Lucent Technologies 7820-0802-003 manual

Contents

Main Lucent Technologies Customer Service Finding information and software on the Internet Obtaining technical assistance Gathering information you will need Calling Lucent from within the United States Other telephone numbers Calling Lucent from outside the United States Obtaining assistance through correspondence Contents About This Guide............................................................................ xvii Chapter 1 Performing Basic Configuration.................................................... 1-1 Chapter 4 Configuring Ethernet Cards........................................................... 4-1 Page Page Chapter 14 Configuring DS3-ATM Cards........................................................ 14-1 Chapter 16 Configuring STM-0 Cards............................................................. 16-1 Page Page Figures Page Tables Page About This Guide What is in this guide ! What you should know Network security Documentation conventions ! Documentation set Page Performing Basic Configuration Introduction to basic configuration Page Connecting to a new unit New APX 8000 unit New MAX TNT or DSLTNT unit Configuring the shelf-controller IP address on a nonredundant unit Setting the system date Setting the system name Setting the log level Configuring a default gateway Configuring basic DNS information Pinging the TAOS unit from a local host Recommended basic security measures Changing the Admin password Securing the serial port Assigning a Telnet password Requiring acceptance of the pool address Ignoring ICMP redirects Disabling directed broadcasts Configuring SNMP access to the unit Overview of SNMP security Enabling SNMP in the TAOS unit Setting community strings Setting up address security Where to go next Configuring Shelf-Controller Redundancy (APX 8000) Overview of redundancy operations Shelf-controller startup and primary election Normal operation Controller switchover Log messages Configuring the APX 8000 for shelf-controller redundancy Assigning the system IP address Assigning an Ethernet IP address Examples of setting shelf-controller Ethernet IP address Defining the soft IP interface for fault tolerance Example of setting the soft IP address Configuring shelf-controller redundancy Physical interface profiles Redundancy profile Page Switching the primary controller at the command-line interface Resetting shelf controllers and clearing controller NVRAM Resetting the controllers Clearing NVRAM Obtaining status information about redundant shelf controllers Viewing controller up time Viewing controller status Setting up a trap to monitor the secondary controller Clearing the fatal-error history log Page Configuring the Thermal Profile for Fan Tray Operations (APX 8000) Overview of the Thermal profile for fan tray operations Example of configuring thermal controls Related log messages Thermal alarms Thermal status reporting Fanstatus command Thermalstatus command Page Configuring Ethernet Cards Introduction to Ethernet slot cards Full-duplex 10/100Mbps Ethernet-2 slot card Full-duplex 10/100Mbps Ethernet-3 slot card Upgrading to the Ethernet-2 and Ethernet-3 slot cards Overview of Ethernet configuration Understanding the Ethernet-related profiles Ethernet profile IP-Interface profile Configuring duplex mode on the 100Mbps Ethernet port Page Configuring Series56 II and III Modem and Hybrid Access Cards Overview of configuring modem cards Specifying modem negotiation settings Specifying modem modulation for Series56 II and III modem cards Configuring an additional A T an swer st ring fo r modem calls Series56 II and III Call-Route profiles Preventing Series56 II and III cards from delaying Frame Relay connections Hybrid Access card implementation Page Configuring MultiDSP Cards (MAX TNT, APX 8000) Introduction to MultiDSP 48-port MultiDSP card 96-port MultiDSP card Card configuration constraints Using 48-port and 96-port MultiDSP cards Using Series56 cards with MultiDSP cards Supported MultiDSP services Data V.11 0 PHS Voice over IP (VoIP) Obtaining status information about a MultiDSP card Displaying information about all installed cards Displaying information about an installed Mult iDSP card Verifying that installed software and software versions are correct Configuring a MultiDSP card Verifying that MultiDSP services are enabled Verifying call routes for MultiDSP services Viewing the Call-Route profile and its Call-Route-Type parameter About the Call-Route-Type parameter Viewing call-routing database entries Verifying that configurations are correct for related services Adding an additional MultiDSP service Page Page Configuring T1 Cards Introduction to T1 ISDN PRI Nailed or unchannelized T1 Channelized line-side vs. trunk-side T1 Overview of T1 configuration Page Page Page Assigning names to T1 line profiles Specifying the framing and encoding Configuring ISDN PRI signaling Configuring ISDN network-side emulation Configuring overlap receiving on PRI lines Page Configuring inband robbed-bit signaling Page Configuring NFAS Configuring a single NFAS group Configuring multiple NFAS groups Page Configuring ISDN NFAS for Japanese switch types Configuring T1 R1 and R1-Modified (Taiwan) with ANI and called-number processing Page Configuring the front-end transceiver Configuring channel usage Assigning telephone numbers to switched channels Configuring trunk groups Configuring nailed channels Configuring a back-to-back T1 connection Specifying analog encoding for TAOS unit codecs Configuring specialized options Sample T1 configuration Default Call-Route profiles Configuring T1 FrameLine Cards (MAX TNT, DSLTNT) Introduction to T1 FrameLine Overview of supported features PPP Frame Relay Overview of T1 FrameLine configuration Configuring the clock source Page Configuring E1 Cards Introduction to E1 ISDN Primary Rate Interface (PRI) Nailed or unchannelized E1 Overview of E1 configuration Page Understanding configuration requirements Page Assigning names to E1 line profiles Configuring a back-to-back connection Specifying the framing Specifying E1 signaling Configuring ISDN PRI signaling Configuring ISDN network-side emulation Configuring E1 R1 signaling Configuring E1 R2 signaling Page Configuring DPNSS signaling Configuring overlap receiving on PRI lines