Network Router User Manual

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Table Of Contents

Compact T1 User Manual
Preface
- FCC Requirements for Telephone-Line Equipment
- Certification Notice for Equipment Used in Canada
- Federal Communications Commission and Canadian Department of Communications Radio Frequency Interference Statements
- Normas Oficiales Mexicanas (NOM) Electrical Safety Statement Instrucciones de Seguridad
Table of Contents
1 - Base Platform
- Overview
- Features
- Dual T1 Controller
- Power Supply
  - 115 VAC/-48 VDC Power Supply/Charger
- Service Cards
- Local and Remote Management
- Technical Specifications
- Chassis
  - RS-232 Craft Port (Female DB-9)
  - T1 and 10Base-T Ethernet
2 - Physical Installation
- Unpacking and Inspection
- Installation Environment
- Assembly of Unit
- Wall Mounting
- Rack Mounting (Optional Feature)
3 - Electrical Installation and Cabling
- Compliant Installation
  - Ferrite Beads
- Chassis Connectors and Buttons
- Interface Connectors
4 - Configuration
- Setting up a CLI Connection
- System Information
- Basic System Setup
- Quick Configuration Reload
- Setup of DS0 Management Channel
5 - CLI Commands
- Command Line Interface Help
  - ? or help
  - [TAB] usage for word or command completion
- CLI Commands
- aco (Alarm Cut Off)
- add
  - add (router) dns proxy
  - add (router) remote
  - add (router) snmp community
  - add (router) snmp trap
  - add (router) static dns host
  - add (router) uploaduser
  - add (router-lan) filter
  - add (router-lan) secondary ip address
  - add (router-lan) static
  - add (router-wan) firewall
  - add (router-wan) gre network
  - add (router-wan) nat bypass
  - add (router-wan) static
  - add user
- alarms
- clear
  - clear (ds1)
  - clear log
  - clear (router) ip address table
  - clear (router) log
  - clear (router) mac address table
  - clear (router) mgcp stats
  - clear (router) performance
- connect
  - connect (bri) [4:1 mode]
  - Channel Associated Signaling (CAS) Conversions
  - connect (router-trunk) (t1)
  - connect (card-trunk) (card-trunk)
  - connect (router-voice) (t1|fxs)
- delete
  - delete (router) dns proxy
  - delete (router) remote
  - delete (router) snmp community
  - delete (router) snmp trap
  - delete (router) static dns host
  - delete (router) uploaduser
  - delete (router-lan) filter
  - delete (router-lan) secondary ip address
  - delete (router-lan) static
  - delete (router-wan) firewall
  - delete (router-wan) gre network
  - delete (router-wan) nat bypass
  - delete (router-wan) static
  - delete (router-wan) static ipx network
  - delete user
- disconnect
  - disconnect
- exit
- install
  - install (slot) router
- load
  - load tftp
  - load xmodem
- log
- ping
- print
  - print config
  - print help
- rename (router)
- reset
  - reset
  - reset (router)
- restore
  - restore defaults
- rtrping
- set
  - set alarms
  - set autoexit
  - set (bri)
  - set (bri) autoactivate
  - set (bri) mode
  - set (bri) pmsync
  - set clock
  - set date
  - set (ds0)
  - set (ds1)
  - set ethernet ip address
  - set (fxo)
  - set (fxs5G)
  - set id
  - set ip gateway
  - set ipds0
  - set local
  - set login auth
  - set login support
  - set ntp
  - set (ocudp) baud
  - set (ocudp) loopback
  - set (ocudp) loopdetect
  - set (ocudp) mvec
  - set (ocudp) secondary
  - set (ocudp) selftest
  - set (ocudp) up/down
  - set radius
  - set (router) autologout
  - set (router) cdr
  - set (router) compander
  - set (router) default
  - set (router) dhcp
  - set (router) dns
  - set (router) enhanced security
  - set (router) hookflash
  - set (router) lmi
  - set (router) lmi poll
  - set (router) log
  - set (router) login auth
  - set (router) login prompt
  - set (router) mgcp
  - set (router) ntp
  - set (router) password
  - set (router) ppp auth
  - set (router) ppp security
  - set (router) priority tos
  - set (router) proxy
  - set (router) reboot
  - set (router) rip
  - set (router) snmp
  - set (router) stp
  - set (router) syslog
  - set (router) voip
  - set (router-lan) collision
  - set (router-lan) filter forward
  - set (router-lan) framing
  - set (router-lan) gateway
  - set (router-lan) ip address
  - set (router-lan) ipx network
  - set (router-lan) phy
  - set (router-lan) rip
  - set (router-lan) stp
  - set (router-lan) up/down
  - set (router-trunk) encapsulation
  - set (router-trunk) multilink group
  - set (router-trunk) up/down
  - set (router-trunk) voice bandwidth limit
  - set (router-voice) algorithm preference
  - set (router-voice) cpd
  - set (router-voice) default
  - set (router-voice) down
  - set (router-voice) dtmfrelay
  - set (router-voice) echo cancellation
  - set (router-voice) echo tail
  - set (router-voice) endpoint prefix
  - set (router-voice) endpoint suffix
  - set (router-voice) log start
  - set (router-voice) log stop
  - set (router-voice) rxgain
  - set (router-voice) silence
  - set (router-voice) slash
  - set (router-voice) tos
  - set (router-voice) txgain
  - set (router-voice) up
  - set (router-wan) dlci
  - set (router-wan) gre
  - set (router-wan) ip
  - set (router-wan) ip address
  - set (router-wan) ipx
  - set (router-wan) nat
  - set (router-wan) other
  - set (router-wan) ppp
  - set (router-wan) rip
  - set (router-wan) stp
  - set (router-wan) trunk
  - set (router-wan) up/down
  - set screen
  - set snmp
  - set syslog
  - set time
  - set user
  - set (v35)
  - set (v54)
  - set verification
- show
  - show autoexit
  - show (bri)
  - show clock
  - show connect
  - show date
  - show (ds0)
  - show (ds1)
  - show ethernet
  - show (fxo)
  - show (fxs5G)
  - show impedance
  - show id
  - show ip
  - show ipds0
  - show local
  - show login
  - show ntp
  - show (ocudp)
  - show radius
  - show (router)
  - show (router) dhcp
  - show (router) dns
  - show (router) dns proxy
  - show (router) lmi
  - show (router) log
  - show (router) mgcp
  - show (router) mgcp algorithmname
  - show (router) ntp
  - show (router) ppp
  - show (router) rip
  - show (router) snmp
  - show (router) stp
  - show (router) syslog
  - show (router) uploaduser
  - show (router) voip
  - show (router-lan)
  - show (router-lan) collision
  - show (router-lan) filter
  - show (router-lan) static
  - show (router-lan) stp
  - show (router-voice)
  - show (router-wan)
  - show (router-wan) firewall
  - show (router-wan) nat bypass
  - show (router-wan) ppp
  - show (router-wan) static ip address
  - show (router-wan) static ip network
  - show (router-wan) static ipx network
  - show (router-wan) static mac address
  - show (router-wan) static nat address
  - show (router-wan) stp
  - show (router-wan) trunk
  - show screen
  - show snmp
  - show syslog
  - show time
  - show users
  - show (v35)
  - show (v54)
  - show (wan)
- status
  - status (bri)
  - status clock
  - status (ds0)
  - status (ds1)
  - status equipment
  - status (fxo)
  - status (fxs5G)
  - status ipds0
  - status (ocudp)
  - status (ocudp) performance
  - status (ocudp) performance history
  - status (router)
  - status (router) alarms
  - status (router) channels
  - status (router) dns
  - status (router) events
  - status (router) ip address table
  - status (router) ip network table
  - status (router) ipx network table
  - status (router) ipx server table
  - status (router) log
  - status (router) mac address table
  - status (router) mgcp
  - status (router) performance
  - status (router) stp
  - status (router-lan)
  - status (router-trunk)
  - status (router-voice)
  - status sessions
  - status (v35)
  - status (v54)
- store
- telnet
  - telnet (router)
6 - T1 Controller Card
- Overview
- Features
- Technical Specifications
- Configuration
  - CLI Commands
  - DIP Switch Settings
- LEDs
- DS0 Management (IP over DS0)
- TR-08 Mode 1
7 - FXO Voice Card
- Overview
- Features
- Technical Specifications
- Card Configuration
  - CLI Commands
  - DIP Switch Settings
- LEDs
- Channel Associated Signaling (CAS) Conversions
8 - FXS Voice Card
- Overview
- Features
- Technical Specifications
- Card Configuration
  - CLI Commands
  - DIP Switch Settings
- LEDs
- Channel Associated Signaling (CAS) Conversions
9 - ISDN BRI Card
- Overview
  - ISDN BRI
  - 3-DS0 BRITE Mode
- Features
- Technical Specifications
- Card Configuration
  - CLI Commands
- LEDs
- Connector Pinouts
  - 25-Pair Telco Connectors
10 - OCU-DP Card
- Overview
  - Customer Premise Application
  - SS7 Backhaul Application
- Features
- Technical Specifications
- Card Configuration
  - CLI Commands
  - Basic Setup
- LEDs
- Jumper Settings
- Alarms
- Line Rates/Line Lengths
- Connector Pinouts
  - DDS RJ-48S
  - 25-Pair Telco Connector
11 - Power Supply
- 115 VAC/-48 VDC Power Supply/Charger
  - Features
- Technical Specifications
- Input Power
- 115 VAC LEDs
- Ringer Waveform Options
- Replacing a Power Supply
12 - Quad T1 Card
- Overview
- Features
- Technical Specifications
- Card Configuration
  - CLI Commands
- Jumper Settings
- Connector Pinouts
  - 25-pin Telco Connector
  - RJ-48 Connector
- LEDs
- Configuration Restrictions
13 - Router (IP) Card
- Overview
- Features
- Technical Specifications
- Card Configuration
  - CLI Commands
- Connector Pinouts
  - Ethernet
- LEDs
14 - Router (CMG) Card
- Overview
- Features
- Technical Specifications
- Card Configuration
  - CLI Commands
- Connector Pinout
  - Ethernet
- Softswitch Interoperability Settings
  - BroadSoft™
- LEDs
15 - V.35/V.54 Cards
- Overview
  - V.35 Service Card
  - V.35/54 Service Card
- Features
  - Additional V.54 Features
- Technical Specifications
- Card Configuration
  - CLI Commands
- LEDs
- Cables
- Connector Pinouts
  - V.35 DCE (DB-26)
16 - Maintenance
- Software Upgrade
- Backup Controller Configuration
  - Save Controller Configuration
  - Load Controller Configuration
- Replace Controller Card
- Hot Swap Service Card
A - SNMP Interface
- Overview
- SNMP Basics
  - MIB Structure
- Enterprise MIB Support
- Router Enterprise MIB Support
- Public MIB Support
- Router Public MIB Support
- SNMP Trap Reports
  - Standard Traps
  - Enterprise Traps
B - Diagnostices & Troubleshooting
- Alarms
- Logs
- Status and Performance
- Loopbacks Overview
- Router Diagnostics and Performance Tools
Glossary
Index

Compact T1

USER MANUAL

CUSTOMER

SUPPORT

INFORMATION

Order toll-free in the U.S.: Call 877-877-BBOX (outside the U.S. call 724-746-5500)

FREE technical support, 24 hours a day, 7 days a week: Call 724-746-5500 or fax 724-746-0746

Mail order: Black Box Corporation, 1000 Park Drive, Lawrence, PA 15055-1018

Web site: www.blackbox.com • E-mail: info@blackbox.com

MAY 2003

RODUCT P/N MT850A

770-0110-AA

Summary of content (592 pages)

