an SNMP Interface Date Code SNMP MIB: Description: Syntax: Access Level: fwuRmtDARTRIDateCode Remote DART Inventory Data - DateCode. Display String Read Only RI Hardware Version SNMP MIB: Description: Syntax: Access Level: fwuRmtDARTRIHWVer Remote DART Inventory Data - HW Version. Display String Read Only Table Row Status SNMP MIB: Description: Syntax: Access Level: fwuRmtDARTGeneralTableRowStatus The status of this conceptual row.
Prism MIB Objects Reverse Delay - Lower Bound SNMP MIB: Description: Syntax: Access Level: fwuRmtDARTReverseLowerboundDelay Lower bound of Reverse delay for Remote DART Integer32 Read Only Reverse Delay - Upper Bound SNMP MIB: Description: Syntax: Access Level: fwuRmtDARTReverseUpperboundDelay Upper bound of Reverse delay for Remote DART Integer32 Read Only Peak Input Power Level1 SNMP MIB: Description: Default: Syntax: Access Level: fwuRmtDARTPeakInputPwrLvl1 Peak Input Power Level1 to a Remote DART.
Using an SNMP Interface Minimum Average Input Power Level 1 SNMP MIB: Description: Default: Syntax: Access Level: fwuRmtDARTMinAvgInputPwrLvl1 Minimum Average Input Power Level1 to a Remote DART. NA DisplayString Read Only Minimum Average Input Power Level 2 SNMP MIB: Description: Default: Syntax: Access Level: fwuRmtDARTMinAvgInputPwrLvl2 Minimum Average Input Power Level2 to a Remote DART.
Prism MIB Objects Reverse Path Gain Mode SNMP MIB: Description: fwuRmtDARTReverseGainMode To control gain mode on the Reverse Path. Applicable to both Classic and Super DARTs. Values: 0 - Normal 1 - High Default: 0 Syntax: Integer Access Level: Read-Write Prism Remote LPA LPA Number SNMP MIB: Description: Values: Syntax: Access Level: fwuRmtLPANumber A unique identifier for an LPA.
Using an SNMP Interface LPA Control SNMP MIB: Description: Values: fwuRmtLPAControl To control the operating mode of Remote Unit LPA. 0 = Normal 1 = Standby Default: 1 Syntax: Integer Access Level: Read-Write Model Number SNMP MIB: Description: Syntax: Access Level: fwuRmtLPAPartNum Remote LPA Part Number. DisplayString Read Only Serial Number SNMP MIB: Description: Syntax: Access Level: fwuRmtLPASerialNum Remote LPA Serial Number.
Prism MIB Objects Prism Remote Power Detector Power Detector Number SNMP MIB: Description: Values: Syntax: Access Level: fwuRmtPowerDetectorNumber Index and a unique identifier for each power detector.
Using an SNMP Interface System VSWR Measurement SNMP MIB: Description: Values: Syntax: Access Level: fwuRmtSystemVswrMeas Measured VSWR value Up to 8 Characters Octet String Read Only Prism Remote LNA/Duplexer LNA Number SNMP MIB: Description: Values: Syntax: Access Level: fwuRmtLNANumber Index and an unique identifier for LNA Objects. Number that identifies an LNA and that can be from 1 to 8 Integer32 Read Only LNA Type SNMP MIB: Description: Syntax: Access Level: fwuRmtLNAType Remote LNA card type.
Prism MIB Objects RI Hardware Version SNMP MIB: Description: Syntax: Access Level: fwuRmtLNARIHWVer LNA Inventory Data - HW Version. DisplayString Read Only Duplexer type SNMP MIB: Description: Syntax: Access Level: fwuRmtDuplexerType Duplexer hardware type. DuplexerType Read Only Prism Remote RDI Card RDI Number SNMP MIB: Description: Values: Syntax: Access Level: fwuRmtRDINumber Index and an identifier for each RDI.
Using an SNMP Interface RI Hardware Version SNMP MIB: Description: Syntax: Access Level: fwuRmtRDIRIHWVer RDI Inventory Data - HW Version. Display String Read Only Prism Remote RSI Card RI ADC Part Number SNMP MIB: Description: Syntax: Access Level: fwuRmtRSIRIADCPartNumber Remote Inventory Data - ADC Part Number. Display String Read Only Serial Number SNMP MIB: Description: Syntax: Access Level: fwuRmtRSIRISerialNumber Remote Inventory Data - Serial Number.
Prism MIB Objects Common Managed Objects Prism DART Mapping Index SNMP MIB: Description: Values: Syntax: Access Level: fwuDARTMappingIndex Index of DART Mapping Table.
