Cisco 1751 Installation guide

Cisco 1751 Voice-over-IP Quick Start Guide

The Cisco 1751 Voice over IP Quick Start Guide explains how to install WAN Interface Cards and Voice

Interface Cards, how to run configuration tools, and how to perform essential Voice-over-IP (VoIP) configuration tasks.

This document contains the following sections:

•

•

•

•

Audience, page 1

Conventions, page 2

Installing WAN and Voice Interface Cards, page 2

Security Device Manager, page 9

•

•

•

•

•

•

Configuring Voice-over-IP, page 10

List of Terms, page 30

Obtaining Documentation, page 31

Documentation Feedback, page 32

Obtaining Technical Assistance, page 32

Obtaining Additional Publications and Information, page 33

Audience

This guide is intended primarily for users who configure and maintain routers, but are not necessarily familiar with tasks, the relationship between tasks, or the commands necessary to perform particular tasks to configure VoIP. We assume that you are familiar with Cisco IOS software, IP and telephony networks, and PBX operation for E&M installations.

List of Terms provides definitions for many of the technical terms used in this document.

Corporate Headquarters:

Cisco Systems, Inc., 170 West Tasman Drive, San Jose, CA 95134-1706 USA

Copyright © 2003 Cisco Systems, Inc. All rights reserved.

Conventions

Conventions

This document uses the following conventions:

• Commands and keywords are in boldface.

•

•

•

•

•

Optional keywords or arguments are in square brackets.

Variables for which you supply values are in italic.

Titles of publications and new words or concepts are in italic.

Information the router displays on the console screen is in screen font

.

Information that you enter at the CLI is in boldface screen font .

Installing WAN and Voice Interface Cards

The Cisco 1751 router supports two slots that can be used to install either WAN Interface Cards (WICS) or Voice Interface Cards (VICS), and one slot that can be used to install only a VIC.

If You Are Installing Voice Interface Cards

The router supports one to three Cisco voice interface cards (VICs). Each VIC provides two ports. You need one VIC port for each voice connection.

Note To transmit voice calls over an IP WAN, you need (in addition to the VICs) at least one WAN interface card (WIC) in the router to provide the connection to the WAN.

There are four types of VIC interfaces, as shown in

Figure 3

:

•

•

FXS (foreign exchange station) interface connects directly to a standard telephone, fax machine, or similar device. The FXS VIC interface supplies ringing voltage, dial tone, and similar signals to the station. Ports on this VIC are color-coded gray.

FXO (foreign exchange office) interface connects local calls to a PSTN central office or to a PBX that does not support E&M signaling. This is the interface a standard telephone provides. Ports on this VIC are color-coded pink.

•

•

E&M is a signaling technique for two-wire and four-wire telephone and trunk interfaces. The E&M

VIC connects remote calls from an IP network to a PBX for local distribution. Ports on this VIC are color-coded brown.

The ISDN BRI NT/TE voice interface card provides a client-side (TE) ISDN S/T physical interface for connection to an NT1 terminating an ISDN telephone network and can also be configured to provide a network termination (NT) interface with phantom power. Each of its two ports can carry two voice calls (one over each ISDN B channel), for a total of four calls per ISDN BRI card. At present, the ISDN BRI VIC does not support ISDN devices such as digital telephone, fax, or modem.

Figure 1 shows a typical VIC.

2


78-11259-04


Figure 1 Voice Interface Card

VIC ports

VIC

E&M

1

SEE MANUAL BEFORE INSTALLATION

0

You should install and cable VICs before performing the software configuration tasks explained later in this guide.

Warning Be sure to observe all warnings and safety precautions in the installation guide.

Caution VICs do not support online insertion and removal (hot swap). To avoid equipment damage, turn off electrical power and disconnect network cables before you insert a VIC in the router.

WIC and VIC Installation Procedure

Follow these steps, and refer to

Figure 2 to insert a WIC or a VIC in the router:

Step 1

Step 2

Step 3

Step 4

Step 5

Step 6

Make sure the router is turned off and is disconnected from the power supply.

Loosen the thumbscrews on the WIC or VIC slot cover on the rear panel.

You should be able to loosen the screws using your fingers; however, if the screws are very tight, you might need to use a Phillips screwdriver.

Remove the metal plate that covers the card slot.

Hold the card by the edges on either side of the card front panel, and line up the card edges with the guides inside the card slot, as shown in

Figure 2 .

Insert the card in the slot and gently push it into the router until the front panel of the card is flush with the rear panel of the router.

Tighten the screws.

78-11259-04


3


Figure 2 Inserting a WIC or VIC in the Router

VIC

2FXS

1

SEE MANUAL BEFORE INSTALLATION

0

SLO

T 1 OK

SLO

T 0 OK

Guides

Model Cisco 1750

SLO

T 1

SLO

T 2

CONSOLE

VIC

2FXO

SLO

T 0

1


FDX

100

LINK

10/100 ETHERNET

0

AUX

PVDM OK

MOD OK

SLO

T 2 OK

THIS SLO

ACCEPTS

ONLY V

T

INTERF OICE

CARDS ACE

+5, +12, -12

VDC

Interface card

If you need more detailed installation instructions, refer to the Cisco WAN Interface Cards Hardware

Installation Guide.

Connecting the FXS, FXO, and E&M VICs to the Network

If you installed FXS, FXO, or E&M VICs, use the following cables, and refer to

Figure 3

to connect them to the network:

• Standard RJ-11 modular telephone cable to connect FXS VIC ports (color-coded gray) to a telephone or fax machine.

•

•

Standard RJ-11 modular telephone cable to connect FXO VIC ports (color-coded pink) to the PSTN, or to a PBX that does not support E&M signaling, through a telephone wall outlet.

Standard RJ-48S connector and cable to connect E&M VIC ports (color-coded brown) to a PBX line.

The cable wiring depends on the type of connection. For details, refer to the Cisco WAN Interface

Cards Hardware Installation Guide.

4


78-11259-04


Figure 3

FXS VIC

Connecting VICs to the Network

VIC

FXS

1


0

FXO VIC

VIC

FXO

1


0

E&M VIC

VIC

E&M

1


0

PBX

When you are finished, reinstall any network interface cables you removed and turn on power to the router.

Connector Pinouts for FXS, FXO, and E&M VICs

Figure 4

shows the wiring patterns for FXS and FXO VIC connectors, and

Table 1

lists the FXS and FXO pinouts.

Note Pins that are not used should not be connected.

Figure 4

1

RJ-11 Wiring for FXS and FXO Connectors

6

78-11259-04

Table 1 FXS and FXO Pinouts

4

5

6

2

3

Pin Signal

1 –

–

Ring

Tip

–

–


5


Figure 5 shows the wiring pattern for an E&M connector, and Table 2 lists the E&M pinouts.

Note The E&M VIC pinout depends on the PBX type and connection. Pins that are not used should not be connected.

Figure 5

1

RJ-48S Wiring for E&M Connectors

8

Table 2 E&M Pinouts

6

7

8

2

3

Pin Signal Description

1 SB –48V signaling battery

4

5

M-lead

R

Signaling input

Ring, audio input

R or R1 Ring, audio input/output, or output

T or T1 Tip, audio input/output, or output

T

E-lead

SG

Tip, audio input

Signaling output

Signaling ground return

Checking FXS VIC Installation

If you installed an FXS VIC, connect a handset to the VIC port. When router power is on, you should be able to hear the dial tone when you lift the handset. The dial tone should stop after you dial a digit. If you have trouble, use the show voice port command to make sure that the VIC is installed correctly, or try connecting a different handset to the VIC.

