Multi Tech Systems Network Card MVP120 User Manual

100

Voice / Fax over IP Networks

Voice/Fax Over IP Networks

Model MVP120

H.323 Mode

User Guide

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Contents

Chapter 1 - Introduction to the MultiVOIP ................................................................................6

Preview of This Guide .............................................................................................................7

Typical Application...................................................................................................................8

Front Panel Description ........................................................................................................12

Back Panel Description .........................................................................................................13

Specifications ........................................................................................................................14

Chapter 2 - Installation .............................................................................................................16

Overview of the Installation Process .....................................................................................16

Unpacking Your MVP120 ......................................................................................................17

Telecom Safety Warning .......................................................................................................17

Other Safety Warnings ..........................................................................................................17

Cabling Your MVP120 ...........................................................................................................18

Chapter 3 - Installing the MVP120 Software ...........................................................................20

Chapter 4 - Configuring the Master MultiVOIP.......................................................................24

Registering with a Gatekeeper Phone Directory...................................................................28

Building a Proprietary Phonebook Directory .........................................................................31

Chapter 5 - Configuring the Slave MultiVOIPs .......................................................................37

Chapter 6 - Deploying the VOIP Network................................................................................44

Remote Site Administrator ....................................................................................................44

Chapter 7 - Using the MultiVOIP Software..............................................................................46

MVP120 Configuration ..........................................................................................................47

Changing Channel Parameters.............................................................................................48

Interface Tab....................................................................................................................48

Voice/Fax Tab..................................................................................................................49

Billing/Misc Tab................................................................................................................50

Regional Tab ...................................................................................................................51

Changing the Phone Directory Database .............................................................................52

Proprietary Phone Directory Database ...........................................................................53

Gatekeeper Phone Directory Database ..........................................................................55

Changing IP Parameters.......................................................................................................57

Viewing Call Progress ...........................................................................................................58

Applications Setup ................................................................................................................58

Viewing Statistics ..................................................................................................................60

IP Statistics......................................................................................................................60

SNMP Statistics...............................................................................................................61

Viewing Logs ...................................................................................................................62

Viewing Log Entry Details ...............................................................................................62

Viewing Channel Totals ...................................................................................................63

Reports............................................................................................................................63

Upgrade Procedures .............................................................................................................64

Upgrade Software ...........................................................................................................64

Manual Upgrade Procedure ............................................................................................66

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Chapter 8 - Remote Configuration and Management ............................................................68

Modem-Based .......................................................................................................................68

LAN-Based ...........................................................................................................................70

Telnet.....................................................................................................................................72

Web Management .................................................................................................................73

Chapter 9 - Warranty, Service, and Technical Support .........................................................75

Multi-Tech Systems, Inc. Warranty & Repairs Policies .........................................................75

Service ..................................................................................................................................77

Ordering Accessories ......................................................................................................77

Technical Support..................................................................................................................78

Appendix A - TCP/IP Description.............................................................................................80

Appendix B - Cabling Diagrams ..............................................................................................83

Appendix C - Regulatory Information .....................................................................................85

Glossary.....................................................................................................................................89

Index.........................................................................................................................................102

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100

Voice / Fax over IP Networks

Chapter 1

Introduction to the MultiVOIP

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Chapter 1 - Introduction to the MultiVOIP

The MultiVOIP 100 (Model MVP120) allows analog voice and fax communication over a

traditional IP network. Multi-Tech’s new voice/fax gateway technology allows voice and fax

communication to be transmitted, with no additional expense, over your existing

communications Internet, which has traditionally been data-only. To access this free voice

and fax communication, all you have to do is connect the MVP120 to an FXO PBX port or

PSTN and then to your existing Internet connection. Once configured, the MVP120 allows

voice and fax to travel down the same path as your traditional data communications.

The MVP120 supports the H.323 standards-based protocol enabling your MVP120 to

participate in real-time conferencing with other third-party VOIP Gateways or endpoints that

support the H.323 protocol (such as Microsoft NetMeeting^®). The H.323 standard defines

how endpoints make and receive calls, how endpoints negotiate a common set of audio and

data capabilities, how information is formatted and sent over the network, and how endpoints

communicate with their respective Gatekeepers. Gatekeeper software is optional and if

present in a network, it typically resides on a designated PC. It acts as the central point for all

calls within its zone and provides call control services to all registered endpoints. In addition,

Gatekeepers can perform bandwidth management through support for Bandwidth Request,

Confirm, and Reject messages.

Note: A zone consists of all H.323 endpoints that are under the Gatekeeper’s control.

The MVP120 is designed with one FXO voice/fax channel, a 10 Mbps Ethernet LAN

interface, and a command port for configuration.

System management is provided through the command port using bundled Windows^®

software which provides easy-to-use configuration menus and a comprehensive Help

system.

MultiVOIP 100 Series - Model MVP120

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Chapter 1 - Introduction to the MultiVOIP

Preview of This Guide

This guide describes the MultiVOIP and tells you how to make the cable connections, install

the software, and configure it. The information contained in each chapter is as follows:

Chapter 1 - Introduction to the MultiVOIP

This chapter describes the MultiVOIP features, a typical application, and the front and back

panels.

Chapter 2 - Installation

This chapter provides an overview of the installation process, describes the contents of the

MultiVOIP package, diagrams the cabling instructions, and lists Telecom safety warnings.

Chapter 3 - Installing the MVP120 Software

This chapter describes how to load the MultiVOIP software.

Chapter 4 - Configuring the Master MultiVOIP

This chapter describes how to configure your Master.

Chapter 5- Configuring the Slave MultiVOIPs

This chapter describes how to configure your Slave.

Chapter 6 - Deploying the VOIP Network.

Chapter 7 - Using the MultiVOIP Software.

This chapter describes how to use the software to make changes and to the configuration of

your MultiVOIP.

Chapter 8 - Remote Configuration and Management

This chapter describes how to change the configuration of a remote MultiVOIP. The chapter

also describes typical client applications, such as Telnet and Web-based management.

Chapter 9 - Warranty, Service, and Technical Support

This chapter provides a statement of limited warranty, tells you how to get service for your

MultiVOIP, and gives you information about the Multi Tech Systems, Inc. Web site.

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Chapter 1 - Introduction to the MultiVOIP

Typical Application

Before VOIP (Voice Over IP) technology existed, a sales office used a data connection to the

Internet and a voice connection to the public telephone network. Now, with VOIP, the two

networks can be tied together. To accomplish this a Sales Office MultiVOIP is connected

between the public telephone network and the data network as shown in the typical

application below. The Sales Office MultiVOIP is going to be set up as the master MultiVOIP

and the MultiVOIP at the Remote Sales Office is going to be set up as the slave MultiVOIP.

With this approach, the person at the Remote Sales Office can pick up the telephone and dial

the Sales Office MultiVOIP and, after a second dial tone, can call anyone in the Sales Office,

or dial 9 for outside line and call anyone in the calling area as if they were at the Sales Office.

Sales Office

Workstation

Web Server

Workstation

Remote Sales

Router

Office

IP Address 201.22.122.1

LAN

Mask 255.255.255.128

MVP110

IP Address 206.25.124.120

Mask 255.255.255.240

HUB

Workstation

Analog Connections

Channel 1: FXO

#201

Workstation

Internet/Intranet

MultiVOIP MVP120

IP Address

IP Network

LAN

201.22.122.118

101

Mask 255.255.255.128

4124

HUB

ProxyServer

IP Address 206.25.124.110

Mask 255.255.255.240

512-4122

ISP

512-4123

Fax

PSTN

PSTN Connection

(T1/E1, PRI, etc.)

ProxyServer Static IP

Address 209.96.211.90

Typical VOIP Application

To set up this VOIP network, an MVP120 at the Sales Office is connected between the data

network and the sales office telephone switch (PBX). To connect the MVP120 to the data

network, an Ethernet cable is connected to the Ethernet port on the unit and the other end is

plugged into a hub on the data network. On the PBX side, one phone cord is connected to

the FXO jack on the back of the MVP120 and attached to an FXO port on the phone switch.

The line on the PBX occupies phone extension 4124.

To set up a remote sales office, connect the Ethernet jack on an MVP110 to the hub, and

connect (by a phone cord) a telephone to the FXS jack on the MVP110.

To configure the MVP120, the COM port of a PC is connected to the Command port on the

MVP120. The configuration software is based on a standard Windows Graphical User

Interface (GUI) which simplifies your selection process to a single parameter group within a

dialog box. For example, your LAN IP parameters are contained on a single dialog box. You

can configure your network IP address and mask for the MVP120 and the gateway address

for the corporate router on the same dialog box.

After your network configuration is complete, then you can develop your VOIP phone

directory database. This database will be developed on the Sales Office MultiVOIP and sent

out to the Remote Sales Office.

You will need to add the phone numbers to the phone directory database. Before you set up

the phone directory database, you need to consider how the database is going to be used:

Are you going to have an H.323 Gatekeeper setup your call sessions,

Are you going to control your call sessions using the proprietary phone book?

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The H.323 Gatekeeper acts as the central point for all calls within its zone and provides call

control services to registered endpoints. If you choose the proprietary phone book, you

establish a master-slave relationship where the master MultiVOIP maintains the phone

directory and downloads the directory to each slave unit.

The Gatekeeper/Proprietary Phone Book selection is chosen from the Phone Directory

Database dialog box. Before you choose how the data base is going to be used, here are a

couple of things to keep in mind:

1. If a Gatekeeper is employed in the network, you need to choose the Gatekeeper option.

You can not mix the Proprietary Phone Book with the Gatekeeper. If you choose the

Gatekeeper option you can communicate with other third party endpoints that support

H.323 (such as Microsoft Netmeeting).

2. If you choose the Proprietary Phone Book, you establish a master-slave relationship in

which the master MultiVOIP maintains the phone directory database. All of the phone

numbers are listed in the data base so that if you want to communicate with someone in

your VOIP network, you can see the phone number in your data base. Everytime you

bring up your MultiVOIP the current phone directory is downloaded to your MultiVOIP.

Note: You can still call Netmeeting using the proprietary phone book.

The Gatekeeper

The GateKeeper is a separate application that can operate on a network pc and provides all

the controls needed to create, control, and manage an H.323 network zone. The H.323

network zone is all the endpoints (terminals and gateways (MultiVOIPs)) that are registered

with the gatekeeper. The gatekeeper function is address translation from LAN aliases for

terminals and gateways to IP addresses as defined in the RAS (Registration/Admission/

Status) specification. The RAS Protocol defines the communication with a gatekeeper and

support for RTP/RTCP for sequencing audio packets. The H.323 Gatekeeper also provides

call-authorization for both accepting and placing calls in its zone, and certain monitoring

features such as call permissioning and address resolution.