PAGE 1
MAY 2003 PRODUCT P/N MT850A 770-0110-AA Compact T1 USER MANUAL CUSTOMER SUPPORT INFORMATION Order toll-free in the U.S.: Call 877-877-BBOX (outside the U.S. call 724-746-5500) FREE technical support, 24 hours a day, 7 days a week: Call 724-746-5500 or fax 724-746-0746 Mail order: Black Box Corporation, 1000 Park Drive, Lawrence, PA 15055-1018 Web site: www.blackbox.com • E-mail: info@blackbox.
PAGE 2
Supporting Software Version: Controller 6.1 IP Router 1.6 CMG Router 2.
PAGE 3
PREFACE Preface Compliance FCC Requirements for Telephone-Line Equipment 1. The Federal Communications Commission (FCC) has established rules which permit this device to be directly connected to the telephone network with standardized jacks. This equipment should not be used on party lines or coin lines. 2.
PAGE 4
Preface Compliance Certification Notice for Equipment Used in Canada The Canadian Department of Communications label identifies certified equipment. This certification means that the equipment meets certain telecommunications-network protective, operation, and safety requirements. The Department does not guarantee the equipment will operate to the user’s satisfaction.
PAGE 5
Preface Compliance Federal Communications Commission and Canadian Department of Communications Radio Frequency Interference Statements This equipment generates, uses, and can radiate radio frequency energy and if not installed and used properly, that is, in strict accordance with the manufacturer’s instructions, may cause interference to radio communication.
PAGE 6
Preface Compliance Normas Oficiales Mexicanas (NOM) Electrical Safety Statement Instrucciones de Seguridad 1. Todas las instrucciones de seguridad y operación deberán ser leídas antes de que el aparato eléctrico sea operado. 2. Las instrucciones de seguridad y operación deberán ser guardadas para referencia futura. 3. Todas las advertencias en el aparato eléctrico y en sus instrucciones de operación deben ser respetadas. 4. Todas las instrucciones de operación y uso deben ser seguidas. 5.
PAGE 7
Preface Compliance 16. El cable de corriente deberá ser desconectado del cuando el equipo no sea usado por un largo periodo de tiempo. 17. Cuidado debe ser tomado de tal manera que objectos liquidos no sean derramados sobre la cubierta u orificios de ventilación. 18.
PAGE 8
Preface Safety Information Safety Information CAUTION! ALWAYS USE CAUTION WHEN INSTALLING TELEPHONE LINES. READ THE CAUTIONS BELOW FOR DETAILS ON SAFETY GUIDELINES TO PREVENT INJURY. l Never touch uninsulated telephone wires and terminals unless the telephone line has been disconnected at the Network Interface (NI) as voltage potentials as high as 300 VAC may be present across the transmit and receive pairs l Only use No.
PAGE 9
Preface Notices Notices This manual contains important information and warnings that must be followed to ensure safe operation of the equipment. DANGER! A DANGER NOTICE INDICATES THE PRESENCE OF A HAZARD THAT CAN OR WILL CAUSE DEATH OR SEVERE PERSONAL INJURY IF THE HAZARD IS NOT AVOIDED. CAUTION! A CAUTION NOTICE INDICATES THE POSSIBILITY OF INTERRUPTING NETWORK SERVICE IF THE HAZARD IS NOT AVOIDED. WARNING! A WARNING NOTICE INDICATES THE POSSIBILITY OF EQUIPMENT DAMAGE IF THE HAZARD IS NOT AVOIDED.
PAGE 10
Preface Electrostatic Discharge (ESD) Precautions Electrostatic Discharge (ESD) Precautions ESD can damage processors, circuit cards, and other electronic components. Always observe the following precautions before installing a system component. 1. Do not remove a component from its protective packaging until ready to install. 2. Wear a wrist grounding strap and attach it to a metal part of the system unit before handling components.
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TABLE OF CONTENTS Table of Contents Preface Compliance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . iii FCC Requirements for Telephone-Line Equipment . . . . . . . . . . . . . . iii Certification Notice for Equipment Used in Canada . . . . . . . . . . . . . iv Federal Communications Commission and Canadian Department of Communications Radio Frequency Interference Statements . . . . .
PAGE 12
Table of Contents Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7 Management Ports. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7 Network Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7 Network Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7 Clocking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PAGE 13
Table of Contents 4 Configuration Setting up a CLI Connection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2 System Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-3 Basic System Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-4 Initial Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-4 Set Up Security . . . . . . . . . . . . . . . . . . . .
PAGE 14
Table of Contents 5 CLI Commands Command Line Interface Help . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2 ? or help. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2 [TAB] usage for word or command completion . . . . . . . . . . . . . . . . . 5-2 CLI Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4 aco (Alarm Cut Off) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PAGE 15
Table of Contents connect (card-trunk) (card-trunk). . . . . . . . . . . . . . . . . . . . . . . . . . . connect (router-voice) (t1|fxs) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . delete . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . delete (router) dns proxy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . delete (router) remote. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PAGE 16
Table of Contents reset (router) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-65 restore . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-66 restore defaults . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-66 rtrping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-67 set . . . . . . . . . . . . . . . . . . . . . . . . .
PAGE 17
Table of Contents set (router) autologout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-93 set (router) cdr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-94 set (router) compander . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-94 set (router) default . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-95 set (router) dhcp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PAGE 18
Table of Contents set (router-lan) rip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-161 set (router-lan) stp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-163 set (router-lan) up/down . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-165 set (router-trunk) encapsulation . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-166 set (router-trunk) multilink group . . . . . . . . . . . . . . . . . . . . . . . . . .
PAGE 19
Table of Contents set (router-wan) trunk. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . set (router-wan) up/down . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . set screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . set snmp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . set syslog . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . set time . . .
PAGE 20
Table of Contents show (router) lmi. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-221 show (router) log . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-222 show (router) mgcp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-223 show (router) mgcp algorithmname . . . . . . . . . . . . . . . . . . . . . . . . 5-224 show (router) ntp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PAGE 21
Table of Contents show (v35) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . show (v54) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . show (wan) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . status (bri) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PAGE 22
Table of Contents status (v54) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-283 store . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-284 telnet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-285 telnet (router). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-285 6 T1 Controller Card Overview . . . . . . . . . .
PAGE 23
Table of Contents 7 FXO Voice Card Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Technical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Controller Software Required . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . FXO Transmission Performance . . . . . . . . . . . . . . . . . .
PAGE 24
Table of Contents 9 ISDN BRI Card Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-2 ISDN BRI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-2 3-DS0 BRITE Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-2 Features. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-3 Technical Specifications. . . . . . . . . . .
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Table of Contents Regulatory Approvals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-7 Physical . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-7 Card Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-8 CLI Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-8 Basic Setup. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Table of Contents 12 Quad T1 Card Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-2 Features. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-3 Technical Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-3 Controller Software Required . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-3 T1 Interface . . . . . . . . . . . . . . . . . . .
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Table of Contents Advanced Capabilities . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-5 Frame Relay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-5 Filtering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-5 Security . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-5 MIBs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Table of Contents Physical . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-7 Card Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-8 CLI Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-8 Connector Pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-20 Ethernet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Table of Contents 16 Maintenance Software Upgrade . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Minimum Version Levels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Determining Boot Code Software Level . . . . . . . . . . . . . . . . . . . . . Upgrading System and Router Software via TFTP . . . . . . . . . . . . . Upgrading System and Router Software via TFTP using Proxy . . . Upgrading Software Levels via X-Modem . . . . . . . . . . . . . . . . . .
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Table of Contents B Diagnostices & Troubleshooting Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-2 Test Alarm. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-2 Identify Alarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-2 Clear Alarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-4 Logs . . . . . . . . . . . . . . .
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CHAPTER Base Platform In this Chapter n Overview n Features n Dual T1 Controller n Service Cards n Local and Remote Management n Technical Specifications n Chassis
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Base Platform Overview Overview The Compact T1 Multi-service Delivery Terminal is the ideal solution for delivering carrier-quality broadband voice and data services to small- and medium-sized businesses. It enables ISPs, ILECs, MSOs, IXCs, CLECs, and wireless mobility carriers to offer their customers a wide variety of voice and high-speed data services using the most economical broadband transport.
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Base Platform Features Features l Allows any service connection or network access line to be deployed in any slot l Provides integrated 18 T1 port digital cross-connect for service grooming and restoration l Flexibly provisions a broad variety of services within a single chassis occupying just 2 rack units of equipment space: - l l l l l 18 T1s, or 12 V.
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Base Platform Service Cards Service Cards All Service cards are hot-swapable and can be installed in any of the 6 service slots of the chassis. FXS Service card The FXS service card is an 8 port Foreign Exchange Station line card. Delivers either outside phone lines or on-premise customer business line services from T1 access circuits. FXO Service card The FXO service card is an 8 port Foreign Exchange Office (FXO) or Dial Pulse Termination (DPT) line card.
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Base Platform Service Cards V.35 and V.35/54 Service cards The Dual port V.35 interface service card provides connectivity to high-speed serial synchronous Data Terminal Equipment (DTE) devices. IP Router Service card The Single port Router card that provides up to 60 DS0s of bandwidth or up to 24 WANS connections per Router card. CMG Router Service card The CMG Router card provides all IP Router card functions and features, along with VoIP features. Compact T1 - Release 6.
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Base Platform Local and Remote Management Local and Remote Management The Controller cards have several local and remote management options available. Front-panel LEDs quickly communicate alarm, system and line status. The cards can be configured and managed locally through the RS-232 or Ethernet management connections using a Command Line Interface (CLI). A number of remote management options are available to reduce truck roll costs for most maintenance and troubleshooting activities.
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Base Platform Technical Specifications Management l SNMP management over 10Base-T or dedicated DS0 l Remote management over T1 ESF Facility Data Link or dedicated DS0 Management Ports l RS-232 Craft Port for connection through any VT100 terminal, PC, or modem for remote management using Command Line Interface (CLI) l 10Base-T Ethernet Port for management of the Controller card Network Interface l T1 l Framing: SF (D4) or ESF l Line code for T1: B8ZS and AMI l Framing for T1: SF (D4) or ESF Network Stan
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Base Platform Technical Specifications Power l Standard 115VAC/-48VDC Power Supply/Charger features - Power supply with integrated battery charger AC power: 90 to 130 VAC, 60 Hz DC power: -42 to -60 VDC @ 3.
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Base Platform Technical Specifications Regulatory Approvals USA l UL60950 l FCC Part 15, Class A l FCC Part 68 l NEBS Level 3 certified for type 2 and 4 equipment GR-63-CORE, GR-1089-CORE Canada l CSA C22.2 No. 60950-00 l ICES-003, Class A l CS-03 Physical Information l Dimensions: 3.5 in. (H-2 RU) x 8.5 in. (W) x 12 in. (D) 8.9 cm (H) x 21.6 cm (W) x 30.5 cm (D) l Weight: 7 lbs. (3.2 kg) base unit (with Power Supply and Controller) Compact T1 - Release 6.
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Base Platform Chassis Chassis Controller Service Card Slots Power Supply Mounting Bracket 3.5 in (2 RU) 8.5 in (1/2 RU) Power Input Alarm Management Port -48 VDC/Battery Power Input 10Base-T Management Port 2 T1/E1 Interfaces on Controller Tip & Ring Telco Connector (Lines 25-48) 1-10 Tip & Ring Telco Connector (Lines 1-24) RS-232 Management Port Compact T1 - Release 6.
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Base Platform Chassis RS-232 Craft Port (Female DB-9) The RS-232 craft port connects via a female DB-9 connector on the back of the unit. 1 5 6 9 The pinouts are as follows: Pin Number Direction Description 1 Outbound Carrier Detect 2 Outbound Receive Data 3 Inbound Transmit Data 4 Inbound Data Terminal Ready 5 Signal Ground 6 Outbound Data Set Ready 7 Inbound Request to Send 8 Outbound Clear to Send 9 Compact T1 - Release 6.
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Base Platform Chassis T1 and 10Base-T Ethernet 1 8 The T1 and the 10Base-T Ethernet are female RJ-45 connectors on the back of the unit.
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CHAPTER Physical Installation In this Chapter n Unpacking and Inspection n Installation Environment n Assembly of Unit n Wall Mounting n Rack Mounting (Optional Feature)
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Physical Installation Unpacking and Inspection Unpacking and Inspection WARNING! OBSERVE PRECAUTIONS FOR HANDLING ELECTROSTATIC DEVICES. 1. Inspect containers for damage during shipment. Report any damage to the freight carrier for possible insurance claims. 2. Compare packing list with office records. Report any discrepancies to the office. 3. Open shipping containers, be careful not to damage contents. 4. Inspect contents and report any damage. 5.
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Physical Installation Assembly of Unit Assembly of Unit The cards should be positioned in the chassis as follows: Note: Slots are labeled on the top and the bottom of the chassis. l Power Supply in the POWER Slot l T1 Controller in Slot A l Service Cards can be in any slot 1 through 6. Note: When an Unit is mounted to the wall, cards that use the front cable connections should be loaded from Slot 6 to 1. This will minimize card access issues due to cable interference.
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Physical Installation Wall Mounting Wall Mounting Before beginning the mounting process, verify that the area meets the following requirements: l A stable environment, clean and free from extremes of temperature, shock, vibration and EMI, that meets the all installation environment requirements, see Installation Environment on page 2-2. Leave adequate clearance at the back for access to connectors Leave at least 3.
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Physical Installation Rack Mounting (Optional Feature) Rack Mounting (Optional Feature) Rack mounting kits are available for both 19 and 23 inch racks. To rack mount the Unit, follow the instructions below: 1. Attach bracket ears to rack mounting bracket using four #8-32 x 3/16" screws on each side. Bracket Ear Left Side View Compact T1 - Release 6.
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Physical Installation Rack Mounting (Optional Feature) 2. Attach heat baffle to bracket ears using two #8-32 x 5/16" screws on each side. Heat Baffle Left Side View 3. Attach rack mounting bracket ears to rack using two #12-24 x 5/8" rack mounting screws on each side. Front View 2-6 Compact T1 - Release 6.
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Physical Installation Rack Mounting (Optional Feature) 4. Remove wall mount and screws from Unit. 5. Slide the Unit into rack mounting bracket. Thumbscrew 6. Swing the front latch up to secure the Unit(s), and tighten thumbscrew. Compact T1 - Release 6.
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Physical Installation Rack Mounting (Optional Feature) As many as 20 Units can be mounted on a single 7 foot rack, as shown in the following illustration (2 Adits are mounted side-by side and 10 high). Compact T1 Chassis occupies 2 RUs 1 RU free space 1 RU free space 1 RU free space 1 RU free space Compact T1 Chassis = 2 RUs (3.5 in) Spacing = 1 RU above and below for each unit. NOTE: the mounting brackets are 7 inches high and will not allow units to be mounted closer than recommended.
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CHAPTER Electrical Installation and Cabling In this Chapter n Compliant Installation n Chassis Connectors and Buttons n Interface Connectors
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Electrical Installation and Cabling Compliant Installation Compliant Installation Power Cables Ferrite Beads are in red Ferrite Bead with cable loop Power Cord Grounding Cable Alarm Wiring -48 VDC Battery Power 25-pair telco connector 25-pair telco connector RS-232 craft port 10Base-T Ethernet T1/E1 connectors Signal Cables 1. Connect all of the signal cables as shown in the illustration above, and secure them with a plastic tie. Dress the signal cables toward the left of the unit. 2.
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Electrical Installation and Cabling Compliant Installation Ferrite Beads To be compliant with Part 15A of the FCC and for NEBS compliant facilities, the following beads are included with each chassis, as well as additional ferrite bead(s) with the Service cards listed below.
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Electrical Installation and Cabling Chassis Connectors and Buttons Chassis Connectors and Buttons The following illustrations show all connectors on the back of the unit.
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Electrical Installation and Cabling Interface Connectors Chassis Ground Connector Ground Terminals 1. Route wire (#6 or #8 AWG copper) from building ground to lug on Unit. 2. Strip insulation off wire end, if necessary. Compression Screw Ground Lug Lug Barrel 3. Loosen compression screw until opening is large enough to accept ground wire. 4. Insert ground wire into lug barrel, beneath compression plate and tighten compression screw. 5. Attach ground lug to chassis Compact T1 - Release 6.
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Electrical Installation and Cabling Interface Connectors Power Reset This is a resetable circuit breaker. If at any time there is a short or power surge on the incoming AC/DC line, the breaker will trip to protect the Power supply from damage. Power Connections AC Power The AC Power cord is a standard AC Power cord and is provided with a 115 VAC Power Supply. To connect the Power Cord: AC Power Connector 1. Insert power cord (male-end) to AC power source. 2. Plug connector into the Unit. 3.
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Electrical Installation and Cabling Interface Connectors To connect -48 VDC power: 1. Ensure that no power is present on the two wires to be connected. 2. Strip the two wires from the power source so that approximately 5/16 inch of bare wire is exposed. 16 or 18 AWG insulated copper wire is recommended for power connections. 3. Insert the Battery Return and DC wires into the appropriate square holes, one at a time. 4. Tighten screws to clamp wires. 5.
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Electrical Installation and Cabling Interface Connectors External Alarm Connector The external alarm 6-pin connector with one input pair (pins 5 and 6) and two output pairs (pins 1 and 2 - major alarms; pins 3 and 4 - minor alarms). A L A R M 6 5 4 3 2 1 The pinouts are as follows: Pin # Description Explanation 1 Major Alarm + 2 Major Alarm - The major alarm output is available for power supply or major alarm failure alerting.
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Electrical Installation and Cabling Interface Connectors 25-Pair Telco Connectors Tip and Ring Analog Interfaces equipped with standard 25-pair Telco Connectors (female) for connection to key systems, fax machines, modems, and PBXs. These interfaces are also used for ISDN BRI ports and are jumper selectable on the Quad T1 card. Circuit connections are made at the 25-pair telco connectors. A standard 25-pair telephone cable with RJ-21X wiring and a male D-type connector at the Unit end is required.
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Electrical Installation and Cabling Interface Connectors Pair 3-10 Pin Location Function Color Code 11 36 11 Tip Channel 11 Ring Channel 11 Black/Blue Blue/Black 12 37 12 Tip Channel 12 Ring Channel 12 Black/Orange Orange/Black 13 38 13 Tip Channel 13 Ring Channel 13 Black/Green Green/Black 14 39 14 Tip Channel 14 Ring Channel 14 Black/Brown Brown/Black 15 40 15 Tip Channel 15 Ring Channel 15 Black/Slate Slate/Black 16 41 16 Tip Channel 16 Ring Channel 16 Yellow/Blue Blue/Yellow
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Electrical Installation and Cabling Interface Connectors RS-232 Craft Port (Female DB-9) The RS-232 craft port connector (female) is for connection to an external PC or Hayescompatible modem for local or remote configuration, management, and performance monitoring using the Command Line Interface (CLI). The RS-232 craft port connects via a female DB-9 connector on the Unit.
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Electrical Installation and Cabling Interface Connectors T1 Connection Ports 1 8 1 8 The T1 connection ports are each equipped with a standard RJ-48C (female) on the Unit.
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CHAPTER Configuration In this Chapter n Setting up a CLI Connection n System Information n Basic System Setup n Quick Configuration Reload n Setup of DS0 Management Channel
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Configuration Setting up a CLI Connection Setting up a CLI Connection NOTE: Default IP address of the Controller (T1) is 10.0.0.10. To connect with CLI, set up the connection: l If connecting via the ethernet 10Base-T connection, use a Telnet TCP/IP program to access the CLI. This requires an IP address of the Controller. The Controllers are shipped with the IP address set to 10.0.0.
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Configuration System Information System Information Once a management session has bee initiated (Telnet or Hyperterm) the system information will be displayed similar to the following: 00:00:38 01/01/2002 Status Equipment: BootCode Version: CardType SLOT A T1x2 SLOT 1 FXS5Gx8 SLOT 2 RTRx1 SLOT 3 FXS5Gx8 SLOT 4 CMGx1 SLOT 5 BRIx4 SLOT 6 OCUDPx1 1.22 Status Present Not Present Present Present Present Not Present Present SW Vers 6.0.0 CLEI SIC3DH0CAA 1.41 1.06 1.00 NOT AVAIL NOT AVAIL SIIX270DAA 1.
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Configuration Basic System Setup Basic System Setup Following is a quick reference to some of the common tasks in configuring the Unit. Initial Setup Use the following commands for your initial setup, for further information see the specific command listed in Chapter 5, CLI Commands . 4-4 Command Description set local off Disables DIP switches.
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Configuration Basic System Setup Set Up Security Use the following commands to set up the security on the Unit. See the set user command for details. Command Description set user {"user-name"} level {1-3} Specify the user name and the security level set user {"user-name"} password Set a password for the user Set Up a DS1/T1 Use the following commands to set up a DS1. See the set (ds1) command for more details.
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Configuration Basic System Setup Set Up a DS0/Channel Use the following commands to set up a DS0. See the set (ds0) command for details. Command Description set {slot:port:channel} up Activate the channel set {slot:port:channel} signal {ls|gs|emw|emdw|emicpd|dpt} Set the signaling option for the channel set {slot:port:channel} type {data|voice} Set the channel type Set Up an Analog Port Use the following commands to set up an analog port.
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Configuration Basic System Setup Set Up the Router Card The following is the basic setup, see the Adit Router User Manual or Quick Start Guide for the following configuration setups: l PPP Internet Connection and Public IP Address Routing l Frame Relay Internet Connection and Public IP Address Routing l Internet Connection using PPP, NAT/PAT and Firewall Filters l Internet Connection using NAT and Static NAT Addresses l PPP Internet Connection and Public IP Address Routing l Back-to-Back with PPP Command
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Configuration Basic System Setup Establish a Static Channel Connection Use the following commands to establish a static channel connection. Command Description set {slot:port:channel} type {voice|data} Set the channel type for the channel you want to map. See set (ds0) command for details set {slot:port:channel} signal {emdw|emi|emicpd|emw|gs|ls|pl ar|r2} Set the signaling option for the channel you want to map. See set (ds0) command for details connect {slot:port} {slot:port} Connect the channels.
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Configuration Basic System Setup Set Up the OCU-DP Card The following is a basic setup for the OCU-DP card. Command Description set {ocudp-addr} baud {2400|4800|9600|19200|38400| 56000*|64000} Set the OCU-DP Baud rate. Where ocudp-addr = {slot:port} of the OCU-DP card to apply settings to set {ocudp-addr} up Set the OCU-DP port 1 up show {ocudp_card-addr} Show the OCU-DP card settings.
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Configuration Basic System Setup Set Up a V.35 Port Use the following commands to set up a V.35 port. See the set (v35) command for details.
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Configuration Basic System Setup Upgrade the Controller Software Use the following commands to determine the system software level, then upgrade the software to the latest version. Command Description status equipment Determine the system software level. The Slot A line (SW Vers) will display the current software level load tftp {ip-addr} {"filename"} (or load xmodem) Load the new controller system software. See the load tftp and load xmodem command for more information.
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Configuration Quick Configuration Reload Quick Configuration Reload The print config command can be used as a quick way to reload a configuration into an Adit unit, in the event that the configuration has been lost due to software reload problems or operator error. The download of the file generated by the print config command can be done by direct connect to the RS-232 port or via Telnet, BUT the upload from the PC back to the Adit can only be done via direct RS-232 connection.
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Configuration Quick Configuration Reload 5. Select the [START] button, the window will close and the operator will be returned to the Adit command line. 6. Press [ENTER] to download. Adit will generate an executable file of all configurable commands and save it to the file location defined above. 7. The download is complete when the text has finished scrolling on the screen and the Adit ID prompt displays again. Load Config File Back to Unit: 1. Select File/Properties from the menu bar. 2.
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Configuration Quick Configuration Reload 3. Select the ASCII Setup button. 4. Set the Line delay to 50 milliseconds and the Character delay to 5 milliseconds. 5. Select the [OK] button back to the Main HyperTerminal screen. 6. Select Transfer/Send Text File.. from the menu bar. Hyperterm will now send the configuration to the Adit exactly as it was saved in the Download Config File process. 4-14 Compact T1 - Release 6.
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Configuration Setup of DS0 Management Channel Setup of DS0 Management Channel The DS0 Management Channel provides SNMP management and remote access. The IPDS0 feature allows for full Transmission Control Protocol/Internet Protocol (TCP/IP) connectivity to remote Compact T1 and can be used for Simple Network Management Protocol (SNMP) trap reporting and configuration, Trivial File Transfer Protocol (TFTP) upgrades of Controllers and Service cards, and remote telnet access.
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Configuration Setup of DS0 Management Channel Equipment Required l DCS l (1) Collocated Router This example uses a Compact T1 (version 2.0 or later) with an Compact T1 Router card (version 1.10 or later) l Remote Compact T1 (1-24) Units (version 2.0 or later) l PC l Cables, Ethernet, T1 Application Overview l IPDS0 management provides a TCP/IP connection to an Compact T1 Controller via an unused DS0 on one of the DS1 ports in slot A.
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Configuration Setup of DS0 Management Channel Provision DS0s for data and cross-connect to the outgoing T1 Command Description disconnect a Disconnects all connections to slot a (controller) set a:1:all type data Sets all DS0s on T1-1 to data signaling type set a:2:all type data Sets all DS0s on T1-2 to data signaling type connect a:1:1-4 a:2:1-4 Connects first four DS0s of T1-1 of the controller to first four DS0s of T1-2.
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Configuration Setup of DS0 Management Channel Setup the Profile for Site A Command Description rename 5 "RemoteUnit" "SITEA" Configure the LAN IP address set 6:1:1 encapsulation fr Specify the encapsulation for the profile set 6 "SITE-A" trunk 1 Specify the trunk number for the profile set 6 "SITE-A" dlci 16 Specify the DLCI number for the profile set 6 "SITE-A" up Enable the profile add 6 "SITE-A" static ip network 192.168.1.101 255.255.255.
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Configuration Setup of DS0 Management Channel Setup the Profile for Site C Command Description connect a:2:15 6:1:3 Connect the timeslot to the WAN port. add 6 remote "SITE-C" Add another WAN profile named SITE-C set 6:1:3 encapsulation fr Specify the encapsulation for the profile set 6 "SITE-C" trunk 3 Specify the trunk number for the profile set 6 "SITE-C" dlci 16 Specify the DLCI number for the profile set 6 "SITE-C" up Enable the profile add 6 "SITE-C" static ip network 192.168.1.103 255.
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Configuration Setup of DS0 Management Channel Remote Site B Configuration Command Description disconnect a Disconnects all connections to slot a (controller) set a:1:all type data Sets all DS0s on T1-1 to data signaling type set a:2:all type data Sets all DS0s on T1-2 to data signaling type disconnect 6 Disconnects the router in slot 6 set 6:1:all type data Sets all DS0s on slot 6 to data signaling type connect a:1:6-9 a:2:1-4 Connect channels to cell site connect a:1:11-24 6:1:11-24 Connect
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Configuration Setup of DS0 Management Channel Remote Site C Configuration Command Description disconnect a Disconnects all connections to slot a (controller) set a:1:all type data Sets all DS0s on T1-1 to data signaling type set a:2:all type data Sets all DS0s on T1-2 to data signaling type disconnect 6 Disconnects the router in slot 6 set 6:1:all type data Sets all DS0s on slot 6 to data signaling type connect a:1:11-14 a:2:1-4 Connect channels to cell site C connect a:1:16-19 6:1:1-4 Conne
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Configuration Setup of DS0 Management Channel 4-22 Compact T1 - Release 6.
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CHAPTER CLI Commands In this Chapter n Command Line Interface Help n CLI Commands
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CLI Commands Command Line Interface Help During a CLI session, help is available at any time. ? or help Type a ? (or "help" before a command) at any time for quick command information > add ? add ..................... Create users or profiles {rtr_card-addr} ...... Create profile, object or service on a router {rtr_lan-addr} ....... Create object or service on the router LAN user ................. Create user with manager level access.
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CLI Commands Use [TAB] to view command options, add a space after the base command with the use of the [TAB] feature, scroll through all available options for this command: > set [TAB] will scroll through the set commands, with each > set alarms [TAB] > set autoexit [TAB] > set clock1 ... etc.
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CLI Commands CLI Commands For maneuverability through these commands, all command names in blue or italics are hyperlinked. 5-4 aco (Alarm Cut Off) ping add print alarms rename (router) clear reset connect restore delete rtrping disconnect set exit show install status load store log telnet Compact T1 - Release 6.
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CLI Commands aco (Alarm Cut Off) aco (Alarm Cut Off) Use the aco command to activate the Alarm Cut Off, which opens the alarm relay contacts on the back of the unit. Syntax: aco Example: aco ACO LED Off Yellow Normal mode. No alarms are being suppressed. Alarm cutoff active. One or more active alarms suppressed. To turn off ACO, all alarms must be cleared, or the operator can reset the controller, which will set the ACO back to the default (off) state. Compact T1 - Release 6.
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CLI Commands add add Use the add command to create users, interfaces, services or profiles.