2-Port ISDN BRI Card

The ISDN BRI NT/TE voice interface card provides a client-side (TE) ISDN S/T physical interface for connection to an NT1 terminating an ISDN telephone network. It can also be configured to provide a network termination (NT) interface with phantom power. Each of its two ports can carry two voice calls

(one over each ISDN B channel), for a total of four calls per ISDN BRI card.

6


78-11259-04


The card is illustrated in

Figure 6

.

Figure 6 2-Port ISDN BRI Card Front Panel

RJ-45 ports

VIC

2B-NT/TE

ISDN BRI S/T 1

B1

B2

OK

ISDN BRI S/T 0

SEE

MANUAL

BEFORE

INSTALLATION

Connecting the 2-Port ISDN BRI Card

Use the straight-through RJ-45 cable to connect the 2-port ISDN BRI card to the ISDN network through a telephone wall outlet.

Caution To prevent damage to the router, be sure to connect the BRI cable to the BRI connector only and not to any other RJ-45 connector.

Step 1

Step 2

Confirm that the router is still turned off.

Connect one end of a straight-through RJ-45-to-RJ-45 cable to the card’s RJ-45 port. (See

Figure 7 .)

Figure 7 Connecting the 2-Port ISDN BRI Card

RJ-45 ports

VIC

2B-S/T TE

ISDN BRI S/T 1

B1

B2

OK

ISDN BRI S/T 0

SEE

MANUAL

BEFORE

INTALLATION

Straight-through

RJ-45-to-RJ-45 cable

78-11259-04

S/T port

NT1 device


7


Note When the interface is configured as NT and is connecting to a TE device, the cable must have the transmit and receive pins swapped (crossover cable). (See

Table 3

.)

Table 3

ISDN BRI NT/TE

Pin 3/T+

Pin 4/R+

Pin 5/R-

Pin 6/T-

Interface Pin Numbers and Functions

NT Interface (use straight-through cable)

Pin 3/R+

Pin 4/R+

Pin 5/T-

Pin 6/R-

TE Interface (use crossover cable)

Pin 3/T+

Pin 4/R+

Pin 5/R-

Pin 6/T-

Step 3 Connect the other end to the RJ-45 wall outlet.

ISDN BRI Card LEDs

ISDN BRI voice interface cards have three LEDs, as listed in

Table 4 .

Table 4

LED

B1

B2

OK

ISDN BRI Voice Interface Card LEDs

Meaning

Call active on B1 channel

Call active on B2 channel

Interface is connected to an

ISDN network

If you have additional cards to install, proceed to the appropriate sections in this manual. When you have finished all installations, see the Cisco 1751 Router Software Configuration Guide available on the

Documentation CD-ROM.

Determining Voice Port Numbering

Enter the show voice port command to identify the port numbers of voice interfaces installed in your router:

Router# show voice port slot-number/port

Figure 8 on page 9

shows Cisco 1751 router slot numbering.

8


78-11259-04

Security Device Manager

Figure 8 Cisco 1751 Router Slot Numbering

Kensington-compatible locking socket

WIC/VIC slot 1 Console port

VIC

2FXS

1


0

VIC slot 2

Model Cisco 1751

SLOT 1 SLOT 2

VIC

2FXO

CONSOLE

SLOT 0

1


0

Power switch

THIS SLOT

ACCEPTS

ONLY VOICE

INTERFACE

CARDS

SLOT 1 OK SLOT 0 OK FDX 100 LINK

10/100 ETHERNET AUX

Slot 1

OK LED

Slot 0

OK LED

WIC/VIC slot 0

10/100-Mbps

Ethernet port

FDX/100/LINK LEDs

Auxiliary port

Ground wire

PVDM

OK LED

Slot 2

OK LED

MOD

OK LED

Power socket

Figure 9 shows the VIC port numbering.

Figure 9 VIC Port Numbering

VIC port 1 VIC port 0

PVDM OK MOD OK SLOT 2 OK

+5, +12, -12 VDC

VIC

E&M

1


0

Example

If you install a VIC in both SLOT 0 and SLOT 1 of the router, the ports in each of these slots would be numbered as follows:

SLOT 0—0/0 and 0/1

SLOT 1—1/0 and 1/1

Security Device Manager

SDM is a web-based configuration tool that allows you to configure LAN and WAN interfaces, routing, Network Address Translation (NAT), firewalls, VPNs, and other features on your router.

If SDM is installed on your router, refer to the Cisco Security Device Manager (SDM) Quick Start

Guide for information about starting SDM and using it to configure your router.

78-11259-04


9

Configuring Voice-over-IP


Voice-over-IP (VoIP) enables a Cisco 1751 router to carry voice traffic (for example, telephone calls and faxes) over an IP network, simultaneously with data traffic. (See

Figure 10

.) This guide describes the configuration tools and the major configuration tasks to configure the router.

Figure 10 Voice and Data Traffic on an IP Network

IP cloud

Configuration Tools

You can configure VoIP by using one of the following tools:

•

•

Cisco ConfigMaker application

Cisco IOS command-line interface (CLI)

Cisco ConfigMaker Application

Use the Cisco ConfigMaker application to address and configure one or more devices or to create an entire network. A series of wizards and dialog boxes can make your voice-configuration task simple and fast.

Follow these steps to install the Cisco ConfigMaker application on your PC:

Step 1

Step 2

Step 3

Step 4

Step 5

Disable any virus-scanning software you have running.

Close all programs active on your PC.

Insert the CD into your CD-ROM drive.

The Cisco ConfigMaker installer starts automatically.

If the installer does not start after a few seconds, select Start>Run, and enter d:\setup where d is your

CD-ROM drive.

Follow the instructions on the screen to install the Cisco ConfigMaker application.

To learn about the Cisco ConfigMaker application, view the online movie, or use Cisco ConfigMaker

Help Topics from the help menu.

You need administrative privileges to install the Cisco ConfigMaker application on Windows NT.

10


78-11259-04


Cisco IOS Command-Line Interface

To configure your router from the command-line interface (CLI), refer to this guide, the Cisco 1700

Series Software Configuration Guide, or the Cisco 1751 Router Software Configuration Guide available on the Documentation CD-ROM.

Major Voice over IP Configuration Tasks

Follow these major steps to configure Voice over IP (VoIP) on your router:

Step 1

Step 2

Step 3

Step 4

Step 5

Step 6

Configure your IP network to support real-time voice traffic. Before you move to the next step, ping the remote router to make sure you have an IP connection.

Configure your router to support voice ports. Follow these steps for your specific requirements:

• Foreign exchange station (FXS) and foreign exchange office (FXO) voice ports

The default voice-port values are usually adequate for both FXS and FXO voice ports. However, if you need to change the default values, refer to the Cisco 1751 Router Software Configuration Guide.

•

•

E&M voice port

The default values for an E&M voice port are not sufficient to enable voice and data transmission over the IP network. E&M values must match those of the connected PBX device. Refer to the

“Connecting the FXS, FXO, and E&M VICs to the Network” section on page 4 .