If you choose the Gatekeeper option, initially you need to communicate with the administrator

of the Gatekeeper to register your MultiVOIP. The information you need from the Gatekeeper

administrator is the IP address of the Gatekeeper and its port number. Then you need to

establish your alias address which includes phone number, channel number, H323 ID which

can be a numeric or an alphanumeric value, and your MultiVOIP LAN IP address. The port

number is 1720, but if the Gatekeeper uses a different port number, you have to ensure that

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you use the same port number. The Gatekeeper administrator will then enter your information into

the Gatekeeper data base. This concludes the preregisteration.

You can enter your alias address information into the Add/Edit Phone Entry dialog box. For

example, if you were setting up the corporate MultiVOIP, you could enter the following information

for the Voice/Fax Channel: Channel 1 of the corporate MultiVOIP uses extension 101. The

Description is optional, but it may be helpful if it is assigned to an individual or department.

The H323 ID assigned to this phone number identifies the office using this extension. The IP

Address of the Corporate MultiVOIP is 201.022.122.118. The default port number 1720 is used.

Once the MultiVOIP goes online, the Gatekeeper registers it with the above H.323 ID. No other

H323 endpoint can use this H.323 ID. This is like your own telephone number.

After you have entered the information in the Add/Edit Phone Entry dialog box and clicked OK,

the new phone number is added to the Phone Directory Database.

Proprietary Phone Book

If you choose the Proprietary Phone Book option in the Phone Directory Database dialog box

instead of the Gatekeeper option, the Database Type group becomes active and the RAS

Parameters group becomes inactive.

When you elect to use the Proprietary Phone Book, you set up a master-slave relationship. This

relationship allows one MultiVOIP to maintain the Phone Directory Database and publish this data

base to all MultiVOIP participants in the network. This proprietary database allows you to see all

the participants in your network and provides you with their phone numbers.

To set up a database so that the corporate MultiVOIP can call the remote branch office and the

remote branch office can call the corporate MultiVOIP, the Phone Directory Database will have

one entry for the corporate office and one entry for the Remote Branch Office. Extension 101 at

the corporate office is tied to voice channel 1. The Description again is optional. The Hunt Group

in this example is set for No Hunt. However, if you want to activate a Hunt Group (if an extension

on the MultiVOIP is busy and you wanted to look for another extension), you can assign a hunt

group to those extensions. In other words, if extension 101 is busy, the corporate MultiVOIP

would roll over to extension 102, if you have multiple voice channels.

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Again, the corporate MultiVOIP IP Address needs to be added. The port number is 1720.

This adds phone number 101 of the corporate MultiVOIP to the proprietary database.

After you have added Channel 1, you need to include Channel 1 at the remote branch office.

The proprietary database would then appear as in the following dialog box and when the

remote branch office MultiVOIP is turned on, the current database would be downloaded to

the remote branch office MultiVOIP.

So, if a sales person in the Sales Office picked up the telephone and dialed extension 4124,

the extension routes the telephone call to the VOIP network. After the second dial tone, the

person would dial extension 201. The telephone at the Remote Sales office would ring and a

telephone conversation is initiated just as if the Remote Sales office had been called over the

regular telephone network.

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Similarly, if a person at the Remote Sales office picked up extension 201 and dialed

extension 101, the MultiVOIP at the Sales Office would generate a second dial tone and the

person at the Remote Sales office would then dial any extension at the Sales Office, or the

person could then dial a 9, for example, and get an outside line of the Sales Office Public

Switched Telephone network. This person could then dial any telephone number, as if calling

from the Sales Office.

Front Panel Description

The MVP120 front panel has three groups of LEDs that provide the status of the Ethernet

connection (Ethernet), the Voice/Fax channel, and an LED for boot status. The front panel is

shown below and a description of each LED follows.

MVP120 Front Panel

Boot

The Boot indicator lights up when the MVP120 is booting during the downloading of the

setup.

Ethernet

RD Receive Data indicator blinks when packets are being received from the local area

network.

TD Transmit Data indicator blinks when packets are being transmitted to the local area

network.

LK Link indicator lights when the Ethernet link senses voltage from a concentrator or

external device.

CL Collision indicator lights when a collision is detected on the Ethernet link.

Voice/Fax

FX Fax indicator lights when there is fax traffic on the voice/fax channel.

TX Transmit indicator blinks when voice packets are being transmitted to another H.323

endpoint.

RX Receive indicator blinks when voice packets are being received from another H.323

endpoint.

XS Transmit Signal indicator lights when the Voice/Fax channel is off-hook.

RS Receive Signal indicator lights when the Voice/Fax channel is ringing.

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Back Panel Description

The cable connections for the MVP120 are made at the back panel. Connectors include

Power, Ethernet, Command Port (RJ-45), and FXO Voice/Fax Channel. The cable

connectors are shown and defined belos.

POWER ETHERNET COMMAND PHONE

Ethernet

Command

Phone

(RJ-11)

Connector

Power

Connector

(10BaseT) Port (RJ-45)

Connector Connector

Back Panel

Power Connector

The Power connector is used to connect the external power supply to the MVP120.

Ethernet Connector

The Ethernet connector is used to connect the MVP120 to a LAN using unshielded twisted

cable. This connector is an RJ-45 jack.

Command Connector

The Command connector is used to configure the MVP120 using a PC with an available

serial port and running Windows software. The Command connector is an RJ-45 jack (an

adapter cable is provided to convert to a standard serial port DB9 female connector).

Phone Connector

Connects the FXO Voice/Fax Channel to an FXO/PBX port or PTSN. This connector is an

RJ-11 jack.

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Specifications

•

One 4 MB DRAM (1 Meg by 32-bit, 70 nanosecond SIMM)

Caution: SIMM speed and size cannot be mixed

•

Two Megabytes of flash memory

Ethernet Port

•

Single Ethernet Interface - 10Base-T (twisted pair) keyed RJ-45 connector.

Command Port

•

Single 19.2 Kbps asynchronous Command Port using an RJ-45 to DB9 cable with a DB9

female connector

Voice/Fax Channel

•

One RJ-11 jack (FXO)

Power Supply

•

Voltage - 115 VAC (Standard), 240 Volts AC (Optional)

Frequency - 47 to 63 Hz

Power Consumption - 4.3 Watts

Product

•

Dimensions - 1.0" high x 4.3" wide x 5.6" deep

(2.5 cm x 10.8 cm x 14.2 cm)

•

Weight - 8 oz. (224 g)

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100

Voice / Fax over IP Networks

Chapter 2

Installation

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Chapter 2 - Installation

Overview of the Installation Process

The basic steps of installing your MVP120 network involve unpacking the units, connecting

the cables, and configuring (Configuring is discussed in detail in Chapter 3) the units using

the included management software (MultiVOIP Configuration). The recommended installation

process includes four phases that, when completed, result in a fully functional Voice Over IP

network.

Unpacking and Cabling the MultiVOIP

The MultiVOIP package includes the MultiVOIP 100, a printed Quick Start Guide, a system

CD, a power supply, and a RJ-45 cable. If any one of these items is missing, please contact

you sales representative. Detailed cabling directions are included in this guide.

Installing the Software and Configuring Your MVP120

The VOIP administrator must first install the MVP120 software and then configure each

MVP120 for its specific function. During the configuration process, it’s important to note that

the Phone Directory Database is configured differently depending on whether or not you have

Gatekeeper support on your VOIP network.

If your VOIP network supports Gatekeeper software, you must register all H.323 endpoints

with the Gatekeeper. The procedure for doing this is explained in the section “Registering

with a Gatekeeper Phone Directory”.

If your VOIP network does not have Gatekeeper software or the Gatekeeper software is not

enabled, then you must build a proprietary phonebook with a “Master” MultiVOIP and “Slave”

MultiVOIPs. The “Master” unit includes the assignment of a unique LAN IP address, subnet

mask, and Gateway IP address.

Once configuration of the “Master” MultiVOIP has been completed, the administrator moves

on to configure the MVP120(s) designated as “Slave” units. Again, unique LAN IP

addresses, subnet masks, and Gateway IP addresses are assigned, and each Voice/Fax

channel is configured for the appropriate channel interface type. When this is done, the

Phone Directory Database option is set to Slave, and the IP address of the Master MultiVOIP

is entered. Once all Slave units are configured, the process moves on to the “Deploying the

VOIP Network” section.

Deploying the VOIP Network

The final phase of the installation is deployment of the network. When the remote MultiVOIPs

are sent to their remote sites, the remote site administrators need only to connect the units to

their LAN and telephone equipment. A full Phone Directory Database (supplied by the Master

MultiVOIP Proprietary Phonebook will be loaded into their units within minutes of being

connected and powered up. For remote VOIPs that were configured with the Gatekeeper

option enabled, each MultiVOIP will be registered with the Gatekeeper (the Gatekeeper

phonebook directory is not downloaded to the remote units). The final task of the VOIP

administrator or the Gatekeeper administrator is to develop the VOIP Dialing Directory based

on the appropriate phone directory database (the Proprietary phonebook database or the

Gatekeeper phonebook database).

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Chapter 2 - Installation

Unpacking Your MVP120

Remove all items from the box.

Voice/Fax over IP Networks

U.S

Unpacking

Telecom Safety Warning

Never install phone wiring during a lightning storm.

Never install phone jacks in wet locations unless the jacks are designed for wet

locations.

This product is to be used with UL and cUL listed computers.

Never touch uninsulated phone wires or terminals unless the phone line has been

disconnected at the network interface.

Use caution when installing or modifying phone lines.

Avoid using a phone during an electrical storm. There may be a remote risk of electrical

shock from lightning.

Do not use the phone to report a gas leak in the vicinity of the leak.

To reduce the risk of fire, use only No. 26 AWG or larger Telecommunication line cord.

Other Safety Warnings

A lithium battery on the circuit board provides backup power for the time keeping

capability. The battery has an estimated life expectancy of ten years. When the battery

starts to weaken, the date and time may be incorrect. If the battery fails, the board must

be sent back to Multi-Tech Systems for battery replacement.

Caution: Danger of explosion if battery is incorrectly replaced.

The Command port and the Ethernet port are not designed to be connected to a Public

Telecommunication Network.

Use only the power source supplied with your product or an equivalent power source

supplying the minimum power requirements

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Chapter 2 - Installation

Cabling Your MVP120

Cabling your MVP120 involves making the proper Power, Command Port, and Network

connections. The graphic below shows the back panel connectors and the associated cable

connections. The Cabling Procedure section provides step-by-step instructions for cabling

your MVP120.

POWER ETHERNET COMMAND PHONE

Cable Connections

Cabling Procedure

Using the supplied cable, connect the power supply to a live AC outlet, then plug the

power supply into the MVP120 as shown above.

Connect the MVP120 to a PC using the RJ-45 to DB9 (female) cable provided with

your unit. Plug the RJ-45 end of the cable into the Command port of the MVP120

and connect the other end to the PC’s serial port.

Connect a network cable to the Ethernet 10Base-T connector on the back of the

MVP120. Connect the other end of the cable to your network.

