- About this Guide
- Chapter 1, Install Shelf and Common Control Cards
- Chapter 2, Connect the PC and Log into GUI
- Chapter 3, Turn Up a Node
- Chapter 4, Perform Node Acceptance Tests
- Chapter 5, Provision Transponder and Muxponder Cards
- Chapter 6, Turn Up a Network
- Chapter 7, Create Channels and Circuits
- Chapter 8, Manage Alarms
- Chapter 9, Monitor Performance
- Chapter 10, Manage the Node
- Chapter 11, Provision DWDM Cards
- Chapter 12, Add and Remove Cards and Nodes
- Chapter 13, Maintain a Node
- Chapter 14, Power Down a Node
- Chapter 15, Shelf Hardware Reference
- Chapter 16, Card Reference
- Chapter 17, Node Reference
- Chapter 18, Network Reference
- Chapter 19, CTC Operation Reference
- Chapter 20, Security Reference
- Chapter 21, Timing Reference
- Chapter 22, Management Connectivity Reference
- Chapter 23, Alarm Management Reference
- Appendix A, CTC Information and Shortcuts
- Appendix B, Hardware Specifications
- Appendix C, DWDM Administrative and Service States
- Appendix D, Network Element Defaults
- Before You Begin
- NTP-G103 Back Up the Database
- NTP-G104 Restore the Database
- NTP-G105 Restore the Node to Factory Configuration
- NTP-G133 View and Manage OSI Information
- NTP-G106 Reset Cards Using CTC
- NTP-G108 Viewing the Audit Trail Records
- NTP-G109 Off-Load the Audit Trail Record
- NTP-G110 Off-Load the Diagnostics File
- NTP-G112 Change the Node Timing Reference
- NTP-G113 View the ONS 15454 Timing Report
- NTP-G114 Inspect, Clean, and Replace the Air Filter
- NTP-G115 Clean Fiber Connectors
- NTP-G40 Replace the Front Door
- NTP-G116 Replace the Fan-Tray Assembly
- NTP-G117 Replace the ANSI Shelf Alarm Interface Panel
- NTP-G118 Replace the ANSI Shelf Plastic Lower Backplane Cover
- NTP-G135 Edit Network Element Defaults
- NTP-G136 Import Network Element Defaults
- NTP-G137 Export Network Element Defaults
Maintain the Node
This chapter provides procedures for maintaining the Cisco ONS 15454, including database backup and restoration, removing and replacing cards, viewing the ONS 15454 audit trail, and hardware maintenance procedures such as cleaning fibers, changing the fan tray filter, and other maintenance procedures.
Note Unless otherwise specified, "ONS 15454" refers to both ANSI and ETSI shelf assemblies.
Before You Begin
Before performing any of the following procedures, investigate all alarms and clear any trouble conditions. Refer to the Cisco ONS 15454 Troubleshooting Guide or Cisco ONS 15454 SDH Troubleshooting Guide as necessary for general troubleshooting information and alarm or error descriptions.
This section lists the chapter procedures (NTPs). Turn to a procedure to view its tasks (DLPs).
1. G103 Back Up the Database—Complete as needed.
2. G104 Restore the Database—Complete as needed.
3. G105 Restore the Node to Factory Configuration—Complete as needed to clear the database and upload a blank database and the latest software.
4. G133 View and Manage OSI Information—Complete as needed.
5. G106 Reset Cards Using CTC—Complete as needed to reset the TCC2/TCC2P cards and the dense wavelength division multiplexing (DWDM) cards.
6. G108 Viewing the Audit Trail Records—Complete as needed.
7. G109 Off-Load the Audit Trail Record—Complete as needed.
8. G110 Off-Load the Diagnostics File—Complete as needed.
9. G112 Change the Node Timing Reference—Complete as needed.
10. G113 View the ONS 15454 Timing Report—Complete as needed.
11. G114 Inspect, Clean, and Replace the Air Filter—Complete as needed.
12. G115 Clean Fiber Connectors—Complete as needed.
13. G40 Replace the Front Door—Complete as needed.
14. G116 Replace the Fan-Tray Assembly—Complete as needed.
15. G117 Replace the ANSI Shelf Alarm Interface Panel—Complete as needed.
16. G118 Replace the ANSI Shelf Plastic Lower Backplane Cover—Complete as needed.
17. G135 Edit Network Element Defaults—Complete as needed to edit the factory-configured (default) network element (NE) settings for the Cisco ONS 15454.
18. G136 Import Network Element Defaults—Complete as needed to import the factory-configured (default) NE settings for the Cisco ONS 15454.
19. G137 Export Network Element Defaults—Complete as needed to export the factory-configured (default) NE settings for the Cisco ONS 15454.
NTP-G103 Back Up the Database
Note You must back up and restore the database for each node on a circuit path in order to maintain a complete circuit.
Note The following parameters are not backed up and restored: node name, IP address, subnet mask and gateway, and Internet Inter-ORB Protocol (IIOP) port. If you change the node name and then restore a backed up database with a different node name, the circuits map to the new node name. Cisco recommends keeping a record of the old and new node names.
Step 1 Complete the "DLP-G46 Log into CTC" task at the node you want to back up. If you are already logged in, continue with Step 2.
Step 2 Click the Maintenance > Database tabs.
Step 3 Click Backup.
Step 4 Save the database on the workstation's hard drive or on network storage. Use an appropriate file name with the DB file extension; for example, database.db.
Step 5 Click Save.
Step 6 Click OK in the confirmation dialog box.
Stop. You have completed this procedure.
NTP-G104 Restore the Database
Note The following parameters are not backed up and restored: node name, IP address, subnet mask and gateway, and IIOP port. If you change the node name and then restore a backed up database with a different node name, the circuits map to the new renamed node. Cisco recommends keeping a record of the old and new node names.
Step 1 Complete the "DLP-G46 Log into CTC" task at the node where you are restoring the database. If you are already logged in, continue with Step 2.
Step 2 Click the Circuits tab. Verify that no optical channel network connection (OCHNC) circuits have a PARTIAL_OOS state. If so, investigate and resolve the partial state before continuing.
Step 3 Complete the "DLP-G157 Disable Automatic Power Control" task.
Step 4 In node view, click the Maintenance > Database tabs.
Step 5 Click Restore.
Step 6 Locate the database file stored on the workstation hard drive or on network storage.
To clear all existing provisioning, locate and upload the database found on the latest ONS 15454 software CD.
Step 7 Click the database file to highlight it.
Step 8 Click OK. The DB Restore dialog box appears. Opening a restore file from another node or from an earlier backup might affect traffic on the login node.
Step 9 Click Yes.
The Restore Database dialog box monitors the file transfer (Figure 13-1).
Figure 13-1 Restoring the Database—In-Process Notification
Step 10 Wait for the file to complete the transfer to the TCC2/TCC2P card.
Step 11 Click OK when the "Lost connection to node, changing to Network View" dialog box appears. Wait for the node to reconnect.
Step 12 Complete the "DLP-G158 Enable Automatic Power Control" task.
Stop. You have completed this procedure.