ISDN BRI port

The default values for a basic rate interface (BRI) port are not sufficient to enable voice and data transmission over the IP network. BRI values must match those of the connected PBX device. Refer to the

“Connecting the FXS, FXO, and E&M VICs to the Network” section on page 4 .

Enter configuration mode to configure your router for VoIP traffic. Refer to the

“Configuring

Voice-over-IP” section on page 10 .

Save the configuration. Refer to the

“Saving the Configuration” section on page 13 .

Establish a dial plan to determine how the call can be routed. Use the dial-peer voice command to define dial peers and to implement the dial plan. Refer to the

“Dial Plan” section on page 14 .

Fine-tune your network to adequately support VoIP by configuring a series of protocols and features for quality of service (QoS). Refer to the

“Tuning Parameters for Real-Time Voice Traffic” section on page 25 .

Information for International Users

International users must set the values of certain voice-port commands, like cptone, that are specific to their country. Refer to the Cisco 1751 Router Software Configuration Guide for details.

78-11259-04


11


Entering Configuration Mode

You can configure your router for VoIP by entering commands at the CLI. This method of entering commands is called configuration mode.

Note VoIP requires one of the following IOS Release 11.3(1)T (or later) feature sets: IP Plus, Desktop Plus, or Enterprise Plus.

Follow these steps to enter configuration mode:

Step 1

Step 2

Step 3

Connect a terminal or PC to the router.

To configure the router with a PC, the PC must have some type of terminal emulation software installed.

The software should be configured with the following parameters: 9600 baud, 8 data bits, no parity, 1 stop bit.

Power up the router.

If the current configuration is no longer valid (for instance, because you added an interface), after about

1 minute you will see the following prompt:

Would you like to enter the initial configuration dialog? [yes]:

Do not use the yes default. You need to enter no to enter the normal operating mode of the router.

Note If the current configuration is valid, you enter the normal operating mode automatically.

Step 4

Step 5

Step 6

At the user EXEC prompt ( Router> ), enter enable and the password to enter enable mode:

Router> enable

Password:

Configuration changes can be made only in enable mode. The prompt changes to the privileged EXEC

(enable) prompt (

Router#

):

Router#

Enter the following command to enter global configuration mode:

Router# config terminal

Router(config)#

If you have not configured the router before or want to change the configuration, you need to configure global parameters, passwords, network management, and routing protocols. In this example, IP routing,

AppleTalk routing, and IPX routing are all enabled:

Router(config)# ip routing

Router(config)# appletalk routing

Router(config)# ipx routing

For complete information about the global configuration commands and about configuring LAN and

WAN interfaces on your router, refer to the Cisco IOS configuration guides and command references.

The rest of this guide explains how to configure your router for VoIP traffic.

12


78-11259-04


Note Voice configuration uses a number of Cisco IOS commands. For complete information about these commands, refer to the Cisco 1751 Router Software Configuration Guide. You can also enter a question mark after a command or partial command at the Router(config)# prompt to get syntax and argument help.

Note At any point, you can see the operating configuration, including changes you just made, by entering the

show running-config command. To enter this command, you have to exit from configuration mode by pressing Ctrl-Z or entering the end global configuration command.

Saving the Configuration

You must save the new configuration to nonvolatile RAM (NVRAM) periodically during the configuration process and also when you finish configuring the router.

Cisco IOS software uses two configuration files—startup config and running config. The startup-config file is a backup file that has all the information you specified about the router interfaces and is used by the router on the next restart. The running-config file has the current operating configuration with the changes you have just made. You can make any changes to the running-config file; however, these changes will be lost when the router powers down. To make these changes permanent, copy the running-config file to the startup-config file stored in NVRAM.

Follow these steps for each router to write the new configuration to NVRAM:

Step 1

Step 2

Step 3

Step 4

Exit configuration mode, and return to the enable prompt by pressing Ctrl-Z or entering the end global configuration command.

To see the startup configuration stored in NVRAM, enter the following command at the enable prompt:

Router# show startup-config

To see the operating configuration, including any changes you have just made, enter the following command:

Router# show running-config

To write your changes to NVRAM and make them permanent, enter the following command:

Router# copy running-config startup-config

Building configuration. . .

[OK]

Router#

The router is now configured to boot in the new configuration.

78-11259-04


13


Dial Plan

Use a dial plan to map the destination telephone numbers with the voice ports on the router. In North

America, the North American Numbering Plan (NANP) is used, which consists of an area code, an office code, and a station code. Area codes are assigned geographically, office codes are assigned to specific switches, and station codes identify a specific port on that switch. The format in North America is

1Nxx-Nxx-xxxx, with N = digits 2 through 9 and x = digits 0 through 9. Internationally, each country is assigned a one- to three-digit country code; the country’s dialing plan follows the country code.

In corporate environments, VoIP can be configured to recognize extension numbers and expand them into their full E.164 dialed number by using two commands in tandem: destination-pattern and

num-exp. Before you configure these two commands, map individual telephone extensions with their full E.164 dialed numbers. This can be done easily by creating a number expansion table.

For Cisco voice implementations, two types of dial peers are used to match a dialed number to either a local telephony port or a remote IP address:

• POTS dial peer associates a physical voice port with a local telephone device, and the key commands you need to configure are the port and destination-pattern commands as shown in the following example:

West(config)# dial-peer voice 401 pots

West(config-dial-peer)# destination-pattern 14085553737

West(config-dial-peer)# port 0/0

•

The destination-pattern command defines the telephone number associated with the POTS dial peer. The port command associates the POTS dial peer with a specific logical dial interface, normally the voice port connecting your router to the local POTS network.

VoIP dial peer associates a telephone number with an IP address, and the key commands you need to configure are the destination-pattern and session target commands as shown in the following example:

West(config)# dial-peer voice 501 voip

West(config-dial-peer)# destination-pattern 1919555....

West(config-dial-peer)# session target ipv4:192.168.11.3

The destination-pattern command defines the telephone number associated with the VoIP dial peer.

The session target command specifies a destination IP address for the VoIP dial peer.

Use the dial-peer voice command to define dial peers and change to dial peer configuration mode. To see an example, refer to the individual sections on configuring FXS, FXO, and E&M interfaces later in this guide.

Wildcards and Number Expansion

Office PBXs are configured so that a user can dial a local call (within the same PBX) by dialing the extension only—for instance, the four-digit extension 3737 or the five-digit extension 53737 instead of the full telephone number, 1 408 555-3737.

You can provide the same shortcut on a VoIP network by using the number-expansion (num-exp) command.

East(config)# num-exp 5.... 1408555....

This command tells the router to expand a particular sequence of dialed numbers into a complete telephone number (destination pattern) as shown in

Table 5 .

14


78-11259-04


Table 5 Sample Number Expansion Table

Extension

3737

....

5....

Destination

Pattern Num-Exp Command Entry Description

14085553737 num-exp 3737 14085553737 To expand 3737 to 14085553737

1408555....

num-exp .... 1408555....

1408555....

num-exp 5.... 1408555....

To expand any dialed sequence of four digits (represented by four periods) by prefixing

1408555 to it

To expand a five-digit extension beginning with the numeral 5 by prefixing 140855 to it

You can use a period (.) as a wildcard character representing a single digit in a telephone number.

You can use the show num-exp command to verify the number expansion information.