If you are connecting a PSTN or FXO/PBX port to your MVP120, connect one end of

an RJ-11 cable to the Phone connector on the back of the MVP120 and the other

end to the PSTN or FXO port on the PBX.

Turn on power to the MVP120 by setting the power switch on the right-side panel to

the On position. Wait for the Boot LED on the MVP120 to go off before proceeding.

This may take a couple of minutes.

Note: Since the MVP120 doesn’t have a power LED, no LEDs will be on after

booting unless the Ethernet link is active.

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100

Voice / Fax over IP Networks

Chapter 3

Installing the MVP120 Software

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Chapter 3 - Installing the MVP120 Software

The section covers the software installation. Note that not every screen or option in the

process is included in this chapter. Additional information on the MVP120 software is

provided in Chapter 4 and Chapter 5 and in the online Help.

Note: The phonebook directory configuration process is different depending on whether or

not you have an enabled H.323 Gatekeeper resident in your network. The section on

“Configuring Your MVP120” will explain these differences.

The MVP120 software and User Guide are contained on the MVP120 CD. The CD is auto-

detectable, so when you insert it into your CD ROM drive it will start up automatically. When

you have finished configuring your MVP120, you can view and print the User Guide by

clicking on the Install Manuals icon.

CAUTION: If you are installing a MVP120 behind a Firewall, the Firewall must support H.323.

Refer to your Firewall user documentation to enable H.323 support.

Make certain that your MVP120 has been properly cabled and that it is powered on.

Insert the MVP120 CD into a CD-ROM drive. The CD is auto-detectable, so it starts

automatically. It may take 10 to 20 seconds for the Multi-Tech Installation CD window

to appear.

If the Multi-Tech Installation CD window does not appear automatically, click My

Computer, then right-click the CD-ROM drive icon, click Open, then click the

Autorun icon.

When the Multi-Tech Installation CD window displays, click the Install Software icon.

You will be prompted to select your software:

H.323 or Proprietary. Select Proprietary.

The Welcome/Setup dialog box displays.

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Chapter 3 - Installing the MVP120 Software

Press Enter or click Next to continue.

5. The Choose Destination Location dialog box displays. Follow the on-screen

instructions.

You can either choose the Destination Location of your MVP120 software or select the

default destination by clicking Next. If you click Browse, you can select a different

destination folder for the MVP120 software.

6. In the Select Program Folder dialog box, select where you want the program file to be

located.

Verify the path and click Next to continue.

7. The Copying program files window displays, followed by the MVP120 Setup dialog

box. This dialog box enables you to select the COM port of your PC that is connected to

the Command port of the MVP120. From the Select Port list, choose the COM port of

your PC.

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Click OK to continue.

The Setup Complete dialog displays.

Click Finish to continue.

The following message displays:

Click Yes to continue.

10.

The following message displays.

Click Yes to continue.

11.

The IP Protocol Default Setup dialog box displays as you continue now with the

configuring of your MultiVOIP, which is continued in Chapter 4.

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100

Voice / Fax over IP Networks

Chapter 4

Configuring the Master MultiVOIP

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Chapter 4 - Configuring the Master MultiVOIP

The following steps provide instructions for configuring your MVP120. The configuration

sequence includes IP Protocol default setup, Channel setup, and Phone Directory Database

setup. The numbering of steps continues from the previous section.

12.

The IP Protocol Default Setup dialog box displays.

The default Frame Type is TYPE_II. If this does not match your IP network, select SNAP

from the Frame Type list. The available Frame Type choices are TYPE_II and SNAP.

13.

14.

In the Ethernet group, enter the IP Address, Subnet Mask, and Gateway Address

unique to your IP LAN.

The IP address is the unique LAN IP address that is assigned to the MVP120, and the

Gateway address is the IP address of the device connecting your MVP120 to the

Internet.

Click OK when you are finished.

The Channel Setup dialog box displays. The four tabs in this dialog box define the

Channel Interface, Voice/Fax parameters, Billing/Miscellaneous parameters, and

Regional telephone parameters.

Check with your in-house telephone personnel to verify whether your local PBX dial

signaling is Pulse or DTMF (tone). Select the regeneration option accordingly.

In the Inter Digit Time box, enter the maximum amount of time between dialed digits in

milliseconds that the unit will wait before mapping the dialed digits to an entry in the

Phone Directory Database. If too much time elapses between digits, the wrong numbers

will be mapped and you will hear a rapid busy signal. If this happens, hang up and dial

again. The default setting is 2 seconds.

In the Flash Hook Timer box, enter the amount of time the duration of flash hook signals

output on the interface. The default setting is 600 milliseconds.

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15.

The Ring Count FXO box enables you to set the number of rings received on the

FXO interface before hanging up and releasing the line to another call. The default

setting is 2 rings.

Note: Zero (0) means no incoming calls will be answered.

For FXO-to-FXO communications, you can enable a specific kind of FXO

Disconnect Options: Current Loss, Tone Detection, or Silence Detection. Check

with your in-house phone personnel to verify the type of disconnect to use. If current

loss is checked, the VOIP will hang up when it detects a loss of current on the FXO

(phone) port. For tone detection, select from the lists one or two tones that will

cause the line to disconnect. The person hanging up the call must then press the key

or keys that produce those tones to hang up a call. For silence detection, select

One Way or Two Way, then set the timer for the number of seconds of silence before

disconnect. The default value of 15 seconds may be shorter than desired for your

application.

The Message Waiting Light check box must be selected on the originating and

answering voice channel. This enables the number dialed to connect you to the

appropriate voice channel, then output that number on the voice channel.

16.

The Voice/Fax tab displays the parameters for the voice gain, DTMF (Dual Tone

Multi-Frequency) gain, voice coder, faxing, and advanced features such as Silence

Compression, Echo Cancellation, and Forward Error Correction.

17.

You can set up the input and output voice gain so that the volume can be increased

or decreased. Input gain modifies the level of the audio coming into the voice channel

before it is sent over the Internet to the remote MVP120. Output gain modifies the

level of the audio being output to the device attached to the voice channel. Make your

selections from the Input and Output lists in the Voice Gain group. The valid range is

+31dB to –31dB with a recommended/default value of 0.

You can also set up the DTMF gain (or output level in decibels - dB) for the higher

and lower frequency groups of the DTMF tone pair. Make your selections in the lists

in the DTMF Gain group. When the DTMF Out of Band check box is selected, the

tones are passed via RTP packets, and the receiving VOIP reproduces the DTMF

tones instead of passing them through like voice.

Note: Only change the DTMF gain under the direction of Multi-Tech Technical

Support.

18.

To change the voice coder, select the Manual option in the Coder group. Select the

appropriate coder from the Selected Coder list.

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If you changed the voice coder, ensure that the same voice coder is used on the voice/

fax channel you are calling. Otherwise, you will always get a busy signal.

Note: If Automatic Coder is selected, then you need to select the Max Bandwidth from

the list. Check with your Network Administrator to determine how much bandwidth is

available.

19.

The Fax group enables you to send/receive faxes on the selected voice/fax channel. You

can set the maximum baud rate for faxes, the fax volume, and change the jitter value in

milliseconds.

When receiving fax packets from a remote MVP120, it is possible for individual packets

to be delayed or received out of order due to traffic conditions on the network. To

compensate for this effect, the MVP120 uses a Jitter Buffer. The Jitter Value box allows

the MVP120 to wait a user-definable period of time, in milliseconds, for delayed or out of

order fax packets. The range of allowable Jitter Values is 0 to 400 with a default of 400

milliseconds.

If you do not plan to send or receive faxes on a given voice/fax channel, you can disable

faxes in the Fax group.

20.

You can enable the voice/fax advanced features by selecting the Silence Compression,

Echo Cancellation, or Forward Error Correction options.

The Silence Compression option defines whether silence compression is enabled for

the voice channel. If Silence Compression is enabled, the MVP120 will not transmit

voice packets when silence is detected, thereby reducing the amount of network

bandwidth that is being used by the voice channel.

If Echo Cancellation is enabled, the MVP120 will remove echo which improves the

quality of sound.

The Forward Error Correction (FEC) feature allows some of the voice packets that

were corrupted or lost to be recovered. FEC adds an additional 50% overhead to the

total network bandwidth consumed by the voice channel.

21.

The Billing/Misc tab displays the parameters for auto call, automatic disconnection,

billing options, and dynamic jitter buffer.

If you want to dedicate a local voice/fax channel to a remote voice/fax channel (so you

will not have to dial the remote channel number), click the Auto Call Enable option in the

Auto Call group. Then enter the phone number of the remote channel in the Phone

Number box.

22.

The Automatic Disconnection group provides three options to be used singly or in

combination.

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The Jitter Value defines the average inter-arrival packet deviation (in milliseconds)

before the call is automatically disconnected. Jitter is the inter-arrival packet deviation

(phase shift of digital pulses) over the transmission medium that causes voice breakup

which can be particularly disruptive to voice communications. The default is 20

milliseconds. A higher value means that the voice transmission will be more accepting of

jitter. A lower value will be less tolerant of jitter.

Consecutive Packets Lost defines the number of consecutive packets that are lost after

which the call is automatically disconnected. The default setting is 30.

Call Duration defines the maximum length of time (in seconds) that a call remains

connected before the call is automatically disconnected. The default setting is 180

seconds. A call limit of three minutes may be too short for most configurations.

Therefore, you may want to increase this default value.

23.

24.

You can set billing options for inbound and/or outbound calls by checking them in the

Billing Options group and then entering the charge in cents per number of seconds.

A minimum and maximum set of values can be set for Dynamic Jitter Buffer. When

receiving voice packets from a remote MVP120, it is possible to experience varying

delays between packets due to traffic conditions on the network. This is called Jitter. To

compensate for this effect, the MVP120 uses a Dynamic Jitter Buffer. The Jitter Buffer

allows the MVP120 to wait for delayed voice packets by automatically adjusting the

length of the Jitter Buffer between configurable minimum and maximum values. An

Optimization Factor adjustment controls how quickly the length of the Jitter Buffer is

increased when jitter increases on the network. The length of the jitter buffer directly

effects the voice delay between MVP120 gateways.

The Minimum Jitter Value default setting is 150 milliseconds, the Maximum Jitter Value

default setting is 300 milliseconds, and the Optimization Factor default setting is 7.

If your country/region is not the default USA, click the Regional tab and proceed to step

25; otherwise, click OK and proceed to step 26 to begin building your phone directory

database.

25.

To change the Tone Pairs on the Regional tab, select your country or region from the

Country/Region list. If your country or region is not listed, click Custom to define it.

The Tone Pairs group enables you to select and modify the parameters. Click OK when

finished. Proceed to Step 26 to begin building your phone directory database.

26.

The Phone Directory Database dialog box displays with the Proprietary PhoneBook

option enabled and no phone numbers entries displayed in the database. This dialog box

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enables you to select either the GateKeeper or Proprietary PhoneBook. Once you have

choosen the type of Phone Book database, you can proceed to registering with a

Gatekeeper in the following section (entitled, Registering with a Gatekeeper Phone

Directory).