NTP-G105 Restore the Node to Factory Configuration
Purpose |
This procedure reinitializes the ONS 15454 using the CTC reinitialization tool. Reinitialization uploads a new software package to the TCC2/TCC2P cards, clears the node database, and restores the factory default parameters. |
Tools/Equipment |
ONS 15454 System Software CD, Version 6.0 Java Runtime Environment (JRE) 1.4.2 must be installed on the computer to log into the node at the completion of the reinitialization. The reinitialization tool can run on JRE 1.3.1_02 or JRE 1.4.2. |
Prerequisite Procedures |
One of the following: •G18 Set Up CTC Computer for Local Craft Connection to the ONS 15454, or •G19 Set Up a CTC Computer for a Corporate LAN Connection to the ONS 15454 |
Required/As Needed |
As needed |
Onsite/Remote |
Onsite |
Security Level |
Superuser |
Note The following parameters are not backed up and restored when you delete the database and restore the factory settings: node name, IP address, subnet mask and gateway, and IIOP port. If you change the node name and then restore a backed up database with a different node name, the circuits map to the new renamed node. Cisco recommends keeping a record of the old and new node names.
Step 1 If you need to install or replace one or more TCC2/TCC2P cards, see the "DLP-G33 Install the TCC2 or TCC2P Card" task.
Step 2 If you are using Microsoft Windows, complete the "DLP-G248 Use the Reinitialization Tool to Clear the Database and Upload Software (Windows)" task.
Step 3 If you are using UNIX, complete the "DLP-G249 Use the Reinitialization Tool to Clear the Database and Upload Software (UNIX)" task.
Stop. You have completed this procedure.
DLP-G248 Use the Reinitialization Tool to Clear the Database and Upload Software (Windows)
Purpose |
This task reinitializes the ONS 15454 using the CTC reinitialization tool on a Windows computer. Reinitialization uploads a new software package to the TCC2/TCC2P cards, clears the node database, and restores the factory default parameters. |
Tools/Equipment |
ONS 15454 System Software CD, Version 6.0 JRE 1.4.2 must be installed on the computer to log into the node at the completion of the reinitialization. The reinitialization tool can run on JRE 1.3.1_02 or JRE 1.4.2. |
Prerequisite Procedures |
One of the following: •G18 Set Up CTC Computer for Local Craft Connection to the ONS 15454, or •G19 Set Up a CTC Computer for a Corporate LAN Connection to the ONS 15454 |
Required/As Needed |
As needed to clear the existing database from a TCC2/TCC2P and restore the node default settings. |
Onsite/Remote |
Onsite |
Security Level |
Superuser |
Note The ONS 14545 Software CD is if the Reinit.jar file, the CISCO 15454 package file, and the NE default file are not stored on your computer.
Step 1 Insert the ONS 15454 System Software CD, Version 6.0, into the computer CD-ROM drive. If the CTC Installation Wizard appears, click Cancel.
Step 2 From the Windows Start menu, choose Run. In the Run dialog box, click Browse and navigate to the CISCO15454 or CISCO15454SDH folder on the software CD.
Step 3 In the Browse dialog box Files of Type field, choose All Files.
Step 4 Choose the RE-INIT.jar file and click Open. The NE Re-Initialization window appears (Figure 13-2).
Figure 13-2 Reinitialization Tool
Step 5 Complete the following fields:
•GNE IP—If the node you are reinitializing is accessed through another node configured as a gateway network element (GNE), enter the GNE IP address. If you have a direct connection to the node, leave this field blank.
•Node IP—Enter the node name or IP address of the node that you are reinitializing.
•User ID—Enter the user ID needed to access the node.
•Password—Enter the password for the user ID.
•Upload Package—Check this box to send the software package file to the node. If unchecked, the software stored on the node is not modified.
•Force Upload—Check this box to send the software package file to the node even if the node is running the same software version. If unchecked, reinitialization will not send the software package if the node is already running the same version.
•Activate/Revert—Check this box to activate the uploaded software (if the software is a later than the installed version) or revert to the uploaded software (if the software is earlier than the installed version) as soon as the software file is uploaded. If unchecked, the software is not activated or reverted after the upload, allowing you to initiate the functions later from the node view Maintenance > Software tab.
•Re-init Database—Check this box to send a new database to the node. (This is equivalent to the CTC database restore operation.) If unchecked, the node database is not modified.
•Confirm—Check this box if you want a warning message displayed before any operation is performed. If unchecked, reinitialization does not display a warning message.
•Search Path—Enter the path to the CISCO15454 folder on the CD drive.
Step 6 Click Go.
Step 7 Review the information in the Confirm NE Re-Initialization dialog box, then click Yes to start the reinitialization.
The reinitialization begins. After the software is downloaded and activated, and the database is uploaded to the TCC2/TCC2P cards, "Complete" appears in the status bar and the TCC2/TCC2P cards will reboot. Wait a few minutes for the reboot to complete.
Step 8 After the reboot is complete, log into the node using the "DLP-G46 Log into CTC" task.
Step 9 Complete the "NTP-G24 Set Up Name, Date, Time, and Contact Information" procedure and the "NTP-G26 Set Up CTC Network Access" procedure.
Step 10 Return to your originating procedure (NTP).
DLP-G249 Use the Reinitialization Tool to Clear the Database and Upload Software (UNIX)
Purpose |
This task reinitializes the ONS 15454 using the CTC reinitialization tool on a UNIX computer. Reinitialization uploads a new software package to the TCC2/TCC2P cards, clears the node database, and restores the factory default parameters. |
Tools/Equipment |
ONS 15454 SONET System Software CD, Version 5.0.x JRE 1.4.2 must be installed on the computer to log into the node at the completion of the reinitialization. The reinitialization tool can run on JRE 1.3.1_02 or JRE 1.4.2. |
Prerequisite Procedures |
One of the following: •G18 Set Up CTC Computer for Local Craft Connection to the ONS 15454, or •G19 Set Up a CTC Computer for a Corporate LAN Connection to the ONS 15454 |
Required/As Needed |
As needed to clear the existing database from a TCC2/TCC2P and restore the node default settings. |
Onsite/Remote |
Onsite |
Security Level |
Superuser |
Step 1 Insert the system software CD containing the reinitialization tool, software, and defaults database into the computer CD-ROM drive. If the CTC Installation Wizard appears, click Cancel.
Step 2 To find the recovery tool file, go to the CISCO15454 directory on the CD (usually /cdrom/cdrom0/CISCO15454 or /cdrom/cdrom0/CISCO15454SDH).
Step 3 If you are using a file explorer, double-click the RE-INIT.jar file. If you are working with a command line, run java -jar RE-INIT.jar. The NE Re-Initialization window appears (Figure 13-2).
Step 4 Complete the following fields:
•GNE IP—If the node you are reinitializing is accessed through another node configured as a GNE, enter the GNE IP address. If you have a direct connection to the node, leave this field blank.
•Node IP—Enter the node name or IP address of the node that you are reinitializing.
•User ID—Enter the user ID needed to access the node.
•Password—Enter the password for the user ID.
•Upload Package—Check this box to send the software package file to the node. If unchecked, the software stored on the node is not modified.