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CLI Commands add add (router) dns proxy Use the add (router) dns proxy command to enable DNS proxy and add a remote DNS server address to the specified Router card. Syntax: add {rtr_card-addr} dns proxy {"domain-name"} {ip-addr} {"profile-name"} Example: add 2 dns proxy "Domain1" 192.168.100.245 "Texas" Example will add a DNS proxy server "Domain1" with address 192.168.100.245 to the WAN named "Texas" on the Router in slot 2. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands add add (router) snmp community Use the add (router) snmp community command to add a SNMP community to an interface on the specified Router card. Syntax: add {rtr_card-addr} snmp community {both|read|write} {"community-name"} {ip-addr} Example: add 2 snmp community both "commune" 192.168.100.245 The example will allow the host 192.168.100.245 read/write access to the Router card SNMP agent using the community name "commune". The Router is located in slot 2.
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CLI Commands add add (router) snmp trap Use the add (router) snmp trap command to specify a destination to send SNMP trap messages for the specified Router card. Syntax: add {rtr_card-addr} snmp trap {"community-name"} {ip-addr} {"profile-name"} Example: add 3 snmp trap "commune" 192.168.100.245 "RemoteAdit" The example will add a trap destination of 192.168.100.245 on the interface "RemoteAdit" and use the community name "commune" in the messages. The Router is located in slot 3.
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CLI Commands add add (router) static dns host Use the add (router) static dns host command to add a static DNS host record for resolving a domain name to an IP address if the DNS server cannot provide the information. The DNS resolver will first attempt to resolve the name by querying the configured DNS servers. If this does not yield the information, the DNS resolver will consult this list of static entries. This command will fail if the DNS resolver is not enabled.
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CLI Commands add add (router) uploaduser Use the add (router) uploaduser command to specify a host that is allowed to upload either the configuration or software files to the specified Router card. Syntax: add {rtr_card-addr} uploaduser {both|code|config} {all|ip-addr} {"profile-name"} Example: add 3 uploaduser code all "LosAngeles" The example will allow any user to upload the code file from the Router interface named "LosAngeles". The Router is located in slot 3.
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CLI Commands add add (router-lan) filter Use the add (router-lan) filter commands to add filters to the specified LAN interface. add (router-lan) filter address Use the add (router-lan) filter address command to add an address filter to the table of Layer 2 filters applied to the specified LAN interface.
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CLI Commands add add (router-lan) filter custom Use the add (router-lan) filter custom command to add a custom filter to the table of Layer 2 filters applied to the specified LAN interface. Syntax: add {rtr_lan-addr} filter custom {pkt-offset} {mask} {match} {"filter-name"} Example: add 2:1 filter custom 16 0xFFFF0000 0x45000000 "MyRule" The example will add a custom layer-2 filter that will match all packets that contain the hex value 4500 at the 16th octet past the MAC header.
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CLI Commands add add (router-lan) filter protocol Use the add (router-lan) filter protocol command to add a protocol filter to the table of Layer 2 filters applied to the specified LAN interface. Note that you only need to identify either an Ethernet or IEEE value, but not both. The other should be entered as 0.
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CLI Commands add add (router-lan) secondary ip address Use the add (router-lan) secondary ip address command to add a secondary IP address and subnet to the specified LAN interface. The router will then be capable of routing between the various subnets on the LAN interface or between any of the LAN subnets and any WAN subnet. A maximum of 8 secondary IP addresses can be added to the LAN interface.
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CLI Commands add add (router-lan) static Use the add (router-lan) static commands to add static elements on the specified LAN interface. add (router-lan) static ip address Use the add (router-lan) static ip address command to add a static IP address to the table of learned addresses on the specified LAN interface. This command is typically used in bridging. Syntax: add {rtr_lan-addr} static ip address {"addr-name"} {ip-addr} Example: add 3:1 static ip address "JDoe" 195.168.201.
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CLI Commands add add (router-lan) static ip network Use the add (router-lan) static ip network command to add a static IP network (route) to the specified LAN interface. Syntax: add {rtr_lan-addr} static ip network {ip-addr} {mask} {next-hop-ip-addr} [metric] Example: add 3:1 static ip network 195.168.201.0 255.255.255.0 194.120.20.15 3 The example will add a static route to 192.168.201.0, with mask 255.255.255.0 and the next hop at 194.120.20.
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CLI Commands add add (router-lan) static ipx network Use the add (router-lan) static ipx network command to add a static IPX network (route) to the specified LAN interface. Syntax: add {rtr_lan-addr} static ipx network {network} {hops} {ticks} {next-hop-mac-addr} Example: add 3:1 static ipx network 0x11 2 4 0x00e09700e9cd The example will add a static IPX route to network 0x11, a hop count 2, a tick count 4, a next hop Router at MAC address 00:e0:97:00:e9:cd.
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CLI Commands add add (router-lan) static mac address Use the add (router-lan) static mac address command to add a static MAC address to the table of learned addresses on the specified LAN interface. This command is typically used in bridging.
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CLI Commands add add (router-wan) firewall Use the add (router-wan) firewall command to add a firewall rule to a WAN. Syntax: add {rtr_card-addr} {"wan-name"} firewall {rule-number} {drop|pass} {incoming|inout|outgoing} {alarm|log|nolog} {service} {dest-ip-addr/bits} {srcip-addr/bits} Example: add 3 "LosAngeles" firewall 1 pass incoming nolog http 203.1.21.17/32 0.0.0.0/0 The example will add a firewall rule that allows HTTP (TCP port 80) access from any outside host to an inside web server at 203.1.21.
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CLI Commands add {service} finger Display information about users ftp File Transfer Protocol gopher Document search and retrieval http World Wide Web icmp Internet Control Message Protocol nntp Network News Transfer ping ICMP echo request/reply pop3 Post Office Protocol Version 3 smtp Simple Mail Transfer snmp Simple Network Management Protocol tcp Transmission Control Protocol port number (0 - 65535) or range telnet User interface to remote unit udp User Datagram Protocol port numb
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CLI Commands add {dest-ip-addr/bits} The destination IP Address and number of significant bits. The IP Address is in the form of xxx.xxx.xxx.xxx, where xxx is between 0-255. The address "0.0.0.0/0" matches any address. dest-ip-addr Enter the IP Address of the local device or network that this rule will affect.
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CLI Commands add add (router-wan) gre network Use the add (router-wan) gre network command to add a "by network" Generic Route Encapsulation (GRE) tunnel to a WAN. Syntax: add {rtr_card-addr} {"wan-name"} gre network {ip-addr mask|ip-addr/bits} {metric} {remote-ip-addr} {"tunnel-name"} Example: add 3 "LosAngeles" gre network 10.0.0.0/8 3 2.2.2.2 "LATunnel" The example will set the WAN interface named "LosAngeles" in slot 3 to pass all packets destined for a host on subnet 10.0.0.
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CLI Commands add add (router-wan) nat bypass Use the add (router-wan) nat bypass command to add subnets to the list of source addresses that will not be subject to NAT translation when passing through a NAT enabled WAN interface. This command applies to the IP Router only.
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CLI Commands add add (router-wan) static Use the add (router-wan) static commands to add static elements on the specified WAN interface. add (router-wan) static ip address Use the add (router-wan) static ip address command to add a static IP address to the table of learned addresses on the specified WAN interface. This command is typically used in bridging. Syntax: add {rtr_card-addr} {"wan-name"} static ip address {"name"} {ip-addr} Example: add 3 "LosAngeles" static ip address "Pasadena" 195.168.201.
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CLI Commands add add (router-wan) static ip network Use the add (router-wan) static ip network command to add a static IP network (route) to the specified WAN interface. Syntax: add {rtr_card-addr} {"wan-name"} static ip network {ip-addr} {mask} {metric} Example: add 3 "LosAngeles" static ip network 195.168.201.0 255.255.255.0 3 The example will add a static route to 195.168.201.0, with mask 255.255.255.0 and a metric of 3 to the WAN interface named "LosAngeles" on the Router card in slot 3.
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CLI Commands add add (router-wan) static ipx network Use the add (router-wan) static ipx network command to add a static IPX network (route) to the specified WAN interface. Syntax: add {rtr_card-addr} {"wan-name"} static ipx network {network} {hops} {ticks} Example: add 3 "LosAngeles" static ipx network 0x11 2 4 The example will add a static IPX Router to network 0x11, with a hop count of 2 and a tick count of 4 to the WAN interface named "LosAngeles" on the Router card in slot 3.
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CLI Commands add add (router-wan) static mac address Use the add (router-wan) static mac address command to add a static MAC address to the table of learned addresses on the specified WAN interface. This command is typically used in bridging.
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CLI Commands add add (router-wan) static nat address Use the add (router-wan) static nat address command to add a static NAT bi-directional mapping to the specified WAN interface. This command will fail if NAT is not enabled, if the NAT address specified is in the NAT pool, or if the local or NAT address is not unique within the complete group of static NAT mappings. NOTE: Up to 16 Static NAT addresses may be added.
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CLI Commands alarms alarms Use the alarms command to display the active alarms. Each alarm is related to a particular address and has a severity category (major, minor, critical, alert). The report can be filtered by port address and/or severity.
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CLI Commands clear clear User the clear command to clear logs, performance data and tables. clear (ds1) clear log clear (router) ip address table clear (router) log clear (router) mac address table clear (router) mgcp stats clear (router) performance Compact T1 - Release 6.
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CLI Commands clear clear (ds1) Use the clear (ds1) command to clear specified DS1 performance data. Syntax: clear {ds1-addr} performance {setting} Example: clear a:1 performance all Clears all performance data on DS1 1 (port 1) on the Controller card (slot A). {ds1-addr} DS1 address in the format {slot:port}. slot A for the controller card, or 1-6 for service cards. port Port number range or all. {setting} all Clear all performance data bes Clear bes (bursty errored seconds) performance data.
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CLI Commands clear clear (router) ip address table Use the clear (router) ip address table command to flush the learned entries from the IP address table for the specified interface from the specified Router card. Syntax: clear {rtr_card-addr} ip address table ["profile-name"] Example: clear 2 ip address table The example will clear all the entries on the IP address table. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands clear clear (router) mac address table Use the clear (router) mac address table command to flush the learned entries from the MAC address table for the specified interface from the specified Router card. Syntax: clear {rtr_card-addr} mac address table ["profile-name"] Example: clear 2 mac address table "LosAngeles" The example will clear all the entries on the "LosAngeles" interface, MAC address table. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands clear clear (router) performance Use the clear (router) performance command to clear the runtime statistics that are displayed by the status (router) performance command. This command takes effect immediately. Syntax: clear {rtr_card-addr} performance {all|lan|wan} Example: clear 4 performance all The example will clear all of the runtime statistics on the router card in slot 4. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands connect connect Use the connect command to create two-way connections between any DS0 channels of the service or controller cards. Syntax: connect {slot:port|slot:port:channel} {slot:port|slot:port:channel} Use the disconnect command to delete connections. Example: connect A:2:1-24 3:1 Connects all 24 channels on port address #2 (DS1) on the controller card (slot A) to port address #1 V.35 in slot 3. {slot:port|slot:port:channel} slot A for the controller card, or 1 - 6 for service cards.
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CLI Commands connect Channel Associated Signaling (CAS) Conversions Cross-connects are done at a DS0 level. The following rules need to be kept in mind while performing cross-connects for the voice cards.
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CLI Commands connect connect (router-trunk) (t1) Use the connect (router-trunk) (t1) command to create two-way connections between the Router port trunk connections and any DS0 channels of the service card or controller. Syntax: connect {rtr_trunk-addr} {slot:port|slot:port:channel} Use the disconnect command to delete connections. Example: connect A:2:1-12 5:1:1 Connects 12 channels on port address #2 (DS1) on the controller card (slot A) to trunk 1 on the Router in slot 5.
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CLI Commands connect connect (card-trunk) (card-trunk) Use the connect (card-trunk) (card-trunk) command for configuring card-to-card WAN cross-connects between two Router cards or between a Router card and a V.35 card. Syntax: connect {rtr_trunk-addr} {rtr_trunk-addr|v35-addr} {ds0-number} Use the disconnect command to delete connections. Example: connect 3:1:2 4:1:3 12 Connects WAN trunk number 2 of a Router card in slot 3 to WAN trunk number 3 of a Router card in slot 4 using 12 DS0s.
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CLI Commands connect connect (router-voice) (t1|fxs) Use the connect (router-voice) (t1|fxs) command to create two-way connections between the CMG voice channels and DS0 channels of an FXS or T1 service card or controller T1. The CMG only supports connections between CMG voice channels and FXS or T1 DS0s utilizing loop start signaling. Syntax: connect {cmg_voice-addr} {slot:port|slot:port:channel} Use the disconnect command to delete connections.
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CLI Commands delete delete Use the delete command to remove users, interfaces, services or profiles.
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CLI Commands delete delete (router) dns proxy Use the delete (router) dns proxy command to remove a remote DNS server address from the specified Router card. If this command is directed to delete the only a DNS proxy server address then DNS proxy is disabled. Syntax: delete {rtr_card-addr} dns proxy {ip-addr} {"profile-name"} Example: delete 2 dns proxy 192.168.100.245 "Texas" The example will delete a DNS proxy server address of 192.168.100.245 from the Router in slot 2.
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CLI Commands delete delete (router) snmp community Use the delete (router) snmp community command to delete an SNMP community entry on the specified Router card. Syntax: delete {rtr_card-addr} snmp community {"community-name"} {ip-addr} Example: delete 2 snmp community "commune" 192.168.100.245 The example will delete the previously added SNMP community named "commune" from the Router in slot 2. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands delete delete (router) static dns host Use the delete (router) static dns host command to delete a static DNS host record. Syntax: delete {rtr_card-addr} static dns host {ip-addr} {"domain-name"} Example: delete 2 dns host 192.168.100.245 "myhost.some.net" Example will delete a DNS host entry with address 192.168.100.245 and domain named "myhost.come.net" on the Router in slot 2. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands delete delete (router-lan) filter Use the delete (router-lan) filter command to delete a single filter rule from the table of Layer 2 filters applied to the specified LAN interface. Syntax: delete {rtr_lan-addr} filter {address|custom|protocol|all} ["filter-name"] Example: delete 2:1 filter address "Server1" This example will delete a previously created address filter names "Server1". {rtr_lan-addr} The Router (IP or CMG) address is in the form {slot:port} or {slot "profile-name"}.
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CLI Commands delete delete (router-lan) secondary ip address Use the delete (router-lan) secondary ip address command to delete a secondary IP address and subnet to the specified LAN interface. Syntax: delete {rtr_lan-addr} secondary ip address {ip-addr [mask]|ip-addr/bits} Example: delete 4:1 secondary ip address 192.168.1.1 The example will delete a secondary IP address of 192.168.1.1. {rtr_lan-addr} The Router (IP or CMG) address is in the form {slot:port} or {slot "profile-name"}.
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CLI Commands delete delete (router-lan) static Use the delete (router-lan) static commands to delete static elements from the specified LAN interface. delete (router-lan) static ip address Use the delete (router-lan) static ip address command to delete a static IP address entry from the specified LAN interface. Syntax: add {rtr_lan-addr} static ip address {ip-addr} Example: add 3:1 static ip address 195.168.201.
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CLI Commands delete delete (router-lan) static ip network Use the delete (router-lan) static ip network command to delete a static IP network from the specified LAN interface. Syntax: delete {rtr_lan-addr} static ip network {ip-addr} {mask} {next-hop-ip-addr} Example: delete 3:1 static ip network 195.168.201.0 255.255.255.0 194.120.20.15 The example will delete the existing static IP network from the LAN interface of the Router card in slot 3.
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CLI Commands delete delete (router-lan) static ipx network Use the delete (router-lan) static ipx network command to delete a static IPX network (route) to the specified LAN interface. Syntax: delete {rtr_lan-addr} static ipx network {network} {next-hop-ip-addr} Example: delete 3:1 static ipx network 0x11 0x00e09700e9cd The example will delete a static IPX route to network 0x11, using a next hop Router at MAC address 00:e0:97:00:e9:cd, from the LAN interface on the Router card in slot 3.
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CLI Commands delete delete (router-lan) static mac address Use the delete (router-lan) static mac address command to delete a static MAC address entry to the specified LAN interface. Syntax: delete {rtr_lan-addr} static mac address {mac-addr} Example: delete 3:1 static mac address 0x00e09700e9cd The example will delete a static MAC address, 00:e0:97:00:e9:cd, from the LAN interface of the Router card in slot 5.
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CLI Commands delete delete (router-wan) gre network Use the delete (router-wan) gre network command to delete a "by network" GRE tunnel to a WAN. Syntax: delete {rtr_card-addr} {"wan-name"} gre network {ip-addr mask|ip-addr/bits} Example: delete 3 "LosAngeles" gre network 10.0.0.0/8 The example will delete the "LosAngeles" GRE tunnel on 10.0.0.0/8. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {"wan-name"} The WAN interface to modify. The name must be enclosed in quotes.
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CLI Commands delete delete (router-wan) nat bypass Use the delete (router-wan) nat bypass command to delete an IP subnet or host from the list of the source addresses that will not be subject to NAT Translation when passing through a NAT enabled WAN interface. This command applies to the IP Router only. Syntax: delete {rtr_card-addr} {"wan-name"} nat bypass {ip-addr} Example: delete 1 "RemoteUnit" nat bypass 156.65.0.0 The example will delete the NAT bypass record for the IP Address 156.65.0.
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CLI Commands delete delete (router-wan) static Use the delete (router-wan) static commands to delete a static element from the WAN interface. delete (router-wan) static ip address Use the delete (router-wan) static ip address command to delete a static IP address on the specified WAN interface. Syntax: delete {rtr_card-addr} {"wan-name"} static ip address {ip-addr} Example: delete 3 "LosAngeles" static ip address 195.168.201.140 The example will delete a static IP address, 192.168.201.
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CLI Commands delete delete (router-wan) static ip network Use the delete (router-wan) static ip network command to delete a static IP network from the specified WAN interface. Syntax: delete {rtr_card-addr} {"wan-name"} static ip network {ip-addr} {mask} Example: delete 3 "LosAngeles" static ip network 195.168.201.0 255.255.255.0 The example will delete a static IP network at 195.168.201.0, with mask 255.255.255.0 from the WAN "LosAngeles" on the Router card in slot 3.
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CLI Commands delete delete (router-wan) static mac address Use the delete (router-wan) static mac address command to delete a static MAC address entry from the specified WAN interface. Syntax: delete {rtr_card-addr} {"wan-name"} static mac address {mac-addr} Example: delete 3 "LosAngeles" static mac address 0x00e09700e9cd The example will add a static MAC address, 00:e0:97:00:e9:cd to the WAN "LosAngeles" on the Router card in slot 3.
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CLI Commands delete delete (router-wan) static nat address Use the delete (router-wan) static nat address command to delete a static NAT mapping from the specified WAN interface. Syntax: delete {rtr_card-addr} {"wan-name"} static nat address {local-ip-addr} {nat-ip-addr} Example: delete 3 "LosAngeles" static nat address 10.0.0.5 34.56.102.222 The example will delete a static NAT mapping between 10.0.0.5 and 34.56.102.222 on the WAN "LosAngeles" on the Router card in slot 3.
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CLI Commands disconnect disconnect disconnect Remove a connection created using the connect command. Syntax: disconnect {slot|slot:port|slot:port:channel|slot:port:trunk} Example: disconnect A:2:1-24 3:1 Disconnects all 24 channels on port address #2 (DS1) on the controller card (slot A) to port address #1 V.35 in slot 3.
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CLI Commands install install install (slot) router The Compact T1 Controller card automatically creates a backup of the configuration of any Router cards in their respective slot. If a Router is removed and replaced with a another Router (same type) the backup of the configuration from the first occupying Router card is loaded onto the replacing Router card. This command will stop this function and the replacing Router will retain its configuration.
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CLI Commands load load load tftp The load tftp command will download software via TFTP to the Controller or to the Router card or country ring tones to the CMG router card (CMG only). Note: A TFTP server must be running on the host system for this command to be successful. Syntax: load [rtr_card-addr] tftp {ip-addr} {"file-name"} Example: The following example will download the Controller software file "tdm6_1_z_all.mgm" to the Controller via TFTP.
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CLI Commands load load xmodem Use the load xmodem command to download software via Xmodem. This command is only available with RS-232 connections. If you are using Telnet, see load tftp command. Example: load xmodem Download to Active controller using xmodem. Type ACTIVE Software Release Key, or Hit ’Enter’ for Non-Keyed Load: >>> At the prompt enter Software Key or [Enter] to download non-keyed version.
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CLI Commands log log log Displays the event log. Where the optional variables used to narrow down the log displayed. The log command without any options displays a full log.
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CLI Commands ping ping ping Use the ping command to perform a ping test from the Controller and report the result. If the host is reachable, each individual response will be displayed. Syntax: ping {ip-addr} [count] [length] Example: ping 192.168.3.196 7 5000 Pinging 192.168.3.196 with 5000 bytes of data: Reply Reply Reply Reply Reply Reply Reply from from from from from from from 192.168.3.196: 192.168.3.196: 192.168.3.196: 192.168.3.196: 192.168.3.196: 192.168.3.196: 192.168.3.
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CLI Commands print print Use the print command to display the help information or print the configuration file. Syntax: print {config|help} print config Print the configuration file for the Compact T1. The operator may then save this to a text file, which can be sent to another Compact T1 to automatically configure the system at the original Compact T1. Syntax: print config [rtr_card-addr] [rtr_card-addr] The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands rename (router) Controller card. print help Print the complete help file to the screen. Syntax: print help Example: print help This example would print the entire help text, which can be scrolled though with Enter or Spacebar. rename (router) Use the rename (router) command to change the name of a local LAN or remote WAN profile on the specified Router card. Profile names cannot contain spaces and must be unique on a particular Router card.
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CLI Commands reset reset reset Use the reset command to reboot the system. Syntax: reset Example: > reset Do you really want to reset (y/n)? y **** System Boot **** reset (router) Use the reset (router) command to reboot the Router. All new configuration since the last reset will be in use. Syntax: reset {rtr_card-addr} Example: > reset 1 Do you really want to do this ? OK y The example will reboot the Router card in slot 1.
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CLI Commands restore restore Use the restore command to restore system properties. Note: to restore Router defaults see set (router) default. restore defaults Loads factory defaults for all settings. This command will not take effect until the system is rebooted using the reset command. Syntax: restore defaults Example: restore defaults For the restore default changes to take effect send a reset command. Further configuration changes made before a reset will be lost. 5-66 Compact T1 - Release 6.
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CLI Commands rtrping rtrping Use the rtrping command to request that the Router perform a ping test and report the result. Syntax: rtrping {rtr_card-addr} {dest-ip-addr} [count] [count length] [count length source-ip-addr] Example: ping 4 192.168.100.97 > rtrping 4 192.168.100.97 Pinging 192.168.100.97 with 56 bytes of data: Reply Reply Reply Reply Reply from from from from from 192.168.100.97: 192.168.100.97: 192.168.100.97: 192.168.100.97: 192.168.100.
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CLI Commands set set set alarms set autoexit set (bri) set (bri) autoactivate set (bri) mode set (bri) pmsync set clock set date set (ds0) set (ds1) set ethernet ip address set (fxo) set (fxs5G) set id set ip gateway set ipds0 set local set login auth set login support set ntp set (ocudp) baud set (ocudp) loopback set (ocudp) loopdetect set (ocudp) mvec set (ocudp) secondary set (ocudp) selftest set (ocudp) up/down set radius set (router) autologout set (router) cdr set (router) compander set (router) def
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CLI Commands set set (router-lan) framing set (router-lan) gateway set (router-lan) ip address set (router-lan) ipx network set (router-lan) phy set (router-lan) rip set (router-lan) stp set (router-lan) up/down set (router-trunk) encapsulation set (router-trunk) multilink group set (router-trunk) up/down set (router-trunk) voice bandwidth limit set (router-voice) algorithm preference set (router-voice) cpd set (router-voice) default set (router-voice) down set (router-voice) dtmfrelay set (router-voice) e
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CLI Commands set set alarms Use the set alarms command to manually set an alarm state for testing. Syntax: set alarms {critical|major|minor} {off|on} Example: set alarms critical on The example set the alarm state of critical on. {ciritical|major|minor} critical Sets a critical alarm major Sets a major alarm. minor Sets a minor alarm. {off|on} off on Disables the alarm state. Enable the alarm state. set autoexit Use the set autoexit to set the autoexit feature.
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CLI Commands set set (bri) Use the set (bri) command to setup the ISDN BRI card. Syntax: set {bri-addr} {day|hour} {es|ses} {value} Example: set 3:4 threshold day ses 30 To set the daily threshold to 30 Severely Errored Seconds on port 4 of a BRI card in slot 3. {bri-addr} The {slot:port} address of the BRI card you want to apply the changes to. slot A for the controller card, or 1 - 6 for service cards. port Port number or range.
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CLI Commands set set (bri) autoactivate Use the set (bri) autoactivate command to set the auto-activate option for the card. This option can only be enabled while in 4 to 1 TDM LT Mode. This option is used to establish the D channel when the FDL link can not be used. If Autoactivation is enabled, all commands initiated by the Switch and normally processed over the FDL will be ignored, commands to control Loop Back or Corrupt CRC tests will also be ignored.
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CLI Commands set set (bri) pmsync Use the set (bri) pmsync command to set the source for performance monitoring synchronization. Syntax: set {bri_card-addr} pmsync {internal|switch} Example: set 4 pmsync internal To set the performance monitoring source to internal for the BRI in slot 4. {bri_card-addr} The slot number (1-6) that contains the BRI card.
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CLI Commands set set clock Use the set clock command to set the master transmit clock. The primary master clock source may be used to clock each DS1 transmitter. The clock circuit automatically switches to the secondary clock source if the primary clock fails. Syntax: set {clock1|clock2} {source} Example: set clock1 a:1 To set the primary master clock source to A:1. Example: set clock2 1:2 To set the secondary master clock source to Quad T1 card in slot 1 source selected.
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CLI Commands set set (ds0) Use the set (ds0) command to setup one or all DS0s in a DS1. The command specifies DS0 or range of DS0s, and the setting to apply. Syntax: set {ds0-addr} {setting} Example: set 3:1:1-4 type voice To set the traffic type to voice on channels 1 - 4 on port 1 of slot 3. Example: set a:1:1-4 signal emi To set the signal type to E&M immediate start for channels 1 - 4 on port 1 of slot A. {ds0-addr} List of DS0 channels to apply setting to, in the form {slot:port:channel}.
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CLI Commands set set (ds1) Use the set (ds1) command to set up DS1 interfaces. The command specifies a range of interfaces and the setting to apply. Syntax: set {ds1-addr} {setting} Example: set a:1 framing esf To set DS1 1 (port 1) on the controller (slot A) to use ESF framing. {ds1-addr} DS1 address in the form {slot:port}. slot A for the controller card, or 1-6 for service cards. port Port number range or all. {setting} down up Set the DS1 as In-Service.
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CLI Commands set framing id Set the DS1 framing type to one of the following: d4 To D4 Superframe (SF) framing esf To Extended Superframe (ESF) framing tr8afdl TR-08 A shelf framing with FDL tr8anofdl TR-08 A shelf framing with no FDL tr8b TR-08 B shelf framing Set the DS1 circuit identification string. This is the same as dsx1Circuit Identifier from DS1 MIB transmission vendor’s identification. String text must be enclosed in quotes.
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CLI Commands set payload threshold on Enable detection off Disable detection Apply a payload loopback to the DS1 interface. If the payload command is not used, the default for payload loopback is loopdown. loopdown Disable the payload loopback loopup Enable the payload loopback Set defect thresholds for a DS1. Defaults for all are 0.
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CLI Commands set set ethernet ip address Use the set ethernet ip address command to set the Ethernet address for the Compact T1. Syntax: set ethernet ip address {ip-addr} [mask] Example: set ethernet ip address 172.26.100.25 255.255.255.0 Sets the Adit IP address to 172.26.100.25, and a subnet mask of 255.255.255.0. {ip-addr} Set the IP address for the Compact T1, using the form xxx.xxx.xxx.xxx, where xxx is a number from 0 to 255. [mask] Set the subnet mask, using the form xxx.xxx.xxx.
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CLI Commands set set (fxs5G) Use the set (fxs5G) command to setup voice channels of an FXS 5G card. The command specifies the list of voice channels, and the setting to apply. Syntax: set {fxs5G-addr} {setting} Example: set 3:1-8 impedance 19 Sets the impedance of the FXS 5G card, in slot 3, to 900 ohms +2.16µF (µ-Law), see show impedance for the listing of index numbers. {fxs5G-addr} Voice channels to apply setting to, in the form of {slot:port}.
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CLI Commands set set id Use the set id command to the unit ID. Syntax: set id {"id-name"} Example: set id "ADIT600" ADIT600> {"id-name"} The name must be unique with a maximum of 20 characters. Name must be enclosed in quotes. set ip gateway Use the set ip gateway command to set the IP gateway address (also known as the default route) for the Compact T1. The command specifies the numeric Internet Protocol (IP) address. The new gateway address will not take effect until Controller is reset (reset command).
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CLI Commands set set ipds0 Use the set ipds0 command to setup the DS0 management channel. Note: the DS0 selected as the DS0 management channel can only reside on the Controller T1. Syntax: set ipds0 {setting} [ds0-addr|ip-addr] Example: set ipds0 assign a:1:24 The example sets the DS0 management channel to slot A (Controller), port 1, channel 24.
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CLI Commands set set local Use the set local command to enable or disable local DIP switch settings. The LOCAL LED on the Controller, will display an green light indicator if Local is set to ON. Syntax: set local {on|off} Example: set local off {on|off} on off To configure the Compact T1 using the DIP switches. To configure using the Command Line Interface (CLI). Note: set local will not effect the ACO, ST, OPT or RST switches on the controller.
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CLI Commands set set ntp Use the set ntp commands to configure the Network Time Protocol functions. set ntp disable Use the set ntp disable command to disable Network Time Protocol (NTP) processing (RFC 2030). The initial default for this processing is disabled. Syntax: set ntp disable Example: set ntp disable The example will stop NTP processing on the Controller. set ntp enable Use the set ntp enable command to enable both Network Time Protocol (NTP) processing (RFC 2030).