If you are building a proprietary phone book, proceed to page 31. On page 31 the

Building a Proprietary Phonebook Directory section starts with Step 27. It is a

continuation of Step 26 on this page.

Registering with a Gatekeeper Phone Directory

This section describes how to register H.323 endpoints with the Gatekeeper. The H.323

Gatekeeper function resides at a PC acting as the central point for all calls within its zone and

providing call control services to registered endpoints. The Gatekeeper performs two important call

control functions: address translation from LAN aliases to IP addresses, and bandwidth

management where the network manager has specified a threshold for the number of

simultaneous conferences on the LAN.

In a GateKeeper environment, you will be enabling the GateKeeper option, entering an IP address

for the GateKeeper, accepting the default port number, and if the GateKeeper network is servicing

Fast Start, accept the defaults in the Q.931 Parameters group. However, if this network zone is

primarily non-fast start supported, disable Use Fast Start.

27.

28.

Enable the Gatekeeper option

If the GateKeeper network employs Fast Start, then accept the Use Fast Start option

(default). You may have to verify this with the GateKeeper administrator.

29.

Enter the Gatekeeper IP Address in the IP Address box.

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30.

31.

Accept the default Port Number 1719.

CAUTION: The default setting for the Gatekeeper Port Number is 1719. This can be

changed to a different value by the Gatekeeper administrator. If you decide to change the

default Port Number, you must use the same number on the Gatekeeper and all other

H.323 endpoints.

When you are finished with this dialog box, click Add to begin building your phone directory

database. The Add/Edit Phone Entry dialog box displays.

32.

33.

34.

Enter the unique phone number of the local device in the Phone Number box.

Leave the Description box blank.

Enter the Voice Channel number corresponding to the phone number entered. MVP120

will always be Channel 1.

35.

36.

Fill in the H.323 ID / alias box with a description to identify the phone number. For this

example, you could enter “New York Office”.

Enter the IP Address of the MultiVOIP you are currently configuring in the IP Address box.

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37.

Click OK when you are finished and the Phone Directory Database dialog box displays

with the first entry in the window.

38.

39.

Click OK.

The following dialog box displays.

Click OK to download default setup.

40.

41.

After the setup has been written to the MVP120, the unit is rebooted.

Verify that the BOOT LED on the MVP120 is off after the download completes. This may

take several minutes as the MVP120 reboots.

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Building a Proprietary Phonebook Directory

Note: This section starts at Step 27 as it is a continuation from Step 26 on pages 27-28.

27.

To build your proprietary MVP120 Phone Directory (in an H.323 environment without the

Gatekeeper option enabled), you will first need to select the Proprietary Phonebook

option and then configure the “Master” MVP120 and then the “Slave” MVP120s (or other

H.323 endpoints). Configuring the “Slave” MVP120 is discussed later in this chapter.

The MultiVOIP configured as Master contain the proprietary phonebook database. All

ohter MultiVOIPs added to the proprietary phonebook database are designated Slaves.

The master database contains the phone numbers of all H.323 endpoints available for

communication on an IP network. This database is downloaded to each Slave MultiVOIP

as it comes online.

28.

To configure the “Master” MVP120, make certain that the Proprietary Phonebook and

Master options are enabled. The Slave option, Master IP Address, and Send Status

Report to Master will be disabled. The Slave Status button displays the Slave VOIP

Status dialog box used for viewing phone number, IP address, status, and description of

slave units (See “Configuring Your Slave MVP120s” for details). Note: In the Q.931

Parameters group, Use Fast Start is checked for compatibility with other H.323 devices

that support Fast Start Capability.

Click Add to begin building your phone directory database. The Add/Edit Phone Entry

dialog box displays.

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29.

30.

Enter a unique phone number for the local VOIP in the Phone Number box and enter 1 for

the Voice/Fax channel in the Voice Channel box. This number must be 1 for each MVP120.

Note: MVP120 and MVP110 will only have one entry and will be Channel 1.

The Description box is optional, but can be useful in associating the channel to the

extension. If you wish, enter a description of your local phone number. This description

serves to identify the phone number you entered in the previous step. Normally the “Master”

MVP120 resides at the entity’s main office; therefore, for this example you could enter a

description such as “New York Office”).

31.

The Station Identification group includes a Hunt Group list. This list enables you to

indicate which Hunt Group you want the phone number to be associated with; or, you can

select NO HUNT if you don’t want this entry to participate in hunting. Hunting is a series of

telephone lines organized in such a way that if the first line is busy the next line is hunted and

so on until a free line is found. For this example, assign the phone entry to HUNT GROUP

#1.

Once you have assigned this entry to a Hunt Group (or NO HUNT), you must enter the IP

Address of the Master MVP120 in the IP Address box.

Note: The Port box becomes active as you begin to enter the IP Address. The entry is the

H.323 industry standard Port value (1720) used to communicate with other H.323 endpoints.

32.

Click OK to return to the Phone Directory Database dialog box. It now includes phone

number, destination details, and description.

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33.

Add all other phone numbers (slave units and standalone units) to the Phone Directory

database. To add a channel of a slave MultiVOIP, click Add and the Add/Edit Phone Entry

dialog box displays.

34.

35.

36.

Enter the phone number for the MultiVOIP in the Station Information group Phone Number

box.

Click inside the Description box and enter a description for the remote MultiVOIP phone

number for the Voice/Fax Channel.

In the Station Identification group, select HUNT GROUP #2 from the Hunt Group list, enter

the London Office’s IP Address (202.056.039.100), and accept the H.323 industry standard

Port value (1720) used to communicate with other H.323 endpoints.

37.

Click OK and you are returned to the Phone Directory Database dialog box which now

includes the second number and related information in the Phone Number list.

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38.

39.

40.

To configure a stand-alone endpoint (a PC with NetMeeting software), click Add and the

Add/Edit Phone Entry dialog box displays again.

Enter the phone number for the stand-alone endpoint in the Station Information group

Phone Number box. For example, 301.

Click inside the Description box and enter a description for the remote stand-alone phone

number. For example, “Human Resources Desk”.

Note: Because the H.323 endpoint is not a MVP120, the Phone Directory database ignores

the Voice Channel entry. Set the Channel to 1.

41.

In the Station Identification group, select NO HUNT from the Hunt Group list, enter the

Human Resource Desk’s IP Address and accept the H.323 industry standard Port value

(1720) used to communicate with other H.323 endpoints.

Note: This stand-alone was not configured as part of a Hunt Group. However, depending on

your requirements, you could configure a stand-alone to be part of a Hunt Group.

42.

Click OK and you are returned to the Phone Directory Database dialog box which now

includes the stand-alone phone number and related information in the Phone Number list.

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43.

When you have finished, click OK to download the setup configuration to the

MVP120.

44.

45.

Click OK. After the setup is written to the MVP120, the unit reboots.

Verify that the BOOT LED on the MVP120 is off after the download is complete. This

may take several minutes as the MVP120 reboots.

At this time your master MVP120 is configured. Proceed to the “Configuring Your

Slave MVP120s” section.

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Chapter 5 - Configuring the Slave MultiVOIPs

If the Proprietary Phonebook option on the Phone Directory Database dialog box was

enabled, then you will need to configure all remote H.323 endpoints as “Slave” units. For

example, the MVP120 at the company’s subsidiary office in London would need to be

configured as a “Slave.”

CAUTION: If you are installing a MVP120 behind a Firewall, the Firewall must support H.323.

Refer to your Firewall user documentation to enable H.323 support.

Disconnect the PC from the Command port of the Master MVP120 and connect it to

the Command port on the Slave MVP120.

From your desktop, click Programs I MultiVOIP 100 I MultiVOIP Configuration. The

Main menu displays.

Click IP to display the IP Setup dialog box.

Select the Enable Diffserv box if you have routers that support Diffserv (sometimes

called IP Precedence). This feature gives priority to voice packets so they are not

delayed because of large data files being downloaded.

The default Frame Type is TYPE_II. If this does not match your IP network, select the

Frame Type from the Frame Type list. The Frame Type choices are TYPE_II and

SNAP.

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In the Port Address group, enter the IP Address and IP Mask. In the Gateway Address

group, enter the gateway IP address for the slave unit.

The IP Address is the unique IP address that you assign to the MVP120, and the Gateway

Address is the IP address of the device (such as a network router) connected to the Internet/

Intranet.

Click OK when you are finished. The Main menu displays.

From the Main menu, click Voice Channels to display the Channel Setup dialog box. The

Channel Setup dialog box displays. The four tabs in this dialog box define the channel

interface, voice/fax parameters, Billing/Misc parameters, and regional telephone parameters

for the channel.

Check with your in-house telephone personnel to verify whether your local PBX dial signaling

is Pulse or DTMF (tone). Select the Regeneration option accordingly.

The Inter Digit Time option defines the maximum amount of time that the unit will wait before

mapping the dialed digits to an entry in the Phone Directory Database. If too much time

elapses between digits, and the wrong numbers are mapped, you will hear a rapid busy

signal. If this happens, it will be necessary to hang up and dial again. The default is 2

seconds. In the Flash Timer box, enter the time, in milliseconds, for the duration of flash

hook signals output on the interface.

The Message Waiting Light check box must be selected on the originating and answering

voice channel. This enables the number dialed to connect you to the appropriate voice

channel, then output that number on the voice channel. This feature does not work FXS to

FXS.

The Ring Count FXO box enables you to set the maximum number of rings output on the

FXO interface before hanging up and releasing the line to another call. The default setting is

2 rings.

Note: Zero (0) means no incoming calls will be answered.

For FXO-to-FXO communications, you can enable a specific kind of FXO Disconnect

Options: Current Loss, Tone Detection, or Silence Detection. Check with your in-house

phone personnel to verify the type of disconnect to use. If current loss is checked, the VOIP

will hang up when it detects a loss of current on the FXO (phone) port. For tone detection,

select from the lists one or two tones that will cause the line to disconnect. The person

hanging up the call must then press the key or keys that produce those tones to hang up a

call. For silence detection, select One Way or Two Way, then set the timer for the number

of seconds of silence before disconnect. The default value of 15 seconds may be shorter

than desired for your application.

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The Voice/Fax tab displays the parameters for the voice gain, DTMF (Dual Tone Multi-

Frequency) gain, voice coder, faxing, and advanced features such as Silence Compression,

Echo Cancellation, and Forward Error Correction.

Input gain modifies the level of the audio coming in to the voice channel before it is sent over

the Internet to the remote MVP120. Output gain modifies the level of the audio being output

to the device attached to the voice channel. Make your selections from the Input and Output

lists. The valid range is +31dB to –31dB with a recommended/default value of 0.

You can also set up the DTMF Gain (or output level in decibels - dB) for the higher and lower

frequency groups of the DTMF tone pair. Make your selections in the lists in the DTMF Gain

group.