•Force Upload—Check this box to send the software package file to the node even if the node is running the same software version. If unchecked, reinitialization will not send the software package if the node is already running the same version.
•Activate/Revert—Check this box to activate the uploaded software (if the software is a later than the installed version) or revert to the uploaded software (if the software is earlier than the installed version) as soon as the software file is uploaded. If unchecked, the software is not activated or reverted after the upload, allowing you to initiate the functions later from the node view Maintenance > Software tab.
•Re-init Database—Check this box to send a new database to the node. (This is equivalent to the CTC database restore operation.) If unchecked, the node database is not modified.
•Confirm—Check this box if you want a warning message displayed before any operation is performed. If unchecked, reinitialization does not display a warning message.
•Search Path—Enter the path to the CISCO15454 or CISCO15454SDH folder on the CD drive.
Step 5 Click Go.
Step 6 Review the information in the Confirm NE Re-Initialization dialog box, then click Yes to start the reinitialization.
The reinitialization begins. After the software is downloaded and activated and the database is uploaded to the TCC2/TCC2P cards, "Complete" appears in the status bar and the TCC2/TCC2P cards will reboot. Wait a few minutes for the reboot to complete.
Step 7 After the reboot is complete, log into the node using the "DLP-G46 Log into CTC" task.
Step 8 Complete the "NTP-G24 Set Up Name, Date, Time, and Contact Information" procedure and the "NTP-G26 Set Up CTC Network Access" procedure.
Step 9 Return to your originating procedure (NTP).
NTP-G133 View and Manage OSI Information
Note Additional information about the ONS 15454 implementation of OSI is provided in the Management Connectivity Reference chapter.
Step 1 Complete the "DLP-G46 Log into CTC" task. If you are already logged in, continue with Step 2.
Step 2 Perform any of the following tasks as needed:
•G298 View IS-IS Routing Information Base
•G299 View ES-IS Routing Information Base
•G300 Manage the TARP Data Cache
Stop. You have completed this procedure.
DLP-G298 View IS-IS Routing Information Base
Step 1 In node view, click the Maintenance > OSI > IS-IS RIB tabs.
Step 2 View the following RIB information for Router 1:
•Subnet Type—Indicates the OSI subnetwork point of attachment type used to access the destination address. Subnet types include SDCC, LDCC, GCC, OSC, and LAN.
•Location—Indicates the OSI subnetwork point of attachment. For data communications channel (DCC) subnets, the slot and port are displayed. LAN subnets are shown as LAN.
•Destination Address—The destination Network Service Access Point (NSAP) of the IS.
•MAC Address—For destination NEs that are accessed by LAN subnets, the NE's MAC address.
Step 3 If additional routers are enabled, you can view their RIBs by choosing the router number in the Router field and clicking Refresh.
Step 4 Return to your originating procedure (NTP).
DLP-G299 View ES-IS Routing Information Base
Step 1 In node view, click the Maintenance > OSI > ES-IS RIB tabs.
Step 2 View the following RIB information for Router 1:
•Subnet Type—Indicates the OSI subnetwork point of attachment type used to access the destination address. Subnet types include SDCC, LDCC, GCC, OSC, and LAN.
•Location—Indicates the subnet interface. For DCC subnets, the slot and port are displayed. LAN subnets are shown as LAN.
•Destination Address—The destination IS NSAP.
•MAC Address—For destination NEs that are accessed by LAN subnets, the NE's MAC address.
Step 3 If additional routers are enabled, you can view their RIBs by choosing the router number in the Router field and clicking Refresh.
Step 4 Return to your originating procedure (NTP).
DLP-G300 Manage the TARP Data Cache
Step 1 In node view, click the Maintenance > OSI > TDC tabs.
Step 2 View the following TARP data cache information:
•TID—The target identifier of the originating NE. For ONS 15454s, the TID is the name entered in the Node Name/TID field on the Provisioning > General tab.
•NSAP/NET—The NSAP or Network Element Title (NET) of the originating NE.
•Type—Indicates how the TDC entry was created:
–Dynamic—The entry was created through the TARP propagation process.
–Static—The entry was manually created and is a static entry.
Step 3 If you want to query the network for an NSAP that matches a TID, complete the following steps. Otherwise, continue with Step 4.
Note The TID to NSAP function is not available if the TDC is not enabled on the Provisioning > OSI > TARP subtab.
a. Click the TID to NSAP button.
b. In the TID to NSAP dialog box, enter the TID you want to map to an NSAP.
c. Click OK, then click OK in the information message box.
d. On the TDC tab, click Refresh.
If TARP finds the TID in its TDC, it returns the matching NSAP. If not, TARP sends protocol data units (PDUs) across the network. Replies will return to the TDC later, and a check TDC later message is displayed.
Step 4 If you want to delete all the dynamically generated TDC entries, click the Flush Dynamic Entries button. If not, continue with Step 5.
Step 5 Return to your originating procedure (NTP).
NTP-G106 Reset Cards Using CTC
Step 1 Complete the "DLP-G46 Log into CTC" task at the node where you are performing the TCC2/TCC2P reset. If you are already logged in, continue with Step 2.
Step 2 As needed, complete the "DLP-G250 Reset the TCC2/TCC2P Card" task.
Step 3 As needed, complete the "DLP-G251 Reset DWDM Cards Using CTC" task.
Stop. You have completed this procedure.
DLP-G250 Reset the TCC2/TCC2P Card
Purpose |
This task resets the TCC2/TCC2P card and switches the node to the redundant TCC2/TCC2P. |
Tools/Equipment |
None |
Prerequisite Procedures |
G33 Install the TCC2 or TCC2P Card |
Required/As Needed |
As needed |
Onsite/Remote |
Onsite or remote |
Security Level |
Superuser |
Warning Do not reach into a vacant slot or chassis while you install or remove a module or a fan. Exposed circuitry could constitute an energy hazard. Statement 206 |
Note Before you reset the TCC2/TCC2P, you should wait at least 60 seconds after the last provisioning change you made to avoid losing any changes to the database.
Note When a software reset is performed on an active TCC2/TCC2P, the AIC-I card goes through an initialization process and also resets. The AIC-I card reset is normal and happens each time an active TCC2/TCC2P card goes through a software-initiated reset.
Step 1 Click the Alarms tab.
a. Verify that the alarm filter is not on. See the "DLP-G128 Disable Alarm Filtering" task as necessary.
b. Verify that no unexplained alarms appear on the network. If alarms appear, investigate and resolve them before continuing. Refer to the Cisco ONS 15454 Troubleshooting Guide or the Cisco ONS 15454 SDH Troubleshooting Guide for procedures.
Step 2 In node view, right-click the TCC2/TCC2P card to reveal a shortcut menu.
Step 3 Click Reset Card.
Step 4 Click Yes when the confirmation dialog box appears.
Step 5 Click OK when the "Lost connection to node, changing to Network View" dialog box appears.
Note For LED behavior during a TCC2/TCC2P reboot, see Table 3-2.
Step 6 Confirm that the TCC2/TCC2P card LED is amber (standby).
Step 7 Return to your originating procedure (NTP).