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CLI Commands set set ntp server address Use the set ntp server address command to specify the IP address of the NTP server. Syntax: set ntp server address {ip-addr} Example: set ntp server address 192.168.23.56 The example will the IP address to be used to access the NTP server to 192.168.23.56. {ip-addr} The IP address of the NTP server for unicast polling, in the form of xxx.xxx.xxx.xxx, where xxx is between 0-255, or 0.0.0.0 for listening to broadcasts. The default is 0.0.0.0.
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CLI Commands set set (ocudp) baud Use the set (ocudp) baud command to configure the Baud Rate for OCU-DP ports. Syntax: set {ocudp-addr} baud {rate}[sw56|sw56cp] Example: set 3:2 baud 2400 Set the baud rate on port 2 to 2400, on the OCU-DP card in slot 3 {ocudp-addr} The {slot:port} address of the OCU-DP card you want to apply the changes to. slot Slot number (1-6) where the OCU-DP is located port Port number or range.
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CLI Commands set set (ocudp) loopback Use the set (ocudp) loopback command to manually set OCU/CSU loopback tests. Syntax: set {ocudp-addr} loopback {csu|ocu} {loopdown|loopup} Example: set 3:2 loopback csu loopdown {ocudp-addr} The {slot:port} address of the OCU-DP card you want to apply the changes to. slot Slot number (1-6) where the OCU-DP is located port Port number or range.
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CLI Commands set set (ocudp) loopdetect Use the set (ocudp) loopdetect to configure the OCU non-latching/latching loopback code detection. Syntax: set {ocudp-addr} loopdetect {csu|dsu|ocu} {llb|nllb} {disable|enable} Example: set 3:2 loopdetect csu llb enable {ocudp-addr} The {slot:port} address of the OCU-DP card to apply the changes to. slot Slot number (1-6) where the OCU-DP is located port Port number or range.
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CLI Commands set set (ocudp) mvec Use the set (ocudp) mvec to set Majority Vote Error Correction (MVEC). Syntax: set {ocudp-addr} mvec {disable|enable} Example: set 3:2 mvec enable {ocudp-addr} The {slot:port} address of the OCU-DP card you want to apply the changes to. slot Slot number (1-6) where the OCU-DP is located port Port number or range. {disable|enable} disable* Disable the error correct (Default).
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CLI Commands set set (ocudp) selftest Use the set (ocudp) selftest to initiate the OCU-DP card to perform a self test. This request will display a message to wait 8 seconds before requesting selftest status with the status command. Syntax: set {ocudp-addr} selftest Example: set 3:2 selftest {ocudp-addr} The {slot:port} address of the OCU-DP card you want to apply the changes to. slot Slot number (1-6) where the OCU-DP is located port Port number or range.
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CLI Commands set set radius set radius identifier Use the set radius identifier command to enter an optional name that is used by the RADIUS server to identify this controller, as per section 5.32 of RFC 2865. If configured, the NAS0Identifier attribute is sent as part of the Access-Request. Syntax: set radius identifier {"radius-id"} Example: set radius identifier "Adit600-1" The example will set the RADIUS identifier to "Adit600-1".
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CLI Commands set set radius server address Use the set radius server address command to specify the IP address of the external RADIUS server to use for RADIUS login authentication. Up to 3 different RADIUS servers can be configured, with queries sent to each in succession until one of them sends a reply. Syntax: set radius server {1|2|3} address {ip-addr} [port] Example: set radius server 1 address 192.168.23.56 The example will set the IP address of RADIUS server 1 to 192.168.23.56.
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CLI Commands set set radius timeout Use the set radius timeout command to specify the maximum number of seconds to wait for a reply after each RADIUS request before sending the next attempt. Note: if none of the configured RADIUS servers are able to respond the login authentication will wait a total time of (number of servers x timeout x retries) seconds before attempting to authenticate the login locally.
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CLI Commands set set (router) cdr Use the set (router) cdr command to enable or disable Call Detail Recording (CDR) for the specified CMG card. Call Detail records can be viewed using the show (router) log command. This command applies to the CMG Router card only. Syntax: set {cmg_card-addr} cdr {disable|enable} Example: set 1 cdr enable The example will enable Call Detail Recording for the CMG card in slot 1. {cmg_card-addr} The slot number (1-6) that contains the CMG card.
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CLI Commands set set (router) default Use the set (router) default command to reset the Router card to its default configuration settings. This command will cause the Router card to perform a reboot. Syntax: set {rtr_card-addr} default Example: set 3 default Do you really want to do this ? y OK The example will reset the Router in slot 3 to its defaults. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. Compact T1 - Release 6.
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CLI Commands set set (router) dhcp Use the set (router) dhcp commands to configure the DHCP functions. set (router) dhcp disable Use the set (router) dhcp disable command to disable both DHCP server and DHCP relay functionality for the specified Router card. Syntax: set {rtr_card-addr} dhcp disable Example: set 3 dhcp disable The example will set the Router in slot 3 to disable DHCP. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands set set (router) dhcp server dnsserver Use the set (router) dhcp server dnsserver command to set the IP address of up to 4 DNS servers that the DHCP server will inform the clients of. Syntax: set {rtr_card-addr} dhcp server dnsserver {number} {ip-addr} Example: set 5 dhcp server dnsserver 4 122.104.33.220 The example will set the 4th DNS server address for the DHCP server on the Router card in slot 5 to 122.104.33.
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CLI Commands set set (router) dhcp server duration Use the set (router) dhcp server duration command to set the lease duration that the DHCP server applies to client assignments. Syntax: set {rtr_card-addr} dhcp server duration {hours:minutes} Example: set 5 dhcp server duration 3:45 The example set the lease duration for the DHCP server on the Router in slot 5 to 3 hours and 45 minutes. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands set set (router) dhcp server netbios nodetype Use the set (router) dhcp server netbios nodetype command to set the NetBIOS node type (see RFC 1001/1002) that the DHCP server provides to clients. Syntax: set {rtr_card-addr} dhcp server netbios nodetype {type-number} Example: set 5 dhcp server netbios nodetype 1 The example will set the NetBIOS node type to B-node. Note: DHCP server must first be enabled with the "startaddr" command. See set (router) dhcp server startaddr on page 5-100.
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CLI Commands set set (router) dhcp server startaddr Use the set (router) dhcp server startaddr command to enable the DHCP server on the specified Router card. Syntax: set {rtr_card-addr} dhcp server startaddr {ip-addr} {count} Example: set 4 dhcp server startaddr 134.200.3.1 254 The example will set the Router in slot 4 to enable the DHCP server with 254 address pool starting at 134.200.3.1. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands set set (router) dns Use the set (router) dns commands to set Domain Name Server (DNS) options. set (router) dns domain Use the set (router) dns domain command to set the default domain that the DNS resolver will add to any name queries that are not fully qualified. Syntax: set {rtr_card-addr} dns domain {domain-name"} Example: set 3 dns domain "mycompany.com" The example will set the default domain to "mycompany.com" for the Router in slot 3.
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CLI Commands set set (router) dns resolver Use the set (router) dns resolver command to enable/disable use of DNS resolver to convert domain names to IP addresses. The DNS server address must be set before the DNS resolver can be enabled. Syntax: set {rtr_card-addr} dns resolver {disable|enable} Example: set 3 dns resolver disable The example will disable the DNS resolver for the Router in slot 3. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands set set (router) enhanced security Use the set (router) enhanced security command to enable or disable enhanced login security on the Router. When enabled the user will not receive any login prompt or other output until the security password is typed. The security password is set via the set (router) password command. Syntax: set {rtr_card-addr} enhanced security {disable|enable} Example: set 5 enhanced security enable The example will enable the enhanced security on the Router card in slot 5.
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CLI Commands set set (router) lmi Use the set (router) lmi command to specify the Local Management Interface (LMI) protocol to use for the specified Router card. Syntax: set {rtr_card-addr} lmi {annexd|disable|lmi} Example: set 5 lmi annexd The example will configure LMI on the Router card in slot 5 to Annex D. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {annexd|disable|lmi} annexd Set LMI to Annex D. disable Disable LMI on the Router.
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CLI Commands set set (router) log Use the set (router) log command to set whether the CMG text log will continuously add new log entries by over-writing the oldest entries, or will stop adding new log entries after the log is full. Entering this command will cause the log to be cleared. This command applies to the CMG Router card only.
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CLI Commands set set (router) login auth Use the set (router) login auth command to specify how login authentication for this router should be performed.
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CLI Commands set set (router) login prompt Use the set (router) login prompt command to enable or disable the suppression of the Router login prompt for a user that telnets in from the Controller CLI. The user level of the current Controller user will be passed to the Router card at the time the telnet starts. This configuration allows a single login and authentication at the controller to apply to Router telnet sessions as well as the usual Controller CLI. This command applies to the IP Router card only.
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CLI Commands set set (router) mgcp Use the set (router) mgcp command to setup Media Gateway Call Protocol (MGCP) parameters. This command applies to the CMG Router card only. set (router) mgcp addressformat The set (router) mgcp addressformat is an interoperability command. It is used to remove or put square brackets around IP Addresses in transmitted MGCP commands. The standard convention and default setting is to have the brackets.
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CLI Commands set set (router) mgcp algorithmname The set (router) mgcp algorithmname is an interoperability command to configure nondefault MGCP designations for voice coding algorithms supported by the CMG. MGCP algorithm names are used in the "a:" attribute in the Local Connection Options (L:) parameter line of a CRCX or MDCX command. The CMG will ignore the case of characters in algorithm names received in MGCP commands from a call agent.
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CLI Commands set set (router) mgcp callagent address Use the set (router) mgcp callagent address command to initialize the address (notified entry) used by MGCP to send commands to the call agent. The address may be given in the form of an IPv4 address or as a domain name. The domain name form can only be used if DNS has been enabled. This command applies to the CMG Router card only. Syntax: set {cmg_card-addr} mgcp callagent address {ip-addr|"domain-name"} Example: set 1 mgcp callagent address "callagent.
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CLI Commands set set (router) mgcp callagent port Use the set (router) mgcp callagent port command to initialize the UDP port (notified entity port) to be used by MGCP to send commands to the call agent. Note: the MGCP specification RFC2705 suggests a port number of 2727 for the call agent. This is the default that the CMG uses to communicate with a call agent. However, many MGCP implementations use the port 2427, making it the same as the usual MGCP port of a gateway.
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CLI Commands set set (router) mgcp callagent secondary address Use the set (router) mgcp callagent address command for configuring a secondary call agent address that will be tried if the primary call agent does not reply to the notifications. The secondary call agent address will function in the same fashion as would multiple IP addresses returned in a domain name query. See RFC 2705 for a detailed discussion of how multiple call agents are handled by MGCP gateways.
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CLI Commands set set (router) mgcp callagent secondary port Use the set (router) mgcp callagent port command for configuring the port number for the secondary call agent that will be tried if the primary call agent does not reply to the notifications. This command takes effect after the card has been reset.
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CLI Commands set set (router) mgcp dialstring format The set (router) mgcp dialstring format is an interoperability command to specify the reporting format of dialed digit strings in the Observed Events parameter of MGCP NTFY messages. Either the individual digits are separated by commas or not. The default, which is the recommended usage, is to separate digits with commas. This command applies to the CMG Router card only.
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CLI Commands set set (router) mgcp down Use the set (router) mgcp down command to disable MGCP processing. Incoming MGCP messages from any call agent will be ignored, and endpoint activity will not cause any outgoing MGCP messages to be sent, nor any events to be accumulated. This is the default mode when the CMG is initially provisioned. If MGCP is configured as down when a reset or power cycle occurs, the call agent will NOT be notified when the reset or power cycle is complete.
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CLI Commands set set (router) mgcp gatewayid Use the set (router) mgcp gatewayid command to set the gateway name or IP address to be used in MGCP command header lines and the SDP. By default, the gateway ID that will be used is the domain name of the CMG if DNS is enabled or the IP address of the LAN or WAN interface used to communicate with the call agent. The user may set an explicit name or address by entering it in the command. The domain name form can only be used if DNS has been enabled.
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CLI Commands set set (router) mgcp keepalive Use the set (router) mgcp keepalive command to configure a keep-alive timer that will cause the CMG to resend RSIP restart messages on expiration. When enabled, this countdown timer is reset every time an MGCP message is received from the call agent. On expiration, the CMG will react by starting periodic transmission of a wildcard RSIP restart MGCP message to each of the configured call agents until it is acknowledged. This command takes effect immediately.
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CLI Commands set set (router) mgcp package default The set (router) mgcp package default is an interoperability command to set the default signal/event package to be used for the IETF version of MGCP. The default for this default is the DTMF (D) package. In the NCS version of MGCP, the default package is always the Line (L) package. This parameter does not apply to the NCS version of MGCP, whose default package is always the Line (L) package.
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CLI Commands set set (router) mgcp parsemode The set (router) mgcp parsemode is an interoperability command to set the strictness with which incoming MGCP messages are parsed.
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CLI Commands set set (router) mgcp piggyback The set (router) mgcp piggyback is a interoperability command to set allow or disallow of the sending of more than one MGCP command in the same message. Some call agents support piggybacking, and some do not. The gateway will always support the processing of received piggybacked commands. The default, for greatest interoperability is to disable the sending of piggybacked commands.
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CLI Commands set set (router) mgcp protocolid Use the set (router) mgcp protocolid command to configure a global protocol ID string which will override the default protocol ID string used in MGCP command lines. This command applies to the CMG Router card only. Syntax: set {cmg_card-addr} mgcp protocolid {default| "id-name"} Example: set 1 mgcp protocolid "MGCP 1.0 CACS" The example will set the protocol ID string to "MGCP 1.0 CACS". {cmg_card-addr} The slot number (1-6) that contains the CMG Router card.
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CLI Commands set set (router) mgcp quarantine The set (router) mgcp quarantine is a interoperability command to specify the default quarantine handling method that the CMG will employ if the call agent has not sent an explicit quarantine handling value in the last Request Notify message. This command applies to the CMG Router card only.
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CLI Commands set set (router) mgcp retries Use the set (router) mgcp retries command to specify the number of times an MGCP command is retransmitted if there is no response from a call agent. After the last retry, if another message timeout occurs, the endpoint will enter a disconnected mode. Syntax: set {cmg_card-addr} mgcp retries {value} Example: set 1 mgcp retries 4 The example sets the MCGP number of retries, for the CMG card in slot 1. {cmg_card-addr} The slot number (1-6) that contains the CMG card.
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CLI Commands set set (router) mgcp sdpmode The set (router) mgcp spdmode is a interoperability command to specify the content in transmitted Session Description Protocol (SDP) message sections.This option is included to account for call agents or remote gateways that cannot handle full content (default). This command applies to the CMG Router card only.
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CLI Commands set set (router) mgcp tos Use the set (router) mgcp tos command to configure the IP TOS byte value to be sent in each transmitted MGCP packet. This command takes effect immediately. Syntax: set {cmg_card-addr} mgcp tos {value} Example: set 1 mgcp tos 0x28 The example will set the IP TOS value to 0x28 on the CMG in slot 1. {cmg_card-addr} The slot number (1-6) that contains the CMG card. {value} IP TOS byte value, in the format of 0x (2 hex digits). Default setting is 0.
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CLI Commands set set (router) mgcp up Use the set (router) mgcp up command to start MGCP processing of incoming messages and endpoint events. MGCP must be up for the Customer Media Gateway to properly interact with an external call agent. The CMG notifies the call agent by means of one or more Restart in Progress (RSIP) commands with the Restart Method parameter set to "restart". An RSIP is sent for each voice channel which is configured as "up", after an initial random delay of not more than 30 seconds.
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CLI Commands set set (router) ntp Use the set (router) ntp command to setup Network Time Protocol (NTP) parameters. set (router) ntp enable/disable Use the set (router) ntp enable/disable command to enable/disable NTP processing. Syntax: set {rtr_card-addr} ntp {enable|disable} Example: set 1 ntp enable The example will enable NTP processing on the Router card in slot 1. {rtr_card-addr} The slot number (1-6) that contains a Router (IP or CMG) card.
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CLI Commands set set (router) ntp server Use the set (router) ntp server command to specify the IP address of the NTP server. Syntax: set {rtr_card-addr} ntp server {ip-addr} Example: set 1 ntp server 10.10.10.0 The example will set the address to be used to access the NTP server to 10.10.10.0, on the Router in slot 1. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {ip-addr} The IP address of the NTP server, in the form of xxx.xxx.xxx.xxx, where xxx is between 0-255.
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CLI Commands set set (router) password Use the set (router) password command to manage password access on the Router card. Syntax: set {rtr_card-addr} password {setting} {"password"} Example: set 5 password view "Fred" The example sets the View password to "Fred" on the Router card in slot 5. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {setting} admin Set Administration level password on the Router. config Set Configuration level password on the Router.
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CLI Commands set set (router) ppp auth Use the set (router) ppp auth command to configure the PPP (Point-to-Point Protocol) authentication on the specified Router card. set (router) ppp auth byremote protocol Syntax: set {rtr_card-addr} ppp auth byremote protocol {chap|none|pap} Example: set 5 ppp auth byremote protocol none The example will set the Router in slot 5 to not allow PPP authentication of this Adit by the remote PPP device.
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CLI Commands set set (router) ppp auth byremote user Syntax: set {rtr_card-addr} ppp auth byremote user {profilename|"protocol-name"} Example: set 5 ppp auth byremote user profilename The example will set the PPP authentication user name for the Router in slot 5 to equal the profile name. Note: A set (router) ppp auth byremote protocol command must be completed before this command can be implemented. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands set set (router) ppp security Use the set (router) ppp security command to set up the local external security server, that the Router will use to authenticate remote PPP devices. set (router) ppp security address Syntax: set {rtr_card-addr} ppp security address {ip-addr} Example: set 5 ppp security address 10.1.1.1 The example will set external security server address to 10.1.1.1, for the Router in slot 5.
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CLI Commands set set (router) ppp security server Syntax: set {rtr_card-addr} ppp security server {none|radius|tacacs} Example: set 5 ppp security server none The example will set the Router in slot 5 to not use an external security server to authenticate remote PPP devices. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {none|radius|tacacs} none Do not use an external security server to authenticate remote PPP devices (Default).
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CLI Commands set set (router) priority tos Use the set (router) priority tos command to configure parameters that will be used to recognize routed voice packets which will be handled with higher priority over other routed data. For each IP datagram to be routed, the TOS byte from the IP header will be logically AND’d with the configured TOS mask and compared to the TOS match value.
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CLI Commands set set (router) proxy Use the set (router) proxy command to enable/disable proxy ARP mode on the Router. This command will add an IP interface between the Controller and the Router over the backplane. In this way the Controller can be accessed by IP hosts over the Router’s LAN/WAN interfaces without using the Controller’s physical Ethernet interface. Syntax: set {rtr_card-addr} proxy {disable|enable} [ip-addr] [mask|bits] Example: set ethernet ip address 10.0.0.1 255.0.0.
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CLI Commands set set (router) reboot Use the set (router) reboot command to set automatic reboot after an upload of code or configuration file. Syntax: set {rtr_card-addr} reboot {code|config} {disable|enable} Example: set 5 reboot both disable Disable automatic reboot after upload for the Router in slot 5. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands set set (router) snmp Use the set (router) snmp command to set the SNMP contact, location and name on the specified Router card. set (router) snmp contact Use the set (router) snmp contact command to set the value of sysContact on the specified Router card. Syntax: set {rtr_card-addr} snmp contact {"contact-name"} Example: set 1 snmp contact "John Doe" The example will set the value of sysContact on the Router card in slot 1 to "John Doe".
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CLI Commands set set (router) snmp name Use the set (router) snmp name command to set the value of sysName on the specified Router card. Syntax: set {rtr_card-addr} snmp name {"system-name"} Example: set 1 snmp name "AditRouters" The example will set the value of sysName on the Router card in slot 1 to "AditRouters". {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {"system-name"} The value of sysName, with a maximum of 64 ASCII characters. Name must be enclosed in quotes.
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CLI Commands set set (router) stp Use the set (router) stp commands to configure the Spanning Tree Protocol on the Router. Note: Enter {slot} only. If {slot:port} is entered the command will be directed to the Router LAN and not the Router Card. set (router) stp bridge forwarddelay Use the set (router) stp bridge forwarddelay command to configure Spanning Tree bridge forward delay value for the bridge.
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CLI Commands set set (router) stp bridge maxage Use the set (router) stp bridge maxage command to configure Spanning Tree maximum age value for the bridge. The bridge max age value specifies the maximum age of received protocol information before it is discarded. Syntax: set {rtr_card-addr} stp bridge maxage {value} Example: set 3 stp bridge maxage 15 The example will set the Spanning Tree bridge max age to 15 seconds, on the Router in slot 3.
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CLI Commands set set (router) stp enable/disable Use the set (router) stp enable/disable command to enable and disable Spanning Tree Protocol on the Router. Syntax: set {rtr_card-addr} stp {disable|enable} Example: set 3 stp enable The example will enable Spanning Tree on the Router in slot 3. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. Note: Enter {slot} only. If {slot:port} is entered the command will be directed to the Router LAN and not the Router Card.
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CLI Commands set set (router) syslog Use the set (router) syslog commands to configure the Router to send alarm and event messages to a Syslog server. set (router) syslog enable/disable Use the set (router) syslog enable/disable command to enable and disable sending alarm and event messages to an external SysLog server from the Router.
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CLI Commands set set (router) syslog level Use the set (router) syslog level command to set the Syslog severity level. Events of all severity levels lower in number (more severe) will be sent to the Syslog server. Syntax: set {rtr_card-addr} syslog level {severity} Example: set 3 syslog level 4 The example will set the Syslog severity level to 4, on the Router in slot 3. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands set set (router) voip Use the set (router) voip commands to set Voice over IP (VoIP) parameters. This command applies to the CMG Router card only. set (router) voip default Use the set (router) voip default command to set all VoIP options to their default values. Syntax: set {cmg_card-addr} voip default Example: set 3 voip default The example will set the VoIP options to their default settings, on the CMG card in slot 3. {cmg_card-addr} The slot number (1-6) that contains the CMG card.
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CLI Commands set set (router) voip g729a Use the set (router) voip g729a command to enable or disable the G.729 codec in the CMG. This command takes effect after the card has been reset. NOTE: The G.729 feature is protected by a software key. Until an appropriate key is entered to enable this feature it will not be usable. The command, however, will still succeed to allow for pre-configuration. For additional information on how to purchase this feature, contact Customer Service.
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CLI Commands set set (router) voip jitterbuffer Use the set (router) voip jitterbuffer command to specify dynamic delay adjustment to minimize delay through the jitter buffer, or maintain a static average delay through the jitter buffer. Syntax: set {cmg_card-addr} voip jitterbuffer {dynamic|static} Example: set 3 voip jitterbuffer static The example will specify no dynamic delay adjustment for the jitter buffer, for the CMG card in slot 3. {cmg_card-addr} The slot number (1-6) that contains the CMG card.
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CLI Commands set set (router) voip packing Use the set (router) voip packing command to configure the packing order for g726 voice coding algorithms. The new default packing order for each voice coding algorithm is Big Endian. Note that when upgrading from CMG version 1.0 the packing order for G.726-32 will be Little Endian until changed by the user to load defaults is issued.This command applies to the CMG Router card only.
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CLI Commands set set (router) voip ptime Use the set (router) voip ptime command to specify the default packetization time for the specified algorithm. The packetization time determines the frequency at which RTP packets are transmitted. The MGCP call agent may override the new default set by this command on a call-by-call basis. At the end of a call, the configured default is back in force. This command takes effect immediately. NOTE: The G.729 feature is protected by a software key.
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CLI Commands set set (router) voip rtcp cname Use the set (router) voip rtcp cname command to specify the name to be used for the CNAME field of Real-Time Control Protocol (RTCP) packets. Syntax: set {cmg_card-addr} voip rtcp cname {gatewayid|"name"} Example: set 3 voip rtcp cname gatewayid The example will set the VoIP RTCP CNAME to the same as gateway ID, on the CMG card in slot 3. {cmg_card-addr} The slot number (1-6) that contains the CMG card. {gatewayid|"name"} Default is gatewayid.
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CLI Commands set set (router) voip rtp baseport Use the set (router) voip rtp baseport command to specify the base UDP port to be used when allocating ports for transmitting or receiving RTP packet streams in VoIP calls. All ports allocated for RTP, including the base port, must be even-numbered. Each allocated RTP port number will be equal to the base port plus some even offset.
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CLI Commands set set (router) voip rtpmap Use the set (router) voip rtpmap command to specify the dynamic payload type and name to be used for a specific algorithm in the Session Description Protocol (SDP) part of MGCP connection commands. This command takes effect immediately. The defaults are: Algorithm Payload Type SDP Name G.726-16 kb/s 96 G726-16 G.726-24 kb/s 97 G726-24 G.726-40 kb/s 98 G726-40 G.729A 18 G729A NOTE: In accordance with current IANA assignments (www.iana.org, RTP section), G.
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CLI Commands set set (router) voip sdpaddress Use the set (router) voip sdpaddress command to set the address value to be used for the origin and connection lines in the SDP. Syntax: set {cmg_card-addr} voip sdpaddress {gatewayid|domain-name|ip|ip-addr} Example: set 3 voip sdpaddress domainname The example will configure the SDP address value to match the DNS domain name. {cmg_card-addr} The slot number (1-6) that contains the CMG card.
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CLI Commands set set (router-lan) collision Use the set (router-lan) collision commands to configure collision alarms. set (router-lan) collision interval Use the set (router-lan) collision interval command to specify the time interval over which excessive collision alarms are calculated. Syntax: set {rtr_lan-addr} collision interval {seconds} Example: set 3:1 collision interval 0 The example will set the local LAN interface on slot 3 to disable collision alarms.
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CLI Commands set set (router-lan) collision threshold Use the set (router-lan) collision threshold command to specify the thresholds used to determine excessive collision alarm state. Syntax: set {rtr_lan-addr} collision threshold {high|low} {count} Example: set 3 "Adit50" collision threshold high 500 The example will set the high alarm threshold to 500, for the local LAN interface on slot 3. {rtr_lan-addr} The Router (IP or CMG) address is in the form {slot:port} or {slot "profile-name"}.
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CLI Commands set set (router-lan) filter forward Use the set (router-lan) filter forward command to specify the forwarding mode for Layer 2 filters on the LAN interface. Syntax: set {rtr_lan-addr} filter forward {matching|nontmatching} Example: set 3:1 filter forward notmatching {rtr_lan-addr} The Router (IP or CMG) address is in the form {slot:port} or {slot "profile-name"}. slot The slot number (1-6) that contains the Router card. port Port number of the Router is 1.
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CLI Commands set set (router-lan) framing Use the set (router-lan) framing command to specify which ethernet frame types are supported on the LAN interface. Syntax: set {rtr_lan-addr} framing {ipx|other} {ieee8022|ieee8023|ethii|snap} {disable|enable} Example: set 3:1 framing ipx ieee8022 enable The example will enable the 802.2 frame type for IPX packets on the LAN of the Router card in slot 3. {rtr_lan-addr} The Router (IP or CMG) address is in the form {slot:port} or {slot "profile-name"}.
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CLI Commands set set (router-lan) gateway Use the set (router-lan) gateway command to specify a default IP gateway for the specified LAN interface. If there is no static network entry to 0.0.0.0, then this address is used as the default gateway for packets with no explicit route. Syntax: set {rtr_lan-addr} gateway {ip-addr} Example: set 3:1 gateway 192.168.201.144 The example will set the local LAN interface on slot 3 to use a default gateway at IP address 192.168.201.144.
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CLI Commands set set (router-lan) ip address Use the set (router-lan) ip address command to specify an IP address for the specified LAN interface. When first installed the Router card’s LAN interface has a default IP address of 10.0.0.1 with subnet mask of 255.0.0.0. Syntax: set {rtr_lan-addr} ip address {ip-addr} [mask] Example: set 3:1 ip address 192.168.202.244 255.255.255.0 The example will set the local LAN interface on slot 3 to IP address 192.168.202.244, with a subnet mask of 255.255.255.0.
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CLI Commands set set (router-lan) ipx network Use the set (router-lan) ipx network command to specify IPX network numbers for the four IPX LAN frame types. This enables the Adit to Router IPX to Remote (WAN) networks, even if an IPX server does not exist on the local LAN. Typically, the Adit will learn its external network number.
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CLI Commands set set (router-lan) phy Use the set (router-lan) phy command to specify the ethernet PHY (physical specifications) speed and mode. NOTE: It is highly recommended that this setting be left at autonegotiation. Connecting ethernet devices with incompatible setting can lead to severe network performance degradation, increased collisions, late collisions, CRC errors, and undetected data corruption.