Configuring clocking Configuring the front-end E1 transceiver Configuring channel usage Assigning telephone numbers to switched channels Configuring trunk groups Configuring nailed channels Specifying analog encoding for TAOS unit codecs Default Call-Route profiles Page Page Configuring E1 FrameLine Cards (MAX TNT, DSLTNT) Introduction to E1 FrameLine Overview of supported features PPP Frame Relay Overview of E1 FrameLine configuration Example E1 FrameLine configuration Administrative profiles for E1 FrameLine Admin-State profile Device-State profile Administrative commands and status information Configuring the clock source Configuring T3 Cards Introduction to T3 Overview of T3 configuration Understanding T3 configuration requirements Understanding T3 slot card profiles T3 profile Call-Route profile T1 profiles Assigning a name to a T3 profile Configuring the T3 physical link Page Configuring Serial WAN (SWAN) Cards (MAX TNT, DSLTNT) Introduction to SWAN Overview of SWAN configuration Understanding SWAN card configuration requirements Page Assigning a name to a SWAN profile Specifying a nailed group Specifying the SWAN internal clock speed Frame Relay configuration Configuring Unchannelized DS3 Cards (MAX TNT, DSLTNT) Introduction to unchannelized DS3 Supported features Overview of unchannelized DS3 configuration Using the UDS3 profile Configuring the UDS3 physical link Page Page Configuring DS3-ATM Cards Introduction DS3-ATM Overview of DS3-ATM settings BIT-PLCP (the default). You can specify C-bit Physical Layer Examples of DS3-ATM configurations Configuring redundant cards Looping back the line Configuring OC3-ATM Cards (MAX TNT/DSLTNT) Introduction to OC3-ATM Overview of OC3-ATM settings Page Using OC3-ATM ports as a clock source Example of an OC3-ATM configuration Configuring STM-0 Cards Introduction to STM-0 Using STM and T1 profiles Sample STM-0 configurations Example of configuring an STM profile Example of configuring a T1 data trunk Page Configuring DSL Connections (DSLTNT) Introduction to DSL technologies IDSL overview ADSL overview SDSL overview DSL configuration Configuring switched connections Configuring nailed connections Configuring data transfer rates Configuring data transfer rates for ADSL lines Configuring data transfer rates for SDSL lines Configuring per-session data transfer rates Configuring per-session data rates using modem rate control Configuring per-session data rate limits Sample log session showing rate control negotiation Page Configuring DSLPipe Plug and Play How Plug and Play works DHCP server requirements TFTP server requirements DSLPipe default configuration Configuring the DSLTNT Configuring BOOTP Relay Configuring a Frame Relay profile Configuring a Connection profile Configuring IDSL voice connections Incoming calls Outgoing calls Configuring the DSLTNT Configuring the IDSL profile Configuring a Connection profile for the remote device Configuring trunk groups Configuring the Pipeline Configuring the Configure profile Sample DSL configurations Sample Frame Relay IDSL configuration Configuring the DSLTNT Configuring a Connection profile for the remote device Configuring the IDSL profile Configuring the Frame Relay profile Configuring a static route to the gateway Configuring the Pipeline Configuring the Configure profile Configuring the Frame Relay profile Sample ADSL nailed PPP connection Configuring the ADSL profile Configuring the DSLPipe Sample SDSL Frame Relay configuration using numbered interfaces Page Configuring the IP-Route profile Configuring the Frame-Relay profile Configuring the DSLPipe-S Sample SDSL Frame Relay configuration using system-based routing Page Configuring the Frame-Relay profile Configuring the DSLPipe-S Page Page Signaling System 7 (SS7) Introduction to SS7 System requirements for SS7 operations TAOS unit as terminator of data calls in an SS7 network TAOS unit as terminator of voice and data calls in an SS7 network Interface between a signaling gateway and TAOS unit Incoming calls Continuity tests Configuring an SS7 signaling gateway Page Specifying the SS7 control protocol Configuring transport-layer options System IP address considerations Example of a basic configuration T1 lines as SS7 data trunks Example of configuring a T3 card for SS7 data Example of configuring a T1 data trunk E1 lines as SS7 data trunks V.110 bearer capability for SS7 calls using IPDC SS7 link establishment timer Two-wire continuity check on T1 and E1 lines Page Outgoing continuity tests on T1 and T3 Digital milliwatt tone support on T1 and T3 Analog milliwatt tone and variable tone support Reporting VoIP call statistics When the unit reports VoIP statistics ss7nmi debug-level command Statistics and error reporting on SS7 connections Command output when no errors are detected Page Page Command output showing errors Cause codes for SS7 ASGCP calls to the TAOS unit SS7 IPDC support for call ID and disconnect cause codes IPDC generation of a globally unique call ID Global-Call-ID parameter Start and Stop records Disconnect cause codes Page SNMP support for SS7 Page Configuring Call Routing Network, host, and dual-purpose devices Understanding the call-routing database How call routes affect device usage Modem usage and database sort order HDLC channel usage and database sort order Trunk line usage and sort order Working with Call-Route profiles Call-Route profile settings Outbound call routing by trunk group Multilink Frame Relay requirements with Hybrid Access Example with two E1 lines in an MFR bundle Example with six E1 lines in an MFR bundle Concentrating multilink calls on one Hybrid Access card Dedicating Series56 cards to modem processing Enabling Series56 cards to handle HDLC processing Another way to route incoming calls (deprecated) Call routing algorithms Localization of call routes within a quadrant How the system finds a route Details of how a route is chosen First pass: trunk group number Second pass: ISDN subaddresses Third pass: telephone numbers Fourth pass: destination device addresses Fifth pass: source device addresses Last pass: comparison routing type Page A Provisioning the Switch Provisioning the switch for T1 access What you need from your T1 service provider What you need from your E1 service provider Index A B C Page D E F G H I L M N O P R S T Page U V W