DLP-G251 Reset DWDM Cards Using CTC
Purpose |
This task resets the OSCM, OSC-CSM, 32MUX-O, 32DMX-O, 32DMX, 32WSS, OPT-BST, OPT-PRE, AD-xC.xx.x, AD-xB.xx.x, transponder (TXP), and muxponder (MXP) cards using CTC. |
Tools/Equipment |
None |
Prerequisite Procedures |
G32 Install the Transponder and Muxponder Cards |
Required/As Needed |
As needed |
Onsite/Remote |
Onsite or remote |
Security Level |
Superuser |
Warning Do not reach into a vacant slot or chassis while you install or remove a module or a fan. Exposed circuitry could constitute an energy hazard. Statement 206 |
Note ONS 15454 cards normally do not need to be reset. However, you might occasionally need to reset a card for testing or as an initial trouble-clearing step. For additional information, see the Cisco ONS 15454 Troubleshooting Guide or Cisco ONS 15454 SDH Troubleshooting Guide.
Step 1 If you will switch an active TXP or MXP card that is in a Y-cable protection group, complete the "DLP-G179 Apply a Force Y-Cable or Splitter Protection Switch" task. If not, continue with Step 2.
Step 2 Right-click the card that you want to reset to reveal a shortcut menu.
Step 3 Click Reset Card.
Step 4 Click Yes when the confirmation dialog box appears.
The card LED on the ONS 15454 shelf graphic will go through the following sequence: Fail (white LED), Ldg (white LED), and Act (green LED). The reset should complete within 1 to 2 minutes.
Step 5 If you performed a Y-cable protection group switch in Step 1, complete the "DLP-G180 Clear a Manual or Force Y-Cable or Splitter Protection Switch" task. If not, continue with Step 6.
Step 6 Return to your originating procedure (NTP).
NTP-G108 Viewing the Audit Trail Records
Step 1 Complete the "DLP-G46 Log into CTC" task at the node where you want to view the audit trail log. If you are already logged in, continue with Step 2.
Step 2 In node view, click the Maintenance > Audit tabs.
Step 3 Click Retrieve.
A window containing the most recent audit trail records appears as shown in Figure 13-3.
Figure 13-3 Viewing the Audit Trail Records
A definition of each column in the audit trail log is listed in Table 13-1.
Right-click the column headings to display the list in ascending-to-descending or descending-to-ascending order.
Left-click the column heading to display the following options:
•Reset Sorting—Resets the column to the default setting.
•Hide Column—Hides the column from view.
•Reset Columns Order/Visibility—Displays all hidden columns.
•Row Count—Provides a numerical count of log entries.
Shift-click the column heading for an incremental sort of the list.
Stop. You have completed this procedure.
NTP-G109 Off-Load the Audit Trail Record
Step 1 Complete the "DLP-G46 Log into CTC" task at the node where you want to off-load the audit trail log. If you are already logged in, continue with Step 2.
Step 2 In node view, click the Maintenance > Audit tabs.
Step 3 Click Retrieve.
Step 4 Click Archive.
Step 5 In the Archive Audit Trail dialog box, navigate to the directory (local or network) where you want to save the file.
Step 6 Enter a name in the File Name field.
You do not have to give the archive file a particular extension. It is readable in any application that supports text files, such as WordPad, Microsoft Word (imported), etc.
Step 7 Click Save. Click OK.
The 640 entries are saved in this file. The next entries continue with the next number in the sequence, rather than starting over.
Note Archiving does not delete entries from the CTC audit trail log. However, entries can be self-deleted by the system after the log maximum is reached. If you archived the entries, you cannot reimport the log file back into CTC and will have to view the log in a different application.
Stop. You have completed this procedure.
NTP-G110 Off-Load the Diagnostics File
Step 1 Complete the "DLP-G46 Log into CTC" task at the node where you want to off-load the diagnostics file. If you are already logged in, continue with Step 2.
Step 2 In node view, click the Maintenance > Diagnostic tabs.
Step 3 Click Retrieve Tech Support Log.
Step 4 In the Saving Diagnostic File dialog box, navigate to the directory (local or network) where you want to save the file.
Step 5 Enter a name in the File Name field.
You do not have to give the archive file a particular extension. It is a compressed file (gzip) that can be unzipped and read by Cisco Technical Support.
Step 6 Click Save.
The Get Diagnostics status window shows a progress bar indicating the percentage of the file being saved, then shows "Get Diagnostics Complete."
Step 7 Click OK.
Stop. You have completed this procedure.
NTP-G112 Change the Node Timing Reference
Step 1 Complete the "DLP-G46 Log into CTC" task at the node where you want to enable timing switching. If you are already logged in, continue with Step 2.
Step 2 Complete the "DLP-G259 Manual or Force Switch the Node Timing Reference" task as needed.
Step 3 Complete the "DLP-G260 Clear a Manual or Force Switch on a Node Timing Reference" task as needed.
Stop. You have completed this procedure.
DLP-G259 Manual or Force Switch the Node Timing Reference
Step 1 In node view, click the Maintenance > Timing > Source tabs.
Step 2 From the Reference drop-down list for the desired Clock, choose the desired reference.
Step 3 From the Operation drop-down list for the desired Clock, choose one of the following options:
•Manual—This operation commands the node to switch to the reference you have selected if the synchronization status message (SSM) quality of the reference is not lower than the current timing reference.
•Force—This operation commands the node to switch to the reference you have selected, regardless of the SSM quality (if the reference is valid).
Note For information about the Clear option, see the "DLP-G260 Clear a Manual or Force Switch on a Node Timing Reference" task.
Step 4 Click Apply next to the timing source.
Step 5 Click Yes in the confirmation dialog box. If the selected timing reference is an acceptable valid reference, the node switches to the selected timing reference. If the selected timing reference is invalid, a warning dialog box appears. Click OK; the node will not switch to the new timing reference.
Step 6 Return to your originating procedure (NTP).
DLP-G260 Clear a Manual or Force Switch on a Node Timing Reference
Step 1 In node view, click the Maintenance > Timing > Source tabs.
Step 2 Find the Clock reference that is currently set to Manual or Force in the Operation drop-down list.
Step 3 From the Operation drop-down list, choose Clear.
Step 4 Click Apply.
Step 5 Click Yes in the confirmation dialog box. If the normal timing reference is an acceptable valid reference, the node switches back to the normal timing reference as defined by the system configuration. If the normal timing reference is invalid or has failed, a warning dialog box appears. Click OK; the timing reference will not revert.
Step 6 Return to your originating procedure (NTP).
NTP-G113 View the ONS 15454 Timing Report
Step 1 Complete the "DLP-G46 Log into CTC" task at the node where you want to view the node timing status. If you are already logged in, continue with Step 2.
Step 2 Click the Maintenance > Timing > Report tabs.
Step 3 In the Timing Report area, you can view node timing information. The date and time of the report appear at the top of the report. The time stamp is the same as the alarms time stamp and can be configured using the "DLP-G118 Display Alarms and Conditions Using Time Zone" task. Table 13-2 describes the report fields and entries.
Step 4 To update the report, click Refresh.
|
|
|
|
---|---|---|---|
Clock |
Indicates the timing clock. The report section that follows applies to the timing clock indicated. |
NE |
The node timing clock. |
BITS-1 Out |
The BITS-1 Out timing clock. |
||
BITS-2 Out |
The BITS-2 Out timing clock. |
||
Status |
Indicates the status of the timing clock. |
INIT_STATE |
The timing reference has not been provisioned. For an NE reference, this status appears just before the first provisioning messages when the TCC2/TCC2P card is booting. Timing is provisioned to the internal clock of the node. |
HOLDOVER_STATE |
The clock was locked onto a valid timing reference for more than 140 seconds when a failure occurred. Holdover state timing is a computation based on timing during normal state combined with the node's internal clock. The node holds onto this frequency until the valid reference is restored. This status appears for NE references only. |
||
FREERUN_STATE |
The node is running off its internal clock without any modification except the calibrated value to bring timing to 0 PPM. Freerun state can occur when a Force switch to the Internal clock is initiated, when all references fail without the 140 seconds of holdover data, or when only Internal timing references are defined. This status appears for NE references only. |
||
NO_SYNC_STATE |
A synchronization timing reference is not defined. BITS-1 Out or BITS-2 Out default to this status until an OC-N/STM-N card is defined as its reference on the Provisioning > Timing tab. This status appears for external references only. |
||
NE_SYNCH_STATE |
BITS-1 Out and BITS-2 Out use the same timing source as the NE. This is displayed when NE Reference is selected in the BITS-1 Out and BITS-2 Out Reference List on the Provisioning > Timing tab. |
||
NORMAL_STATE |
The timing reference is locked onto one of its provisioned references. The reference cannot be Internal or NO SYNC STATE. |
||
FAST_START_STATE |
The node has switched references, but the reference is too far away to reach NORMAL_STATE within an acceptable amount of time. FAST_START_STATE is a fast acquisition mode to allow the node to quickly acquire the reference. After it achieves this goal, the node progresses to the normal state. |
||
FAST_START_FAILED_STATE |
A timing reference is too far away to reach in normal state. The FAST_START_STATE could not acquire sufficient timing information within the allowable amount of time. |
||
Status Changed At |
Date and time of the last status change. |
— |
— |
Switch Type |
Type of switch. |
AUTOMATIC |
The timing switch was system-generated. |
Manual |
The timing switch was a user-initiated Manual switch. |
||
Force |
The timing switch was user-initiated Force switch. |
||
Reference |
Indicates the timing reference. |
Three timing references are available on the Provisioning > Timing tab. |
— |
Selected |
Indicates whether the reference is selected. |
Selected references are indicated with an X. |
— |
Facility |
Indicates the timing facility provisioned for the reference on the Provisioning > Timing tab. |
BITS-1 |
The timing facility is a building integrated timing supply (BITS) clock attached to the node's BITS-1 pins. |
BITS-2 |
The timing facility is a BITS clock attached to the node's BITS-2 pins. |
||
OC-N/STM-N card with port number |
If the node is set to line timing, this is the OC-N/STM-N card and port provisioned as the timing reference. |
||
Internal clock |
The node is using its internal clock. |
||
State |
Indicates the timing reference state. |
IS |
The timing reference is in service. |
OOS |
The timing reference is out of service. |
||
Condition |
Indicates the timing reference state. |
OKAY |
The reference is valid to use as a timing reference. |
OOB |
Out of bounds; the reference is not valid and cannot be used as a timing reference, for example, a BITS clock is disconnected. |
||
Condition Changed |
Indicates the date and time of the last status change in MM/DD/YY HH:MM:SS format. |
— |
— |
SSM |
Indicates whether SSM is enabled for the timing reference. |
Enabled |
SSM is enabled. |
Disabled |
SSM is not enabled. |
||
SSM Quality |
Indicates the SSM timing quality. |
8 to 10 SSM quality messages might be displayed. |
For a list of SSM message sets, see the "Synchronization Status Messaging" section. |
SSM Changed |
Indicates the date and time of the last SSM status change in MM/DD/YY HH:MM:SS format. |
— |
— |
Stop. You have completed this procedure.
NTP-G114 Inspect, Clean, and Replace the Air Filter
Warning Do not reach into a vacant slot or chassis while you install or remove a module or a fan. Exposed circuitry could constitute an energy hazard. Statement 206 |
Note Although the filter can work if it is installed with either side facing up, Cisco recommends that you install it with the metal bracing facing up to preserve the surface of the filter.
Step 1 Verify that you are replacing a reusable air filter. The reusable filter is made of a gray, open-cell, polyurethane foam that is specially coated to provide fire and fungi resistance. NEBS 3E and later versions of the ONS 15454 use a reusable air filter.
Step 2 If the air filter is installed in the external filter brackets, slide the filter out of the brackets while being careful not to dislodge any dust that might have collected on the filter and proceed to Step 9. Figure 13-4 shows the reusable fan-tray air filter in an external filter bracket on an ANSI shelf. Figure 13-5 shows the reusable fan-tray air filter in an external filter bracket on an ETSI shelf.
Step 3 If the filter is installed below the fan tray and not in the external filter brackets, open the front door of the shelf assembly. If the front door is already open, proceed to Step 4.
a. Open the front door lock.
The ONS 15454 comes with a pinned hex key for locking and unlocking the front door. Turn the key counterclockwise to unlock the door and clockwise to lock it.
b. Press the door button to release the latch.
c. Swing the door open.
Step 4 (Optional) Remove the front door. If you do not want to remove the door or it is already removed, proceed to Step 5.
a. Detach the ground strap from either the door or the chassis by removing one of the Kepnuts.
b. Place the Kepnut back on the stud after the ground strap is removed to avoid misplacement.
c. Secure the dangling end of the ground strap to the door or chassis with tape.
Figure 13-4 ANSI Shelf Fan-Tray Air Filter in an External Filter Bracket (Front Door Removed)
Figure 13-5 ETSI Shelf Fan-Tray Air Filter in an External Filter Bracket (Front Door Removed)
Step 5 Push the outer side of the handles on the fan-tray assembly to expose the handles.
Step 6 Pull the handles and slide the fan-tray assembly one inch (25.4 mm) out of the shelf assembly and wait until the fans stop.
Step 7 When the fans have stopped, pull the fan-tray assembly completely out of the shelf assembly.
Step 8 Gently remove the air filter from the shelf assembly. Be careful not to dislodge any dust that might have collected on the filter.
Step 9 Visually inspect the air filter material for dirt and dust.
Step 10 If the reusable air filter contains a concentration of dirt and dust, replace the dirty air filter with a clean air filter (spare filters should be kept in stock) and reinsert the fan-tray assembly. Then, vacuum the dirty air filter or wash it under a faucet with a light detergent.
Note Cleaning should take place outside of the operating environment to avoid releasing dirt and dust near the equipment.
Step 11 If you washed the filter, allow it to completely air dry for at least eight hours.
Step 12 Replace the clean filter:
a. If the air filter is installed in the external filter brackets, slide the dry air filter all the way to the back of the brackets to complete the procedure, continue to step 16.
b. If the filter is installed below the fan-tray assembly, remove the fan-tray assembly and slide the dry/clean air filter into the recessed compartment at the bottom of the shelf assembly. Put the front edge of the air filter flush against the front edge of the recessed compartment. Push the fan tray back into the shelf assembly.
Note On a powered-up ONS 15454, the fans start immediately after the fan-tray assembly is correctly inserted.
Step 13 To verify that the tray is plugged into the backplane, ensure that the LCD on the front of the fan-tray assembly is activated and displays node information.
Step 14 Rotate the retractable handles back into their compartments.
Step 15 If you replace the door, also reattach the ground strap.
Step 16 Close and lock the door.
Stop. You have completed this procedure.
NTP-G115 Clean Fiber Connectors
Step 1 Using an inspection microscope, inspect each fiber connector for dirt, cracks, or scratches.
Step 2 Replace any damaged fiber connectors.
Note Replace all dust caps whenever the equipment is unused for 30 minutes or more.
Step 3 Complete the "DLP-G262 Clean Fiber Connectors with CLETOP" task as necessary.
Step 4 Complete the "DLP-G263 Clean the Fiber Adapters" task as necessary.
Note To clean multi-fiber optic connectors, complete the "DLP-G261 Clean Multi Fiber-Optic Cable Connectors" task as necessary.
Stop. You have completed this procedure.
DLP-G261 Clean Multi Fiber-Optic Cable Connectors
Warning Invisible laser radiation may be emitted from the end of the unterminated fiber cable or connector. Do not stare into the beam or view directly with optical instruments. Statement 1051 |
Step 1 Remove the protective cap on the optical fiber cable connector.
Step 2 Read the manufacturer (cleaning cartridge) instructions to insert the connector into the cleaning cartridge.
Step 3 Slide the lever on the cartridge to swipe the connector surface.
Step 4 Insert the fiber connector into the applicable adapter or attach a dust cap to the fiber connector.
Note If you must replace a dust cap on a connector, first verify that the dust cap is clean.
Step 5 Return to your originating procedure (NTP).
DLP-G262 Clean Fiber Connectors with CLETOP
Step 1 Remove the dust cap from the fiber connector.
Step 2 Press the lever down to open the shutter door. Each time you press the lever, you expose a clean wiping surface.
Step 3 Insert the connector into the CLETOP cleaning cassette slot, rotate one quarter turn, and gently swipe downwards.
Step 4 Use an inspection microscope to inspect each fiber connector for dirt, cracks, or scratches. If the connector is not clean, repeat Steps 1 to 3.
Step 5 Insert the fiber connector into the applicable adapter or attach a dust cap to the fiber connector.
Note If you must replace a dust cap on a connector, first verify that the dust cap is clean. To clean the dust cap, wipe the outside of the cap using a dry, lint-free wipe and the inside of the dust cap using a CLETOP stick swab (14100400).
Step 6 Return to your originating procedure (NTP).
DLP-G263 Clean the Fiber Adapters
Purpose |
This task cleans the fiber adapters. |
Tools/Equipment |
CLETOP stick swab |
Prerequisite Procedures |
None |
Required/As Needed |
Required |
Onsite/Remote |
Onsite |
Security Level |
None |
Step 1 Remove the dust plug from the fiber adapter.
Step 2 Insert a CLETOP stick swab (14100400) into the adapter opening and rotate the swab.
Step 3 Place dust plugs on the fiber adapters when not in use.
Step 4 Return to your originating procedure (NTP).
NTP-G40 Replace the Front Door
Note Be careful not to crimp any fiber cables that are connected to the MXP/TXP cards or DWDM cards. Some might not have the fiber boot attached.
Step 1 Insert the front door into the hinges on the shelf assembly.
Step 2 Attach one end of the ground strap terminal lug (72-3622-01) to the male stud on the inside of the door. Attach and tighten the #6 Kepnut (49-0600-01) using the open-end wrench (Figure 13-6).
Figure 13-6 Installing the Door Ground Strap Retrofit Kit
Step 3 Attach the other end of the ground strap to the longer screw on the fiber guide.
a. Attach the lock washer.
b. Attach the terminal lug.
c. Using the open-end wrench, attach and tighten the #4 Kepnut (49-0337-01) on the terminal lug.
Note To avoid interference with the traffic (line) card, make sure the ground strap is in a flat position when the door is open. To move the ground strap into a flat position, rotate the terminal lug counterclockwise before tightening the Kepnut.
Step 4 Replace the left cable-routing channel.
Step 5 Using a Phillips screwdriver, insert and tighten the screws for the cable-routing channel.
Figure 13-7 shows the shelf assembly with the front door and ground strap installed.
Figure 13-7 Shelf Assembly with Door Ground Strap Retrofit Kit Installed
Step 6 Swing the door closed.
Note The ONS 15454 comes with a pinned hex key tool for locking and unlocking the front door. Turn the key counterclockwise to unlock the door and clockwise to lock it.
Stop. You have completed this procedure.
NTP-G116 Replace the Fan-Tray Assembly
Purpose |
This procedure replaces a malfunctioning fan-tray assembly. |
Tools/Equipment |
None |
Prerequisite Procedures |
|
Required/As Needed |
As needed |
Onsite/Remote |
Onsite |
Security Level |
None |
Note To replace the fan-tray assembly, it is not necessary to move any of the cable management facilities.
Step 1 Review Table 13-3 (ANSI) or Table 13-4 (ETSI) to ensure that you have compatible components when replacing the fan-tray assembly. Note the alarms that will be generated when an incompatibility occurs.
Note If you need to determine the hardware that has been installed on a node, click the Inventory tab in node view.