Using an SNMP Interface Mate Id SNMP MIB: Description: Values: Syntax: Access Level: fwuMateID Identifier of (companion) mate unit See “Unit Identification” on page 43 REMOTENBR-TYPE Read Only Mate DART Id SNMP MIB: Description: Syntax: Access Level: fwuMateDARTId Identifier of (companion) DART on mate unit.
Prism MIB Objects Mapping Status SNMP MIB: Description: Syntax: Access Level: fwuMappingStatus Status of DART mapping table RowStatus Set Schedule System Link Test System Link Test Mode SNMP MIB: Description: Values: sysLinkTestMode RLM Test for System. 0 = Disable 1 = Enable Syntax: INTEGER Access Level: Read-Write Start Date and Time SNMP MIB: Description: Syntax: Access Level: sysLinkStartTime The Start date and time of linking test execution.
Using an SNMP Interface DART Id SNMP MIB: Description: Values: Syntax: Access Level: fwuSchLinkTestDartId In which slot the DART resides. 1-8 Integer Read-Write SNMP Settings V1 Trap Agent Address Override Mode SNMP MIB: Description: Values: fwuV1TrapAgentAddrOverrideMode V1 trap agent address override mode.
Prism MIB Objects Ethernet Modem Wake Up SNMP MIB: Description: Values: fwuEthernetModemWakeUp If an external modem is used, sends a “wake up” message 0 = False 1 = True Syntax: Integer32 Access Level: Read-Write Register SNMP Trap Manager Row Index SNMP MIB: Description: Syntax: Access Level: fwuTrapMgrRowId Index for this table Integer Read-Write Trap Manger IP Address SNMP MIB: Description: Values: Syntax: Access Level: fwuTrapMgrIpAddress IP Address of the registered Trap manager Default = 127.
Using an SNMP Interface Trap Version SNMP MIB: Description: Values: fwuTrapVersion Version of SNMP used for this trap destination. 0 = V1 1 = V2c 2 = Inform Default: 1 Syntax: Integer Access Level: Read-Write Row Status SNMP MIB: Description: Syntax: Access Level: fwuTrapMgrRowStatus The status of this conceptual row.
Prism MIB Objects Geo Longitude SNMP MIB: Description: Syntax: Access Level: fwuGeoLongitude Identifies the Longitude of a Remote Unit. LatAndLong Read-Write Geo Remote Name SNMP MIB: Description: Syntax: Access Level: fwuGeoRmtName Derived from fwuRmtName. Display String Read Only Geo Status SNMP MIB: Description: Values: fwuGeoStatus Standard SNMP row status for this table.
Using an SNMP Interface Contact Alarm SNMP MIB: Description: Syntax: Access Level: fwuContactAlarm Hardware Assigned Name Display String Read Only Severity SNMP MIB: Description: Values: fwuContactAlarmSeverity Severity of the alarm 2= Minor 3 = Major Default: Minor Syntax: Unsigned Integer Access Level: Read-Write Mode SNMP MIB: Description: Values: fwuContactAlarmMode Mode of the Alarm 1=Normally Closed 2 = Normally Open Default: 2 Syntax: Unsigned Integer Access Level: Read-Write Alarm Name SN
Prism MIB Objects System Active Alarm Table Alarm Sequence number SNMP MIB: Description: Values: Syntax: Access Level: fwuSystemAlarmSequenceNumber Index and unique ID for each trap in AlarmTable.
Using an SNMP Interface Module Number for Alarm SNMP MIB: Description: Values: Syntax: Access Level: fwuSystemAlarmModuleNumber Hardware module number, where the alarm has originated. Between 1 and 8 Unsigned32 Read Only Module Name for Alarm SNMP MIB: Description: Syntax: Access Level: fwuSystemAlarmModuleName Name of hardware module where trap originated.
Prism MIB Objects Alarm Host Number SNMP MIB: Description: Syntax: Access Level: SystemAlarmHstNbr Number identifying the host in the system Unsigned32 Read Only Analog Node Address SNMP MIB: Description: Syntax: Access Level: fwuSystemAlarmAnalogAddress Analog Portion of the node address UnitID3 Read Write Alarm Management Table Alarm Code SNMP MIB: Description: Values: fwuSystemAlarmCode An alphanumeric code that uniquely identifies an alarm/fault.
Using an SNMP Interface Alarmed Module SNMP MIB: Description: Values: fwuSystemAlarmModType Identifies the module type that raised the alarm. SeRF DART LPA LNA Power Detector SFP Syntax: Integer32 Access Level: Read Only Alarm Enable Table Alarm Code SNMP MIB: Description: Values: fwuSystemModuleAlarmcode An alphanumeric code that uniquely identifies an alarm/fault.