East# show num-exp

[dialed-number]

After you have configured dial peers and assigned destination patterns to them, you can use the show

dialplan number command to see how a telephone number maps to a dial peer.

East# show dialplan number [dialed-number]

Note You must still configure each telephone number in full on a local dial peer so that the router can find the voice port it belongs to.

Configuring FXS Interfaces

This section explains how to configure ports on FXS VICs that connect directly to a standard telephone, fax machine, or similar device.

Figure 11

shows a basic voice network. A small business uses a Cisco 1751 router (named West) to provide telephone and fax connections among employees in its office. Two of these telephones are connected to an FXS VIC port in the West router.

Figure 11 Basic Voice Network (West Router)

408 555-3737

408 555-4141

FXS VIC

0/0

West

FXS VIC

0/1

IP cloud

78-11259-04


15


Note You can name your router by using the global configuration hostname command.

Table 6

lists telephone numbers and voice ports for the West router. (For information about port numbering, refer to the section on

“Determining Voice Port Numbering” earlier in this guide.)

Table 6 West Router Telephone Numbers and Voice Ports

Telephone Number

408 555-3737

408 555-4141

Voice Port

0/0

0/1

Note If your router is configured with three VICs, a total of six telephones and fax machines can be connected to it. As the router has only three slots, you need to replace one VIC with a WIC to provide an interface for IP connectivity to the WAN and for data traffic. To accommodate more than six voice devices, you need to add more routers or use an E&M VIC and a local PBX, rather than connecting every telephone to its own FXS VIC.

Local Dial Peers

To route a received voice call to the right destination, the router needs to know which telephone number belongs to each voice port. For instance, if a call comes in for 408 555-3737, the router needs to know that this telephone is connected to voice port 0/0 (as shown in

Figure 11 .) In other words, the router

needs to know the information in

Table 6 .

To hold this information, Cisco IOS software uses objects called dial peers. A telephone number, a voice port, and other call parameters are tied together by associating them all with the same dial peer.

Configuring dial peers is similar to configuring static IP routes—you are telling the router what path to follow to route the call. All voice technologies use dial peers to define the characteristics associated with a call leg. A call leg is a segment of a call path, for instance, between a telephone and a router, a router and a network, a router and a PBX, or a router and the PSTN. Each call leg corresponds to a dial peer.

Dial peers are identified by numbers, but they are usually referred to as tags to avoid confusion with telephone numbers. Dial-peer tags are arbitrary integers that can range from 1 to 2

31

–1(2147483647).

Within the allowed range, you can choose any dial-peer tag that is convenient or makes sense to you.

Dial peers on the same router must have unique tags, but you can reuse the tags on other routers.

Table 7

assigns a dial-peer tag to each telephone number and its associated voice port on the West router.

This type of dial peer is called a POTS dial peer or a local dial peer. The term “POTS” (plain old telephone service) means that the dial peer associates a physical voice port with a local telephone device.

Table 7 West Router Local Dial Peers

Telephone Number Voice Port

408 555-3737 0/0

408 555-4141 0/1

Dial-Peer Tag

401

402

You should construct a table similar to

Table 7 for your own routers, assigning your own telephone

numbers and dial-peer tags.

16


78-11259-04


78-11259-04

Note The telephone numbers used in this guide are only examples and are invalid for public use in the United

States. When you configure your network, be sure to substitute your own telephone numbers.

To configure the router with the dial-peer information in

Table 7 , enter the following global

configuration commands:

West> enable

Password:

West# configure terminal







West(config-dial-peer)# exit

West(config)#

These commands are summarized in

Figure 12 .

Figure 12 West Router Configured for Local Dial Peers dial-peer voice 401 pots

destination-pattern 14085553737

port 0/0

FXS VIC

0/0

IP cloud

West

FXS VIC

0/1 dial-peer voice 402 pots


port 0/1

The dial-peer command always takes the argument voice. The number following it is the dial-peer tag, and pots is the type of dial peer.

Cisco IOS software refers to a telephone number as a destination pattern because it is the destination for an incoming or outgoing call. Enter these numbers with the destination-pattern command. A destination pattern can include asterisks (*) and pound signs (#) from the telephone keypad, and commas

(,) and periods (.), which have special meanings. Parentheses ( () ), hyphens (-), slashes (/), and spaces

( ), which are often used to make telephone numbers easier for humans to read, are not allowed.

Notice that the commands in the examples puts the prefix 1 (used in the United States to indicate a long-distance number) and an area code in front of the remaining numbers to complete the destination pattern. You need to include similar codes for your country if the VoIP equipment needs to establish a connection to the PSTN.

Note The Cisco IOS software does not check the validity of the telephone number. It accepts any string of permitted characters as a valid number.

The business that owns the West router also has a branch office in the East.

Figure 13 shows the East

office network, and

Table 8

lists the phone numbers, voice ports, and dial-peer tags for this office.


17


Figure 13 Basic Voice Network (East Router)

919 555-8282

IP cloud

FXS VIC

1/0

East

FXS VIC

1/1

919 555-9595

Table 8 East Router Local Dial Peers

Telephone Number Destination Pattern Voice Port

919 555-8282

919 555-9595

19195558282

19195559595

1/0

1/1

Dial-Peer Tag

901

902

Enter the following commands to configure the local ports on the East Router with the dial-peer information in

Table 8

:

East(config)# dial-peer voice 901 pots

East(config-dial-peer)# destination-pattern 19195558282

East(config-dial-peer)# port 1/0




East(config-dial-peer)# exit

East(config)#


Figure 14 .

Figure 14 East Router Configured for Local Dial Peers dial-peer voice 901 pots


port 1/0

FXS VIC

1/0

IP cloud

East

FXS VIC

1/1 dial-peer voice 902 pots


port 1/1

18


78-11259-04


Checking Dial Peer Configuration

If you configured POTS dial peers on your router by following these examples, you can place calls between telephones connected to the same router. You can also use the show dial-peer voice command to verify that the data you configured is correct.

Note If the voice port is offline, use the interface configuration no shutdown command to enable it.

Note Although placing calls directly between ports on the same router helps to verify your configuration, it is not recommended for general telecommunications use.

Calling Between Routers

To enable the West and East offices to send voice traffic to each other over the same IP network they use for data traffic, use a WIC on each router to provide a connection to the IP network, as shown in

Figure 15

.

Figure 15 IP Connection Between Routers

408 555-3737

919 555-8282

FXS VIC

0/0

192.168.19.27

408 555-4141

West

FXS VIC

0/1

IP cloud

FXS VIC

1/0

East

FXS VIC

1/1

192.168.11.3

919 555-9595

Look at the connection between the West router and the IP network. This connection does not include a voice port or an attached telephone—it leads from a WAN interface to a remote destination somewhere on the IP network. IP routers know how to locate IP addresses on the network, but they do not know how to locate telephone numbers. To route an outgoing voice call over this connection, the West router has to associate a telephone number in the East office with the IP address of the East router.

Table 9

assigns a dial-peer tag to each telephone number and its associated IP address on the West router.

This type of dial peer is called a remote dial peer or VoIP dial peer. (Remember, the dial-peer tags are arbitrary.) The term VoIP means that the dial peer associates a telephone number with an IP address.