The DTMF Out of Band check box is selected so the MVP120 will reproduce the DTMF

tones rather than passing them through with voice. When this option is checked the DTMF is

sent via RTP packets.

Note: Only change the DTMF Gain under direction os Multi-Tech Technical Support.

To change the voice coder, select the Manual in the Coder group. Select the appropriate

coder from the Selected Coder list.

If you changed the voice coder, ensure that the same voice coder is used on the voice/fax

channel you are calling. Otherwise, you will always get a busy signal.

10.

The Fax group enables you to send/receive faxes. You can set the maximum baud rate for

faxes and the fax volume in the two lists and change the jitter value in milliseconds.

When receiving fax packets from a remote MVP120, it is possible for individual packets to be

delayed or received out of order due to traffic conditions on the network. To compensate for

this effect, the MVP120 uses a Jitter Buffer. The Jitter Value box allows the MVP120 to wait

a user-definable period of time, in milliseconds, for delayed or out of order fax packets. The

range of allowable Jitter Values is 0 to 400 with a default of 400 milliseconds.

If you do not plan to send or receive faxes on a given voice/fax channel, you can disable

faxes in the Fax group.

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11.

You can enable the voice/fax advanced features by clicking (checking) the silence

compression, echo cancellation, or forward error correction options.

Silence Compression - Defines whether silence compression is enabled for the voice

channel. If silence compression is enabled, the MVP120 will not transmit voice packets when

silence is detected, thereby reducing the amount of network bandwidth that is being used by

the voice channel.

Echo Cancellation - Defines whether echo cancellation is enabled for this voice channel. If

echo cancellation is enabled, the MVP120 will remove echo-delay which improves the quality

of sound.

Forward Error Correction (FEC) - Defines whether forward error correction is enabled

(checked) for this voice channel. The FEC feature allows some of the voice packets that

were corrupted (or lost) to be recovered. FEC adds an additional 50% overhead to the total

network bandwidth consumed by the voice channel.

The Billing/Misc tab displays the parameters for auto call, automatic disconnection, billing

options and dynamic jitter buffer.

12.

13.

If you want to dedicate a local voice/fax channel to a remote voice/fax channel (so you will

not have to dial the remote channel), click the Auto Call Enable option in the Auto Call

group. Then enter the phone number of the remote MVP120 in the Phone Number box.

The Automatic Disconnection group provides three options to be used singly or in

combination.

The Jitter Value defines the average inter-arrival packet deviation (in milliseconds) before

the call is automatically disconnected. Jitter is the inter-arrival packet deviation (phase shift of

digital pulses) over the transmission medium that causes voice breakup which can be

particularly disruptive to voice communications. The default setting is 20 milliseconds. A

higher value means that the voice transmission will be more accepting of jitter. A lower value

will be less tolerant of jitter.

Consecutive Packets Lost defines the number of consecutive packets that are lost after

which the call is automatically disconnected. The default setting is 30 packets.

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Call Duration defines the maximum length of time (in seconds) that a call remains

connected before the call is automatically disconnected. The default setting is 180 seconds.

A call limit of three minutes may be too short for most configurations. Therefore, you may

want to increase this default value.

14.

15.

You can set billing options for inbound and/or outbound calls by selecting them in the Billing

Options group and then entering the charge in cents per number of seconds.

A minimum and maximum set of values can be set for Dynamic Jitter Buffer. When

receiving voice packets from a remote MVP120, it is possible to experience varying delays

between packets due to traffic conditions on the network. This is called Jitter. To compensate

for this effect, the MVP120 uses a Dynamic Jitter Buffer. The Jitter Buffer allows the MVP120

to wait for delayed voice packets by automatically adjusting the length of the Jitter Buffer

between configurable minimum and maximum values. An Optimization Factor adjustment

controls how quickly the length of the Jitter Buffer is increased when jitter increases on the

network. The length of the jitter buffer directly effects the voice delay between MVP120

gateways.

The Minimum Jitter Value default setting is 150 milliseconds, the Maximum Jitter Value

default setting is 300 milliseconds, and the Optimization Factor default setting is 7.

16.

To change the Tone Pairs on the Regional tab, select your country or region from the

Country/Region list.

Note: If your country or region is not listed, click Custom to define it.

The Tone Pairs group enables you to select/modify the parameters according to choice.

Click OK when finished.

17.

From the Main menu, click Phone Book to display the Phone Directory Database dialog

box. Make certain the Proprietary Phonebook option is enabled and in the Database Type

group, click the Slave option. The Master IP Address field becomes active.

Note: Refer to pages 28-30 if you had chosen Gatekeeper as the type of phone book

database during the master phone book setup.

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Note: After you have enabled the Slave option, the Slave Status button is replaced by the

Update button. Once your Phone Directory database has been established, you can click

this button to refresh the entries in the Phone Directory Database window.

18.

Enter the IP address (204.022.122.118) of the New York Office MVP120 in the Master IP

Address box and enable the Send Status Report to Master so that status reports are sent

to the Master MVP120.

Note: In a Dial-On-Demand (DOD) network, you should leave Send Status Report to

Master disabled. This allows the router to disconnect whenever there is no voice activity.

Note that Slaves with Send Status Report to Master disabled will show up as “Unknown”

when viewing Slave status on the Master.

19.

20.

Click OK to return to the Main menu.

Click Download Setup to write the new configuration to the slave unit. The Save Setup

dialog box displays.

21.

22.

23.

Select the Save Current Setup as User Default Configuration check box and click OK.

The Writing Setup dialog box displays as the setup configuration is written to the MVP120.

Check that the Boot LED on the MVP120 is off after the download is complete. This may

take several minutes as the MVP120 reboots.

You are returned to the Main menu.

Your MVP120 is operational at this time. Repeat the process for each of the slave units. When all

slaves have been configured, go to “Deploying the VOIP Network”.

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Deploying the VOIP Network

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Chapter 6 - Deploying the VOIP Network

For a Proprietary Phone Directory database, the VOIP administrator can deploy the pre-

configured slave MVP120s to their remote sites. The remote site administrators need only

connect power to the pre-configured MVP120, connect the MVP120 to the Ethernet LAN and

predefined telephone equipment, and then wait for the phone directory database to be

downloaded.

With the Gatekeeper option enabled on the Phone Directory Database dialog box, all MVP120s

are configured as Gatekeeper and cannot be downloaded. In this case, each MVP120 Phone

Book will be programmed with phone numbers for its own channel. The phone number is

registered with the H.323 Gatekeeper. See the “Registering with a Gatekeeper Phone Directory”

section discussed earlier.

Remote Site Administrator

The following steps are for MVP120 H.323 endpoints. For non-MVP120 H.323 endpoints, refer to

the appropriate installation documentation.

Connect one end of the power supply to a live AC outlet and connect the other end to the

Power connection on your MVP120 (See Figure 5).

Voice/Fax Channel

Connection

P H O N E

FXO

ETHERNET

POWER

X F O

P S T N

Power Connection

Ethernet Connection

Remote Site Cable Connection

Connect a network cable to the ETHERNET (RJ-45) connector on the back of your

MVP120.

If you are connecting an FXO / PBX port or PSTN to your MVP120, connect one end of

an RJ-11 cable to the Phone connector on the back of the MVP120 and the other end to

the FXO or PSTN.

Turn on power to the MVP120 by placing the ON/OFF switch on the right side panel in

the ON position. Wait for the BOOT LED on the MVP120 to go off before proceeding.

This may take a couple of minutes.

At this time your VOIP network should be fully operational. Dial one of the sites in your

network.

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100

Voice / Fax over IP Networks

Chapter 7

Using the MultiVOIP Software

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This chapter describes various features of the MVP120 software that enable you to change

the configuration of your MVP120. The default configuration parameters were entered during

the loading of the software. The MVP120 software and configuration utilities described in this

chapter enable you to change that initial configuration as necessary.

The primary interface to the MVP120 software is the Main menu (MultiVOIP 100 Setup is on

the title bar) with individual buttons that enable you to quickly and easily select a desired

function. These features are discussed in detail in the MVP120 Configuration section later in

this chapter.

The MVP120 Configuration (Main menu) utility along with nine other configuration utilities

provide full software functionality for your MVP120.

Configuration Port Setup enables you to change the method by which you access the

MVP120, whether through a direct connection from a PC to the Command Port on the

MVP120 or via your Internet or LAN connection to the LAN port on the MVP120.

Date and Time Setup enables you to easily set the date and time used for data logging in

the MVP120.

Download Factory Defaults enables you to return the configuration to the original factory

settings.

Download Firmware enables you to download new versions of firmware as

enhancements become available.

Download User Defaults enables you to repeat the download user defaults process (part

of software installation) and update the MVP120 configuration with any necessary

changes.

Download Voice Coders enables you to download voice coders to the MVP120 after

repair or upgrade.

Download H.323 Stack enables you to download the H.323 protocols to the MVP120

after repair or upgrade.

Uninstall MVP120 Configuration removes most of the MVP120 software from your PC.

Upgrade Software downloads boot code, factory defaults, firmware, voice coders, and

H.323 stack; and then reboots the MVP120.

The MVP120 software includes a context-sensitive Help system. Clicking a Help [ ? ] button

anywhere in the graphical user interface (GUI) will display definitions and recommended

values for the buttons, options, and fields on that dialog box or menu. Clicking the green

underlined text in the Helps displays a popup box of related supplementary information for that

topic. Clicking the Search button (just below the Help menu bar) displays an Index tab with a

list of entries. Click an entry, then click the Display button to display the text associated with

that topic.

Before You Begin

The MVP120 software operates in a Microsoft Windows environment. The MVP120 program

group contains icons for all the utilities described above. You can open the individual utility

programs by clicking Start | Programs | MultiVOIP 100 | (utility).

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MVP120 Configuration

The MVP120 Setup menu consists of 10 buttons, an Events window in the middle of the

menu, and a status bar at the bottom of the menu. The 10 buttons allow you to display and

change the voice channels and IP protocol parameters, display and manage the Phone Book

listing, view statistics and call progress, and change features such as SNMP Agent, Telnet

Server, WEB Server, and assign a MVP120 password.

The Events window in the lower third of the Setup menu provides information about the boot

process.

The status bar at the bottom of the Setup menu displays the current status of the unit and

shows, for example, if it is Running, the most recent date the unit was configured, the type of

connection you have to the unit, and your rights. It shows if your PC is connected directly to

the command port of the MVP120 or is communicating with the Ethernet port. The Rights

box which displays whether you have Read/Write or Read-Only rights. The first user to

communicate with the MVP120 command port has Read/Write rights that enable the user to

view and/or change the configuration of the MVP120. Any additional simultaneous users

have Read-Only rights and can only display the configuration of the MVP120 but are

prohibited from changing the configuration.

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Changing Channel Parameters

The channel parameters include the interface type and its options, voice and fax settings,

billing and security, and voice communications for the country and region in which the

MVP120 is operating. The Channel Setup dialog box, accessed by clicking Voice Channels

on the Setup menu, has four tabs that display the following categories of channel information

-- Interface, Voice/Fax, Billing/Misc, and Regional.

