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Lucent Technologies
7820-0802-003 manual
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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
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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