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CLI Commands set set (router-lan) rip Use the set (router-lan) rip commands to specify RIP for the specified LAN interface. set (router-lan) rip ip Use the set (router-lan) rip ip command to specify the IP RIP for the specified LAN interface. Syntax: set {rtr_lan-addr} rip ip {both|neither|recv|send} Example: set 2:1 rip ip send The example will set RIP on the local LAN interface on slot 2 to send. {rtr_lan-addr} The Router (IP or CMG) address is in the form {slot:port} or {slot "profile-name"}.
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CLI Commands set set (router-lan) rip ipx Use the set (router-lan) rip ipx command to specify the IPX RIP and SAP for the specified LAN interface. Syntax: set {rtr_lan-addr} rip ipx {both|neither|recv|send} Example: set 2:1 rip ipx send The example will set RIP and SAP on the local LAN interface on slot 2 to send. {rtr_lan-addr} The Router (IP or CMG) address is in the form {slot:port} or {slot "profile-name"}. slot The slot number (1-6) that contains the Router card.
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CLI Commands set set (router-lan) stp Use the set (router-lan) stp commands to configure the Spanning Tree Protocol on this interface. set (router-lan) stp enable/disable Use the set (router-lan) stp enable/disable command to enable/disable Spanning Tree Protocol on this interface. To enable STP on an interface it must be enabled globally with the set (router) stp enable command.
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CLI Commands set set (router-lan) stp port cost Use the set (router-lan) stp port cost command to configure Spanning Tree path cost value for this bridge port. Syntax: set {rtr_lan-addr} stp port cost {port-cost-value} Example: set 3:1 stp port cost 100 Sets the Spanning Tree port cost value at 100, on the Router in slot 3. {rt_lanr-addr} The Router (IP or CMG) address is in the form {slot:port} or {slot "profile-name"}. slot Slot number (1-6) that contains the Router card.
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CLI Commands set set (router-lan) up/down Use the set (router-lan) up/down command to set the specified LAN interface up or down. When the Router port is set down, a link failure will not cause an alarm. This can be used to eliminate alarms from Router ports that are not in-use. When the Router port is set up, a link failure on the ethernet port will cause an alarm to be reported to the Compact T1.
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CLI Commands set set (router-trunk) encapsulation Use the set (router-trunk) encapsulation command to specify the encapsulation to use on the Router interface. Syntax: set {rtr-trunk-addr} encapsulation {setting} Example: set 2:1:5 encapsulation pppofr The example will configure encapsulation on the Router card in slot 2, port 1, trunk 5 to PPP over Frame Relay.
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CLI Commands set set (router-trunk) up/down Use the set (router-trunk) up/down command to set the WAN trunk up or down. When the Router trunk is set down a link failure will not cause an alarm. This can be used to eliminate alarms from Router trunks that are not in-use. When the Router trunk is set up, a link failure on the WAN trunk will cause an alarm to be reported to the Adit.
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CLI Commands set set (router-trunk) voice bandwidth limit Use the set (router-trunk) voice bandwidth limit command to specify the maximum percentage of bandwidth on this trunk that voice calls are allowed to consume. The remaining percentage of the bandwidth on a CMG trunk to be reserved for routed or bridged data. Routed or bridged data is allowed to use any available bandwidth, but it is carried at a lower priority than the voice.
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CLI Commands set set (router-voice) algorithm preference Use the set (router-voice) algorithm preference command to specify the list of voice coding algorithms which will be supported for VoIP calls, on the specified voice channel(s). More than one algorithm can be listed, and they should be in order of preference. The default algorithm preference list contains all supported codecs in the order shown below. This command takes effect immediately, and applies to the CMG Router card only. NOTE: The G.
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CLI Commands set set (router-voice) cpd Use the set (router-voice) cpd command for configuring how calling party disconnect should be signaled to an endpoint. Calling party disconnect is signaled to a voice endpoint by generating an Open Switch Interval (OSI) ABCD signaling bit pattern. On analog POTS lines this causes the loop to be opened for this interval. The duration of this OSI signal is configurable via the set (router) voip osi command.
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CLI Commands set set (router-voice) default Use the set (router-voice) default command to reset all CLI accessible options for one or more CMG voice channels to their defaults. Defaults are set for algorithm preference, compander, echo cancellation, echo tail, endpoint prefix, endpoint suffix, silence suppression and TOS. This command applies to the CMG Router card only.
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CLI Commands set set (router-voice) down Use the set (router-voice) down command to take a CMG voice channel out-of-service. Once out-of-service, the call agent cannot access the endpoint ID associated with this voice channel. Also, the phone, fax, or data user connected to this channel from an FXS port or T12 channel cannot make or receive calls. The options for this command allow the invoker of the command to specify how the call agent is to treat the voice channel as it goes out-of-service.
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CLI Commands set set (router-voice) dtmfrelay Use the set (router-voice) dtmfrelay command to enable or disable the relay of DTMF packets as per RFC 2833. This command applies to the CMG Router card only. Syntax: set {cmg_voice-addr} dtmfrelay {disable|enable} Example: set 2:1:1:7 dtmfrelay enable Enables DTMF relay on voice channel 7 on the CMG card in slot 2. {cmg_voice-addr} In the form {slot:voip:port} slot The slot number (1-6) that contains the CMG card. voip To designate VoIP 1:1 is used.
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CLI Commands set set (router-voice) echo tail Use the set (router-voice) echo tail command to set the maximum round-trip delay expected in the voice path between the CMG and the phone, including acoustical delay at the phone. This command applies to the CMG Router card only. Syntax: set {cmg_voice-addr} echo tail {milliseconds} Example: set 2:1:1:all echo tail 8 The example will set the echo tail to 8 milliseconds for all voice channels on the CMG card in slot 2.
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CLI Commands set set (router-voice) endpoint prefix Use the set (router-voice) endpoint prefix command to set the common part of the MGCP endpoint name for one or more voice channels. The default prefix is "aaln". Note the endpoint prefix is combined with the endpoint suffix to form a complete MGCP endpoint name in the form "prefix/suffix" (the slash is added) for each voice channel. These names are used by a call agent to address the channel.
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CLI Commands set set (router-voice) endpoint suffix Use the set (router-voice) endpoint suffix command to set the variable part of the MGCP endpoint name for one or more voice channels. The default suffix is the voice channel number. Note: the endpoint prefix is combined with the endpoint suffix to form a complete MGCP endpoint name for each voice channel. If the defaults are used, the endpoint names are "aaln/1", aaln/2", "aaln/3", etc. These names are used by a call agent to address the channel.
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CLI Commands set set (router-voice) log start Use the set (router-voice) log start command to start logging events to the CMG text log, for the particular voice channels specified. Events are currently of two types, errors and MGCP. This command does not clear the log before enabling new events. The events to be logged are defined separately for each voice channel. (ie: one may start error logging for all channels, then set error plus MGCP logging for one specific channel).
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CLI Commands set set (router-voice) rxgain Use the set (router-voice) rxgain command to set gain on the receive side (packet-to-TDM) voice path for the specified voice channel(s). This gain setting can be overridden by the call agent on a call-by-call basis. This command applies to the CMG Router card only. Syntax: set {cmg_voice-addr} rxgain {gain} Example: set 2:1:1:10 rxgain -3 The example will set the receive-side gain to -3 dB for the voice channel 10 on the CMG card in slot 2.
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CLI Commands set set (router-voice) silence Use the set (router-voice) silence command to enable or disable silence suppression as the default for voice calls for one or more voice channels. The new default set by this command may be overridden on a call-by-call basis by the MGCP call agent. At the end of a call, the configured default is back in-force. Silence suppression may not apply to certain voice compression algorithm types. This command applies to the CMG Router card only.
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CLI Commands set set (router-voice) slash Use the set (router-voice) slash command for configuring a CMG endpoint so that the implied slash, "/", between the endpoint prefix and suffix can be suppressed. This command applies to the CMG Router card only. Syntax: set {cmg_voice-addr} slash {disable|enable} Example: set 2:1:1:all slash disable The example will disable use of slash between endpoint prefix and suffix.
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CLI Commands set set (router-voice) txgain Use the set (router-voice) txgain command to set the gain on the transmit side (TDM-topacket) voice path for the specified voice channel(s). This gain setting can be overridden by the call agent on a call-by-call basis. Note: DTMF detection can be gain sensitive, some adjustment may be necessary. This command applies to the CMG Router card only.
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CLI Commands set set (router-wan) dlci Use the set (router-wan) dlci command to set the DLCI (Data Link Connection Identifier) for a specified WAN interface. Syntax: set {rtr_card-addr} {"wan-name"} dlci {value} Example: set 1 "LosAngeles" dlci 16 The example will set the WAN interface named "LosAngeles" on the Router in slot 1 to use DLCI value 16. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {"wan-name"} The WAN interface to modify. The name must be enclosed in quotes.
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CLI Commands set set (router-wan) gre Use the set (router-wan) gre command to configure Generic Routing Encapsulation tunneling for a specified WAN interface. set (router-wan) gre address Use the set (router-wan) gre address command to configure the IP addresses for GRE tunneling for a specified WAN interface. Syntax: set {rtr_card-addr} {"wan-name"} gre address {local_ip-addr} [remote-ip-addr] ["tunnel-name"] Example: set 3 "LosAngeles" gre address 10.0.0.0 20.0.0.
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CLI Commands set set (router-wan) gre ip Use the set (router-wan) gre ip command to configure the GRE tunneling of the IP protocol for a specified WAN interface. Syntax: set {rtr_card-addr} {"wan-name"} gre ip {all|bynetwork|disable} Example: set 3 "LosAngeles" gre ip all The example will set the WAN interface "LosAngeles" in slot 3, to pass all packets through a GRE tunnel. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {"wan-name"} The WAN interface to modify.
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CLI Commands set set (router-wan) ip Use the set (router-wan) ip command to set the IP traffic handling on the WAN interface. Syntax: set {rtr_card-addr} {"wan-name"} ip {block|bridge|route} Example: set 1 "LosAngeles" ip route Sets the WAN interface named "LosAngeles" on the Router in slot 1 to route IP. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {"wan-name"} The WAN interface to modify. The name must be enclosed in quotes.
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CLI Commands set set (router-wan) ipx Use the set (router-wan) ipx command to set the IPX traffic handling on the WAN interface. Syntax: set {rtr_card-addr} {"wan-name"} ipx {setting} Example: set 1 "LosAngeles" ipx bridge The example will set the WAN interface named "LosAngeles" in slot 1, to bridge IPX. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {"wan-name"} The WAN interface to modify. The name must be enclosed in quotes. {setting} block Set the WAN to block IPX.
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CLI Commands set set (router-wan) nat Use the set (router-wan) nat commands to configure Network Address Translation (NAT) on a specified WAN interface. set (router-wan) nat address Use the set (router-wan) nat address command to configure Network Address Translation (NAT) public addresses for a specified WAN interface. Syntax: set {rtr_card-addr} {"wan-name"} nat address {assigned|ip-addr} [count] Example: set 1 "LosAngeles" nat address 201.17.172.
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CLI Commands set set (router-wan) nat enable/disable Use the set (router-wan) nat command to enable and disable Network Address Translation (NAT) on a specified WAN interface. Syntax: set {rtr_card-addr} {"wan-name"} nat {disable|enable} Example: set 1 "LosAngeles" nat enable The example will set the WAN interface named "LosAngeles" on the Router in slot 1 to enable NAT mapping. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {"wan-name"} The WAN interface to modify.
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CLI Commands set set (router-wan) other Use the set (router-wan) other command to set the traffic handling of protocols other than IP or IPX on the specified WAN interface. Syntax: set {rtr_card-addr} {"wan-name"} other {block|bridge} Example: set 1 "LosAngeles" other bridge The example will set the WAN interface named "LosAngeles" in slot 1, to bridge other protocols. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {"wan-name"} The WAN interface to modify.
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CLI Commands set set (router-wan) ppp Use the set (router) ppp command to configure the PPP (Point-to-Point Protocol) on the specified Router card. set (router) ppp auth ofremote user Use the set (router) ppp auth ofremote user command to set the CHAP or PAP name by which a remote PPP device is authenticated by this Adit.
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CLI Commands set set (router) ppp compression Use the set (router) ppp compression command to configure the PPP compression with the remote PPP device. Syntax: set {rtr_card-addr} {"wan-name"} ppp compression {setting} Example: set 5 "LosAngeles" ppp compression enable The example will set PPP to attempt to negotiate PPP compression on the WAN interface named "LosAngeles" in slot 1. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {"wan-name"} The WAN interface to modify.
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CLI Commands set set (router-wan) rip Use the set (router-wan) rip command to set the type of RIP updates on the specified interface. set (router-wan) rip ip updates Use the set (router-wan) rip ip updates command to set the type of RIP updates on the specified WAN interface.
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CLI Commands set set (router-wan) stp Use the set (router-wan) stp commands to configure the Spanning Tree Protocol on the specified WAN interface. set (router-wan) stp enable/disable Use the set (router-wan) stp enable/disable command to enable and disable Spanning Tree Protocol on this interface. To enable Spanning Tree on an interface it must first be enabled globally with the set (router) stp enable command and the WAN must be set to bridge the IP protocol.
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CLI Commands set set (router-wan) stp port cost Use the set (router-wan) stp port cost command to configure Spanning Tree path cost value for this bridge port. Syntax: set {rtr_card-addr} {"wan-name"} stp port cost {port-cost-value} Example: set 3 stp port cost 650 The example sets the Spanning Tree port cost value at 650, on the Router in slot 3. {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {"wan-name"} The WAN interface to modify. The name must be enclosed in quotes.
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CLI Commands set set (router-wan) trunk Use the set (router-wan) trunk command to configure the trunk port or multilink group for a specified WAN interface. If the trunk encapsulation is subsequently changed, this trunk assignment is reset to 0. Syntax: set {rtr_card-addr} {"wan-name"} trunk [multilink-group] {number} Example: set 1 "LosAngeles" trunk 3 The example will set the WAN interface named "LosAngeles" on the Router in slot 1 to be mapped to trunk 3.
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CLI Commands set set screen Use the set screen command to set the height of the scrolling output screen, in number of lines. For example, if the screen height is set to 40 lines, the Command Line Interface (CLI) will print the maximum of 40 lines of a long output before pausing. To set the screen to scroll without pausing, set the screen height to 0. Syntax: set screen {screen-height|off} Where screen-height is the number of lines in the scrolling output screen. 5-196 Compact T1 - Release 6.
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CLI Commands set set snmp Use the set snmp command to set the Simple Network Management Protocol (SNMP) MIB-II System Group objects. Syntax: set snmp {setting} {string} Where {setting} is as below, and {string} is its value. Example: set snmp name "ADIT 1" To set the SNMP system name to "ADIT 1" Example: set snmp nms 2 192.168.3.50 Set the second SNMP NMS IP address to 192.168.3.50 {setting} Set the values for any of the following SNMP MIB-II System Group object contact {string} SysContact.
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CLI Commands set set syslog Use the set syslog commands to configure the Syslog client features. set syslog disable Use the set syslog disable command to disable sending alarm and event messages to external syslog servers. The initial default setting is disabled. Syntax: set syslog disable Example: set syslog disable The example will disable syslog on the Controller. set syslog enable Use the set syslog enable command to enable sending alarm and event messages to external syslog servers.
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CLI Commands set set syslog server all level Use the set syslog server all level command to set the syslog severity level threshold. Events of all severity levels will be sent to the syslog server. Syntax: set syslog level all facility {severity} Example: set syslog server all level 4 The example will set the threshold for sending syslog messages to include critical, major and minor alarms only, for all three syslog servers. {severity} The syslog severity level threshold. Range 0 - 7, with a default of 3.
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CLI Commands set set syslog server facility Use the set syslog server facility command to set the system log facility value. Syntax: set syslog server {1|2|3} facility {value} Example: set syslog server 2 address 192.168.23.56 The example will set the IP address to be used to access syslog server 2 to 192.168.23.56. {1|2|3} The syslog server entry to modify. {value} Facility message 0-23, default is 16. set syslog server level Use the set syslog server level command to set the system log facility value.
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CLI Commands set set user Use the set user command to modify attributes for a specific user that have been created with the add user command. set user level Use the set user level command to set the user access level. Syntax: set user {"user-name"} level {1|2|3} Example: set user "paul" level 2 {"user-name"} The user-name is a user ID to add to the system. Text is a single word, with no blank spaces and must be enclosed in quotes. {1| 2| 3} Sets the level of access.
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CLI Commands set set (v35) Use the set (v35) command to setup V.35 ports. The command specifies the range of channels within that card, and the setting to apply. Syntax: set {v35-addr} {setting} Example: set 6:1 rxclk normal To set port 1 (v.35) on slot 6 to no inversion on the receive clock {v35-addr} In the form of {slot:port}. slot Slot number (1-6) of the Compact T1 where the V.35 card is located port Port number or range.
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CLI Commands set rxclkinv speed txclkinv Compact T1 - Release 6.1 Set the receive clock invert mode to one of the following: invert invert the receive clock normal do not invert the receive clock Set the data rate for each DS0 to which a V.
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CLI Commands set set (v54) Use the set (v54) command to setup V.54 Loopback Test Parameters. The command specifies the range of channels within that card, and the setting to apply. Syntax: set {v54-addr} v54 {setting} [off|on] [n] [nnn] Example: set 6:1 v54 equipment clear The example will clear the loop test counter on the V.54 card in slot 6, port 1. {v54-addr} In the form of {slot:port}. slot Slot number (1 - 6) for service cards. port Port number or range. {setting} equipment address Set the V.
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CLI Commands set pattern Syntax: set{v54-addr} v54 equipment pattern {n} Set V.54 test pattern n is from the following: 0 = QRSS pattern (Default) 1 = 2047 pattern 2 = 215 -1 pattern 3 = 220 -1 pattern (QRSS with no bit stuffing) prepcnt Syntax: set {v54-addr} v54 equipment prepcnt {nnn} Set V.54 Rx prep-pattern count {nnn} nnn = the number of times that the preparatory pattern must be received to be recognized. network address Set the V.54 Network loop address.
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CLI Commands set set verification Use the set verification command to enable or disable verification prompts. Syntax: set verification {off|on} Example: set verification off The example will cause yes/no verification messages to be suppressed. {off|on} off on 5-206 Turn yes/no verification prompts off. Turn yes/no verification prompts on. Compact T1 - Release 6.
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CLI Commands show show The following show commands are linked to a detailed description of each command.
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CLI Commands show show autoexit Use the show autoexit to display whether autoexit is on or off. If on, the time-out period is displayed. Syntax: show autoexit Example: show autoexit > show autoexit Autoexit is off. show (bri) Use the show (bri) to display settings for BRIs. Syntax: show {bri-addr} Example: show 3:1 The example will display the settings for port 1 (BRI) on slot 3.
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CLI Commands show show clock The show clock command displays the primary and secondary clocks. Syntax: show clock Example: show clock In the following example, the primary clock source is in slot A (Controller card), DS1 2; and the secondary clock source is in slot 6 (BRI card), DS1 1. > show clock Primary Master Transmit Clock Source: Slot A DS1 2 Secondary Master Transmit Clock Source: Slot 6 BRI 1 show connect The show connect command displays the static connections for channels and ports.
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CLI Commands show show date The show date command displays the date in dd/mm/yyyy format. Example: show date > show date date: 08/10/2002 show (ds0) The show (ds0) command displays settings for DS0s. Syntax: show {ds0-addr} Example: show a:2:1-2 In the following example, the show (ds0) command has queried slot A (Controller card), port 2, channels 1 through 2.
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CLI Commands show show (ds1) The show (ds1) command displays settings for DS1s. Syntax: show {ds1-addr} Example: show a:1 In the following example, the query show a:1 has returned the following DS1 settings for slot A (the controller card), port 1. > show a:1 SLOT A: Settings for DS1 1: Circuit ID: DS1# A:1 Up/Down: DOWN Framing: ESF Line Coding: B8ZS Line Build Out: DSX-1 EQUALIZATION FOR 0-133 ft.
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CLI Commands show show ethernet The show ethernet command displays ethernet and IP settings. Example: show ethernet > show ethernet IP Address and Mask: IP Address of the Gateway: MAC Address: 198.162.3.196 255.255.255.0 192.168.3.202 00:E0:97:00:A9:33 show (fxo) The show (fxo) command displays the settings for FXOs. Syntax: show {fxo-addr} Example: show 1:1 The example shows the port 1, FXO settings for the card in slot 1.
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CLI Commands show show (fxs5G) The show (fxs5G) command displays the settings for the FXS 5G card. Syntax: show {fxs5G-addr} Example: show 6:1 This command will display the settings for the FXS channel 1 for the FXS 5G card located in Slot 6. > show 6:1 SLOT 6: Settings for FXS: Type: Signaling: RxGain: TxGain: Impedance: channel 1: VOICE LS -6 dB -3 dB 900 Ohms + 2.
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CLI Commands show show impedance The show impedance command displays the impedance settings for FXS 5G card. Syntax: show impedance Example: show impedance Index ----1 2 3 4 5 6 Impedance ------------------------------120 Ohms + (.110µF || 820 Ohms) 150 Ohms + (.047µF || 510 Ohms) 150 Ohms + (.072µF || 830 Ohms) 200 Ohms + (.100µF || 680 Ohms) 215 Ohms + (.137µF || 1k Ohms) 220 Ohms + (.
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CLI Commands show show id The show id command displays the system ID for the Compact T1. Syntax: show id Example: show id The example shows the ID of a Compact T1 labeled "Compact T11" Compact T11> show id ID: Compact T11 show ip The show ip command displays the IP Address information for the Compact T1. Syntax: show ip Example: show ip > show ip IP Address and Mask: IP Address of the Gateway: 192.168.3.193 192.168.3.202 255.255.255.
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CLI Commands show show local The show local command shows whether the Compact T1 is in local mode. Syntax: show local Example: show local > show local LOCAL: ON show login The show login command displays the RADIUS login authentication configuration settings for the Controller.
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CLI Commands show show (ocudp) Use the show (ocudp) to display baud, loopdetect, error correction, switched and enhanced switched service and secondary channel provisioning. Syntax: show {ocudp-addr} Example: show 2:1 SLOT 2: Settings for OCUDP Port 1: Up/Down: Baudrate: Loopdetect Types Enabled: Error Correction: Secondary Channel: UP 56000 CSU Non-Latching DSU Non-Latching OCU Non-Latching DISABLE DISABLE {ocudp-addr} The {slot:port} address of the OCU-DP card to display.
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CLI Commands show show (router) The show (router) command displays the settings for the Router card.
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CLI Commands show SNMP Trap Destinations: Address Name public 0.0.0.
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CLI Commands show show (router) dhcp The show (router) dhcp command displays the current DHCP settings for the Router card. Syntax: show {rtr_card-addr} dhcp Example: show 5 dhcp The example shows the DHCP settings for the Router card in slot 5. > show 5 dhcp SLOT 5: DHCP Server/BOOTP Relay Agent Settings for Router: DHCP: Disabled {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands show show (router) dns proxy The show (router) dns proxy command displays the current DNS Proxy setup for the Router card. Syntax: show {rtr_card-addr} dns proxy Example: show 5 dns proxy > show 5 dns proxy SLOT 5: DNS Proxy Settings for Router: Total: 0 {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. show (router) lmi The show (router) lmi command displays the current Local Management Interface (LMI) settings for the Router card.
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CLI Commands show show (router) log The show (router) log command displays the logging configuration of the CMG card. This command applies to the CMG Router card only. Syntax: show {cmg_card-addr} log Example: show 4 log The example shows the logging configuration for the CMG card in slot 4. > show 4 log SLOT 4: Log Settings for CMG: Logging Mode: First Log Details: No Call Detail Records (CDR): Disabled Total Ports Logging: 0 {cmg_card-addr} The slot number (1-6) that contains the CMG card.
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CLI Commands show show (router) mgcp The show (router) mgcp command to display all options set through set (router) mgcp commands. This command applies to the CMG Router card only. Syntax: show {cmg_card-addr} mgcp Example: show 4 mgcp SLOT 4: MGCP Settings for CMG: Activation, Addressing, and Transactions: MGCP State: Down Call Agent IP Address: 0.0.0.
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CLI Commands show show (router) mgcp algorithmname The show (router) mgcp algorithmname command to display all MGCP designations for voice coding algorithms supported by the CMG. This displays the CLI defined name, if any, and the default for each algorithm. MGCP algorithm names are used in the "a:" attribute in the Local Connection Options (L:) parameter line of a CRCX or MDCX command. This command applies to the CMG Router card only.
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CLI Commands show show (router) ntp The show (router) ntp command displays settings for NTP options. Syntax: show {rtr_card-addr} ntp Example: show 4 ntp The example shows the NTP options for the Router card in slot 4. > show 4 ntp SLOT 4: NTP Settings for CMG: NTP: Disabled NTP Server: 0.0.0.0 NTP Interval (seconds):120 NTP Timezone (offset from GMT):0 hours 0 minutes {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. Compact T1 - Release 6.
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CLI Commands show show (router) ppp The show (router) ppp command displays the current Local PPP (Point-to-Point Protocol) authentication and security settings for the Router card. Syntax: show {rtr_card-addr} ppp Example: show 5 ppp > show 5 ppp SLOT 5: PPP Authentication/Security Settings for Router: Authentication by Remote: Protocol: CHAP Secret: public User ID: Local Profile Name Authentication of Remote: Protocol: CHAP Local Security Server: Type: Radius IP Address: 168.0.0.
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CLI Commands show show (router) rip The show (router) rip command displays the current RIP settings for the Router card. Syntax: show {rtr_card-addr} rip Example: show 5 rip > show 5 rip SLOT 5: RIP Settings for Router: RIP Mode Receive: RIP2 RIP Mode Send: Rip2 {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. show (router) snmp The show (router) snmp command displays the current SNMP settings for the specified Router card.
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CLI Commands show show (router) stp The show (router) stp command displays the current Spanning Tree Protocol settings for the specified Router card. Syntax: show {rtr_card-addr} stp Example: show 5 stp > show 5 stp SLOT 5: Spanning Tree Protocol Settings for Router: Spanning Tree: Enabled Bridge Hello Time: 2 seconds Bridge Max Age: 20 seconds Bridge Forward Delay: 15 seconds Bridge Priority: 32768 {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands show show (router) uploaduser The show uploaduser command displays the current list of users allowed to upload and download configuration and code files.
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CLI Commands show show (router) voip The show voip command displays the current settings for all VoIP parameters. This command applies to the CMG Router card only.
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CLI Commands show show (router-lan) The show (router-lan) command displays the settings for the Router card. Syntax: show {rtr-addr} Example: show 4:1 > show 4:1 SLOT 4: Settings for RTR LAN 1: Profile Name: Up/Down: Proxy: Physical link: MAC Address: IP Settings: IP Address and Mask: Default Router: Enabled Frame Types: RIP Direction: Secondary IP Addresses LocalAdit UP Disabled Automatic 00:E0:97:01:E3:A2 192.168.3.193 192.168.3.202 Ethernet II Send and Masks: 192.168.1.
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CLI Commands show Static IPX Network Settings for LocalAdit: Total: 0 Static IP Address Settings for LocalAdit: Total: 0 Static MAC Address Settings for LocalAdit: Total: 0 LAN Filters Enabled for LocalAdit: Forward Mode: Forward ALL Frames NOT Matching Filters Filter Type ----------Total: 0 Source/Dest ----------- Filter Name ----------- LAN MAC Address Filters Defined for LocalAdit: Total: 0 LAN Protocol Filters Defined for LocalAdit: Total: 0 LAN Custom Filters Enabled Defined for LocalAdit: Total:
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CLI Commands show show (router-lan) collision The show (router-lan) collision command displays the current LAN collision alarm settings for the specified Router card. Syntax: show {rtr-addr} collision Example: show 5 "Adit50" collision > show 5 "Adit50" collision SLOT 5: LAN Collision Threshold Settings for Adit50: Sample Interval: 15 Collision High Threshold: 500 Collision Low Threshold: 10 {rtr-addr} The Router (IP or CMG) address is in the form {slot:port} or {slot "profile-name"}.
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CLI Commands show show (router-lan) filter The show (router-lan) filter command displays the current LAN Layer 2 data filters applied to the LAN on the specified Router card.
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CLI Commands show {rtr-addr} The Router (IP or CMG) address is in the form {slot:port} or {slot "profile-name"} slot Slot number (1-6) that contains the Router card. port Port number of the Router is 1. "profile-name" The profile name for the Router interface that is used to reach this destination. Name must be enclosed in quotes, with a maximum length of 11 characters. [address|custom|protocol|all] This setting will display the defined filter types of the specified filters.
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CLI Commands show show (router-lan) static The show (router-lan) static commands to display the current list of static entries for the LAN on the specified Router card. show (router-lan) static ip address The show (router-lan) static ip address command displays the current list of static IP address entries for the LAN on the specified Router card.
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CLI Commands show show (router-lan) static ip network The show (router-lan) static ip network command displays the current list of static IP network entries for the LAN on the specified Router card. Syntax: show {rtr-addr} static ip network Example: show 5:1 static ip network SLOT 5: Static IP Network Settings for Adit50: Network 100.0.0.0 Total: 1 Subnet Mask 255.0.0.0 Metric 1 Next Gateway 192.136.43.52 {rtr-addr} The Router (IP or CMG) address is in the form {slot:port} or {slot "profile-name"}.
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CLI Commands show show (router-lan) static mac address The show (router-lan) static mac address command displays the current list of static MAC address entries for the LAN on the specified Router card. Syntax: show {rtr-addr} static mac address Example: show 5:1 static mac address SLOT 5: Static MAC Address Settings for Adit50: Device Name Adit 66 Total: 1 MAC Address 00:E0:97:00:E9:CD {rtr-addr} The Router (IP or CMG) address is in the form {slot:port} or {slot "profile-name"}.
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CLI Commands show show (router-voice) The show (router-voice) command displays the CMG voice line provisioning. This command applies to the CMG Router card only. Syntax: show {cmg_voice-addr} Example: show 4:1:1:1 SLOT 4: Voice Channel Settings for CMG: Voice Channel: MGCP Endpoint ID: Channel Status: Echo Cancellation: Echo Tail (milliseconds): Receive Gain (dB): Transmit Gain (dB): VoIP Algorithm Pref.
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CLI Commands show show (router-wan) The show (router-wan) command displays the current configuration settings for the specified WAN interface.