Interface Tab

Check with your in-house telephone personnel to verify whether your local PBX dial signaling

is Pulse or DTMF (tone). Select the Regeneration option accordingly.

In the Inter Digit Time box, enter the maximum amount of time between dialed digits in

milliseconds that the unit will wait before mapping the dialed digits to an entry in the Phone

Directory Database. If too much time elapses between digits, the wrong numbers will be

mapped and you will hear a rapid busy signal. If this happens, hang up and dial again. The

default setting is 2 seconds.

In the Flash Hook Timer box, enter the amount of time the duration of flash hook signals

output on the interface. The default setting is 600 milliseconds.

The Ring Count FXO box enables you to set the maximum number of rings output on the

FXO interface before hanging up and releasing the line to another call. The default setting is

2 rings.

Note: Zero (0) means no incoming calls will be answered.

The Message Waiting Light check box must be selected on the originating and answering

voice channel. This enables the number dialed to connect you to the appropriate voice

channel, then output that number on the voice channel.

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For FXO-to-FXO communications, you can enable a specific kind of FXO Disconnect Options:

Current Loss, Tone Detection, or Silence Detection. Check with your in-house phone

personnel to verify the type of disconnect to use. If current lossis checked, the VOIP will hang up

when it detects a loss of current on the FXO (phone) port. For tone detection, select from the

lists one or two tones that will cause the line to disconnect. The person hanging up the call must

then press the key or keys that produce those tones to hang up a call. For silence detection,

select One Way or Two Way, then set the timer for the number of seconds of silence before

disconnect. The default value of 15 seconds may be shorter than desired for your application.

Voice/Fax Tab

The Voice/Fax tab controls voice and DTMF gain, voice coder, fax settings, and advanced

options.

In the Voice Gain group you can select the Input and Output voice gain. Gain is the increased

signaling power that occurs as the signal is boosted by the MVP120. The Input Gain list defines

the input gain for this voice channel. Before your MVP120 digitizes voice, the volume can be

increased or decreased. Input gain modifies the level of the audio coming into the voice channel

before it is sent over the Internet to the remote MVP120. The valid range for this option is +31dB

to –31dB. The recommended and default value is 0. The Output Gain list defines the voice

output gain for this voice channel. Before your MVP120 converts digital voice back to analog, the

volume can be increased or decreased. The output gain modifies the level of the audio being

output to the device attached to the voice channel. The valid range for this option is +31dB to –

31dB. The recommended and default value is 0.

The DTMF Gain (Dual Tone Multi-Frequency) group controls the volume level of the digital tones

sent out for Touchtone dialing. The Gain High and Gain Low lists control the gain in dB

(decibels) of the High and Low tones in the tone pairs. The default gain values are -4 dB and -7

dB, respectively. DTMF Gain should not be changed except under supervision of MultiTech’s

Technical Support.

The DTMF Out of Band check box is selected so the MVP120 will reproduce the DTMF tones

rather than passing them through with voice. When this option is checked the DTMF is sent via

RTP packets.

The MVP120 supports many state-of-the art ITU (International Telecommunications Union) voice

coders. The Voice Coder list enables you to select from a range of coders with specific

bandwidths. The higher the bps rate, the more bandwidth is used. The channel that you are

calling has to have the same voice coder selected. Otherwise, you will always get a Busy signal.

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The Fax group enables a fax machine to transmit and receive faxes through the MVP120. If a

fax machine is connected to the via PBX port or PTSN, the Max Baud Rate should be set to

match the baud rate of the fax machine (refer to user documentation). The Fax Volume setting

controls the output level of the fax tones, and this setting should be changed only under the

direction of Multi-Tech’s Technical Support personnel. The Jitter Value setting defines the inter-

arrival packet deviation (in milliseconds) for the fax transmission. A higher value will increase

the amount of delay (allowing for a higher percentage of packets to be reassembled) and a

lower value would decrease the amount of delay (a lower percentage of packets would be

reassembled).

The Advanced Features group allows you to enable Silence Compression so that a MVP120

will not transmit voice packets when silence is detected, thereby reducing the amount of

network bandwidth that is being used by the voice channel; Echo Cancellation for the voice

channel will remove echo and improve the quality of sound; and, Forward Error Correction

allowing some of the voice packets that were corrupted (or lost) to be recovered. FEC adds an

additional 50% overhead to the total network bandwidth consumed by the voice channel.

Billing/Misc Tab

This tab controls the parameters for auto call, automatic disconnection, billing options, and

dynamic jitter buffer.

The Auto Call option allows the local MVP120 to call a remote MVP120 without the user

having to dial a Phone Directory Database number. As soon as you access the local MVP120

voice/fax channel, the MVP120 immediately connects to the remote MVP120 that you identified

in the Remote MVP120 Phone Number field of this option.

The Automatic Disconnection group provides three options which can be used singly or in

any combination. The Jitter Value defines the average inter-arrival packet deviation (in

milliseconds) before the call is automatically disconnected.The default is 20 milliseconds. A

higher value means voice transmission will be more accepting of jitter. A lower value is less

tolerant of jitter.

Consecutive Packets Lost defines the number of consecutive packets that are lost after

which the call is automatically disconnected. The default is 30 packets.

Call Duration defines the maximum length of time (in seconds) that a call remains connected

before the call is automatically disconnected. The default is 180 seconds. A call limit of three

minutes may be too short for most configurations. Therefore, you may want to increase this

default value.

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Billing Options can be used to track the cost of Inbound and/or Outbound calls on the FXO

interface. The amount to be charged in cents is entered in the Charge ( ) Cents box together

with the associated time duration in the Per ( ) Seconds box. While a given call is active, the

accumulated charges can then be viewed on the Call Progress dialog box. When the call ends,

the charges are transferred to a Log File that can be viewed by selecting the call event in the Log

Entries dialog box and selecting Details.

Dynamic Jitter Buffer defines a minimum and a maximum jitter value for voice communications.

When receiving voice packets from a remote MVP120, it is possible to experience varying delays

between packets due to traffic conditions on the network. This is called Jitter. To compensate for

this effect, the MVP120 uses a Dynamic Jitter Buffer. The Jitter Buffer allows the MVP120 to wait

for delayed voice packets by automatically adjusting the length of the Jitter Buffer between

configurable minimum and maximum values. An Optimization Factor adjustment controls how

quickly the length of the Jitter Buffer is increased when jitter increases on the network. The length

of the jitter buffer directly effects the voice delay between MVP120 gateways.

The default minimum dynamic jitter buffer of 150 milliseconds is the minimum delay that would be

acceptable over a low jitter network. The default maximum dynamic jitter buffer of 300

milliseconds is the maximum delay tolerable over a high jitter network.

The Optimization Factor determines how quickly the length of the Dynamic Jitter Buffer is

changed based on actual jitter encountered on the network. Selecting the minimum value of 0

means low voice delay is desired, but increases the possibility of jitter induced voice quality

problems. Selecting the maximum value of 12 means highest voice quality under jitter conditions

is desired at the cost of increased voice delay.

The Optimization Factor can be configured in the range of 0 to 12 with a default setting of 7.

Regional Tab

The Regional tab controls the voice communications for the country or region in which the

MVP120 is being used.

From the Country/Region list, select the country or region for which you are configuring the

MVP120. The Tone Pairs group always displays the tones used in the country or region currently

selected. In addition to Australia, Central America, Chile, Europe, France, Japan, UK, and USA,

there is a Custom selection (with defaults identical to USA) . Clicking the Custom button

enables you to edit the Tone Pairs and establish custom sets of tone pairs for Dial Tone, Ring,

and Busy on a Custom Tone Pair Settings dialog box.

The Pulse Generation Ratio group contains two ratios: the 60/40 is for the USA, and the 67/33

ratio is for international applications.

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Changing the Phone Directory Database

The MultiVOIP provides two phone directory database architectures; the propreitary database

and a database using an H.323 protocol gatekeeper that provides a centralized call control

center. The gatekeeper centralized call control center contains the phone directory database

when all VOIP gateways and endpoints support the H.323 protocol. The proprietary database is

based on a master and slave relationship in which the master VOIP maintains the phone

directory database and distributes it to its slave VOIPs. The centralized call center handles call

control, call routing, address translation from LAN aliases to IP addresses, and bandwidth

management. The H.323 protocol allows other third party gateways and end points that support

the H.323 protocol standards to participate in the VOIP network (e.g., Microsoft NetMetting®).

The database displays the phone numbers in numerical order with destination details (IP Address

or H323 ID \ alias), channel assignment, and a brief description of the entry. The method for

changing the phone directory database is dependent on whether the Gatekeeper option or the

Proprietary Phonebook option is enabled.

If the GateKeeper option is enabled, the RAS Parameters group is enabled and the IP address

of the GateKeeper needs to be enterred in the IP Address window. The Port Number is the port

on the GateKeeper which it communicates with its endpoints. The Q.931 Parameters group is

enabled in both the GateKeeper and Proprietary Phone Book Database architectures. The Use

Fast Start option is used when the VOIP network supports Fast Start capability.

In the GateKeeper phone directory database, the phone directory database is developed through

the Add/Edit Phone Entry dialog box. The Add/Edit Phone Entry dialog box defines the Station

Information, phone number and voice channel of the unit, and station identification, H323 ID /

alias which defines the LAN alias and the IP address of the local unit. In the GateKeeper phone

directory database, only the phone entry of the local unit displays.

If the Proprietary PhoneBook option is enabled, the Database Type group is active which

defines the Master and Slave relationship. If the database type is master, then the Add, Delete,

Edit, Hunt, and Print buttons at the top of the database dialog box are active. This allows the

master database to build the phone directory. You can click Slave Status to view the status of

the slave units.

The Add/Edit Phone Entry dialog box for the Proprietary PhoneBook is used to add, delete, and

edit entries. This information displays in the Phone Directory Database dialog box.

If the database type is set to slave, then the IP address of the master MultiVOIP needs to be

entered in the Master IP Address window, the Send Status Report to Master option can be

enabled, and all the buttons at the top of the directory database dialog box become inactive,

except for the Print button.

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Proprietary Phone Directory Database

In the Proprietary Phone Directory Database, you can add, delete, or edit any entry in the

phone directory database and you can set up Hunt groups that locate another phone number

if the called number is busy. You can print the phone directory database so that you have a

hardcopy of the phone directory.

To add an entry to the Phone Directory database, click Add and the Add/Edit Phone Entry

dialog box displays.

The Add/Edit Phone Entry dialog box contains two groups of information: the Station

Information which contains the phone number, an optional description window, and the

voice channel number. The Station Identification group contains the Hunt Group listing

and the IP Address window for the IP Address of the MultiVOIP assigned the phone number.

The Port number is not used in the proprietary phone book.

The Station Information identifies the calling unit by the phone number and voice channel of

the unit doing the calling. The Phone Number does not have to be a conventional telephone

number. It can be, for example, a three digit number like 101.

The Description is similar to a local telephone book listing. It identifies the calling party. The

voice channel window defines the voice channel associated with the phone number.

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The Station Identification group enables you to assign the entry to a Hunt Group, provide

the IP Address of the MultiVOIP being assigned the phone number, and accept the H.323

industry standard Port number. A Hunt Group is a series of telephone lines organized in such

a way that if the first line is busy the next line is hunted and so on until a free line is found. It

is a set of links which provides a common resource and which is assigned a single hunt

group designation. A user requesting that designation may then be connected to any member

of the Hunt Group.

You can view the details of the current Hunt Group configuration by clicking the Phone

Directory Database’s Hunt button. The current Phone numbers for HUNT GROUP #1 are

displayed.

Select the Hunt Group you wish to view. The Phone no’s window displays the telephone

numbers associated with that Hunt Group and the No. of Entries field displays the running

total of entries.

Note: You can change the name of the Hunt Group by clicking on the entry that you want to

change, editing the change in the Hunt Group name window, and then clicking the Set button.

Click Slave Status on the Phone Directory Database dialog box to view the status of all the

slave units in your VOIP network (Send Status Report to Master must be enabled on the

Slave). The Phone Number of each Slave displays with its IP Address, current line status,

and the description of the phone number.

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Gatekeeper Phone Directory Database

With the Gatekeeper Phone Directory Database, the Gatekeeper acts as the central point

for all calls within its zone and provides call control services to registered endpoints. The

Gatekeeper performs address translation from LAN aliases to IP addresses and provides

bandwidth management where the network manager has specified a threshold for the number

of simultaneous calls on the LAN. The H.323 ID is an alias. The Gatekeeper may use other

information as an alias such as a URL or an e-mail address.

When the Gatekeeper Phone Directory Database option is enabled, the RAS Parameters

group is enabled with the IP address of the Gatekeeper displayed in the IP Address box. The

Port Number is the port of the endpoint communicating with the Gatekeeper. If this number is

changed, it should only be changed with consultation with Gatekeeper administrator. The port

numbers have to match with the Gatekeeper.

If the H.323 Gatekeeper network supports Q.931 Fast Start servicing, then the Use Fast Start

option on all endpoints should be enabled. The Call Signalling Port of 1720 is the port on the

MultiVOIP unit supporting the Q.931 parameters.

The Phone Directory Database in a H.323 Gatekeeper network only displays the station

information and station identification of the local unit. The station information and identification

must be entered in conjunction with the Gatekeeper administrator so that the identification of

the endpoint is the same. To add an entry to the Database, click Add. The Add/Edit Phone

Entry dialog box displays.

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The Add/Edit Phone Entry dialog box contains two groups of information: 1. Station

Information which contains the phone number, description window which can be left blank,

and the voice channel number. Station Identification group contains the H.323 ID and the IP

Address window for the IP Address of the MultiVOIP assigned the phone number, and the

Port number of the MultiVOIP unit communicating with the Gatekeeper. This port number has

to match the port number pair used by the Gatekeeper. If the port number on either end is

changed, communication between endpoint and the Gatekeeper is lost.

The Station Information identifies the calling unit by the phone number, and voice channel

of the unit doing the calling. The Phone Number does not have to be a conventional

telephone number. It can be a three digit number such as 101. The Description box and the

H323 ID/alias box may contain the same information. It is recommended that the

Description box be left blank and the identifying information be enterred in the H323 ID/alias

window. The voice channel box defines the voice channel associated with the phone number.

The Station Identification group allows you to define the MultiVOIP unit by entering the

H323 ID/alias which can be the same, as for example, your name in your local telephone

book listing. The Gatekeeper associates the H323 ID/alias with the address of the local unit

in the IP Address window. The Port number 1720 is the port of the MultiVOIP communicating

with the Gatekeeper.

The Station Information and Identification of the MultiVOIP unit have to be identical to the

information used by the Gatekeeper in order for the MultiVOIP unit to be registered with the

Gatekeeper. The Gatekeeper can allow an open registration or a secure registration in which

the endpoints are pre-defined by the Gatekeeper. The registration method is determined by

the Gatekeeper administrator and will require communication with each endpoint in order to

develop the H.323 compatible network.

The Phone Directory Database for the local unit holds the local phone numbers, destination

details of the IP address, port number, and channel number of the local unit. The description

is the same as the entry in the H323 ID entry in the Add/Edit Phone Entry dialog box.

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Changing IP Parameters

The IP Setup dialog box establishes the IP address for the local Ethernet LAN and defines the

Internet gateway address. The IP Setup dialog box is accessed by clicking IP on the MVP120

Main menu.

With IP Setup dialog box displayed you can change the status of Diffserv, the Ethernet Frame

Type, the IP address and IP Mask of your H.323 endpoint, and the Gateway Address of the IP

address of the device connected to the Internet.

Selecting the Enable Diffserv check box enables Diffserv. Diffserv provides priority to voice

packets so that they are not delayed whenever large data files need to be downloaded. Check

with your systems administrator to determine if any routers in the VOIP network support this

feature. If so, enable this function.

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The Frame Type list enables you to change the Ethernet Frame Type so that it matches your

IP network. If the current entry does not match your IP network, select the Frame Type from

the Frame Type list. The Frame Type choices are TYPE_II and SNAP.

The Port Address group enables you to change the unique IP Address and IP Mask of the

local LAN.

The Gateway Address group enables you to change the gateway IP Address of the device

connected to the Internet/Intranet.

Viewing Call Progress

The Call Progress dialog box is a read-only screen that displays the status of a call in

progress. This dialog box is accessed from the MVP120 Setup menu by clicking the Call

Progress button.

The ratio of Packets Lost versus Packets Received provides a general indication of the

integrity of the Internet connection. To reduce the frequency of lost packets, select a low-bit-

rate coder, such as, G.723 or Netcoder. In addition, enabling the Forward Error Correction

option on the Voice/Fax tab on the Channel Setup dialog box will enable the MVP120 to

recover many of the lost packets.

The Jitter value (measured in milliseconds) indicates the mean deviation of the difference in

packet spacing at the receiver compared to the sender for a pair of packets.

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Applications Setup

Clicking Others on the Setup menu displays the Applications Setup dialog box. This dialog

box allows you to enable SNMP Agent (the default is disabled) and set up all the necessary

parameters; enable or disable various remote configuration methods such as TFTP (Trivial

File Transfer Protocol) Server, Web Server, Dumb Terminal Management, and Telnet Server;

and assign a Password to the MVP120 for security. These applications enable remote

viewing and changing of the MVP120 configuration, or updating firmware, from anywhere on

the connected network.

Verify that the desired applications are selected. All applications are selected by default. To

disable a given application, clear its check box.

SNMP related operations can be performed only when the SNMP Agent check box is

selected on this dialog box. The IP address of the system (i.e., SNMP Manager) that will

receive the Traps from the MVP120 should be entered in the IP Address field in the Trap

Manager group. The Community Name of the SNMP Manager receiving the Traps can be a

maximum of 19 characters and is case sensitive. The default Port Number of the SNMP

Manager receiving the Traps is 162. The MVP120 currently supports a maximum of two

community users at a time, and they can be assigned either Read/Write or Read Only rights.

Note: if you have SNMP client software and enable SNMP Agent, you can (in the lower right

corner of the dialog box) choose to read logs through the SNMP Manager instead of the

COM port.

The Password group enables you to enter a password, up to 13 alphanumeric characters, to

be used for security. Once the password is entered and confirmed, remote users will be

queried to enter the password before gaining access to the MVP120 for configuration

purposes.

Note: If you forget your password, contact Technical Support for instructions.

For more information on using these applications, refer to Chapter 5, Remote Configuration

and Management.

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Viewing Statistics

The Statistics dialog box enables you to view statistics for major events of the MVP120

operation. This dialog box is accessed by clicking Statistics on the MVP120 Main menu.

The Voice Channel statistics shows the attempted and completed calls, call duration, average

call length, bytes/packets sent and received. These statistics can be a helpful troubleshooting

tool.

IP Statistics

IP is a connection-less network protocol residing in the network layer of a conventional OSI

layered model (for more information on this model, refer to Appendix A). Depending on what is

going on at the application layer, IP will typically use one of two transport layer protocols. User

Datagram Protocol (UDP), a connection-less transport layer protocol used with TFTP or SNMP;

and Transport Control Protocol (TCP), a connection-oriented transport layer protocol used with

FTP, Telnet, and SNMP.

UDP makes use of the port concept and has no measures for flow control, reliability, or error

recovery. It is used when the full services of TCP are not required, and the reliability measures

must be assumed by another layer.

TCP works well in environments where the reliability measures are not assumed by other layers.

It is connection-oriented and has a full range of services.

These statistics are informational, and their use as a troubleshooting tool will be contingent on

the applications running in the upper layers. For example, if you were having problems

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connecting to the MVP120’s web server, you would look under the TCP section to see if any

connections are being established. If not, that may indicate the web server is not enabled. Or, if

you were having problems establishing a remote connection through TFTP, you could look in the

UDP section to see if any packets are being received. If not, you may need to review your

network addressing.

SNMP Statistics

The SNMP Statistics dialog box provides statistical information on Simple Network Management

Protocol (SNMP).

SNMP is an application layer protocol that facilitates the exchange of management information

between network devices. There are three key components in SNMP: (1) the devices that are to

be managed, (2) agents, and (3) the network management systems. The managed device is the

network device, like a router. The agent is the software module residing in the managed device

pertaining to network management. The network management system runs the SNMP

application that controls the managed devices and monitors their status. Four primary operations

-- Set, Get, Get Next, and Trap -- are performed using SNMP.

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Viewing Logs

The Log Entries dialog box displays a chronological history of all calls into and out of this unit.

This dialog box is opened by clicking Logs on the Statistics dialog box.

The Log Entries dialog box displays each call as a sequentially numbered Event with the date,

time, duration of the call, the status of the call (Successful or Unsuccessful), Mode (Voice or

Fax), and the from and to numbers.

Viewing Log Entry Details

The Log Entry Details dialog box displays the status of a completed call. This dialog box

displays the same details as the Call Progress dialog box after a call is completed.

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Viewing Channel Totals

The Channel Totals dialog box displays Outgoing and Incoming calls with their Attempted

and Completed numbers for each channel on this MVP120. The Total Connected Time for

the channel is also displayed. This can provide you with a sense of successful call

completions on each channel of the unit.

Reports

A report of the contents of the Log Entries dialog box can be generated using the Windows

Notepad accessory and then printed from your local PC. The report is generated by entering

the To and From dates in the Report Generation dialog box and then clicking Generate.

This function provides a hard copy of the Log Entries dialog box.

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Upgrade Procedures

Whenever you upgrade your version of the MVP120 software, you must first install the new

software on your PC. Then use the Upgrade Software function, the Factory Defaults, or

download the Firmware, the Voice Coders, and the H.323 stack to upgrade the MVP120 itself.

Before starting the upgrade process, view the current configuration and write down important

data such as your IP address, and voice channel configurations; these settings must be put back

in place after the software has been upgraded. Multi-Tech also recommends that you use the

Print button on the Phone Directory Database dialog box to have a copy of the phone directory

contents.

Upgrade Software

Note: The software upgrade can be done from the command port or via IP utilizing tftp.

If you have obtained a new software version from the Multi-Tech Web site or another source, do

the following:

1. Install the software by clicking Programs | MultiVOIP 100 | Upgrade Software.

2. Click Yes. The download process begins.

3. Enter your LAN IP address, mask, and gateway address in the IP Protocol Default Setup

dialog box. Click OK when finished.

4. Enter your current configuration in the Channel Setup dialog box.

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Chapter 7 - Using the MultiVOIP Software

5. Click OK when finished. The Checking MultiVOIP dialog box displays. When you click OK in

this box, theThe MultiVOIP firmware, voice coders, and H.323 stack are downloaded, and then

the MVP120 reboots.

Upgraded versions of the Boot Code (firmware, coders, and H.323 stack) can be downloaded

individually using the following manual procedures.

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Chapter 7 - Using the MultiVOIP Software

Manual Upgrade Procedure

Follow this procedure only if you want to manually upgrade your MultiVOIP.

Note: Steps 4-8 may be performed via the command port or over IP.

Run MultiVOIP Configuration from your old version of the MultiVOIP software. Note the

current settings. Your MultiVOIP will be reset to factory defaults during this upgrade.

Unistall your old version of MultiVOIP software by selecting the Unistall MultiVOIP

Configuration option from the program group.

Install the H.323 compatible software from the MultiVOIP CD.

a. From the program group of the MultiVOIP software, select Download Firmware.

b. Enter “*.upg” in the File name box and press ENTER.

c. Select the file named boot_100.upg, if you are using the command port.

Select tftp.upg if you are using IP.

From the program group of the MultiVOIP software, select Download Factory Defaults.

From the program group of the MultiVOIP software, select Download Firmware. Select

the file named mtvoip.bin.

From the program group of the MultiVOIP software, select Download Voice Coders.

Select the default file.

From the program group of the MultiVOIP software, select Download H323 Stack.

Select the default file.

Select MultiVOIP Configuration from the program group and reconfigure your MultiVOIP.

The upgrade is complete.

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Chapter 8

Remote Configuration and Management

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Chapter 8 - Remote Configuration and Management

This chapter provides procedures for viewing or changing the configuration of a remote unit. Two

methods are provided to access a remote unit; the first method is modem based and the second

method uses IP. Within the IP method, three applications can be used: 1) LAN-Based using

TFTP (Trivial File Transfer Protocol), 2) Telnet as a client application, or 3) a standard web

browser on the Internet.

Remote configuration requires the MVP120 software to be loaded on the local PC. The local PC

then controls the remote MVP120 either via the modem connection or the LAN.

Modem-Based

To remotely configure a MVP120, a local PC with a modem needs to be connected to a dial-up

line and the MVP120 software configured to call the remote MVP120. The remote MVP120 needs

to have a modem connected to a dial-up line and the Command Port. Once the connection to the

remote unit is made, you can change the configuration as required. Once the configuration is

changed, you can download the new configuration to the remote MVP120. Refer to the Modem-

Based Remote Configuration Procedure in this chapter to remotely configure a MVP120.

At the remote site, remove the serial cable from the PC to the Command Port connector

on the back panel of the MVP120.

At the remote site, connect a special cable (Remote Configuration Cable) from the

Command Port connector on the back panel of the MVP120 to the RS-232 connector on

the modem. The special cable is a serial cable with male connectors on both ends. Refer

to Appendix B for cable details.

Connect the modem to your local telephone line.

Provide your telephone number to the person verifying your configuration.

Configure the remote modem for 19200 baud and turn on Force DTR.

At the main site, connect your local PC to a modem that is connected to a dial-up line.

Install the MVP120 software on the local PC. When installed, click Start | Programs |

MultiVOIP 100 | Configuration Port Setup, or double-click the Configuration Port icon

in the MultiVOIP 100 program group.

The MultiVOIP 100 Setup dialog box displays.

Verify that the Communication Type is set for COM Port and the COM port of your local

PC is selected in the Select Port list.

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Chapter 8 - Remote Configuration and Management

In the Dial String box, enter the AT command for dialing (ATDT) plus the phone number of

the remote MVP120.

If your Modem Initialization String, Initialization Response, or Connect Response values are

different from the defaults in the dialog box, refer to your modem user documentation and

change the default values to match your modem.

Click OK when you are satisfied with your selections.

Run the MVP120 Configuration program. Click Start | Programs | MultiVOIP 100 |

MultiVOIP Configuration, or double-click the MultiVOIP Configuration icon in the

MultiVOIP 100 program group.

The Dialing dialog box displays while software is dialing the remote MultiVOIP.

The Reading Setup dialog box displays.

The MultiVOIP 100 Setup menu displays. This is the dialog box of the remote MultiVOIP.

Refer to the online Help for a description of the user interface.

10.

After you have changed the configuration of the remote MultiVOIP, click Download Setup to

update the configuration. The remote MultiVOIP will be brought down, the new configuration

written to the unit, and the unit will reboot.

11.

12.

Click Exit when downloading is complete.

The Hangup connection? dialog box displays.

Click Yes to disconnect the phone connection to the remote site.

13.

If the same telephone number is not going to be used again in the immediate future, you can

remove it from the Port Setup dialog box.

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Chapter 8 - Remote Configuration and Management

LAN-Based

The LAN-based remote configuration requires a Windows Sockets compliant TCP/IP stack. TCP/IP

protocol software must be installed and functional before the configuration program can be used.

You must assign an Internet (IP) address for the PC and for each node that will be managed

by the configuration program. Refer to the protocol software documentation for instructions

on how to set the IP addresses. It is recommended that you ping each MultiVOIP to verify

the connection and its IP address.

Once you have completed this step, you should be able to use the protocol Ping command

for the PC host name. You should also test the network interface configuration by Pinging

another TCP/IP device that is connected to the network.

Install the MVP120 software on the local PC. When installed, click Start | Programs |

MultiVOIP 100 | Configuration Port Setup, or double-click the Configuration Port Setup

icon in the MultiVOIP 100 program group.

The MultiVOIP Port Setup dialog box displays.

Verify that IP is set for the Communication Type.

In the MultiVOIP IP Address box, enter the IP Address of the remote MultiVOIP.

Click OK when you are satisfied with your selections.

Run the MultiVOIP Configuration program. Click Start | Programs | MultiVOIP 100 |

MultiVOIP Configuration, or double-click the MultiVOIP Configuration icon in the

MultiVOIP 100 program group.

The MultiVOIP 100 Setup dialog box displays. This is the dialog box of the remote

MultiVOIP. Refer to the online Help provided with your MultiVOIP for the definition of each

dialog box and field within a dialog box.

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Chapter 8 - Remote Configuration and Management

After you have changed the configuration of the remote MultiVOIP , click Download Setup to

update the configuration. The remote MultiVOIP will be brought down, the new configuration

written to the unit, and the unit will reboot.

Click Exit when downloading is complete.

Double-click the MultiVOIP Configuration icon in the MultiVOIP 100 program group to

verify that the MultiVOIP is running.

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Chapter 8 - Remote Configuration and Management

Telnet

A typical Telnet client application is described next. The MVP120 has a built-in Telnet Server that

enables Telnet client PCs to access the MVP120. A typical Telnet client is allowed to configure the

MVP120. In addition, the MVP120 can be remotely accessed and configured from anywhere on the

Internet through its Web interface.

The Telnet Server option has to be selected from the Applications Setup dialog box using the

MultiVOIP 100 Configuration icon. Click Start I Run and enter telnet in the Run window and a blank

Telnet screen displays. Click Connect | Remote System and the Connect dialog box displays.

Select from the drop-down list (or enter) a Host Name (the IP address of the MultiVOIP). Then select

Telnet from the Port list and vt100 from the Term Type list.

Once you have entered a valid Host Name (IP address), Port, and Term Type, click Connect to be

connected to the target MultiVOIP. The MultiVOIP Telnet Server menu displays.

MultiVOIP Telnet Server Menu

The MultiVOIP Telnet Server menu provides three basic options: Voice over IP Configuration, Phone

Directory Database, and Phone Directory Configuration. A further option enables you to close the

Telnet session.

Voice over IP Configuration

Selecting Option 1 displays the Main menu, which allows further configuration options. These

options include Protocol Stacks (option 1), Applications (option 2), System Information (option 3), and

Voice Channels (option 4).

Phone Directory Database

Selecting Option 2 enables you to add entries to the Phone Directory Database.

Phone Directory Configuration

Selecting Option 3 enables you to configure and manage the Phone Directory.

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Chapter 8 - Remote Configuration and Management

Web Management

The MVP120 can be accessed, via a standard Web browser, from anywhere on the connected

Internet. In order to provide this support, the WEB Server option has to be enabled from the

Applications Setup dialog box (see Chapter 4 - MVP120 Software).

Once enabled, you can access the MVP120 by entering its IP address in your web browser. The

following page displays.

If a Password was entered in the Applications Setup dialog box, then enter the password and the

Enter.

From this page you can access all the configuration options. Refer to Chapter 4 - MVP120 Software,

for a description of the configuration options.

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Chapter 9

Warranty, Service, and Technical Support

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Chapter 9 - Warranty, Service, and Technical Support

This chapter starts out with statements about your MVP120 2-year warranty. The next section, Tech

Support, should be read carefully if you have questions or problems with your MVP120. It includes

the technical support phone numbers, space for recording your product information, and an

explanation of how to send in your MVP120 should you require service. The final section explains

how to receive support from the Internet.

Multi-Tech Systems, Inc. Warranty & Repairs Policies

Warranty

Multi-Tech Systems, Inc., (hereafter “MTS”) warrants that its products will be free from defects in

material or workmanship for a period of two, five, or ten years (depending on model) from date of

purchase, or if proof of purchase is not provided, two, five, or ten years (depending on model) from

date of shipment.

MTS MAKES NO OTHER WARRANTY, EXPRESS OR IMPLIED, AND ALL IMPLIED WARRANTIES

OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE HEREBY

DISCLAIMED.

This warranty does not apply to any products which have been damaged by lightning storms, water,

or power surges or which have been neglected, altered, abused, used for a purpose other than the

one for which they were manufactured, repaired by Customer or any party without MTS’s written

authorization, or used in any manner inconsistent with MTS’s instructions.

MTS’s entire obligation under this warranty shall be limited (at MTS’s option) to repair or replacement

of any products which prove to be defective within the warranty period or, at MTS’s option, issuance

of a refund of the purchase price. