Cisco Systems MC-607 manual Customizing the Cable Access Router Interface, MC-649

Page 43

Configuring Subscriber-End Broadband Access Router Features

Customizing the Cable Access Router Interface

Customizing the Cable Access Router Interface

Different geographical regions and different cable plants use different frequency bands. The

Cisco uBR900 series cable access router uses a built-in default frequency scanning feature to address this issue. After the cable access router finds a successful downstream frequency channel, it saves the channel and power setting to NVRAM. The cable access router recalls this value the next time it needs to synchronize its frequency or register with the cable service provider CMTS.

However, you can customize the cable access router interface configuration if you need to deviate from the default setting that ships with the unit. For example, you might need to specify a different compliant mode, modify the saved downstream channel setting and upstream power value, or enable a faster downstream search algorithm.

Note Most cable network scenarios will not require you to use the commands in this section.

To customize the cable access router interface, use the following commands beginning in global configuration mode:

 

Command

Purpose

Step 1

 

 

uBR924(config)# interface cable-modem 0

Specifies cable access router interface 0.

Step 2

 

 

uBR924(config-if)#cable-modem compliant bridge

Enables DOCSIS-compliant bridging.

Step 3

 

 

uBR924(config-if)#cable-modem downstream saved

Modifies the saved downstream channel setting and

 

channel ds-frequency us-power

upstream power value. If you do this, you must

 

 

specify an exact downstream frequency and a power

 

 

value.1

Step 4

uBR924(config-if)#cable-modem fast-search

Enables a faster downstream search algorithm.

 

 

 

1. Use the no cable-modem downstream saved channel ds-frequencyus-powercommand to remove a saved frequency and power setting from

NVRAM.

Using Multiple PCs with the Cable Access Router

The MAX CPE parameter in the DOCSIS configuration file determines how many PCs or other CPE devices are supported by a particular cable access router. The default value for the MAX CPE parameter is 1, which means only one PC can be connected to the cable access router unless this value is changed.

The DOCSIS 1.0 specification states that a CMTS cannot age out MAC addresses for CPE devices. Thus, if MAX CPE = 1, the first PC that is connected to a cable access router is normally the only one that the CMTS recognizes as valid. If you wish to replace an existing PC or change its network interface card (NIC) to one that has a different MAC address, the CMTS will refuse to let the PC come online because this would exceed the maximum number of CPE devices specified by the MAX CPE parameter.

If you wish to replace an existing PC or NIC, use one of the following workarounds:

Use the clear cable host reset command on the Cisco uBR7200 series universal broadband router to remove the PC MAC address from the router internal address tables. The PC MAC address will be rediscovered and associated with the correct cable access router during the next DHCP lease cycle.

Cisco IOS Multiservice Applications Configuration Guide

MC-649

Page 42 Page 44
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Page 42 Page 44
Contents MC-607 Configuring Subscriber-End Broadband Access Router FeaturesSubscriber-end Overview Cisco IOS Software Feature SetsMC-608 Home Office Easy IP Feature Set Base IP Bridging Feature SetMC-609 Telecommuter Feature Set Small Office Feature SetMC-610 MC-611 Operating ModesDescription Downstream Values Upstream Values Data SpecificationsMC-612 MC-613 Service AssignmentsBridging Applications Downstream and Upstream Data TransferMC-614 MC-615 Routing ApplicationsNetwork Address Translation and Port Address Translation L2TP ProtocolEasy IP Dhcp ServerMC-617 Voice over IP OperationsSimplified VoIP over Cable Network MC-618MC-619 Voice Compression and DecompressionMC-620 Protocol StackMC-621 Subscriber-End Broadband Access Router Voice SpecificationsSgcp Protocol Stack Metric ValueMC-622 Backup Pots ConnectionIPSec Network Security Docsis Baseline PrivacyMC-623 MC-624 Triple Data Encryption StandardFirewall NetRanger Support-Cisco IOS Intrusion DetectionMC-625 Subscriber-End Broadband Access Router Configuration OptionsMC-626 MC-627 Event DescriptionMC-628 Sequence Event DescriptionMC-629 MC-630 MC-631 Cable Modem Initialization FlowchartMC-632 Subscriber-End Broadband Access Router Basic TroubleshootingWaitforlinkupstate MC-633UBR924# show controllers cable-modem 0 mac ? MC-634Event 2-Scan for a Downstream Channel, then Synchronize Event 1-Wait for the Link to Come UpMC-635 Event 3-Obtain Upstream Parameters Event 4-Start Ranging for Power AdjustmentsMC-636 MC-637 Event 5-Establish IP ConnectivityEvent 9-Perform Registration Event 6-Establish the Time of DayEvent 7-Establish Security Event 8-Transfer Operational ParametersEvent 10-Comply with Baseline Privacy Event 11-Enter the Maintenance StateMC-639 MC-640 Subscriber-End Broadband Access Router Configuration TasksCommand Purpose Configuring a Host Name and PasswordMC-641 MC-642 Configuring Ethernet and Cable Access Router InterfacesMC-643 Configuring RoutingMC-644 Verifying RoutingMC-645 Configuring BridgingMC-646 MC-647 Reestablishing DOCSIS-Compliant BridgingMC-648 Verifying DOCSIS-Compliant BridgingUsing Multiple PCs with the Cable Access Router Customizing the Cable Access Router InterfaceMC-649 MC-650 Basic Internet Access Bridging Configuration ExampleMC-651 Basic Internet Access Routing Configuration ExampleMC-652 IP Multicast Routing Configuration ExampleMC-653 VoIP Bridging Using H.323v2 Configuration ExampleMC-654 VoIP Routing Using H.323v2 Configuration ExampleMC-655 NAT/PAT Configuration ExampleMC-656 VoIP Bridging Using Sgcp Configuration ExampleMC-657 IPSec Configuration ExampleMC-658 L2TP Configuration ExampleMC-659 MC-660
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