|
|
|
|
|
|
---|---|---|---|---|---|
— |
— |
No fuse |
— |
— |
Mismatch of equipment attributes (MEA) on the alarm interface panel (AIP) |
NEBS3E or NEBS3 |
2A |
2A |
No |
— |
None |
NEBS3E or NEBS3 |
2A |
2A |
Yes |
— |
MEA on 10G |
NEBS3E or NEBS3 |
2A |
5A |
No |
— |
None |
NEBS3E or NEBS3 |
2A |
5A |
Yes |
— |
MEA on 10G |
ANSI or HD |
2A |
2A |
No |
— |
None |
ANSI or HD |
2A |
2A |
Yes |
2.5G compatible |
MEA on fan tray, AIP, and Ethernet |
ANSI or HD |
2A |
2A |
Yes |
10G compatible |
MEA on fan tray and AIP |
ANSI or HD |
2A |
5A |
No |
Either |
None |
ANSI or HD |
2A |
5A |
Yes |
2.5G compatible |
MEA on fan tray and Ethernet |
ANSI or HD |
2A |
5A |
Yes |
10G compatible |
MEA on fan tray |
ANSI or HD |
5A |
2A |
No |
Either |
MEA on AIP |
ANSI or HD |
5A |
2A |
Yes |
2.5G compatible |
MEA on AIP and Ethernet |
ANSI or HD |
5A |
2A |
Yes |
10G compatible |
MEA on AIP |
ANSI or HD |
5A |
5A |
No |
Either |
None |
ANSI or HD |
5A |
5A |
Yes |
Either |
None |
1 15454-SA-NEBS3E (P/N: 800-07149-xx) or 15454-SA-NEBS3 (P/N: 800-06741-xx) = shelf assemblies released before ONS 15454 Release 3.1 2 5A Fan Tray = 15454-FTA3 (P/N: 800-19858-xx) or 15454-FTA3-T (P/N: 800-21448-xx) 3 5A AIP (P/N: 73-7665-01), 2A AIP (P/N: 73-5262-01) 4 10G cards include the XC10G, OC192, and OC48AS. 5 2.5G compatible indicates cards that are compatible with the XCVT cross-connect card. 10G compatible indicates cards that are compatible with the XC10G and XC-VXC-10G cross-connect cards. |
|
|
|
|
|
---|---|---|---|---|
15454E-SA-ETSI |
2A |
No |
— |
None |
15454E-SA-ETSI |
2A |
Yes |
— |
MEA on 10G |
15454E-SA-ETSI |
2A |
No |
— |
None |
15454E-SA-ETSI |
2A |
Yes |
— |
MEA on 10G |
15454E-SA-ETSI |
5A |
No |
— |
MEA on fan tray |
15454E-SA-ETSI |
5A |
Yes |
— |
MEA on fan tray and 10G cards |
15454E-SA-ETSI |
5A |
No |
— |
None |
15454E-SA-ETSI |
5A |
Yes |
— |
MEA on 10G |
ETSI |
2A |
No |
— |
None |
ETSI |
2A |
Yes |
2.5G compatible |
MEA on fan tray or Ethernet |
ETSI |
2A |
Yes |
10G compatible |
MEA on fan tray |
ETSI |
2A |
No |
Either |
None |
ETSI |
2A |
Yes |
2.5G compatible |
MEA on fan tray, Ethernet |
ETSI |
2A |
Yes |
10G compatible |
MEA on fan tray |
ETSI |
5A |
Yes |
2.5G compatible |
MEA on Ethernet |
ETSI |
5A |
No |
Either |
None |
ETSI |
5A |
Yes |
Either |
None |
1 15454-SA-ETSI (P/N: 800-08708-XX) = ONS 15454 SDH Release 3.3 and later shelf assembly 2 5A Fan Tray = 15454E-FTA-60V 3 10G cards = XC10G, XC-VXL-10G, XC-VXC-10G |
Step 2 Open the front door of the shelf assembly. If the shelf assembly does not have a front door, continue with Step 4.
a. Open the front door lock.
The ONS 15454 comes with a pinned hex key for locking and unlocking the front door. Turn the key counterclockwise to unlock the door and clockwise to lock it.
b. Press the door button to release the latch.
c. Swing the door open.
Step 3 (Optional) Remove the front door. If you do not want to remove the door, proceed to Step 4.
a. Detach the ground strap from either the door or the chassis by removing one of the Kepnuts.
b. Place the Kepnut back on the stud after the ground strap is removed to avoid misplacement.
c. Secure the dangling end of the ground strap to the door or chassis with tape.
Step 4 Push the outer side of the handles on the fan-tray assembly to expose the handles.
Step 5 Fold out the retractable handles at the outside edges of the fan tray.
Step 6 Pull the handles and slide the fan-tray assembly one inch (25.4 mm) out of the shelf assembly and wait until the fans stop.
Step 7 When the fans have stopped, pull the fan-tray assembly completely out of the shelf assembly. Figure 13-8 shows the location of the fan tray on the ONS 15454 ANSI shelf.
Figure 13-8 Removing or Replacing the Fan-Tray Assembly (Front Door Removed) (ANSI)
Figure 13-9 shows the location of the fan tray on the ONS 15454 ETSI shelf.
Figure 13-9 Removing or Replacing the Fan-Tray Assembly (Front Door Removed) (ETSI)
Step 8 If you are replacing the fan-tray air filter and it is installed beneath the fan-tray assembly, slide the existing air filter out of the shelf assembly and replace it before replacing the fan-tray assembly.
If you are replacing the fan-tray air filter and it is installed in the external bottom bracket (ANSI shelf only), you can slide the existing air filter out of the bracket and replace it at anytime. For more information on the fan-tray air filter, see the "NTP-G114 Inspect, Clean, and Replace the Air Filter" procedure.
Step 9 Slide the new fan tray into the shelf assembly until the electrical plug at the rear of the tray plugs into the corresponding receptacle on the backplane.
Step 10 To verify that the tray has plugged into the backplane, ensure that the LCD on the front of the fan tray is activated.
Step 11 If you replace the door on an ANSI shelf, be sure to reattach the ground strap.
Stop. You have completed this procedure.
NTP-G117 Replace the ANSI Shelf Alarm Interface Panel
Step 1 Review Table 13-3 to ensure that you have compatible components when replacing the fan-tray assembly and note the alarms that will occur when an incompatibility occurs.
Step 2 Ensure that all nodes in the affected network are running the same software version before replacing the AIP and repairing circuits:
a. In network view, click the Maintenance > Software tabs. The working software version for each node is listed in the Working Version column.
b. If you need to upgrade the software on a node, refer to the release-specific software upgrade document. No hardware should be changed or circuit repair performed until after the software upgrade is complete. If you do not need to upgrade software or have completed the software upgrade, proceed to Step 3.
Step 3 Record the MAC address of the old AIP:
a. Log into the node where you will replace the AIP. See the "DLP-G46 Log into CTC" task.
b. In node view, click the Provisioning > Network tabs.
c. Record the MAC address shown in the General tab (Figure 13-10).
Figure 13-10 Find the MAC Address
Step 4 Call Cisco TAC for assistance in replacing the AIP and maintaining the original MAC address.
Step 5 Unscrew the five screws that hold the lower backplane cover in place (Figure 13-11).
Figure 13-11 Lower Backplane Cover
Step 6 Grip the lower backplane cover and gently pull it away from the backplane.
Step 7 Unscrew the two screws that hold the AIP cover in place.
Step 8 Grip the cover and gently pull away from the backplane.
Note On the 15454-SA-HD (P/N: 800-24848), 15454-SA-NEBS3E, 15454-SA-NEBS3, and 15454-SA-R1 (P/N: 800-07149) shelves, the AIP cover is clear plastic. On the 15454-SA-ANSI shelf (P/N: 800-19857), the AIP cover is metal.
Step 9 Grip the AIP and gently pull it away from the backplane.
Step 10 Disconnect the fan-tray assembly power cable from the AIP.
Step 11 Set the old AIP aside for return to Cisco.
Step 12 Attach the fan-tray assembly power cable to the new AIP.
Step 13 Place the new AIP on the backplane by plugging the panel into the backplane using the DIN connector.
Step 14 Replace the AIP cover over the AIP and secure the cover with the two screws.
Step 15 Replace the lower backplane cover and secure the cover with the five screws.
Step 16 In node view, click the Provisioning > Network tabs.
Step 17 Reset the standby TCC2/TCC2P card:
a. Right-click the standby TCC2/TCC2P card and choose Reset Card.
b. Click Yes in the Resetting Card dialog box. As the card resets, a loading (Ldg) indication appears on the card in CTC.
Note The reset takes approximately five minutes. Do not perform any other steps until the reset is complete.
Step 18 Complete the "DLP-G250 Reset the TCC2/TCC2P Card" task to reset the active TCC2/TCC2P card.
Step 19 From the File drop-down list, choose Exit to exit the CTC session.
Step 20 Log back into the node. In the Login dialog box, choose (None) from the Additional Nodes drop-down list.
Step 21 Record the new MAC address:
a. In node view, click the Provisioning > Network tabs.
b. Record the MAC address shown in the General tab.
Step 22 In node view, click the Circuits tab. Note that all circuits listed have a status of PARTIAL.
Step 23 In node view, choose Repair Circuits from the Tools drop-down list. The Circuit Repair dialog box appears.
Step 24 Read the instructions in the Circuit Repair dialog box (Figure 13-12). If all the steps in the dialog box have been completed, click Next. Ensure that you have the old and new MAC addresses.
Figure 13-12 Repairing Circuits
Step 25 The Node MAC Addresses dialog box appears (Figure 13-13):
a. From the Node drop-down list, choose the name of the node where you replaced the AIP.
b. In the Old MAC Address field, enter the old MAC address that was recorded in Step 3.
c. Click Next.
Figure 13-13 Recording the Old MAC Address Before Replacing the AIP
Step 26 The Repair Circuits dialog box appears (Figure 13-14). Read the information in the dialog box and click Finish.
Figure 13-14 Circuit Repair Information
Note The CTC session freezes until all circuits are repaired. Circuit repair can take up to five minutes or more depending on the number of circuits provisioned.
When the circuit repair is complete, the Circuits Repaired dialog box appears.
Step 27 Click OK.
Step 28 In node view of the new node, click the Circuits tab. Check to ensure that all circuits listed have a status of DISCOVERED. If all circuits listed are not DISCOVERED, call the Cisco TAC at (800) 553-2447 to open a Return Material Authorization (RMA).
Stop. You have completed this procedure.
NTP-G118 Replace the ANSI Shelf Plastic Lower Backplane Cover
Step 1 Use the Phillips screwdriver to unscrew the five retaining screws that hold the metal cover in place.
Step 2 Grasp the metal cover on each side.
Step 3 Gently pull the metal cover away from the backplane.
Step 4 Place the plastic cover against the shelf assembly and align the screw holes on the cover and the shelf assembly (Figure 13-15).
Figure 13-15 Attaching Plastic Lower Backplane Cover
Step 5 Tighten the five retaining screws that hold the plastic cover in place.
Stop. You have completed this procedure.
NTP-G135 Edit Network Element Defaults
Note For a list of NE defaults, see "Network Element Defaults."
Step 1 Complete the "DLP-G46 Log into CTC" task at the node where you want to edit NE defaults.
Step 2 Click the Provisioning > Defaults tabs.
Step 3 Under Defaults Selector, choose either a card (if editing card-level defaults) or NODE (if editing node-level defaults). Clicking on the node name (at the top of the Defaults Selector column) lists all available NE defaults (both node- and card-level) under Default Name.
Step 4 Locate a default that you want to change under Default Name.
Step 5 Click in the Default Value column for the default property that you are changing and either choose a value from the drop-down list (when available), or type in the desired new value.
Note If you click Reset before you click Apply, all values will return to their original settings.
Step 6 Click Apply (click in the Default Name column to activate the Apply button if it is unavailable). You can modify multiple default values before applying the changes.
A pencil icon will appear next to any default value that will be changed as a result of editing the defaults file.
Step 7 If you are modifying node-level defaults, a dialog box appears telling you that defaults were successfully applied to the node. Click Yes.
If you are modifying the IIOP Listener Port setting, a dialog box appears warning you that the node will reboot and asks if you want to continue. Click Yes.
Note Changes to most node defaults reprovision the node when you click Apply. Changes made to card settings using the Defaults Editor do not change the settings for cards that are already installed or slots that are preprovisioned for cards, but rather, change only cards that are installed or preprovisioned thereafter. To change settings for installed cards or preprovisioned slots, see Chapter 11 "Change DWDM Card Settings." To change settings for transponder or muxponder cards see Chapter 5 "Provision Transponder and Muxponder Cards."
Note Changing some NE defaults can cause CTC disconnection or a reboot of the node in order for the default to take effect. Before you change a default, view the Side Effects column of the Defaults editor (right-click a column header and select Show Column > Side Effects) and be prepared for the occurrence of any side effects listed for that default.
Stop. You have completed this procedure.
NTP-G136 Import Network Element Defaults
Note For a list of NE defaults, see "Network Element Defaults."
Step 1 Complete the "DLP-G46 Log into CTC" task at the node where you want to import NE defaults.
Step 2 Click the Provisioning > Defaults tabs.
Step 3 Click Import.
Step 4 If the correct file name and location of the desired file do not appear in the Import Defaults from File dialog box, click Browse and browse to the file that you are importing.
Step 5 When the correct file name and location appear in the dialog box, click OK. If you are importing the factory defaults, the correct file name is 15454-defaults.txt for ANSI shelves and 15454SDH-defaults.txt for ETSI shelves.
A pencil icon will appear next to any default value that will be changed as a result of importing the new defaults file.
Step 6 Click Apply.
Step 7 If the imported file fails to pass all edits, the problem field shows the first encountered problem default value that must be fixed. Change the problem default value and click Apply. Repeat until the imported file passes all edits successfully.
Step 8 If you are modifying node-level defaults, a dialog box appears telling you that defaults were successfully applied to the node. Click Yes.
Step 9 If you are modifying the IIOP Listener Port setting, a dialog box appears warning you that the node will reboot and asks if you want to continue. Click Yes.
Note Changes to most node defaults reprovision the node when you click Apply. Changes made to card settings using the Defaults Editor do not change the settings for cards that are already installed or slots that are preprovisioned for cards, but rather, change only cards that are installed or preprovisioned thereafter. To change settings for installed cards or preprovisioned slots, see Chapter 11 "Change DWDM Card Settings." To change settings for transponder or muxponder cards see Chapter 5 "Provision Transponder and Muxponder Cards."
Note Changing some NE defaults can cause CTC disconnection or a reboot of the node in order for the default to take effect. Before you change a default, view the Side Effects column of the Defaults editor (right-click a column header and select Show Column > Side Effects) and be prepared for the occurrence of any side effects listed for that default.
Stop. You have completed this procedure.
NTP-G137 Export Network Element Defaults
Note The defaults currently displayed are exported whether or not they have been applied to the current node.
Note The NE defaults can also be exported from the File > Export menu. These exported defaults are for reference only and cannot be imported.
Note For a list of NE defaults, see "Network Element Defaults."
Step 1 Complete the "DLP-G46 Log into CTC" task at the node where you want to export NE defaults.
Step 2 Click the Provisioning > Defaults editor tabs.
Step 3 Click Export.
Step 4 If the location where you want to export the file does not appear in the Export Defaults to File dialog box, click Browse and browse to the location.
Step 5 Change the file name to something that is easy to remember (the file name has no extension).
Step 6 Click OK.
Stop. You have completed this procedure.