Table 9 West Router Remote Dial Peers

Remote Location Telephone Number Destination Pattern IP Address

East 919 555-8282 19195558282 192.168.11.3

Dial-Peer Tag

501

East 919 555-9595 19195559595 192.168.11.3

502

78-11259-04


19


Create a VoIP dial peer on the West router for every telephone on the East router, all associated with the same IP address. But it is much easier to use periods as wildcards, as shown in

Table 10

.

Table 10 West Router Remote Dial Peers with Wildcards

Remote Location Telephone Number Destination Pattern IP Address

East 919 555-xxxx 1919555....

192.168.11.3

Dial-Peer Tag

501

Construct a table similar to

Table 10

for your own routers, assigning your own telephone numbers,

IP addresses, and dial-peer tags.

Note The IP addresses shown in this guide are meant only as examples. When you configure your network, be sure to substitute your own IP addresses.

Enter the following information on the West router to create the dial-peer configuration given in

Table 10 :




Cisco IOS software describes the remote network as the session target. This command is followed by the IP address of the remote router. The prefix ipv4 means IP version 4. Alternatively, you can use the prefix dns followed by the Domain Name System (DNS) name as follows:

West(config-dial-peer)# session target dns:voice.eastrouter.com

Configure a dial peer on each router for each telephone number on every other router connected to it.

Make things easier by configuring number expansion for East router telephone numbers on the West router:

West(config)# num-exp 5.... 1919555....

Now users can dial a five-digit extension beginning with 5 from a telephone on the West router to reach a telephone on the East router.


Figure 16 .

Figure 16 West Router Configured for Remote Dial Peers

192.168.11.3

IP cloud

West dial-peer voice 501 voip

destination-pattern 1919555….

session target ipv4:192.168.11.3

num-exp 5…. 1919555….

Source

East

919 555-xxxx

Destination

The West router is now configured to send calls to the East router.

Table 11 shows how to configure the East router to send calls to the West router.

20


78-11259-04


Table 11 East Router Remote Dial Peers with Wildcards

Remote Location Telephone Number IP Address

West 408 555-xxxx

Dial-Peer Tag

192.168.19.27 801

Enter the following information on the East router to create the dial-peer configuration given in

Table 11 :

East(config)# num-exp 5.... 1408555....

East(config)# dial-peer voice 801 voip

East(config-dial-peer)# destination-pattern 1408555....

East(config-dial-peer)# session target ipv4:192.168.19.27


Figure 17 .

Figure 17 East Router Configured for Remote Dial Peers

192.168.19.27

IP cloud

408 555-xxxx

West

Destination

East dial-peer voice 801 voip



num-exp 5.... 1408555....

Source

Other Routers on the Network

If the path between endpoints of a voice call travels through intermediate routers, configure those routers for VoIP traffic, as described in the section

“Configuring FXS Interfaces” earlier in this guide.

You need to configure POTS or VoIP dial peers on an intermediate router only if that router also has voice devices attached to it.

Checking FXS Configuration

If you configured VoIP dial peers on your router by following these examples, you can place calls from that router to telephones on the remote routers (using just the extension if you configured number expansion). If you have trouble placing calls, ping the remote router to make sure you have IP connectivity, or use the show dial-peer voice command to verify that the data you configured is correct.

Note Refer to the section

“Tuning Parameters for Real-Time Voice Traffic”

if you need to improve the quality of voice connections.

Configuring FXO Interfaces

FXO interfaces provide a gateway from the VoIP network to the analog PSTN or to a PBX that does not support E&M signaling so that users can reach telephones and fax machines outside the VoIP network.

Figure 18

shows a typical FXO gateway attached to the West router.

78-11259-04


21


Figure 18 FXO Gateway to PSTN

Destination

PSTN cloud

Source

FXS VIC

0/0

West

FXO VIC

1/0 dial-peer voice 201 pots destination-pattern 9 port 0/0

IP cloud

To create a POTS dial peer for an FXS interface as explained earlier, you enter the complete telephone number of the attached telephone as the destination pattern for incoming calls. However, to create a

POTS dial peer for an FXO interface, the destination pattern refers to outgoing calls, and you can include wildcards in it because the PSTN performs the switching.

The VoIP feature can also remove digits that you do not want to send to the PSTN. For instance, to dial

9 to reach an outside line (that is, the analog PSTN), enter the following commands:

West> enable

Password:





When you dial 9, the router makes a connection to the PSTN through voice port 0/0. The PSTN then provides a dial tone, and any digits you enter on the telephone thereafter are interpreted on the PSTN.

To enable East router users to make calls over the West router local PSTN, enter the following commands:







When you dial 7 on the East router, the call is connected to the PSTN on the West router. The PSTN then provides a dial tone, and any digits you enter on the telephone thereafter are interpreted on the PSTN.

Note In this example, West router voice port 0/0 has two separate POTS dial peers associated with it. Dial peer

201 matches calls beginning with the digit 9 and handles PSTN calls originating from the West router.

Dial peer 601 matches calls beginning with the digit 7 and handles calls to the PSTN originating from the East router.

22


78-11259-04


Checking FXO Configuration

If you configured your FXO interface according to this example, you can place outgoing calls over the

PSTN. If you have trouble placing calls, use the show voice port command to make sure that the VIC is installed correctly. Use the show dial-peer voice command to make sure that the data you configured is correct, and test the PSTN by connecting a handset directly to the PSTN outlet and placing a call.




Configuring E&M Interfaces

If you have more than a few voice users at each location, the cost of voice ports and routers and the effort needed to configure dial peers for all the combinations of origins and destinations increases rapidly. In this situation, it might be more efficient to use a PBX at each location to switch local traffic and direct incoming calls and then use E&M VICs to connect the PBXs over an IP network.

Figure 19

shows a company with two offices, West and East. Each office has a PBX to operate its internal telephone network, and the IP network carries voice traffic between the offices. Each PBX connects to an E&M VIC port in the router.

Figure 19 Linking PBXs over the IP Network (Local Dial Peers)

408 555-xxxx

PBX

E&M VIC

0/0

IP cloud

West dial-peer voice 111 pots


port 0/0

192.168.11.3

East

Destination

PBX

919 555-xxxx

Source

To configure E&M voice ports, you need to use the following commands beginning in privileged EXEC mode:

Command

dial-type {dtmf | pulse}

signal {wink-start | immediate | delay-dial}

cptone {australia | brazil | china | finland |

france | germany | japan | northamerica |

unitedkingdom}

operation {2-wire | 4-wire}

Task

Select the appropriate dial type for out-dialing.

Select the appropriate signal type for this interface.

Select the appropriate voice call progress tone for this interface.

type {1 | 2 | 3 | 5}

Select the appropriate cabling scheme for this voice port.

Select the appropriate E&M interface type.

78-11259-04


23


Both PBXs in this example use E&M interface Type 2, with four-wire operation and immediate-start signaling. The values for your configuration depend on your PBX and are available from your telecommunications department or the PBX manufacturer. For more information about E&M interface configuration commands, refer to the “VoIP Commands” chapter of the Cisco 1751 Router Software

Configuration Guide.

In this example, West users can dial 5 and a four-digit extension to reach telephones in the East Office.

East users can dial 5 and a four-digit extension to reach telephones in the West office.

The West router connects to the PBX through an E&M VIC port 0/0. This port is associated with a POTS dial peer for incoming calls. But you no longer need to associate every telephone number with its own port. Instead, you can configure a local dial peer as if all the West telephones (represented by a wildcard destination pattern) are connected directly to this port, as shown in the following commands:

West> enable

Password:





Configure VoIP dial peers for outgoing calls and associate destination phone numbers on the East router with that router IP address, as shown in

Figure 20

, and in the following commands:




West(config-dial-peer)# exit

West(config)#

Figure 20 Linking PBXs over the IP Network (Remote Dial Peers)

408 555-xxxx

E&M VIC

0/0

PBX

IP cloud

West dial-peer voice 121 voip



num-exp 5…. 1919555….

192.168.11.3

East

Source

PBX

919 555-xxxx

Destination

Now configure number expansion so that numbers beginning with 5 (belonging to the East office) and sent by the West PBX to the West router are expanded into the full destination pattern:


Note You do not need to configure number expansion for calls from one West telephone to another West telephone because the PBX switches those calls.

Finally, enter the following global configuration voice-port command to configure the E&M port:

West(config)# voice-port 0/0

West(config-voice-port)# signal immediate

West(config-voice-port)# operation 4-wire

West(config-voice-port)# type 2

24


78-11259-04


Note For these commands to take effect, you have to cycle the port by using the shutdown and no shutdown commands.

Note Configure the PBX to pass all dual-tone multifrequency (DTMF) signals to the router.

Configure the East router similar to the West router. The East router connects to the PBX through an

E&M VIC port 0/1. Enter the following commands to configure a POTS dial peer for all East telephones:




Enter the following commands to configure a VoIP dial peer for telephones on the West router:




East(config-dial-peer)# exit

East(config)#

Enter the following commands to configure number expansion and to make it easy for East users to dial numbers on the West router:


Finally, configure the E&M port:

East(config)# voice-port 0/1

East(config-voice-port)# signal immediate

East(config-voice-port)# operation 4-wire

East(config-voice-port)# type 2

Checking E&M Interface Configuration

If you configured the E&M interfaces correctly, you can place calls from a telephone served by one PBX to a telephone served by the other PBX (using just the extension, if you configured number expansion).

If you have trouble placing calls, ping the remote router to make sure you have IP connectivity.




Tuning Parameters for Real-Time Voice Traffic

Voice traffic is much more sensitive to timing variations than data traffic. For good voice performance, you need to configure your data network so that voice packets are not lost or delayed. To achieve the level of network performance needed for VoIP connections, use the following features to improve quality of service (QoS):

•

•

IP precedence

Resource Reservation Protocol (RSVP)

78-11259-04


25


• Multilink Point-to Point Protocol (PPP) interleaving

• Real-Time Transport Protocol (RTP) header compression

Cisco IOS software provides many other tools for ensuring QoS, such as custom queuing, priority queuing, and weighted fair queuing. For further information and more detailed examples of QoS configuration, refer to the Cisco 1751 Router Software Configuration Guide.

Note QoS measures the level of network performance. It does not directly measure the quality of the voice signal.

Configuring VoIP on a Frame Relay link involves special considerations. These are discussed in the section “

Configuring Frame Relay for VoIP .”

Need for Quality of Service

On a relatively low-bandwidth connection, such as a PPP or High-Level Data Link Control (HDLC) serial link, you should consider using methods to ensure QoS. If you have a high-bandwidth network, such as Ethernet or Fast Ethernet, and voice and data traffic together occupy only a small fraction of the bandwidth available, you might not need to provide QoS. (See

Figure 21 .)

Figure 21 Bandwidth v. Quality of Service

Low bandwidth needs QoS

High bandwidth might not need QoS

IP Precedence

Use the ip precedence command to give voice packets a higher priority over other IP data traffic. Every

IP packet is given a precedence level. In IP precedence, the numbers 1 through 5 identify classes for IP flows; the numbers 6 through 7 are used for network and backbone routing and updates. You can configure voice packets for higher priority by setting the IP precedence value to 5. Internal routers using weighted fair queuing will give these packets priority. This command only applies to VoIP dial peers.

The following example sets the IP precedence to 5:

Router> enable

Password:

Router# configure terminal

Router(config)# dial-peer voice 221 voip

Router(config-dial-peer)# ip precedence 5

The ip precedence command should also be used if RSVP is not enabled and the user would like to give voice packets a higher priority over other IP data traffic.

26


78-11259-04


RSVP

Resource Reservation Protocol (RSVP) enables routers to reserve enough bandwidth on an interface for reliable and quality performance. RSVP works well on PPP, HDLC, and similar serial line interfaces. It does not work well on multi-access LANs.

You should configure RSVP if you have a serial interface and any of the following:

• Links slower than 2 Mbps

•

•

Links with high utilization

Need for the best possible voice quality

Note If you configure multilink PPP interleaving, you can use the ip rtp reserve command instead of configuring RSVP. Refer to the next section on “

Multilink PPP Interleaving .”

Configuring RSVP

By default, RSVP is disabled so that it is backwards compatible with routers that do not implement it.

To enable RSVP on an IP network, enter the ip rsvp bandwidth command from interface configuration mode. The following example enables RSVP on serial interface 0/0 and sets the maximum bandwidth to

96 kbps and the maximum bandwidth per single request to 24 kbps:

Router(config)# interface serial 0/0

Router(config-if)# ip rsvp bandwidth 96 24

The default maximum bandwidth is 75 percent of the bandwidth available on each interface.

RSVP must be enabled at each LAN or WAN interface that voice packets will travel across. After enabling RSVP you must also use the req-qos dial-peer configuration command to request an RSVP session on each VoIP dial peer. Otherwise, no bandwidth is reserved for voice traffic.

Router(config-dial-peer)# req-qos controlled-load

For further information about this command, refer to the Cisco 1751 Router Software Configuration

Guide.

Multilink PPP Interleaving

Multilink PPP interleaving allows large packets to be multilink-encapsulated and fragmented into smaller packets to make sure that voice packets are transmitted without delay; small real-time packets, which are not multilink-encapsulated, are transmitted between fragments of the large packets. The interleaving feature also provides a special transmit queue for the smaller, delay-sensitive packets, enabling them to be transmitted earlier than other flows.

You should configure multilink PPP interleaving if you have a dialer, ISDN PRI or BRI interface, or a virtual template, and either of the following:

• Point-to-point connections using PPP encapsulation

• Links slower than 2 Mbps

Note Do not use multilink PPP on links faster than 2 Mbps.

78-11259-04


27


Configuring Multilink PPP Interleaving

To configure multilink PPP and interleaving on a dialer, ISDN PRI or ISDN BRI interface, or a virtual template, you must first configure multilink PPP and interleaving on the interface or template by entering the following commands in interface configuration mode:

Router(config-if)# encapsulation ppp

Router(config-if)# ppp multilink

Router(config-if)# ppp multilink interleave

Optionally, configure a maximum fragment delay:

Router(config-if)# ppp multilink fragment-delay milliseconds

You can also reserve a special queue for real-time packet flows to specified destination User Datagram

Protocol (UDP) ports, allowing real-time traffic to have higher priority than other flows. You need the following command only if you have not configured RSVP:

Router(config-if)# ip rtp reserve

lowest-UDP-port range-of-ports

For virtual templates only, apply the virtual template to the multilink bundle:

Router(config-if)# multilink virtual-template 1

To create a virtual template interface, enter the following interface virtual-template global configuration command:

Router(config)# interface virtual-template 1

RTP Header Compression

RTP header compression on a PPP, HDLC, or similar serial interface compresses the packet header to reduce network overhead.

You should configure RTP header compression on a serial interface if you have either of the following:

•

•

Links slower than 2 Mbps

Need to save bandwidth

Note Do not use RTP header compression on links faster than 2 Mbps.

Configuring RTP Header Compression

Enable RTP header compression at both ends of the serial link by entering the following ip rtp

header-compression interface configuration command:

Router(config-if)# ip rtp header-compression

Note When you enter the show running-config command, the format of the ip rtp header-compression command will change to ip rtp header-compression iphc-format.

28


78-11259-04


Configuring Frame Relay for VoIP

Configuring VoIP on a Frame Relay link involves certain special considerations to ensure acceptable voice quality. For Frame Relay links with slow output rates (64 kbps or less) and with data and voice being transmitted over the same permanent virtual circuit (PVC), you should configure the following parameters:

• Lower maximum transmission unit (MTU) size—Voice packets are generally small. If you decrease the MTU size to 300 bytes, large data packets can be broken up into smaller data packets that are more easily interleaved with voice packets.

The following example configures an MTU size of 300 bytes over serial interface 0/0:

Router# interface serial 0/0

Router(config-if)# mtu 300

Note Lowering the MTU size affects data throughput speed.

• RSVP—Configure RSVP on the subinterfaces (which correspond to PVCs) to reserve bandwidth for voice channels. Refer to the section on

“RSVP”

earlier in this guide.

The following example configures RSVP over serial subinterface 0/0.1:

Router(config-if)# interface serial 0/0.1 point-to-point

Router(config-if)# ip address 192.168.19.0 255.0.0.0

Router(config-if)# ip rsvp bandwidth 48 48

• RTP header compression—Configure RTP header compression on the subinterfaces to minimize the

size of the voice packet. Refer to the section on “ RTP Header Compression ” earlier in this guide.

The following command configures RTP header compression on the selected subinterface:

Router(config-if)# frame-relay ip rtp header-compression

• Traffic shaping—Use traffic shaping to control the outbound traffic rate; otherwise, voice packets can be discarded. In Cisco IOS Release 12.0T, Frame Relay traffic shaping is not compatible with

RSVP. Use generic traffic shaping instead, and set the committed information rate (CIR) equal to the port speed. This prevents the router from exceeding the CIR rate and discarding the frames.

The following command configures generic traffic shaping with a CIR of 32000 bps:

Router(config-if)# traffic-shape rate 32000

For further information and more detailed examples of Frame Relay configuration, refer to the

Cisco 1751 Router Voice-over-IP Configuration Guide.

Note When you finish configuring the router, you must save the new configuration to nonvolatile RAM

(NVRAM) by copying running-config to startup-config

. You should also save periodically during the configuration process. Refer to the

“Saving the Configuration” section on page 13 for details.

78-11259-04


29

List of Terms

List of Terms

This section defines some of the VoIP terms and concepts used in this guide.

BRI—Basic Rate Interface, an ISDN interface.

CIR—Committed information rate. The average rate of information transfer a subscriber (for example, the network administrator) has stipulated for a Frame Relay PVC.

Call leg—A segment of a call path, for instance, between a telephone and a router, a router and a network, a router and a PBX, or a router and the PSTN. Each call leg corresponds to a dial peer.

Destination pattern—The pattern of numbers that identifies the destination of an incoming call; in other words, a phone number.

Dial peer—A software object that ties together a voice port and a local telephone number (local dial

peer or POTS dial peer) or an IP address and a remote telephone number (remote dial peer or VoIP dial

peer). Each dial peer corresponds to a call leg.

DTMF—Dual-tone multifrequency. Use of two simultaneous voice-band tones for dial (such as touch tone).

E.164—The international public telecommunications numbering plan. A standard set by ITU-T that addresses telephone numbers.

E&M—A signaling technique for two-wire and four-wire interfaces that provide connections to PBX trunk lines (tie lines).

FXO—Foreign exchange office, a type of VIC interface. Using a standard RJ-11 modular telephone cable, the FXO VIC connects local calls to a PSTN central office or to a PBX. This is the interface a standard telephone provides.

FXS—Foreign exchange station, a type of VIC interface. The FXS VIC connects directly to a standard telephone, fax machine, or similar device over a standard RJ-11 modular telephone cable, and supplies ringing voltage, dial tone, and similar signals to it.

HDLC—High-Level Data Link Control. A data link layer protocol that specifies a data encapsulation method on synchronous serial links using frame characters and checksums.

MTU—Maximum transmission unit. Maximum packet size that a particular interface can handle.

Multilink PPP—Multilink Point-to-Point Protocol, a method of splitting, recombining, and sequencing datagrams across multiple logical data links.

NANP—North American Numbering Plan.

PBX—Private branch exchange, a private telephone switching system.

POTS—Plain old telephone service. Basic telephone service supplying standard single line telephones, telephone lines, and access to the public switched telephone network.

POTS dial peer—A software object that ties together a voice port and the telephone number of a device attached to the port (also called local dial peer).

PRI—Primary Rate Interface, an ISDN interface.

PSTN—Public switched telephone network.

PVC—Permanent virtual circuit.

QoS—Quality of service, a measure of the level of performance needed for a particular application, such as a VoIP connection.

RSVP—Resource Reservation Protocol, a network protocol that enables routers to reserve the bandwidth necessary for reliable performance.


30 78-11259-04

Obtaining Documentation

RTP—Real-Time Transport Protocol, a network protocol used to carry audio and video packet traffic over an IP network.

session target—A remote IP or DNS address specified for a dial peer.

tag—A positive integer in the range 1 to 2

31

-1 (2147483647) used to identify a dial peer.

UDP—User Datagram Protocol, a simple protocol that exchanges datagrams without acknowledgments or guaranteed delivery.

VIC—Voice interface card. VICs install in a slot in the router, and provide the connection to the telephone equipment or network. There are three types of VICs: FXS, FXO, and E&M. Each VIC provides two ports of the same type.

VoIP—Voice-over-IP, a feature that carries voice traffic, such as telephone calls and faxes, over an IP network, simultaneously with data traffic.

VoIP dial peer—A software object that ties together an IP address and a telephone number at a remote site reached over the IP network (also called remote dial peer).

Obtaining Documentation

Cisco provides several ways to obtain documentation, technical assistance, and other technical resources. These sections explain how to obtain technical information from Cisco Systems.

Cisco.com

You can access the most current Cisco documentation on the World Wide Web at this URL: http://www.cisco.com/univercd/home/home.htm

You can access the Cisco website at this URL: http://www.cisco.com

International Cisco websites can be accessed from this URL: http://www.cisco.com/public/countries_languages.shtml

Documentation CD-ROM

Cisco documentation and additional literature are available in a Cisco Documentation CD-ROM package, which may have shipped with your product. The Documentation CD-ROM is updated regularly and may be more current than printed documentation. The CD-ROM package is available as a single unit or through an annual or quarterly subscription.

Registered Cisco.com users can order a single Documentation CD-ROM (product number

DOC-CONDOCCD=) through the Cisco Ordering tool: http://www.cisco.com/en/US/partner/ordering/ordering_place_order_ordering_tool_launch.html

All users can order annual or quarterly subscriptions through the online Subscription Store: http://www.cisco.com/go/subscription

Click Subscriptions & Promotional Materials in the left navigation bar.

78-11259-04


31

Documentation Feedback

Ordering Documentation

You can find instructions for ordering documentation at this URL: http://www.cisco.com/univercd/cc/td/doc/es_inpck/pdi.htm

You can order Cisco documentation in these ways:

• Registered Cisco.com users (Cisco direct customers) can order Cisco product documentation from the Networking Products MarketPlace:

• http://www.cisco.com/en/US/partner/ordering/index.shtml

Nonregistered Cisco.com users can order documentation through a local account representative by calling Cisco Systems Corporate Headquarters (California, USA) at 408 526-7208 or, elsewhere in

North America, by calling 800 553-NETS (6387).

Documentation Feedback

You can submit e-mail comments about technical documentation to [email protected].

You can submit comments by using the response card (if present) behind the front cover of your document or by writing to the following address:

Cisco Systems

Attn: Customer Document Ordering

170 West Tasman Drive

San Jose, CA 95134-9883

We appreciate your comments.

Obtaining Technical Assistance

For all customers, partners, resellers, and distributors who hold valid Cisco service contracts, the Cisco

Technical Assistance Center (TAC) provides 24-hour-a-day, award-winning technical support services, online and over the phone. Cisco.com features the Cisco TAC website as an online starting point for technical assistance. If you do not hold a valid Cisco service contract, please contact your reseller.

Cisco TAC Website

The Cisco TAC website provides online documents and tools for troubleshooting and resolving technical issues with Cisco products and technologies. The Cisco TAC website is available 24 hours a day, 365 days a year. The Cisco TAC website is located at this URL: http://www.cisco.com/tac

Accessing all the tools on the Cisco TAC website requires a Cisco.com user ID and password. If you have a valid service contract but do not have a login ID or password, register at this URL: http://tools.cisco.com/RPF/register/register.do

32


78-11259-04

Obtaining Additional Publications and Information

Opening a TAC Case

Using the online TAC Case Open Tool is the fastest way to open P3 and P4 cases. (P3 and P4 cases are those in which your network is minimally impaired or for which you require product information.) After you describe your situation, the TAC Case Open Tool automatically recommends resources for an immediate solution. If your issue is not resolved using the recommended resources, your case will be assigned to a Cisco TAC engineer. The online TAC Case Open Tool is located at this URL: http://www.cisco.com/tac/caseopen

For P1 or P2 cases (P1 and P2 cases are those in which your production network is down or severely degraded) or if you do not have Internet access, contact Cisco TAC by telephone. Cisco TAC engineers are assigned immediately to P1 and P2 cases to help keep your business operations running smoothly.

To open a case by telephone, use one of the following numbers:

Asia-Pacific: +61 2 8446 7411 (Australia: 1 800 805 227)

EMEA: +32 2 704 55 55

USA: 1 800 553-2447

For a complete listing of Cisco TAC contacts, go to this URL: http://www.cisco.com/warp/public/687/Directory/DirTAC.shtml

TAC Case Priority Definitions

To ensure that all cases are reported in a standard format, Cisco has established case priority definitions.

Priority 1 (P1)—Your network is “down” or there is a critical impact to your business operations. You and Cisco will commit all necessary resources around the clock to resolve the situation.

Priority 2 (P2)—Operation of an existing network is severely degraded, or significant aspects of your business operation are negatively affected by inadequate performance of Cisco products. You and Cisco will commit full-time resources during normal business hours to resolve the situation.

Priority 3 (P3)—Operational performance of your network is impaired, but most business operations remain functional. You and Cisco will commit resources during normal business hours to restore service to satisfactory levels.

Priority 4 (P4)—You require information or assistance with Cisco product capabilities, installation, or configuration. There is little or no effect on your business operations.


Information about Cisco products, technologies, and network solutions is available from various online and printed sources.

• The Cisco Product Catalog describes the networking products offered by Cisco Systems, as well as ordering and customer support services. Access the Cisco Product Catalog at this URL: http://www.cisco.com/en/US/products/products_catalog_links_launch.html

• Cisco Press publishes a wide range of general networking, training and certification titles. Both new and experienced users will benefit from these publications. For current Cisco Press titles and other information, go to Cisco Press online at this URL: http://www.ciscopress.com

78-11259-04


33


•

•

•

•

Packet magazine is the Cisco quarterly publication that provides the latest networking trends, technology breakthroughs, and Cisco products and solutions to help industry professionals get the most from their networking investment. Included are networking deployment and troubleshooting tips, configuration examples, customer case studies, tutorials and training, certification information, and links to numerous in-depth online resources. You can access Packet magazine at this URL: http://www.cisco.com/packet iQ Magazine is the Cisco bimonthly publication that delivers the latest information about Internet business strategies for executives. You can access iQ Magazine at this URL: http://www.cisco.com/go/iqmagazine

Internet Protocol Journal is a quarterly journal published by Cisco Systems for engineering professionals involved in designing, developing, and operating public and private internets and intranets. You can access the Internet Protocol Journal at this URL: http://www.cisco.com/en/US/about/ac123/ac147/about_cisco_the_internet_protocol_journal.html

Training—Cisco offers world-class networking training. Current offerings in network training are listed at this URL: http://www.cisco.com/en/US/learning/index.html

34


78-11259-04

Cisco 1751 Installation guide

Cisco 1751 Voice-over-IP Quick Start Guide

Audience

Conventions

Installing WAN and Voice Interface Cards

If You Are Installing Voice Interface Cards

WIC and VIC Installation Procedure

Connecting the FXS, FXO, and E&M VICs to the Network

Connector Pinouts for FXS, FXO, and E&M VICs

Checking FXS VIC Installation

2-Port ISDN BRI Card

Connecting the 2-Port ISDN BRI Card

ISDN BRI Card LEDs

Determining Voice Port Numbering

Example

Security Device Manager

Configuring Voice-over-IP

Configuration Tools

Cisco ConfigMaker Application

Cisco IOS Command-Line Interface

Major Voice over IP Configuration Tasks

Information for International Users

Entering Configuration Mode

Saving the Configuration

Dial Plan

Wildcards and Number Expansion

Configuring FXS Interfaces

Local Dial Peers

Checking Dial Peer Configuration

Calling Between Routers

Other Routers on the Network

Checking FXS Configuration

Configuring FXO Interfaces

Checking FXO Configuration

Configuring E&M Interfaces

Checking E&M Interface Configuration

Tuning Parameters for Real-Time Voice Traffic

Need for Quality of Service

IP Precedence

RSVP

Multilink PPP Interleaving

RTP Header Compression

Configuring Frame Relay for VoIP

List of Terms

Obtaining Documentation

Cisco.com

Documentation CD-ROM

Ordering Documentation

Documentation Feedback

Obtaining Technical Assistance

Cisco TAC Website

Opening a TAC Case

TAC Case Priority Definitions

Obtaining Additional Publications and Information

Related manuals

Cisco Systems

1760

Cisco

CISCO1760-V-SRST

Cisco

1750

Cisco Systems

1760

Cisco

IAD2431-16FXS

Cisco Systems

WIC-1B-U

Cisco

Router Cisco 3600

Cisco

WS-X4604-GWY - VoIP Gateway

Cisco

1751V