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CLI Commands show WAN Static IPX Network Settings for LosAngeles: Network Hops Ticks Next IPX Router ------------------------------WAN Static IP Address Settings for LosAngeles: Total: 0 WAN Static MAC Address Settings for LosAngeles: Total: 0 WAN Static NAT Address Settings for LosAngeles: Total: 0 WAN Firewall Settings for LosAngeles: {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {"wan-name"} The WAN interface to modify. The name must be enclosed in quotes.
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CLI Commands show show (router-wan) firewall The show (router-wan) firewall command displays the current firewall filter settings for the specified WAN interface. Syntax: show {rtr_card-addr} {"wan-name"} firewall Example: show 5 "LosAngeles" firewall SLOT 5: WAN Firewall Settings for LosAngeles: Service(s) 1. SMTP 2. Telnet Last ! Any LAN Device(s) WAN Device(s) 192.0.0.0/8 ==> 192.0.0.0/8 100.0.0.0/24 ==> 200.0.0.
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CLI Commands show show (router-wan) ppp The show (router-wan) ppp command displays the current PPP (Point-to-Point Protocol) settings for the specified WAN interface.
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CLI Commands show show (router-wan) static ip address The show (router-wan) static ip address command displays the current list of static IP address entries for the specified WAN interface. Syntax: show {rtr_card-addr} {"wan-name"} static ip address Example: show 5 "LosAngeles" static ip address > show 5 "LosAngeles" static ip address SLOT 5: WAN Static IP Address Settings for LosAngeles: Total: 0 {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands show show (router-wan) static ipx network The show (router-wan) static ipx network command displays the current list of static IPX network entries for the specified WAN interface.
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CLI Commands show show (router-wan) static nat address The show (router-wan) static nat address command displays the current static NAT address entries for the specified WAN interface. Syntax: show {rtr_card-addr} {"wan-name"} static nat address Example: show 5 "LosAngeles" static nat address > show 5 "RemoteUnit" static nat address SLOT 5: WAN Static NAT Address Settings for RemoteUnit: Total: 0 {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands show show (router-wan) trunk The show (router-wan) trunk command displays the current trunk assignment for the specified WAN interface. Syntax: show {rtr_card-addr} {"wan-name"} trunk Example: show 5 "LosAngeles" trunk > show 5 "LosAngeles" trunk SLOT 5: WAN Trunk Setting for LosAngeles: WAN Port Number: 1 Connection Type: PPP {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card. {"wan-name"} The WAN interface to modify. The name must be enclosed in quotes.
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CLI Commands show show snmp The show snmp command displays the SNMP settings. Example: show snmp SNMP Settings: System Name: System Location: System Contact: GET Community: SET Community: TRAP Community: Trap version: Authentication TRAP Event TRAP NMS 1: NMS 2: NMS 3: public desktop public 0 disabled none show syslog The show syslog command displays the configuration settings for the Controller syslog client.
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CLI Commands show show time The show time command displays the system time, in 24 hour hh:mm:ss format. Example: show time time: 00:22:51 show users The show users command displays a list of all users and their settings, and if they are logged on at the time (0=not logged on, 1=logged on). Syntax: show users Example: > show users User ---* jack Level ----1 Last Login ---------00:00:13 01/01/1999 Logged In --------1 * indicates self Compact T1 - Release 6.
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CLI Commands show show (v35) Use the show (v35) to display current settings for V.35 card. Syntax: show {v35-addr} Example: show 2:1 The example shows settings for port 1 (V.35) on slot 2. > show 2:1 SLOT 2: Settings for V35 Port 1: CTS: Timing: Rx Clock Inversion: Tx Clock Inversion: Data Inversion: Data Speed: Data Rate: Loopback: Always High Source Normal Normal Normal 64K None {v35-addr} In the form {slot|slot:port}. 5-250 slot slot (1-6) location of a V.35 card. port Port number or range.
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CLI Commands show show (v54) Use the show (v54) to display current settings for V.54 card. Syntax: show {v54-addr} Example: show 3:1 The example shows settings for port 1 (V.54) on slot 3. SLOT 3: Settings for V35 Port 1: CTS: Timing: Rx Clock Inversion: Tx Clock Inversion: Data Inversion: Data Speed: Data Rate: V.54 Rx LB: V.54 Rx Addr: V.54 Test Addr: V.54 Tx Prep count: V.54 Rx Prep count: V.54 Test Pattern: V.
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CLI Commands show show (wan) The show wan command displays current WAN settings for the Router card. Syntax: show {wan-addr} Example: show 5:1:1 The example displays the settings of WAN 1 for the Router card on slot 5. > show 5:1:1 SLOT 5: Settings for RTR 1 WAN 1: Up/Down: UP {wan-addr} In the form {slot|slot:port:wan}. 5-252 slot slot (1-6) location of a Router (IP or CMG) card. port Port number or range. wan WAN number, 1-24. Compact T1 - Release 6.
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CLI Commands status status Use the status command to see the status of the system clocks, DS0s, DS1s, equipment, and the DS0 Management Channel.
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CLI Commands status status (bri) Use the status (bri) to display the status/performance statistics for the specified BRI. Syntax: status {bri-addr} [performance] [history] Example: status 3:1 The example displays status of port 1 (BRI) on slot 3. > status 3:1 SLOT 3: Status for BRI Port 1: Loopback: Corrupt CRC: NONE NONE Example: status 3:1 performance The example displays statistics of port 1 (BRI) on slot 3.
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CLI Commands status {bri-addr} The BRI address, in the form {slot:port}. slot The slot number (1-6) that contains the BRI card port Port number, range or "all" [performance] Displays the current performance statistics for specified BRI. [history] Displays historical performance statistics for specified BRI. status clock Use the status clock command to display the current status of both the selected primary and secondary clocks.
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CLI Commands status status (ds0) Use the status (ds0) command to display the current status of the specified DS0. Syntax: status {ds0-addr} Example: status a:1:1 Displays the current status of the DS0s on port 1 on slot A (controller card), port 1, channel 1.
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CLI Commands status status (ds1) Use the status (ds1) command to display the current status of the specified DS1. Syntax: status {ds1-addr} [performance] [history] Where you can either specify a {slot:port} address to display an individual port or range of ports. Example: > status a:1 SLOT A: Status for DS1 Receive: Transmit: Loopback: 1: Traffic Traffic OFF {ds1-addr} In the form of {slot:port}. slot A for the controller card, or 1-6 for service cards. port Port number or range.
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CLI Commands status status equipment Use the status equipment command to display current equipment information of the Compact T1. Syntax: status equipment [slot] Example: status equipment > status equipment BootCode Version: SLOT SLOT SLOT SLOT SLOT SLOT SLOT A 1 2 3 4 5 6 CardType -------T1x2 FXOx8 FXSx8 FXOx8 RTRx1 T1x4 V35x2 1.19 Status -----Present Present Present Present Present Present Present SW Vers ------3.1.0 1.12 1.09 1.12 1.31 1.73 2.
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CLI Commands status Example: status equipment 4 The example with display the status of the card in slot 4. In this example a Router card is in this slot. > status equipment 4 SLOT 4 CardType: RTRx1 Status: Present SW Revision: 1.31B BootCode Version: 1.72 FPGA Revision: 1.08 CLEI: NOT AVAIL LOCAL: OFF [slot] If a slot number is not entered, the status of the all slots will be displayed. slot Compact T1 - Release 6.1 A for the controller card, or 1 - 6 for service cards.
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CLI Commands status status (fxo) Use the status (fxo) to display the current near-end line status of the specified FXO. Syntax: status {fxo-addr} Example: status 5:2 The example displays status of port 2 (FXO) on slot 5. > status 5:2 FXO --5:2 Rx AB ----01 Tx AB ----10 Signal=>T1 sig -------------GS=>GS T1 ----------------Traffic TP -N See Display Descriptions on page 5-256 for definitions of column headings.
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CLI Commands status status (fxs5G) Use the status (fxs5G) to display the current near-end line status of the specified FXS 5G card. Syntax: status {fxs5G-addr} Example: status 4:1 The example displays status of port 1 (FXS 5G) on slot 4. > status 4:1 FXS --4:1 Rx AB ----01 Tx AB ----01 Signal=>T1 Sig T1 TP -------------- ----------------- -LS => LS Traffic N {fxs5G-addr} slot The slot number (1-6) that contains the FXS 5G card port Port number or range.
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CLI Commands status status ipds0 Use the status ipds0 command to display the current status of the DS0 management channel. Syntax: status ipds0 Example: status ipds0 > status ipds0 Operational state: DOWN status (ocudp) Use the status (ocudp) command to displaystatus for selftest and loopbacks.
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CLI Commands status status (ocudp) performance Use the status (ocudp) performance command to display performance statistics for the current 15 minute interval, previous 15 minute interval, previous 1 hour interval, and for the previous day. Syntax: status {ocudp-addr} performance Example: status 2:1 performance > status 2:1 performance SLOT 2: Performance Statistics for OCUDP Port 1: current previous 15 min. 15 min.
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CLI Commands status status (ocudp) performance history Use the status (ocudp) performance history command to display performance statistics for the current 15 minute interval and all previous 15 minute intervals (up to a total of 96). Syntax: status {ocudp-addr} performance Example: status 2:1 performance > status 2:1 performance history SLOT 2: Performance Statistics for OCUDP Port 1: curr. interval: prev. intvl 1: prev.
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CLI Commands status status (router) Use the status (router) command to display the current Router status information. Syntax: status {rtr-addr} Example: status 5:1 The example displays status of the Router card in slot 5. SLOT 5: Status for RTR Port 1: Run Status: Collision Alarm: Link Alarm: Alarm LED: 10/100 LED: Link LED: Collision LED: Transmit LED: Receive LED: Running NO NO Red Off Off Off Off Off {rtr-addr} The Router (IP or CMG) address is in the form {slot:port}.
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CLI Commands status status (router) channels Use the status (router) channels command to display a condensed status report of all voice channel endpoints. This command applies to the CMG Router card only. Syntax: status {cmg_card-addr} channels Example: status 3 channels CMG VoIP Channel Status - Slot 3 MGCP: Down Call Agent: 0.0.0.0/2727 Endpoint Prefix: aaln/ # STATUS SIG CONN # STATUS SIG CONN # STATUS SIG CONN 1-Down FXSL ....... 17-Down FXSL ....... 33-Down FXSL ....... 2-Down FXSL .......
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CLI Commands status status (router) dns Use the status (router) dns command to display the current state of DNS resolver and the entries in the DNS cache. Syntax: status {rtr_card-addr} dns Example: status 4 dns > status 4 dns ROUTER BLADE DNS RESOLVER REPORT Slot-4 DNS RESOLVER IS ENABLED My DNS Ip Address 10. 0. 0. My DNS Hostname Adit25.test Primary DNS Server Secondary DNS Server 1 10. 10. 10. 0. 0. 0. 0 0 {rtr_card-addr} The slot number (1-6) that contains the Router (IP or CMG) card.
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CLI Commands status status (router) events Use the status (router) events command to display the current event log from the specified Router card. Syntax: status {rtr_card-addr} events Example: status 5 events ROUTER BLADE EVENTS LOG REPORT Slot-5 Time Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Message Count 10 0:56:44.8 Download EVE.RPT by Controller 10 0:54:27.4 Download complete in 0.0 secs [17440 10 0:54:27.4 Download ALM.RPT by Controller 10 0:14:23.
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CLI Commands status status (router) ip address table Use the status (router) ip address table command to display the current IP address table for the specified Router card. Syntax: status {rtr_card-addr} ip address table ["profile-name"] Example: status 5 ip address table > status 5 ip address table ROUTER BLADE IP ADDRESSES REPORT Slot-5 Adit50 has learned 2 IP Addresses from 1 Port. Display: Learned From:
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CLI Commands status status (router) ip network table Use the status (router) ip network table command to display the current table of learned IP Networks for the specified interface on the Router card. Syntax: status {rtr_card-addr} ip network table ["profile-name"] Example: status 5 ip network table > status 5 ip network table ROUTER BLADE IP NETWORKS REPORT Slot-5 Total Entries-3 on 2 Ports Display: Learned From:
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CLI Commands status status (router) ipx network table Use the status (router) ipx network table command to display the current table of learned IPX Networks for the specified interface on the Router card. Syntax: status {rtr_card-addr} ipx network table ["profile-name"] Example: status 5 ipx network table > status 5 ipx network table ROUTER BLADE IPX NETWORKS REPORT Slot-5 Total Entries-4 on 1 Ports Display: Learned From:
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CLI Commands status status (router) ipx server table Use the status (router) ipx server table command to display the current table of learned IPX Servers for the specified interface on the Router card.
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CLI Commands status status (router) log Use the status (router) log command to display the log of all CMG events. This command applies to the CMG Router card only. Syntax: status {cmg_card-addr} log ["profile-name"] Example: status 5 log > status 4 log CMG LOG REPORT Slot-4 Date Time Event Type Trans ID Chan Event Description ------ ----------- ---------- --------- ---- ------------------ {cmg_card-addr} The slot number (1-6) that contains the CMG card.
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CLI Commands status status (router) mac address table Use the status (router) mac address table command to display the current table of learned MAC Addresses for the specified interface on the Router card. Syntax: status {rtr_card-addr} mac address table ["profile-name"] Example: status 5 mac address table > status 5 mac address table ROUTER BLADE MAC ADDRESSES REPORT Slot-5 Adit50 has learned 2 MAC Addresses from 1 Port. Display: Learned From:
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CLI Commands status status (router) mgcp Use the status (router) mgcp command to display counts of all MGCP sent and received return codes, internal errors and other statistics. This command applies to the CMG Router card only.
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CLI Commands status status (router) performance Use the status (router) performance command to display the current runtime statistics from the specified Router card. Syntax: status {rtr_card-addr} performance Example: status 5 performance > status 5 performance ROUTER BLADE PERFORMANCE REPORT Slot-5 Run-time Statistics for Adit50. LAN Packet Totals: WAN Packet Totals: Remote’s Name LosAngeles Received 0 Received 0 Forwarded to WAN 0 pps Transmitted 0 Transmitted 0 Errors 0 Errors 0 Throughput Comp.
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CLI Commands status status (router) stp Use the status (router) stp command to display the current Spanning Tree state from the specified Router card. Syntax: status {rtr_card-addr} stp Example: status 5 stp > status 5 stp ROUTER BLADE SPANNING TREE PROTOCOL REPORT Slot-5 STP Stats No Enabled STP Ports Detected.
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CLI Commands status status (router-lan) Use the status (router-lan) command to display the current Router status information. Syntax: status {rtr_lan-addr} Example: status 5:1 The example displays status of the Router card in slot 5.
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CLI Commands status status (router-trunk) Use the status (router-trunk) command to display the current status information for the specified Trunk on the Router card.
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CLI Commands status status (router-voice) Use the status (router-voice) command to display the status of service, calls, signaling, connections, call agent communications and telephony statistics for a CMG router voice channel. This command applies to the CMG Router card only.
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CLI Commands status Delay: 0 Call Agent Communications Status for this Endpoint: Notified Entity: [192.168.24.228]:2427 Comm State: Up Last Cmd Rcvd: CRCX From: 192.168.24.228:2427 Last Cmd Sent: NTFY Telephony Statistics Item -------------Offhooks Onhooks Seizures Tone Digits Pulse Digits Count ----1 0 2 0 0 {cmg_voice-addr} In the form {slot:voip:channel}. slot The slot number (1-6) that contains the CMG card. voip To designate VoIP 1:1 is used.
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CLI Commands status status (v35) Use the status (v35) to display the current near-end line status of the V.35 card. Syntax: status {v35-addr} Example: status 2:1 The example displays status of port 1 (V.35) on slot 2 > status 2:1 SLOT 2: Status for V35 PORT 1: DCD: Low CTS Low DSR: Low RTS: Low DTR: Low {v35-addr} In the form of {slot|slot:port}. slot The slot number (1-6) that contains the V.35 card port Port number or range.
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CLI Commands status status (v54) Use the status (v54) to display the current near-end line status of the V.54 card. Syntax: status {v54-addr} Example: status 3:all The example displays status of all ports (V.54) on slot 3. > status 3:all SLOT 3: Status for V35 PORT 1: DCD: Low CTS: Low DSR: Low RTS: Low DTR: Low BERT: N/A SLOT 3: Status for V35 PORT 2: DCD: Low CTS: Low DSR: Low RTS: Low DTR: Low BERT: N/A {v54-addr} slot port The slot number (1-6) that contains the V.54 card Port number or range.
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CLI Commands store store The store command is used to upload a software file from a defined slot to a defined location on a PC, via TFTP. Currently uploads for general use are only permitted for the Controller and Router card configuration files. Syntax: store {number} tftp {ip-addr} {"file-name"} Example: store 5 tftp 192.168.2.35 "d:\AditBackup\file.cfg" Filename: d:\AditBackup\file.cfg Source IP Address: 198.162.3.196 Target IP Address: 192.168.43.
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CLI Commands telnet telnet telnet (router) Use the telnet (router) command to establish a Telnet session from the Compact T1 CLI to the Router card menu-driven user interface. Syntax: telnet {rtr-addr} Example: telnet 1 The example will Telnet into a Router in Slot 1. > telnet 3 Connected. Escape character is ’^]’. Attempting Router connection... Router [Wed Apr 24, 2002 13:00:15] ( to login) Password >****** Select a terminal type...
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CLI Commands telnet 5-286 Compact T1 - Release 6.
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CHAPTER T1 Controller Card In this Chapter n Overview n Features n Technical Specifications n Configuration - CLI Commands DIP Switch Settings n LEDs n DS0 Management (IP over DS0) n TR-08 Mode 1
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T1 Controller Card Overview Overview The Compact T1 with the Dual T1 Controller Card offers a cost-effective, compact solution that delivers a wide range of services from both wireline and wireless access networks. The T1 Controller Card includes two T1 ports with integrated CSUs and a built-in 1/0 cross-connect matrix providing full, non-blocking connectivity between the T1 Controller Card and any of the six service card slots.
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T1 Controller Card Features Features l Allows any service connection or network access line to be deployed in any slot l Provides integrated 18 T1 port digital cross-connect for service grooming and l l l l restoration Supplies integrated dual T1 CSU/DSUs and SNMP management on the Controller Support for VoIP services through the Customer Media Gateway (CMG) Service Card (Note: CMG configuration assumes 5 CMG + 1 QT1, 24 channels per CMG Card using G.
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T1 Controller Card Technical Specifications Technical Specifications Product Includes l 18 T1 port built-in, non-blocking 1/0 Digital Cross-connect System l Robbed-bit (voice) and clear channel (data) signaling on the same T1 l TR-08 signaling configured as either AB, BB, A or B l Integral dual T1 ports that support drop-and-insert applications l T1.
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T1 Controller Card Technical Specifications Management l Local - Simple setup using front panel DIP switches for channel bank applications - RS-232 craft port interface drives up to 50 ft. (15.
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T1 Controller Card Technical Specifications Service Interfaces Supported l IP Router card (supports up to 24 WAN connections per card) l Customer Media Gateway (CMG) Service card (to support VoIP) l FXO/DPT 8-channel Voice Service card l FXS 8-channel Voice Service card l ISDN BRI 2, 4 and 8-channel Service cards l Dual V.35 and Dual V.35/V.
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T1 Controller Card Technical Specifications Testing and Diagnostics l Standard T1 line and payload loopbacks l T1.231 performance history Power Consumption l 4 W maximum Regulatory Approvals USA l UL60950 l FCC Part 15, Class A l FCC Part 68 l NEBS Level 3 certified GR-63-CORE, GR-1089-CORE Canada l CSA C22.2 No. 60950-00 l ICES-003, Class A l CS-03 Physical l Dimensions: 3.5 in. (H) x 1 in. (W) x 11.25 in. (D) 8.9 cm (H) x 2.5 cm (W) x 28.6 cm (D) l Weight: 5.7 oz. (.
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T1 Controller Card Configuration Configuration Options on the Controller card are set by the DIP switches or the Command Line Interface (CLI). NOTE: The default IP address for the Controller is 10.0.0.10. CLI Commands The following commands are used to configure the Controller card. For detailed information on these commands, see Chapter 5, CLI Commands.
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T1 Controller Card Configuration DIP Switch Settings On the front of the TDM Controller card are DIP switches you can use to configure the unit locally. Switch Function Description ACO Alarm Cut Off 0 = Alarm contacts enabled (close when alarm occurs). Default. 1 = Alarm contacts disabled (open). ST Self Test 0 = Normal operation. Default. 1 = Perform Self Test. OPT Spare RST Reset 0 = User-configured operation. Default. 1 = Reset configuration to factory defaults, and reset CLI password.
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T1 Controller Card LEDs LEDs The T1 Controller has a set of six LEDs you can use to troubleshoot your Compact T1. The table below describes each LED. LED State Description MAJOR Off No major alarms present Red Major alarm present Off No minor alarms present Yellow Minor alarms present Off Remote mode (DIP switches disabled) Green Local mode (DIP switches enabled) Off Normal mode. No alarms are being suppressed. Yellow Alarm cutoff active. One or more active alarms suppressed.
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T1 Controller Card DS0 Management (IP over DS0) DS0 Management (IP over DS0) The DS0 Management Channel provides SNMP management and remote access. The IPDS0 feature allows for full Transmission Control Protocol/Internet Protocol (TCP/IP) connectivity to remote Compact T1 and can be used for Simple Network Management Protocol (SNMP) trap reporting and configuration, Trivial File Transfer Protocol (TFTP) upgrades of Controllers and Service cards, and remote telnet access. Compact T1 - Release 6.
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T1 Controller Card TR-08 Mode 1 TR-08 Mode 1 The Compact T1 TR-08 will provide Mode 1 non-concentrated integrated service to the Compact T1 platform. The TR-08/SLC-96 interface will allow a direct T1 physical connection to a TR-08 capable digital switch, eliminating the need for an exchange office end platform. Each TR-08 provisioned T1 will handle the signaling throughput for 24 DS0 voice channels.
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T1 Controller Card TR-08 Mode 1 Compact T1 TR-08 Adit 600 TDM TR-08 Power Supply Customer Premise Equipment (CPE) Linecard T1-1 Digital Switch Linecard Linecard T1-2 Linecard Linecard Linecard TDM Controller Compact T1 TR-08 Configuration Compact T1 - Release 6.
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T1 Controller Card TR-08 Mode 1 6-14 Compact T1 - Release 6.
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CHAPTER FXO Voice Card In this Chapter n Overview n Features n Technical Specifications n Card Configuration - CLI Commands DIP Switch Settings n LEDs n Channel Associated Signaling (CAS) Conversions
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FXO Voice Card Overview Overview The FXO Voice Service card provides high-density provisioning of reliable Foreign Exchange Office (FXO) or Direct Inward Dialing (DID) telephone services. Eight FXO or Dial Pulse Terminate (DPT) telephone line channels can be deployed on each FXO Service card. These cards can be inserted into any slot of the Compact T1 six-slot chassis, and up to 96 lines in two side-by-side chassis occupying just two rack units of space.
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FXO Voice Card Features Features l Delivers FXO or DID telephone services from T1 access circuits l Supports CLASS services including Caller ID, Calling Party Disconnect and Distinctive Ringing l Provides up to 48 FXO or DPT voice lines in one chassis, or up to 96 lines in two side-by-side Compact T1s occupying just two rack units of equipment space (19 inch rack) l Complies with NEBS Level 3 standards for loop range and ringing protection for end office and customer premises l Offers fuseless overvoltage
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FXO Voice Card Technical Specifications FXO Transmission Performance l Return Loss: ERL > 26 dB, SRL > 18 dB with respect to 900Ω + 2.16µF l Transhybrid Loss: ERL > 26 dB, SRL > 18 dB with respect to 900Ω + 2.16µF l Idle Noise: A/D < 16 dBrnC0, D/A, 12 dBrnC0 l Crosstalk Coupling: < 70 dB at 0 dBrn0 l Signal/Distortion: > 35 dB with 1004 Hz, 0 dBm0 input l Overload: +3.0 dBm/900Ω l Frequency Response: +0.3 dB -1.0 dB from 300 to 3400 Hz l Encoding: µ-law 255 for U.S. and Canada as defined in CCITT G.
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FXO Voice Card Technical Specifications Regulatory Approvals USA l UL60950 l FCC Part 15, Class A l FCC Part 68 l NEBS Level 3 certified for type 2 and 4 equipment GR-63-CORE, GR-1089-CORE Canada l CSA C22.2 No. 60950-00 l ICES-003, Class A l CS-03 Physical l Connections made on RJ21-X telco connector rear panel l Dimensions: 3.5 in. (H) x 0.75 in. (W) x 11.25 in. (D) 8.9 cm (H) x 1.9 cm (W) x 28.6 cm (D) l Weight: 9.1 oz. (.
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FXO Voice Card Card Configuration Card Configuration The FXO voice card can be configured, using DIP switches on the card, to support either FXO loop start or FXO ground start signaling, with various transmit and receive attenuation options. Note that the attenuation settings you configure via DIP switches apply to all eight channels on a card. If you want different attenuation options for individual channels, use the Command Line Interface to configure your FXO channels.
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FXO Voice Card Card Configuration DIP Switch Settings Each FXO card contains ten DIP switches that can be used to select signaling options for all eight channels. Switch Function Description 1-2 Signal Type 12 Receive Gain/Loss 3456 Transmit Gain/Loss 7 8 9 10 3-6 7-10 Compact T1 - Release 6.
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FXO Voice Card LEDs LEDs Each FXO port on a card has its own LED, described in the table below. 7-8 State Loop Start Meaning Ground Start Meaning Dial Pulse Termination Meaning Off N/A Idle (tip open) Idle (loop open) Green Idle Tip ground (incoming seizure) Incoming seizure Red N/A Ring ground (outgoing seizure) Loop closure (outgoing seizure) Yellow Call in progress Call in progress Call in progress (reverse battery) Flashing green Ringing Ringing N/A Compact T1 - Release 6.
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FXO Voice Card Channel Associated Signaling (CAS) Conversions Channel Associated Signaling (CAS) Conversions Cross-connects are done at a DS0 level. The following rules need to be kept in mind while performing cross-connects for a FXO voice card.
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FXO Voice Card Channel Associated Signaling (CAS) Conversions 7-10 Compact T1 - Release 6.
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CHAPTER FXS Voice Card In this Chapter n Overview n Features n Technical Specifications n Card Configuration - CLI Commands DIP Switch Settings n LEDs n Channel Associated Signaling (CAS) Conversions
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FXS Voice Card Overview Overview The FXS Voice Service card provides high-density provisioning of cost-effective telephone services. Eight Foreign Exchange Station (FXS) telephone line channels can be deployed on each FXS Voice Service card. These cards can be inserted into any card slot of the six-slot Compact T1. This allows the provisioning of up to 48 FXS lines in a single chassis and up to 96 lines in two side-by-side units occupying just two rack units of space.
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FXS Voice Card Features Features l Supports CLASS services including Caller ID, Calling Party Disconnect and l l l l l Distinctive Ringing Provides up to 48 FXS voice lines in one chassis or up to 96 lines in two side-byside units occupying just two rack units of equipment space (19-inch rack) Complies with NEBS Level 3 standards for loop range and ringing protection for end office and customer premises Offers fuseless overvoltage and overcurrent protection to minimize service calls from lightning and pow
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FXS Voice Card Technical Specifications Technical Specifications Controller Software Required T1 Controller l Release 1.50 or higher is required for the FXS 5G card FXS Transmission Performance l Return Loss: ERL > 28 dB, SRL > 20 dB with respect to 900Ω + 2.16µF l Transhybrid Loss: ERL > 28 dB, SRL > 20 dB with respect to 900Ω + 2.
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FXS Voice Card Technical Specifications FXS Signaling Performance l DC Loop Range: 1000Ω standard, 1600Ω extended l Loop Feed: Nominal -48 VDC with 31mA current limit for long loops, -36 VDC l l l l l l l l l l l l l @ 27mA for short loops with automatic battery switching Off-Hook Detection: Detects tip or ring currents > 6mA Ring Ground: Detects ring ground currents > 8mA Ringing Voltage: All-channel simultaneous ringing power, 85 V rms, 20 Hz Maximum Ringers: 5 REN, FCC Class B ringers Internal Ringin
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FXS Voice Card Technical Specifications Regulatory Approvals USA l UL60950 l FCC Part 15, Class A l NEBS Level 3 certified for type 2 and 4 equipment GR-63-CORE, GR-1089-CORE Canada l CSA C22.2 No. 60950-00 l ICES-003, Class A Physical l Connections made on RJ-21X telco connector rear panel l Dimensions: 3.5 in. (H) x 0.75 in. (W) x 11.25 in. (D) 8.9 cm (H) x 1.9 cm (W) x 28.6 cm (D) l Weight: 5.8 oz. (.16 kg) For information on Environment required, see Installation Environment on page 2- 2.
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FXS Voice Card Card Configuration Card Configuration The FXS voice card can be configured, using DIP switches on the card, to support either FXS loopstart or FXS groundstart signaling, with various transmit and receive attenuation options. Note that the attenuation settings configured via DIP switches apply to all eight channels. For different attenuation options for individual channels, use the CLI. CLI Commands The following commands are used to configure the FXS cards.
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FXS Voice Card Card Configuration DIP Switch Settings Each FXS card contains ten DIP switches that can be used to select signaling options for all eight channels.
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FXS Voice Card LEDs LEDs Each FXS port has a corresponding LED, described in the table below. This chart applies to all the FXS service cards. State Loop Start Meaning Ground Start Meaning Off N/A Idle (tip open) Green Idle Tip ground (incoming seizure) Red N/A Ring ground (outgoing seizure) Yellow Call in progress Call in progress Flashing green Ringing Ringing Compact T1 - Release 6.
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FXS Voice Card Channel Associated Signaling (CAS) Conversions Channel Associated Signaling (CAS) Conversions Cross-connects are done at a DS0 level. The following rules need to be kept in mind while performing cross-connects for an FXS voice card. The following chart does not apply to the FXS INTL card, which only carries R2 signaling.
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CHAPTER ISDN BRI Card In this Chapter n Overview n Features n Technical Specifications n Card Configuration n CLI Commands LEDs Connector Pinouts - 25-Pair Telco Connectors
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ISDN BRI Card Overview Overview The ISDN BRI Service Cards enable service providers and enterprises to deploy highdensity, standards-based, ISDN Basic Rate Interface (BRI) services over one or more T1 or DSL access lines using TDM or ATM transport. ISDN voice, data, and real-time video applications may be cost effectively deployed as part of any integrated broadband service delivery. ISDN BRI BRI provides an end-to-end digital connection for customers with voice, data and video needs.
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ISDN BRI Card Features Features l Enables carriers to economically bundle ISDN with all other services at 64 Kbps l l l l or 128 Kbps over T1 access lines Configurable as either Line Unit Line Terminal (LULT) for interfacing to ISDN switch interfaces at the central office, or Line Unit Network Terminal (LUNT) for customer premises deployment Provides direct NTU service demarcation for ISDN video conferencing, 128 Kbps dial-up Internet, point-of-sale terminals, and ISDN Centrex or telephone applications
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ISDN BRI Card Technical Specifications Technical Specifications Controller Software Required T1 Controller l Release 1.2.2 or higher is required Product Includes l Configurable as Line Unit Line Terminal (LULT) or Line Unit Network Terminal (LUNT) l Works with all standard Carrier Serving Area (CSA) loops - maximum 18,000 ft.
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ISDN BRI Card Technical Specifications Network Standards l Telcordia TR-NWT-000397 (1993) l Telcordia TR-TSY-000821 (1991) l Telcordia TR-TSY-000829 (1989) l ANSI T1.1992 l ITU-T Q.920, Q.
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ISDN BRI Card Technical Specifications Regulatory Approvals USA l UL60950 l FCC Part 15, Class A l NEBS Level 3 certified for type 2 and 4 equipment GR-63-CORE, GR-1089-CORE Canada l CSA C22.2 No. 60950-00 l ICES-003, Class A Physical l Dimensions: 3.5 in. (H) x 0.75 in. (W) x 11.25 in. (D) 8.9 cm (H) x 1.9 cm (W) x 28.6 cm (D) l Weight: 6.9 oz. (.20 kg) For information on Compact T1 Environment required, see Installation Environment, on page 2-2. 9-6 Compact T1 - Release 6.
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ISDN BRI Card Card Configuration Card Configuration BRI card options are set with the Command Line Interface (CLI). For additional information on these commands, see Chapter 5, CLI Commands.
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ISDN BRI Card LEDs LEDs There is an LED for each ISDN BRI on a card. The function for each LED is listed below: 9-8 State Description Off Line U-interface is attempting synchronization, or BRI is out of service. Red Line alarm (LOS or self test failure) Yellow ES or SES has occurred. Flashing yellow Line U-interface is synchronized with customer equipment, but is not passing customer data. Flashing green Line U-interface is in external loopback toward the switch at the unit.
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ISDN BRI Card Connector Pinouts Connector Pinouts 25-Pair Telco Connectors Circuit connections are made at the 25-pair telco connectors. A standard 25-pair telephone cable with RJ-21X wiring and a male D-type connector at the Compact T1 end is required. Slot/Pair Designation The following designations apply whether a Dual, Quad or Octal ISDN BRI Card is placed in Slot 1 through 6. However, a Dual would only use the first 2 of the 8 pair, a Quad the first 4, and an Octal all 8.
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ISDN BRI Card Connector Pinouts SLOT 1 on J1 or SLOT 4 on J2 25-Pair Telco Connector Pinouts Pair Pin Location Function Color Code 1 26 1 27 2 28 3 29 4 30 5 31 6 32 7 33 8 34 9 35 10 36 11 37 12 38 13 39 14 40 15 41 16 Tip Channel 1 Ring Channel 1 Tip Channel 2 Ring Channel 2 Tip Channel 3 Ring Channel 3 Tip Channel 4 Ring Channel 4 Tip Channel 5 Ring Channel 5 Tip Channel 6 Ring Channel 6 Tip Channel 7 Ring Channel 7 Tip Channel 8 Ring Channel 8 Tip Channel 9 Ring Channel 9 Tip Channel 10 Ring Cha
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ISDN BRI Card SLOT 3 on J1 or SLOT 6 on J2 Connector Pinouts Pair Pin Location Function Color Code 17 42 17 43 18 44 19 45 20 46 21 47 22 48 23 49 24 50 25 Tip Channel 17 Ring Channel 17 Tip Channel 18 Ring Channel 18 Tip Channel 19 Ring Channel 19 Tip Channel 20 Ring Channel 20 Tip Channel 21 Ring Channel 21 Tip Channel 22 Ring Channel 22 Tip Channel 23 Ring Channel 23 Tip Channel 24 Ring Channel 24 Reserved Yellow Orange Yellow Green Yellow Brown Yellow Slate Violet Blue Violet Orange Violet Gre
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ISDN BRI Card Connector Pinouts 9-12 Compact T1 - Release 6.
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CHAPTER OCU-DP Card In this Chapter n Overview n Features n Technical Specifications n Card Configuration - CLI Commands Basic Setup LEDs n Jumper Settings n Alarms n Line Rates/Line Lengths n Connector Pinouts - DDS RJ-48S 25-Pair Telco Connector
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OCU-DP Card Overview Overview The Single and Quad Port all-rate OCU-DP Service Cards provide electrical and physical termination of the 4-wire Digital Data Service (DDS) that is traditionally used to interconnect lower-speed serial synchronous Data Terminal Equipment (DTE) devices such as routers, Frame Relay Access Devices (FRAD), or video conferencing equipment. Now DDS can be integrated with DS0 voice, fractional T1 data, ISDN, and IP services – over multiple T1s or DS3s.
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OCU-DP Card Overview Customer Premise Application Local Loop: 4-wire DDS Bipolar AMI, RZ Four RJ-48S 4-wire keyed jacks T1 Secondary Primary PSTN -45 dB maximum loop loss, all rates RS-232 Compact T1 ADIT 600 or V.35 2.4 - 72 KBPS DSU/CSU Line Rates Primary Channel / Primary and Secondary Only OCU DP DS0A data channel format Channel 64 KBPS / 72 KBPS 56 KBPS / 72 KBPS 38.4 KBPS / 51.2 KBPS 19.2 KBPS / 25.6 KBPS 9.6 KBPS / 12.8 KBPS 4.8 KBPS / 6.4 KBPS 2.4 KBPS / 3.
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OCU-DP Card Overview SS7 Backhaul Application Compact T1 In this application, the carrier uses the OCU to transfer signaling and call information between MSCs. 10-4 Compact T1 - Release 6.
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OCU-DP Card Features Features l Provides available baseband data rates from 2.4 to 72 Kbps l Supports primary and secondary channel services, 64K clear channel service, and l l l l l l l 4-wire Switched-56 service Complies with AT&T Pub.
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OCU-DP Card Technical Specifications Technical Specifications Controller Software Required T1 Controller l Release 3.
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OCU-DP Card Technical Specifications Power Consumption l 6 W maximum, Four Port OCU-DP card l 3 W maximum, Single Port OCU-DP card Regulatory Approvals USA l UL60950 l FCC Part 15, Class A l Designed to meet NEBS Level 3 for type 2 and 4 equipment (not certified) Canada l CSA C22.2 No. 60950-00 l ICES-003, Class A Physical l Dimensions: 3.5 in. (H) x 0.75 in. (W) x 11.25 in. (D) 8.9 cm (H) x 1.9 cm (W) x 28.6 cm (D) l Weight: 5.7 oz. (.
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OCU-DP Card Card Configuration Card Configuration OCU-DP card options are set with the Command Line Interface (CLI). For additional information on these commands, see Chapter 5, CLI Commands.
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OCU-DP Card Card Configuration Basic Setup Command Description set {ocudp-addr} baud {2400|4800|9600|19200|38400| 56000*|64000} Set the OCU-DP Baud rate. Where ocudp-addr = {slot:port} of the OCU-DP card to apply settings to. set {ocudp-addr} up Set the OCU-DP port 1 up. show {ocudp_card-addr} Show the OCU-DP card settings. Where ocudp_card-addr = {slot} of the OCU-DP card.
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OCU-DP Card LEDs LEDs There are two LEDs for each channel on the OCU-DP card. The function for each LED is listed below: State 10-10 Description Yellow Flickering ALL Boot Software in control. Green (walking down) Red (walking up) ALL Application Software in control (repeated 3.5 times). Red, slow flash ALL In Boot. Application flash code checksums did not match and Boot is waiting for application download. Red ALL In Application code waiting for Controller to issue SW/HW revision request.
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OCU-DP Card Jumper Settings Jumper Settings The P1 and P2 Jumpers are defaulted to RJ-48S, which are the set of pins nearest the bottom of the service card. With the jumper in this position the signals are routed to the RJ-48S connector(s) on the face of the card. To route the signals to the 25-pin Telco connector at the rear of the unit, move the jumpers to the backplane position, which is the set of pins toward the top of the service card.
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OCU-DP Card Alarms Alarms The OCU-DP cards and supporting Controller Software will support the following alarms: Alarm/ Event Severity Category Description Card Detect Information Equipment OCU-DP card inserted Card Removed Information Equipment OCU-DP card removed Out of Service (OOS) Major Facility Network sending Out-ofService code (OOS) or card has LOS. Correct with Network or replace or deprovision the card. Los of Signal (LOS) Major Facility No signal at customer link.
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OCU-DP Card Line Rates/Line Lengths Line Rates/Line Lengths All lengths were measured to meet a BER of 10-7 with up to 45 dB of cable attenuation at the Nyquist frequency for 56, 64 and 72 Kbps, and 40 dB all other rates. Service Data Rate Primary Channel / Secondary Channel Max. Loop Distance (24 AWG) Primary Channel only/Primary & Secondary Channel 2.4 Kbps 2.4 Kbps/3.2 Kbps 13.8 miles/12.7 miles (22.3 km/20.4 km) 4.8 Kbps 4.8 Kbps/6.4 Kbps 11.0 miles/10.0 miles (17.7 km/16.1 km) 9.6 Kbps 9.
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OCU-DP Card Connector Pinouts Connector Pinouts The OCU-DP is part of the network, and connects to customer equipment.
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OCU-DP Card Connector Pinouts 25-Pair Telco Connector Pinout for the Single (noted by an *) or Quad OCU-DP card. Must setup jumpers on card to use this connector.
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OCU-DP Card Connector Pinouts 10-16 Compact T1 - Release 6.
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CHAPTER Power Supply In this Chapter n 115 VAC/-48 VDC Power Supply/ Charger n Ringer Waveform Options n Replacing a Power Supply
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Power Supply 115 VAC/-48 VDC Power Supply/Charger 115 VAC/-48 VDC Power Supply/Charger The 115 VAC/-48 VDC Power Supply and Charger enables the Compact T1 to be powered from either 115 VAC or -48 VDC sources, and includes an integral battery charger and ringing generator.
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Power Supply Technical Specifications Technical Specifications AC Electrical Input l 115 VAC (95 to 132 VAC, 57 to 63 Hz), 2.5 A rms, 130 W maximum l Maximum inrush current: 24 A peak at 132 VAC l Rear-panel mounted circuit breaker operates for overcurrent conditions greater than 4 A l Front-panel AC INPUT status LED DC Electrical Input l -48 DC (-40 to -60 V), 2.1 ADC, 90 W maximum l Maximum cold start inrush current: 30 A peak at -60 VDC l Solid-state input overcurrent protection trips at 2.
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Power Supply Technical Specifications Ringing Generators l Nominal 85 V rms (108 V rms max) l Referenced to -54 VDC (-60 VDC max) output l Supports three jumper-selectable ringer waveform shapes l Drives 25 REN indefinitely with minimum output voltage of 65 V rms at normal ringer cadence l Ringer frequency is selectable, 20 25 or 50 Hz ± 15% l Overload protected Regulatory Approvals USA l UL60950 l FCC Part 15, Class A l NEBS Level 3 certified for type 2 and 4 equipment GR-1089-CORE, GR-63-CORE Canada l
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Power Supply Input Power Interface Connectors l IEC-320, 15 A 3-prong AC power receptacle l Rear PCB connector: Compact T1 backplane Physical l Dimensions: 3.5 in. (H) x 2 in. (W) x 12 in. (D) l Weight: 8.9 cm (H) x 5.1 cm (W) x 30.5 cm (D) 115 VAC - 1 lb. 6 oz. (0.62 kg) 24 VDC - 1 lb. 9 oz. (0.71 kg) For information on Compact T1 Environment required, see Installation Environment, on page 2-2.
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Power Supply 115 VAC LEDs 115 VAC LEDs The power supply card has two LEDs, as described in the table below. 11-6 LED State Description AC Input Off AC input missing or failure Green AC input present Battery Off Battery input not used Green Battery charging or operating from DC source only. Yellow Battery discharging Red Battery low (less than 42V), ringer disabled Compact T1 - Release 6.
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Power Supply Ringer Waveform Options Ringer Waveform Options The default standard ringer waveform setting (for all three power supplies) will work well in most applications. However, if there is a ringer detection problem with the equipment, the user can alter the shape of the waveform by populating the jumpers on the power supply as described below. The Ringer Frequency can be configured using jumpers, as displayed below. J8 J7 J5 J6 Compact T1 - Release 6.
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Power Supply Ringer Waveform Options Standard Waveform The standard waveform (default) should work well for most applications. Ringer Frequency: 20 Hz Ringer Frequency: 25 Hz Ringer Frequency: 50 Hz 11-8 Compact T1 - Release 6.
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Power Supply Ringer Waveform Options Square Waveform Ringer Frequency: 20 Hz Ringer Frequency: 25 Hz Ringer Frequency: 50 Hz Compact T1 - Release 6.
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Power Supply Ringer Waveform Options Long Rise Time or Rounded Waveform Ringer Frequency: 20 Hz Ringer Frequency: 25 Hz Ringer Frequency: 50 Hz 11-10 Compact T1 - Release 6.
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Power Supply Replacing a Power Supply Replacing a Power Supply Nut and lock washer Faceplate Power Cord Connector Back Front 1. Disconnect power cord from the unit. 2. Remove nut and lock washer from power supply retention stud located directly above power cord socket. 3. Remove power supply by grasping faceplate at top and bottom and pulling power supply straight out of the case. 4.
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Power Supply Replacing a Power Supply 11-12 Compact T1 - Release 6.
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CHAPTER Quad T1 Card In this Chapter n Overview n Features n Technical Specifications n Card Configuration - CLI Commands n Jumper Settings n Connector Pinouts - 25-pin Telco Connector RJ-48 Connector n LEDs n Configuration Restrictions
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Quad T1 Card Overview Overview The Quad T1 Service card enables service providers and enterprise network managers to cost-effectively provision and expand network bandwidth or drop-side T1 bandwidth. The Quad T1 card can be inserted into any slot of the six-slot chassis and supports an array of network access technologies, including full drop-and-insert functionality, fractional and full T1 data and voice trunking.
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Quad T1 Card Features Features l Integrates T1 CSU functionality with FCC registration for direct connection to l l l l l l T1 lines Supports B8ZS or AMI encoding and SF (D4) or ESF framing Flexible system clock timing may be derived from any T1 Insert up to four Quad T1 Service cards plus the Controller’s two T1s in a single Compact T1 for a total of 18 T1s/CSUs per chassis Supplies up to 36 T1s in two Compact T1 occupying just two rack units of equipment space (19-inch rack) Allows full non-blocking dig
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Quad T1 Card Technical Specifications T1 Interface l Line rate (transmitted): 1.544 Mbps ±50 bps l Selectable B8ZS or AMI encoding l SF (D4) or ESF framing l Integrated CSU l Line Build Out (DSX-1): 655 feet l Receive Sensitive (DS1): 0 to -22.5 dB l Jitter and wander ITU-T G.
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Quad T1 Card Technical Specifications Alarms l Support standard T1.403 alarms Testing and Diagnostics l T1.403 payload loopbacks (ESF only) l T1.403 remote and local line loopbacks (ESF and SF) l DS0 loopbacks l T1.231 Performance History (15 minute intervals, 24 hour totals) l T1.
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Quad T1 Card Card Configuration Card Configuration All options on the Quad T1 cards are set using the Command Line Interface (CLI). The default for the connectors are the RJ-48s on the front of the T1card, however by moving the jumpers to the backplane, the Telco connectors on the back of the unit are enabled. See Jumper Settings on page 12-7 for more information. CLI Commands The following commands are used to configure the Quad T1 card.
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Quad T1 Card Jumper Settings Jumper Settings The P2 and P3 Jumpers are defaulted to RJ-48, which are the set of pins nearest the connectors. In this position the T1 signals (TX and RX) are routed to the RJ-48 connectors on the face of the card, see RJ-48 Connector on page 12-10 for pinout information. To route the T1 signals to the 25-pin Telco connector at the rear of the unit, move all the jumpers to the "backplane" position (the two rightmost pins for each signal).
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Quad T1 Card Connector Pinouts Connector Pinouts 26 50 25-pin Telco Connector 1 25 The pinouts are as follows: Slot Port Pair Pin Location Function Color Code 1 and 4 1 1 26 1 Tip Receive from DS1 network Ring Receive from DS1 network White Blue 2 27 2 Tip Transmit to DS1 network Ring Transmit to DS1 network White Orange 3 28 3 Tip Receive from DS1 network Ring Receive from DS1 network White Green 4 29 4 Tip Transmit to DS1 network Ring Transmit to DS1 network White Brown 5 3
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Quad T1 Card Connector Pinouts Slot Port Pair Pin Location Function Color Code 2 and 5 2 11 36 11 Tip Receive from DS1 network Ring Receive from DS1 network Black Blue 12 37 12 Tip Transmit to DS1 network Ring Transmit to DS1 network Black Orange 13 38 13 Tip Receive from DS1 network Ring Receive from DS1 network Black Green 14 39 14 Tip Transmit to DS1 network Ring Transmit to DS1 network Black Brown 15 40 15 Tip Receive from DS1 network Ring Receive from DS1 network Black Slate
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Quad T1 Card Connector Pinouts RJ-48 Connector There are four RJ-48C (female) connectors on the front of the Quad T1 Card. 1 8 The pinouts are as follows: 12-10 Pin Name Description 1 Receive Ring Receive from DS1 network 2 Receive Tip Receive from DS1 network 3 n/c Not connected 4 Transmit Ring To DS1 network 5 Transmit Tip To DS1 network 6-7 n/c Not connected 8 Chassis Ground Compact T1 - Release 6.
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Quad T1 Card LEDs LEDs Each channel on the Quad T1 card has two LEDs. The description of the top LED is shown below, the bottom LED is not used with this application. Top LED (active) Bottom LED (not used) Compact T1 - Release 6.
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Quad T1 Card Configuration Restrictions Configuration Restrictions There are some configuration restrictions with the Quad T1 Service Card. If an Compact T1 contains three (3) Quad T1 cards: l remaining three (3) slots can be any combination of BRI, FXS, FXO or Router cards. l remaining three (3) slots can contain two (2) V.35 cards, with the remaining slot empty. If an Compact T1 contains four (4) Quad T1 cards: l remaining two (2) slots must be empty. 12-12 Compact T1 - Release 6.
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CHAPTER Router (IP) Card In this Chapter n Overview n Features n Technical Specifications n Card Configuration n Connector Pinouts n CLI Commands Ethernet LEDs
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Router (IP) Card Overview Overview The fast-changing world of IP services requires products with the capability to generate new value-added revenues. The IP Router Service card offers the performance and expandability of a dedicated router in a low-cost solution with simple integrated management through the Adit platform.
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Router (IP) Card Features Features l Supplies auto-sensing 10/100Base-TX Ethernet l Supports up to 6 router cards per Compact T1 - Multi-point networking with up to 24 WAN connections per router - Each WAN connection can be provisioned with multiple DS0s - Deliver more than two T1s bandwidth per Router card; up to 60 DS0s per Router card - Enables multiple T1 facilities to function as a single IP WAN interface using ML-PPP for bandwidth scalability beyond a single T1 l Ensures high performance and feature
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Router (IP) Card Technical Specifications Management l Menu-driven over RS-232 and CLI l Ping, SNMP, Telnet over IP l Ethernet management port l IP management connection via T1 FDL, Ethernet and DS0 bearer channel l Code download via TFTP l Configuration upload and download via TFTP WAN Interface l Any T1 interface on the Compact T1 platform l Up to 24 WAN interfaces per router l Up to 60 DS0s bandwidth per router l PPP, Frame Relay, PPP in Frame Relay, MLPPP and GRE tunneling LAN Interface l A single 10
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Router (IP) Card Technical Specifications Advanced Capabilities l DHCP server l Syslog l SNTP l Spanning Tree Protocol l Van Jacobson message header compression l Domain Name Server (DNS) proxy l IP fragmentation and reassembly support l Secondary IP Address Frame Relay l RFC 1490 encapsulation l ANSI T1.617 Annex D LMI l ITU Q.
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Router (IP) Card Technical Specifications MIBs l RFC 1212 (Concise MIB) l RFC 1213 (MIB II) l RFC 1643 (Ethernet) l RFC 2233 (Interface) l RFC 2011 (IP) l RFC 1471 (LCP/PPP) l RFC 1473 (IP/PPP) l RFC 2115 (Frame Relay) l RFC 1406 (DS1/E1) l RFC 1659 (RS-232) l Enterprise MIB Clocking l Loop-timed from any T1 or the internal system clock l Simple Network Time Protocol (SNTP) support for timing from a separate network Testing and Diagnostics l Ping l WAN Monitor Power l Less than 2 W 13-6 Compact T1 -
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Router (IP) Card Technical Specifications Regulatory Approvals USA l UL60950 l FCC Part 15, Class A l NEBS Level 3 certified for type 2 and 4 equipment GR-63-CORE, GR-1089-CORE Canada l CSA C22.2 No. 60950-00 l ICES-003, Class A Mexico l NOM 19, Safety of Data Processing Equipment Physical l Dimensions: 3.5 in. (H) x 0.75 in. (W) x 11.25 in. (D) 8.9 cm (H) x 1.9 cm (W) x 28.6 cm (D) l Weight: 5.2 oz. (0.
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Router (IP) Card Card Configuration Card Configuration The IP Router has the option of configuration through CLI or the Router menu-driven user interface, which is accessed through Telnet. The following CLI commands are all Router related. For information on the IP Router menu-driven user interface, see the IP Router User Manual. NOTE: The default IP address for the IP Router is 10.0.0.1. CLI Commands For detailed information on the following Router commands, see Chapter 5, CLI Commands.
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Router (IP) Card Card Configuration l l l l l l l l l l l l l add (router-wan) nat bypass Add subnets to the list of source addresses that will not be subject to NAT translation when passing through a NAT enabled WAN interface. add (router-wan) static Add static elements to the specified WAN interface (IP address, IP network, IPX network, MAC address and NAT address).
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Router (IP) Card Card Configuration l l l l l l l l l l l l l l 13-10 delete (router-wan) gre network Remove a "by network" GRE tunnel to a WAN. delete (router-wan) nat bypass Delete an IP subnet or host from the list of source addresses that will not be subject to NAT translation when passing through a NAT enabled WAN interface. delete (router-wan) static Remove a static element from the WAN interface (IP address, IP network, IP network, MAC address).
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Router (IP) Card Card Configuration l l l l l l l l l l l l l l l set (router) lmi Specify the Local Management Interface (LMI) protocol to use for the Router.
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Router (IP) Card Card Configuration l l l l l l l l l l l l l l l 13-12 set (router-lan) filter forward Set the forwarding mode for Layer 2 filters added to the specified LAN interface. set (router-lan) framing Set which ethernet frame types are supported on the Router LAN interface. set (router-lan) gateway Specify a default IP gateway for the specified LAN interface. set (router-lan) ip address Specify an IP address for the specified LAN interface.
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Router (IP) Card Card Configuration l l l l l l l l l l l l l l l set (router-wan) ip address Set the IP address for a WAN interface. set (router-wan) ipx Set the IPX traffic handling on the specified WAN interface. set (router-wan) nat Configure Network Address Translation (NAT) on a specified WAN interface. set (router-wan) other Set traffic handling of protocols other than IP or IPX on the specified WAN interface. set (router-wan) ppp Configure PPP on the specified Router card.
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Router (IP) Card Card Configuration l l l l l l l l l l l l l l 13-14 show (router) ppp Displays the current Local PPP (Point-to-Point Protocol) authentication and security settings for the router show (router) rip Displays the current RIP settings for the Router show (router) snmp Displays the current SNMP settings for the Router show (router) stp Displays the current Spanning Tree Protocol settings for the router show (router) syslog Displays the current Syslog setup for the router show (router) up
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Router (IP) Card Card Configuration l l l l l l l l l l l l l l status (router) channels Displays a condensed status report of all voice channel endpoints status (router) dns Displays the current state of the DNS resolver and entries in the DNS cache status (router) events Displays the current event log from the router status (router) ip address table Displays the current IP address table for the specified Router status (router) ip network table Displays the current table of learned IP Networks for the
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Router (IP) Card Connector Pinouts Connector Pinouts Ethernet The pinout for the RJ-48C (female) connector on the front of the card is as follows: 1 13-16 8 Pin Name Description 1 Receive + Receive from network 2 Receive - Receive from network 3 Transmit + Transmit to network 4 N/C Not connected 5 N/C Not connected 6 Transmit - Transmit to network 7 N/C Not connected 8 N/C Not connected Compact T1 - Release 6.
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Router (IP) Card LEDs LEDs The following chart describes each LED, and it’s state, of the Router card. LED State Description CRD Off Loss of power Green No current alarms Red Alarm state active.
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Router (IP) Card LEDs 13-18 Compact T1 - Release 6.
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CHAPTER Router (CMG) Card In this Chapter n Overview n Features n Technical Specifications n Card Configuration n CLI Commands Connector Pinout - Ethernet n Softswitch Interoperability Settings n LEDs
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Router (CMG) Card Overview Overview The Customer Media Gateway (CMG) Service card for the Compact T1 platform combines IP Router functionality with the ability to translate circuit-based voice services into packet-based voice services, or Voice over IP (VoIP). The CMG Service card provides a cost-effective migration path for both existing Compact T1 TDM-based deployments and greenfield VoIP applications.
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Router (CMG) Card Features Features l Provides up to 48 channels of uncompressed voice mediation (VoIP) or T1/DS0 l l l l l l l l l l l l channels Up to eight T1s of VoIP conversion per Compact T1 Supports voice/fax/modem calls, voice compression, silence suppression, comfort noise generation, and echo cancellation Utilizes standards-based softswitch call control: MGCP (IETF version 0.1, 1.0, 1.
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Router (CMG) Card Technical Specifications Technical Specifications Controller Software Required T1 Controller l Compact T1 release 4.0 or higher to support a CMG Service card l Compact T1 release 5.0 or higher and CMG release 1.
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Router (CMG) Card Technical Specifications Voice Processing and Mediation l Voice coding using G.711, G.726-16, G.726-24, G.726-24, G.726-32, G.726-40 l Capacity of 48 channels of PCM, 24 channels of compressed codecs l Concentration (over-subscription) of voice channels supported for compressed l l l l l l l codecs G.
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Router (CMG) Card Technical Specifications Router Performance l Up to 0.84 Mbps upstream full-duplex IP WAN traffic l Minimum of 3,000 64-byte packets per second per duplex direction l See IP Router Service card Technical Specifications on page 13-3 for additional information on routing features and specifications.
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Router (CMG) Card Technical Specifications Softswitch/Call Agent Interoperability l Interoperable with the leading softswitches l MGCP auditing - status and capabilities l Interoperability configuration options Network Standards l ANSI, CCITT, IEEE 802.3, IEEE 802.1q l IETF - RFC 2705, others per router card Power l Dissipation: approx.
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Router (CMG) Card Card Configuration Card Configuration The CMG Service card has the option of configuration through CLI or the Router menu-driven user interface, which is accessed through Telnet. The following CLI commands are all router related. For information on the Router menu-driven user interface, see the CMG Router User Manual. NOTE: The default IP address for the Adit CMG Router is 10.0.0.0. CLI Commands Many of the router features can be configured directly with CLI commands.
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Router (CMG) Card Card Configuration l l l l l l l l l l l l l l add (router) static dns host Add a static DNS host record add (router) uploaduser To specify a host that is allowed to upload configuration/software files add (router-lan) filter Add an address filter to the table of Layer 2 filter applied specified LAN interface add (router-lan) secondary ip address Add a secondary IP address and subnet to the specified LAN interface add (router-lan) static Add static elements on the specified LAN interf
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Router (CMG) Card Card Configuration l l l l l l l l l l l l l l 14-10 connect (card-trunk) (card-trunk) Configure card-to-card WAN cross-connects between two Router cards or between a Router card and a V.
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Router (CMG) Card Card Configuration l l l l l l l l l l l l l l l delete (router-wan) static Remove a static element from the WAN interface disconnect {slot:port:trunk} Removes a connection created by the connect {trunk-addr}{t1-addr} install (slot) router Will prepare the controller for the insertion of a new router card that will keep its currently loaded configuration load tftp Will download software via TFTP to the Controller or the Router card rename (router) (router-wan/lan) Change the name of a
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Router (CMG) Card Card Configuration l l l l l l l l l l l l l l 14-12 set (router) lmi Specify the Local Management Interface (LMI) protocol to use for the Router set (router) log Set password access on the Router card (access level, password) set (router) login auth Sets how login authentication for this router should be performed set (router) login prompt Enable/disable the suppression of the Router login prompt for a user that telnets in from the Controller CLI set (router) mgcp Set Media Gateway
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Router (CMG) Card Card Configuration l l l l l l l l l l l l l l l l set (router) stp Configure the Spanning Tree Protocol on the router set (router) syslog Configure the Router to send alarm and event messages to a Syslog server set (router) voip Set the Voice Over IP (VoIP) parameters set (router-lan) collision Configure collision alarms set (router-lan) filter forward Specify the forwarding mode for Layer 2 filters on the LAN interface set (router-lan) framing Specify which ethernet frame types are supp
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Router (CMG) Card Card Configuration l l l l l l l l l l l l l l l l 14-14 set (router-trunk) voice bandwidth limit Set percentage of bandwidth on the trunk that is reserved for routed or bridged data set (router-voice) algorithm preference Specify the list of voice coding algorithms to be supported for VoIP calls set (router-voice) cpd Configure how calling party disconnect should be signaled to an endpoint set (router-voice) default Specify the list of voice coding algorithms to be supported for VoIP c
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Router (CMG) Card Card Configuration l l l l l l l l l l l l l l l set (router-wan) dlci Configure the DLCI for a specified WAN interface that will be using a frame relay encapsulated trunk set (router-wan) gre Configure the GRE tunneling for a specified WAN interface set (router-wan) ip Set the IP traffic handling on the WAN interface set (router-wan) ip address Set the IP address for a WAN interface set (router-wan) ipx Set the IPX traffic handling on the specified WAN interface set (router-wan) nat C
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Router (CMG) Card Card Configuration l l l l l l l l l l l l l l l 14-16 show (router) dns proxy Displays the current DNS Proxy setup for the router card show (router) lmi Displays the current Local Management Interface (LMI) settings show (router) log Displays the logging configuration of the CMG router card show (router) mgcp Displays the setting for MGCP options show (router) mgcp algorithmname Displays the designations for coding algorithms show (router) ntp Displays the settings for NTP options sho
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Router (CMG) Card Card Configuration l l l l l l l l l l l l l show (router-lan) filter Displays the current LAN Layer 2 data filters applied to the LAN on the router show (router-lan) static Displays the current list of static entries for the LAN on the router show (router-lan) stp Displays the current Spanning Tree Protocol settings for the LAN interface show (router-voice) Displays the CMG voice line provisioning show (router-wan) Displays the current configuration settings for the specified WAN i
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Router (CMG) Card Card Configuration l l l l l l l l l l l l l l 14-18 show (router-wan) stp Displays the current Spanning Tree Protocol settings for the specified WAN interface show (router-wan) trunk Displays the current trunk assignment for the specified WAN interface show (wan) Displays the current WAN settings for the Router status (router) Displays the current Router status information status (router) alarms Displays the current alarm log from the router status (router) channels Displays a conden
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Router (CMG) Card Card Configuration l l l l l l l l status (router) mgcp Displays the current table of counts of all MGCP sent and received return codes, internal errors and other statistics status (router) performance Displays the current runtime statistics from the specified router status (router) stp Displays the current Spanning Tree state from the specified router status (router-lan) Displays the current Router status information status (router-trunk) Displays the current status information for th
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Router (CMG) Card Connector Pinout Connector Pinout Ethernet The pinout for the RJ-48C (female) connector on the front of the card is as follows: 1 14-20 8 Pin Name Description 1 Receive + Receive from network 2 Receive - Receive from network 3 Transmit + Transmit to network 4 N/C Not connected 5 N/C Not connected 6 Transmit - Transmit to network 7 N/C Not connected 8 N/C Not connected Compact T1 - Release 6.
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Router (CMG) Card Softswitch Interoperability Settings Softswitch Interoperability Settings BroadSoft™ To configure interoperability with the BroadSoft BroadWorks™ Service Delivery Platform, the following equipment is required: l Compact T1, Version 4.0 l CMG Router, Version 1.0 l BroadSoft BroadWorks Version 6.01.119 (for MGCP 1.0) Note: a Device_Inventory Patch must be obtained from BroadSoft to enable the correct setup with an Compact T1.
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Router (CMG) Card Softswitch Interoperability Settings Compact T1 Settings Interoperability Settings on the Adit should be as follows: Note: Piggybacking and Quarantine are the only two fields that are not set to defaults. > show 4 mgcp SLOT 4: MGCP Settings for CMG: Activation, Addressing, and Transactions: (set to the IP Address or MGCP State: Down the Domain Name of Call Agent IP Address: 0.0.0.
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Router (CMG) Card LEDs LEDs The following chart describes each LED, and it’s state, of the Router card. LED State Description CRD Off Loss of power Green No current alarms Red Alarm state active.
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Router (CMG) Card LEDs 14-24 Compact T1 - Release 6.
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CHAPTER V.35/V.54 Cards In this Chapter n Overview - V.35 Service Card V.35/54 Service Card n Features n Technical Specifications n Card Configuration - CLI Commands LEDs n Cables n Connector Pinouts - V.
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V.35/V.54 Cards Overview Overview V.35 Service Card The V.35 Service card enables service providers and enterprise network managers to provision connectivity to high-speed serial synchronous Data Terminal Equipment (DTE) devices such as routers, Frame Relay Access Devices (FRAD) and video conferencing equipment. The V.35 Service card provides scalable high-speed data service capacity to grow with user needs. Up to six V.
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V.35/V.54 Cards Features Features l Provides any n x 56/64 Kbps data rate up to 1.536 Mbps on each port l Supports full non-blocking cross-connection of all timeslots to any T1 access line l Enables up to 12 V.35 ports may be equipped in a single Compact T1 l Allows a total of 24 V.
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V.35/V.54 Cards Technical Specifications Network Interface l T1 TDM Clocking l Looped-timed from any T1 or ISDN BRI card installed l Sources clock to the DTE device Testing and Diagnostics (V.35/54 card) l Addressable V.
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V.35/V.54 Cards Technical Specifications Physical l Dimensions: 3.5 in. (H) x 0.75 in. (W) x 11.25 in. (D) 8.9 cm (H) x 1.9 cm (W) x 28.6 cm (D) l Weight: 4.6 oz. (0.13 kg) For information on Compact T1 Environment required, see Installation Environment on page 2-2. Accessories Sub-miniature DB-26 to Winchester adapter cables are required to interface DTE with the Dual V.35 card. Gender refers to the Winchester connector. One cable per port. l P/N 005-0008 V.35 Male 10 Ft. (3.
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V.35/V.54 Cards Card Configuration Card Configuration The V.35 Service cards can be configured, using the Command Line Interface (CLI). CLI Commands The following commands are used to configure the V.35 Service cards. For detailed information on these commands, see Chapter 5, CLI Commands. l l l l l l l l 15-6 connect Creates two-way connections between channels. disconnect Removes a connection created by the connect command. set (v35) Setup of channels of a V.
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V.35/V.54 Cards LEDs LEDs Each V.35 port has its own LED, as shown in the table below. State Description Off No T1 Assignment Green Normal (CD/RTS) Active Red CD inactive (T1-side failure) Yellow RTS inactive (equipment-side failure) Flashing Yellow Loopback toward T1 or equipment loop test Flashing Green Loopback toward equipment or network loop test Compact T1 - Release 6.
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V.35/V.54 Cards Cables Cables Depending on your application, you will need to purchase one or more of the available V.35 data cables: Part Number Description Notes 005-0014 V.35 Female 10-foot cable 005-0068 V.35 Female 25-foot cable These cables are used to provide the V.35 DCE interface on a male connector to typical DTE applications. Order one cable per V.35 port. 005-0069 V.35 Female 50-foot cable 005-0010 V.35 Male 50-foot cable 005-0009 V.35 Male 25-foot cable 005-0008 V.
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V.35/V.54 Cards Connector Pinouts Connector Pinouts V.35 DCE (DB-26) The V.35 DCE data port connection is made at the sub-miniature DB-26 connector on the Compact T1 using the 10-foot, 25-foot, or 50 foot DTE V.35 cable equipped with a sub-miniature DB-26 connector and a 34-pin Winchester connector. This cable is used to connect the Compact T1 V.35 DCE data ports to synchronous V.35 DTE data sources up to 1.536 Mbps, all rates (1-24) Nx56 or Nx64 channel-rate progression. The V.
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V.35/V.54 Cards Connector Pinouts Sub-miniature DB-26 15-10 Signal Winchester 34-pin (female) 10  Xmit Clock A → Y 23  Xmit Clock B → AA 15  Receive Clock A → V 17  Receive Clock B → X 22 ← Local Loopback  J 25 ← Remote Loopback  BB 9, 13, 18 Open Pins/No Contact 19, 21, 26 Open Pins/No Contact Paired Signals ] ] ] L, N, NN Compact T1 - Release 6.
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CHAPTER Maintenance In this Chapter n Software Upgrade n Minimum Version Levels Determining Boot Code Software Level Upgrading System and Router Software via TFTP Upgrading System and Router Software via TFTP using Proxy Upgrading Software Levels via X-Modem Backup Controller Configuration - Save Controller Configuration Load Controller Configuration n Replace Controller Card n Hot Swap Service Card
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Maintenance Software Upgrade Software Upgrade Minimum Version Levels Before starting a software upgrade, you must ensure that the Commpact T1 unit has the correct software and hardware versions. The first set of instructions below show how to determine the boot software version level in the unit. This is the simplest way to confirm these versions. Determining Boot Code Software Level 1. Start a CLI session on the Commpact T1 using a terminal emulation program or via Telnet. 2.
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Maintenance Software Upgrade Upgrading System and Router Software via TFTP 1. Login to the Commpact T1, using a terminal emulation program or via Telnet. 2. Enter: load [slot] tftp {ip-addr} "file-name" where [slot] = the slot number of a router card. If no slot number is listed, the file is loaded to the Controller. {ip-addr} = the IP address of the host device holding the downloadable software "file-name" = the software file name, including path, if needed. Enclosed in quotes.
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Maintenance Software Upgrade Upgrading System and Router Software via TFTP using Proxy Required: - Router Service card (IP or CMG) release 1.32 or higher - Controller software 3.2 or higher - Ethernet cable connected to port on front of Router card 1.
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Maintenance Software Upgrade 3. After download, the program will be loaded from RAM into the flash memory and the system will automatically restart. Wait until the boot menu prompt is displayed before powering down the unit. If the download fails and no prompt is seen after a full minute, cycle power and repeat the process. 4. Re-establish communication with the CLI using a terminal emulation program or Telnet. Check all configurations and system operation. Compact T1 - Release 6.
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Maintenance Software Upgrade Upgrading Software Levels via X-Modem 1. Login to the Compact T1. 2. Enter: load xmodem to download the application from the binary file. This will start the system looking for an xmodem download. The Commpact T1 will prompt you to send the file.
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Maintenance Backup Controller Configuration Backup Controller Configuration A text file from the current configuration can be generated to reload the in the event the configuration has been lost due to card or software problems. The download of the file, generated by the print config command, can be done by direct connect to the RS-232 port or via Telnet. The upload of the file from the PC back to theController can only be done via direct RS-232 connection.
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Maintenance Backup Controller Configuration Load Controller Configuration 1. Open HyperTerm session with the Commpact T1 unit. 2. In HyperTerm, select File/Properties/Settings/ASCII Setup. 3. Set the Line delay to 300 ms and the Character delay to 5 ms. 4. Select OK to save ASCII Setup and OK to save HyperTerm Properties. 5. Select Transfer/Send Text File. 6. Select .txt file from previous steps. 7. Click Open. 8. Configuration will load. 16-8 Compact T1 - Release 6.
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Maintenance Replace Controller Card Replace Controller Card WARNING! SERVICE WILL BE INTERRUPTED WITH THE PROCESS OF CHANGING OUT A CONTROLLER CARD. It is not necessary to power down a unit to replace a Controller, however if you would like to load the configuration file to the new Controller card you must backup the configuration file before this process. 1. Backup Controller Configuration, see Save Controller Configuration on page 16-7. 2.
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Maintenance Hot Swap Service Card 16-10 Compact T1 - Release 6.
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APPENDIX SNMP Interface In this Appendix n Overview n SNMP Basics n Enterprise MIB Support n Router Enterprise MIB Support n Public MIB Support n Router Public MIB Support n SNMP Trap Reports
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SNMP Interface Overview Overview The Simple Network Management Protocol (SNMP) enables network operations centers (NOCs) to monitor and manage network elements across an internetwork. The Commpact T1 supports SNMP through its Ethernet port, which provides access to the carrier’s TCP/IP management network. SNMP Basics SNMP is a mechanism for managing TCP/IP networks. It works by exchanging information between an SNMP Manager and an SNMP Agent.
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SNMP Interface Enterprise MIB Support Enterprise MIB Support This release is with full SNMPv1 and SNMPv2c support. Enterprise MIBs are defined using only SMIv2 (as noted in the table). Enterprise MIB Name Enterprise MIB Filename CARRIERACCESS-GENERIC- MIB carrieraccess-generic.mib CARRIERACCESS-TC-MIB carrieraccess-tc.mib CAGEN-GENERIC-MIB cagen-generic.mib CAGEN-SLOT-MIB cagen-slot.mib CAGEN-SYSTEM-MIB cagen-system.mib ADIT600-SYSTEM-MIB adit600-system.mib CAGEN-ALARM-MIB cagen-alarm.
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SNMP Interface Router Enterprise MIB Support CAGEN-NTP-MIB cagen-ntp.mib CAGEN-SYSLOG-MIB cagen-syslog.mib ADIT600-TDM-CMG-MIB adit600-tdm-cmg.mib CAGEN-CMG-MIB cagen-cmg.mib ADIT600-TDM-DEPRECIATED-OIDS-MIB adit600-tdm-depreciated-oids.mib SNMPV2-CONF-MIB snmpv2-conf.mib SNMPV2-SMI-MIB snmpv2-smi.mib SNMPV2-TC-MIB snmpv2-tc.mib Router Enterprise MIB Support Enterprise MIB Name Enterprise MIB Filename Router Specific A-4 CAGENROUTER-MIB caGenRouter.
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SNMP Interface Router Enterprise MIB Support CMG Specific ADIT-CMG-MIB adit-cmg.mib ADITCMG-CARD-MIB adit-cmg-card.mib ADITGENCMG-ALGO-MIB aditGenCmg-algo.mib ADITGENCMG-MGCP-MIB aditGenCmg-mgcp.mib ADITGENCMGCARD-TC-MIB aditGenCmg-tc.mib ADITGENCMG-TRUNK-MIB aditGenCmg-trunk.mib ADITGENCMG-VCHAN-MIB aditGenCmg-vchan.mib ADITGENCMG-VOIP-MIB aditGenCmg-voip.mib Common with Controller CARRIERACCESS-GENERIC-MIB carrieraccess-generic.mib CARRIERACCESS-TC-MIB carrieraccess-tc.
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SNMP Interface Public MIB Support Public MIB Support MIB Table Comments RFC1155 (RFC-1155-SMI-MIB) RFC1212 (RFC-1212-MIB) RFC1213 (RFC-1213-MIB) system interfaces ip icmp tcp udp snmp egp not supported RFC1215 (RFC-1215-MIB) RFC1215-TRAP (RFC-1215-TRAP-MIB) A-6 RFC1659 (RFC1659-MIB) rs232PortTable rs232SyncPortTable rs232InSigTable rs232OutSigTable Supports V.
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SNMP Interface Router Public MIB Support RFC2495 (DS1-MIB) dsx1ConfigTable dsx1CurrentTable dsx1IntervalTable dsx1TotalTable Far End Tables and Fractional Table not supported RFC2571 (SNMPFRAMEWORK-MIB) SNMP TC Defines textual conventions1 no objects Router Public MIB Support MIB Table Comments RFC1213 (RFC-1213-MIB) system interfaces ip icmp tcp udp snmp system snmp ip icmp egp not supported RFC1907 (SNMPv2-MIB) RFC2011 (IP-MIB) RFC2233 (IF-MIB) ifTable RFC3291(RFC-3291-MIB) IANAifType-MIB
PAGE 526
SNMP Interface SNMP Trap Reports SNMP Trap Reports The Commpact T1 can send the following SNMP trap reports. Standard Traps A-8 Trap Description Test Method authenticationFailure Occurs when a bad community string is used. Attempt a Get or Set using an invalid community string. linkDown Sent when a DS1 changes from an up (inservice) state to a down (out-of-service) state. It is not sent when a DS1 is set “down” by a manual command.
PAGE 527
SNMP Interface SNMP Trap Reports Enterprise Traps Trap Description caGenEventLogTrap This trap is generated when an event has been logged into the device’s Event Log. This trap contains 5 mandatory variable bindings and may contain up to 3 optional variable bindings. The mandatory variable bindings are caGenEventLogIndex, caGenEventSeverity, caGenEventCategory, caGenEventCode, and caGenEventDate. The optional variable bindings are caGenEventInfoParam1, caGenEventInfoParam2 and caGenEventAdditionalText.
PAGE 528
SNMP Interface SNMP Trap Reports A-10 Compact T1 - Release 6.
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APPENDIX Diagnostices & Troubleshooting In this Appendix n Alarms n Logs n Status and Performance n Loopbacks Overview n DS1 Loopbacks V.35 Loopbacks V.35/V.54 Loop V.
PAGE 530
Diagnostices & Troubleshooting Alarms Alarms Test Alarm The Commpact T1 alarm functions can be manually tested using the following command for setting critical, major and minor alarms. Turning alarms on or off will produce alarm messages and log entries stating the alarm event was manually set/ cleared by the user.
PAGE 531
Diagnostices & Troubleshooting Alarms The following are hyperlinks to all the card LED information: T1 Controller Card, LEDs FXO Voice Card, LEDs FXS Voice Card, LEDs ISDN BRI Card, LEDs OCU-DP Card, LEDs Single Channel POTS Card, LEDs Router (IP) Card, LEDs Router (CMG) Card, LEDs Terminal Server Router Card, LEDs V.35/V.54 Cards, LEDs Power Supply, 115 VAC LEDs Compact T1 - Release 6.
PAGE 532
Diagnostices & Troubleshooting Alarms Display Alarms Use the alarms command to display the active alarms. Each alarm is related to a particular address and has a severity category (major, minor, critical, alert). The report can be filtered by port address and/or severity.
PAGE 533
Diagnostices & Troubleshooting Logs Logs Display the event log to view a log of all system events, or narrow the view to only display specific information.
PAGE 534
Diagnostices & Troubleshooting Status and Performance Status and Performance The following status commands will display vital infomation regarding the system that will aid in troubleshooting. All commands listed below are hyperlinked to the CLI command.
PAGE 535
Diagnostices & Troubleshooting Loopbacks Overview Loopbacks Overview A loopback test is a diagnostic procedure in which a signal is transmitted and returned to the sending device after passing through all or a portion of a network or circuit. The returned signal is compared with the transmitted signal in order to evaluate the integrity of the equipment or transmission path. The following are the Loopbacks available. T1 Loopbacks Card Controller T1 Quad T1 V.35 T1 V.
PAGE 536
Diagnostices & Troubleshooting Loopbacks Overview DS1 Loopbacks Note: T1 LEDs flash green during any DS1 loopback. DS1 Line Loop Loops at DS1 (at framer), signal not reframed. Have DS1 vendor check for framing/errors. Local DTE Local DCE V.
PAGE 537
Diagnostices & Troubleshooting Loopbacks Overview DS1 Payload Loop Loops at DS1 (in framer) and reframes the T1. Have DS1 vendor check for framing/errors. Local DTE Local DCE V.
PAGE 538
Diagnostices & Troubleshooting Loopbacks Overview Receiving DS1 CSU Loop Causes a line Loopback. Loopup code sent by remote unit or network. Occurs at local DS1 CSU. Have DS1 vendor check for framing/errors. Local DTE Local DCE T1 V.35 CSU Loopup Code FXS DS1 Network Adit 600 Compact T1 Loopup Code Sent by Remote Unit Signal Not Reframed Telephone Enable Detection of CSU Loopcode Enable detection of CSU loop code (10000 for loopup; 100 for loopdown).
PAGE 539
Diagnostices & Troubleshooting Loopbacks Overview Performance Threshold Settings unavailable seconds: severely errored seconds: errored seconds: sev. errored frame seconds: line errored seconds: controlled slip seconds: bursty errored seconds: degraded minutes: total linecode violations: total pathcode violations: > status a:1 SLOT A: Status for DS1 Receive: Transmit: Loopback: Compact T1 - Release 6.1 15 min.
PAGE 540
Diagnostices & Troubleshooting Loopbacks Overview DS1 Equipment Loop Note: Quad T1 LED stays green during equipment loop. The DS1 Equipment Loopback is available on the Quad T1 card and is not available on the Controller card. PBX T1 Quad T1 DS1 Network FXS Adit 600T1 Compact Loops at local Quad T1 port (location) Telephone Enable Equipment Loopback Where a Quad T1 card is in slot 5.
PAGE 541
Diagnostices & Troubleshooting Loopbacks Overview unavailable seconds: severely errored seconds: errored seconds: sev.
PAGE 542
Diagnostices & Troubleshooting Loopbacks Overview V.35 Loopbacks Local DTE Local DCE V.35 T1 T1 Remote DCE V.35 Remote DTE Network Equipment Loopback Compact Adit 600T1 Network Network Unit Unit Adit 600T1 Compact Line Equipment Equipment Loopback Unit Unit V.54 Loopback V.35 Line Loop Note: V.35 LED flashes green during line loop. Loop occurs at V.35 port. Check for sync and errors at local data port. Local DTE Local DCE V.35 T1 DS1 Network FXS Adit 600 Compact T1 Loop occurs at V.
PAGE 543
Diagnostices & Troubleshooting Loopbacks Overview View Status of Loopback > show 6:1 SLOT 6: Settings for V35 Port 1: CTS: Timing: Rx Clock Inversion: Tx Clock Inversion: Data Inversion: Data Speed: Data Rate: Loopback: Always High Source Normal Normal Normal 64K 1536 K Line Disable Line Loopback > set 6:1 line loopdown OK View Status of Loopback > show 6:1 SLOT 6: Settings for V35 Port 1: CTS: Timing: Rx Clock Inversion: Tx Clock Inversion: Data Inversion: Data Speed: Data Rate: Loopback: Compact T1 -
PAGE 544
Diagnostices & Troubleshooting Loopbacks Overview V.35 Equipment Loop Note: V.35 LED flashes yellow during equipment loop. Loops at local V.35 port. Check for sync and errors at remote data port, with or without BERT. Local DTE Local DCE V.35 T1 DS1 Network FXS Adit 600 Compact T1 Loops at local V.35 port (location) Telephone Enable Equipment Loopback Where a V.35 card is in slot 6.
PAGE 545
Diagnostices & Troubleshooting Loopbacks Overview Disable Equipment Loopback > set 6:1 equipment loopdown OK View Status of Loopback > show 6:1 SLOT 6: Settings for V35 Port 1: CTS: Timing: Rx Clock Inversion: Tx Clock Inversion: Data Inversion: Data Speed: Data Rate: Loopback: Compact T1 - Release 6.
PAGE 546
Diagnostices & Troubleshooting Loopbacks Overview V.35/V.54 Loop V.35/V.54 Service Card Description The V.35 Card with V.54 Loop Test provides the capability for the V.35 card to detect network loop back initiation signals and provide a network loop back for loop testing. Each channel of the V.35 will continuously monitor the incoming data bit stream for a particular loop pattern. On detection of the pattern the channel will acknowledge the loop test request and put the channel into loop back.
PAGE 547
Diagnostices & Troubleshooting Loopbacks Overview V.54 Loop Note: Local LED flashes yellow, remote LED flashes green. Transmit V.54 Loopup Local DTE Local DCE V.35 T1 Remote DCE V.35 T1 Remote DTE Network Adit 600 T1 Compact Network Network Unit Unit Adit 600 T1 Compact Equipment Equipment Unit Unit Local unit send V.54 loop up code, loop occurs at remote data port Receive V.54 Loopup Local DTE Local DCE V.35 T1 T1 Remote DCE V.35 Remote DTE Network Remote unit or network sends V.
PAGE 548
Diagnostices & Troubleshooting Loopbacks Overview View Status of Loopback > show 6:1 SLOT 6: Settings for V35 Port 1: CTS: Timing: Rx Clock Inversion: Tx Clock Inversion: Data Inversion: Data Speed: Data Rate: V.54 Rx LB: V.54 Rx Addr: V.54 Test Addr: V.54 Tx Prep count: V.54 Rx Prep count: V.54 Test Pattern: V.54 Ignore ACK: Loopback: B-20 Always High Source Normal Normal Normal 64K 768 K enabled 255 255 15 15 QRSS OFF None Compact T1 - Release 6.
PAGE 549
Diagnostices & Troubleshooting Loopbacks Overview V.54 Equipment Loopback Enable V.54 Equipment Loopup Where a V.35/V.54 card is in slot 6. > set 6:1 v54 equipment loopup OK View Status of Loopback > show 6:1 SLOT 6: Settings for V35 Port 1: CTS: Timing: Rx Clock Inversion: Tx Clock Inversion: Data Inversion: Data Speed: Data Rate: V.54 Rx LB: V.54 Rx Addr: V.54 Test Addr: V.54 Tx Prep count: V.54 Rx Prep count: V.54 Test Pattern: V.
PAGE 550
Diagnostices & Troubleshooting Loopbacks Overview > status 6:1 SLOT 6: Status for V35 PORT 1: DCD: High CTS: High DSR: High RTS: High DTR: High BERT: RUNNING BITS: 8386950 ERRS: 0 BER: 0.00000000 Disable V.54 Equipment Loopup > set 6:1 v54 equipment loopdown OK View Status of Loopback > status 6:1 SLOT 6: Status for V35 PORT 1: DCD: High CTS: High DSR: High RTS: High DTR: High BERT: Complete BITS: 109030350 ERRS: 0 BER: 0.00000000 BERT DATE: 1/5/2001 01:39:18 B-22 Compact T1 - Release 6.
PAGE 551
Diagnostices & Troubleshooting Loopbacks Overview OCU-DP Loopbacks These loopbacks may be activated by the network or manually (CLI). These loopbacks are OCU, CSU, and DSU. The Network may activate each loopback by sending latching or non-latching code sequences. The OCU-DP card may be configured to allow detection of each sequence for each loopback.
PAGE 552
Diagnostices & Troubleshooting Loopbacks Overview Non-Latching Loopdetect Enable OCU-DP Non-Latching Loopdetect Where a OCU-DP card is in slot 3.
PAGE 553
Diagnostices & Troubleshooting Loopbacks Overview CSU Manual Loopback DTE DCE DSU/CSU Remote DCE Local DCE T1 DCE DSU/CSU DTE T1 Network Adit 600 T1 Compact CSU Loop Equipment Equipment Unit Unit Adit 600 T1 Compact Network Network Unit Unit Enable CSU Manual Loopback Where a OCU-DP card is in slot 3.
PAGE 554
Diagnostices & Troubleshooting Loopbacks Overview Manual OCU Loopback DTE DCE DSU/CSU Local DCE Remote DCE T1 DCE DSU/CSU DTE T1 Network Compact T1 Adit 600 T1 Compact Equipment Equipment OCU Loop Unit Unit Adit 600 T1 Compact Network Network Unit Unit Enable Manual OCU Loopback Where a OCU-DP card is in slot 3.
PAGE 555
Diagnostices & Troubleshooting Router Diagnostics and Performance Tools Router Diagnostics and Performance Tools The Verification, Statistics and System Reports features are instrumental in diagnosing and troubleshooting the Router card. Compact T1 - Release 6.
PAGE 556
Diagnostices & Troubleshooting Router Diagnostics and Performance Tools Verification The Verification section may be used to identify suspected communication problems between the local and remote devices. Verification options are: LAN Port Tests Verifies the ability of the local unit to commicate by pinging remote or local devices. See LAN Port Tests in the Router Manual for more information on this feature.
PAGE 557
Diagnostices & Troubleshooting Router Diagnostics and Performance Tools System Reports The System Reports menu presents data that may be useful in identifying WAN communication problems. Events The Events listing offers on-going historical activity for the Router, while the Alarm listing indicates events that suggest further investigation. See Events in the Router Manual for more information regarding this feature. Alarms This screen provides a listing of any Alarms that have occurred on the Router.
PAGE 558
Diagnostices & Troubleshooting Router Diagnostics and Performance Tools B-30 Compact T1 - Release 6.
PAGE 559
GLOSSARY Glossary AMI Automatic Mark Inversion ARP Address Resolution Protocol ATM Asynchronous Transfer Mode B8ZS Bipolar with 8 Zero Substitution BER Bit Error Rate BERT Bit Error Rate Tester BES Burst Errored Seconds BIT Binary Digit bps Bits Per Second BPV Bipolar Violation BRI Basic Rate Interface CAS Channel Associated Signaling CCS Common Channel Signaling
PAGE 560
Glossary CHAP CHAP Challenge Handshake Authentication Protocol CIDR Classless Inter-Domain Routing CLASS Custom Local Area Signaling Service CLEI Common Language Equipment Identification CLI Command Line Interface CMG Customer Media Gateway CNG Also called Auto Fax Tone or Calling Tone CO Central Office CPE Customer Provided Equipment CRC Cyclic Redundancy Check CRV Call Reference Value CSU Channel Service Unit D4 The fourth generation channel bank dB decibel DCS Digital Signal
PAGE 561
Glossary DS0 DS0 Digital Signal Level Zero (64 kbps) (1 voice channel) DS1 Digital Signal Level 1 (1.
PAGE 562
Glossary LMI LMI Local Management Interface LS Loop Star LULT Line Unit Line Termination LUNT Line Unit Network Termination Mbps Million Bits Per Second MGCP Media Gateway Control Protocol MLPPP Multilink PPP MUX Multiplexer MVEC Majority Vote Error Correction NAT Network Address Translation NCS Network-based Call Signaling NEBS Network Equipment Building Standards NTP Network Time Protocol OCU-DP Office Channel Unit - Data Port PAP Password Authentication Protocol PHY Physica
PAGE 563
Glossary RADIUS RADIUS Remote Authentication Dial-In Service. RIP Routing Information Protocol. RTCP Real-Time Control Protocol. RTPSAP Service Access Point. SDP Session Description Protocol. SNMP Simple Network Management Protocol. STP Spanning Tree Protocol. T1 Trunk Level 1. TACACS+ Terminal Access Controller Access Control System. TDM Time Division Multiplex. TFTP Trivial File Transfer Protocol. TOS Type of Service VC MUX Virtual Channel Multiplexer VOIP Voice over IP.
PAGE 564
Glossary 100Base-TX 100Base-TX Also called "Fast Ethernet," it is a 100 Mbps version of Ethernet. 100Base-T transmits at 100 Mbps rather than 10 Mbps. Like regular Ethernet, Fast Ethernet is a shared media LAN. All nodes share the 100 Mbps bandwidth. 100Base-TX uses two pairs of Category 5 cabling, one pair for transmission, one pair for receiving. analog The telephone transmission of voice, video or image. Telephone transmission and/or switching that is not digital.
PAGE 565
Glossary Channel Service Unit Channel Service Unit The interface to the T1 line that terminates the local loop. Classless InterDomain Routing CIDR is a new addressing scheme for the Internet which allows for more efficient allocation of IP addresses than the old Class A, B, and C address scheme. collision In Ethernet, the result of two nodes transmitting simultaneously. The frames from each device impact and are damaged when they meet on the physical media.
PAGE 566
Glossary firewall firewall Any of a number of security schemes that prevent unauthorized users from gaining access to a computer network and/or may monitor the transfer of information to and from the network. frame A fragment of data that is packaged into a frame format, which comprises a header, payload, and trailer. Foreign Exchange A Central Office trunk which has access to a distant central office.
PAGE 567
Glossary ground ground A physical connection to the earth or other reference point. ground start A method of signaling on subscriber trunks in which one side of the two wire trunk (typically the ring conductor of Tip and Ring) is momentarily grounded to get dial tone Hops Each individual short trip that packets make from router to router, as they are routed to their destination. impedance The total opposition a circuit offers to the flow of alternating current.
PAGE 568
Glossary MAC Address MAC Address The address for a device as it is identified at the Media Access Control layer in the network architecture mapping In network operations, the logical association of one set of values, such as addresses on one network, with quantities or values of another set, such as devices on another network. Media Gateway Control Protocol MGCP.
PAGE 569
Glossary PHY PHY PHY as in physical specifications. OSI Physical Layer, which provides for transmission of cells over a physical medium connecting two ATM devices. ping Packet InterNet Grouper. PING is a program used to test whether a particular network destination on the Internet is online (i.e. working) by repeatedly bouncing a "signal" off a specified address and seeing how long that signal takes to complete the round trip. No return signal - site is down or unreachable.
PAGE 570
Glossary RIP RIP Routing Information Protocol. RIP is based on distance vector algorithms that measure the shortest path between two points on a network, based on the addresses of the originating and destination devices. The shortest path is determined by the number of "hops" between those points.
PAGE 571
Glossary telnet telnet An Internet standard protocol that enables a computer to function as a terminal working from a remote computer TDM Time Division Multiplex. A technique for transmitting a number of separate data, voice and/or video signals simultaneously over one communications medium by quickly interleaving a piece of each signal one after another. TFTP Trivial File Transfer Protocol. ticks The distance between two networks, measured in time increments.
PAGE 572
Glossary VC Glossary-14 Compact T1 - Release 6.
PAGE 573
INDEX Numerics Index 10Base-T . . . . . . . . . . . . . . . . . . 3-4, Glossary-5 115 VAC/-48 VDC Power Supply/Charger . 11-2 25-pair telco connector pinout . . . . . . . . . . . . 3-9 26-pin micro-SCSI V.35 card . . . . . . . . . . . . . . . . . . . . . . . . . 15-9 V.35/V.54 cards . . . . . . . . . . . . . . . 15-8, 15-9 3-DSO BRITE mode . . . . . . . . . . . . . . . . . . . 9-2 A aco (alarm Cut Off) command . . . . . . . . . . . . 5-5 add (router) dns proxy command . . . . . . . . . . . . . . .
PAGE 574
Index C C cabling . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2, 3-3 Call Detail Recording . . . . . . . . . . . . . . . . . 5-94 Channel Associated Signaling . . . . . . . . . . . 5-37 FXO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-9 FXS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-10 CHAP . . . . . . . . . . . . . . . . . . . . . . . . Glossary-2 Chassis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10 chassis dimensions . . . . . . . . . . . . .
PAGE 575
Index C static ip address . . . . . . . . . . . . . . . . 5-47 static ip network . . . . . . . . . . . . . . . 5-48 static ipx network . . . . . . . . . . . . . . 5-49 static mac address . . . . . . . . . . . . . . 5-50 (router-wan) firewall . . . . . . . . . . . . . . . . . . . . . . 5-50 gre network . . . . . . . . . . . . . . . . . . . 5-51 nat bypass . . . . . . . . . . . . . . . . . . . . 5-52 static ip address . . . . . . . . . . . . . . . . 5-53 static ip network . . . . . . . . . . . . . . .
PAGE 576
Index C callagent secondary address . . . callagent secondary port . . . . . . default . . . . . . . . . . . . . . . . . . . dialstring format . . . . . . . . . . . . down . . . . . . . . . . . . . . . . . . . . . gatewayid . . . . . . . . . . . . . . . . . keepalive . . . . . . . . . . . . . . . . . package default . . . . . . . . . . . . parsemode . . . . . . . . . . . . . . . . piggyback . . . . . . . . . . . . . . . . . port . . . . . . . . . . . . . . . . . . . . . . protocolidt . . . . . . . . . . . .
PAGE 577
Index C ipx network . . . . . . . . . . . . . . . . . . 5-159 phy . . . . . . . . . . . . . . . . . . . . . . . . . 5-160 rip . . . . . . . . . . . . . . . . . . . . . . . . . 5-161 ip . . . . . . . . . . . . . . . . . . . . . . . . 5-161 ipx . . . . . . . . . . . . . . . . . . . . . . . 5-162 stp . . . . . . . . . . . . . . . . . . . . . . . . . 5-163 enable/disable . . . . . . . . . . . . . . 5-163 port cost . . . . . . . . . . . . . . . . . . . 5-164 port priority . . . . . . . . . . . . . . . .
PAGE 578
Index C radius retries . . . . . . . . . . . . . . . . . . . . 5-91 radius server address . . . . . . . . . . . . . . 5-92 radius server secret . . . . . . . . . . . . . . . 5-92 radius timeout . . . . . . . . . . . . . . . . . . . 5-93 screen . . . . . . . . . . . . . . . . . . . . . . . . 5-196 snmp . . . . . . . . . . . . . . . . . . . . . . . . . 5-197 syslog . . . . . . . . . . . . . . . . . . . . . . . . 5-198 disable . . . . . . . . . . . . . . . . . . . . . . 5-198 enable . . . . . . . . . . . . . .
PAGE 579
Index D syslog . . . . . . . . . . . . . . . . . . . . . . . . . 5-248 time . . . . . . . . . . . . . . . . . . . . . . . . . . 5-249 users . . . . . . . . . . . . . . . . . . . . . . . . . . 5-249 status . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-253 (bri) . . . . . . . . . . . . . . . . . . . . . . . . . . 5-254 (ds0) . . . . . . . . . . . . . . . . . . . . . . . . . . 5-256 (ds1) . . . . . . . . . . . . . . . . . . . . . . . . . . 5-257 (fxo) . . . . . . . . . . . . . . . . . . . . . . . . .
PAGE 580
Index E delete (router) dns proxy command . . . . . . . . . . . . . . 5-42 remote command . . . . . . . . . . . . . . . . 5-42 snmp community command . . . . . . . . 5-43 snmp trap command . . . . . . . . . . . . . . 5-43 static dns host command . . . . . . . . . . . 5-44 uploaduser command . . . . . . . . . . . . . 5-44 (router-lan) filter command . . . . . . . . . . . . . . . . . . 5-45 secondary ip address command . . . . . 5-46 static ip address command . . . . . . . . . 5-47 static ip network command .
PAGE 581
Index G FX . . . . . . . . . . . . . . . . . . . . . . . . . . . .Glossary-3 FXO . . . . . . . . . . . . . . . . . . . . . . . . . .Glossary-3 FXO Voice card . . . . . . . . . . . . . . . . . . . . . . . 7-1 card configuration . . . . . . . . . . . . . . . . . . . 7-6 Channel Associated Signaling . . . . . . . . . . 7-9 CLI commands . . . . . . . . . . . . . . . . . . . . . . 7-6 DIP switch settings . . . . . . . . . . . . . . . . . . 7-7 features . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PAGE 582
Index M Equipment Loop . . . . . . . . . . . . . . . . . B-12 Line Loop . . . . . . . . . . . . . . . . . . . . . . . B-8 Payload Loop . . . . . . . . . . . . . . . . . . . . B-9 Enable CSU Manual Loopback . .B-25, B-26 Enable Manual OCU Loopback . . . . . . . B-26 Receiving DS1 CSU Loop . . . . . . . . . . . B-10 V.35 Equipment Loop . . . . . . . . . . . . . . . B-16 V.35 Line Loop . . . . . . . . . . . . . . . . . . . . B-14 V.35/V.54 Loop . . . . . . . . . . . . . . . . . . .
PAGE 583
Index Q technical specifications . . . . . . . . . . . . 11-3 removal . . . . . . . . . . . . . . . . . . . . . . . . . 11-11 ringer waveform options . . . . . . . . . . . . . 11-7 print config command . . . . . . . . . . . . . . . . . . . 5-63 help command . . . . . . . . . . . . . . . . . . . . . 5-64 Protocol . . . . . . . . . . . . . . . . . . . . . .Glossary-11 Public MIB Support . . . . . . . . . . . . . . . . . . . A-6 PVC . . . . . . . . . . . . . . .Glossary-4, Glossary-11 Q Quad T1 card . . . . .
PAGE 584
Index S secondary command . . . . . . . . . . . . . . 5-89 selftest command . . . . . . . . . . . . . . . . 5-90 up/down command . . . . . . . . . . . . . . . 5-90 (router) autologout command . . . . . . . . . . . . . 5-93 default command . . . . . . . . . . . . . . . . 5-95 dhcp disable command . . . . . . . . . . . . . . 5-96 relay server command . . . . . . . . . . 5-96 server dnsserver command . . . . . . . 5-97 server domain command . . . . . . . . 5-97 server duration command . . . . . . . .
PAGE 585
Index S reboot command . . . . . . . . . . . . . . . . 5-136 rip command . . . . . . . . . . . . . . . . . . . 5-136 snmp . . . . . . . . . . . . . . . . . . . . . . . . . 5-137 contact command . . . . . . . . . . . . . 5-137 location command . . . . . . . . . . . . . 5-137 name command . . . . . . . . . . . . . . . 5-138 stp . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-139 bridge forwarddelay command . . . 5-139 bridge hellotime command . . . . . . 5-139 bridge maxage command . . . . . . .
PAGE 586
Index S compander command . . . . . . . . . . . . . 5-94 dlci command . . . . . . . . . . . . . . . . . . 5-182 ip address command . . . . . . . . . . . . . 5-185 ip command . . . . . . . . . . . . . . . . . . . 5-185 ipx command . . . . . . . . . . . . . . . . . . 5-186 name - see rename command . . . . . . . 5-64 nat address command . . . . . . . . . . . . . 5-187 command . . . . . . . . . . . . . . . . . . . 5-187 enable/disable command . . . . . . . 5-188 ports command . . . . . . . . . . . . . . .
PAGE 587
Index S (ds0) command . . . . . . . . . . . . . . . . . . . 5-210 (ds1) command . . . . . . . . . . . . . . . . . . . 5-211 (fxo) command . . . . . . . . . . . . . . . . . . . . 5-212 (fxs5G) command . . . . . . . . . . . . . . . . . 5-213 (ocudp) command . . . . . . . . . . . . . . . . . 5-217 (router) . . . . . . . . . . . . . . . . . . . . . . . . . . 5-218 dhcp command . . . . . . . . . . . . . . . . . 5-220 dns command . . . . . . . . . . . . . . . . . . . 5-220 dns proxy command . . . . . . . . . . .
PAGE 588
Index T (fxs5G) command . . . . . . . . . . . . . . . . . 5-261 (ocudp) . . . . . . . . . . . . . . . . . . . . . . . . . 5-262 performance command . . . . . . . . . . . 5-263 performance history command . . . . . 5-264 (router) . . . . . . . . . . . . . . . . . . . . . . . . . 5-265 alarms command . . . . . . . . . . . . . . . . 5-265 channels command . . . . . . . . . . . . . . 5-266 dns command . . . . . . . . . . . . . . . . . . 5-267 events command . . . . . . . . . . . . . . . .
PAGE 589
Index W card configuration . . . . . . . . . . . . . . . . . . 15-6 CLI commands . . . . . . . . . . . . . . . . . . . . . 15-6 connector pinouts . . . . . . . . . . . . . . . . . . . 15-9 connectors . . . . . . . . . . . . . . . . . . . . . . . . 15-9 features . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-3 LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-7 overview . . . . . . . . . . . . . . . . . . . . . . . . . 15-2 pinouts . . . . . . . . . . . . . . . . . . . . . . . . . . .
PAGE 590
Index W Index - 18 Compact T1 - Release 6.
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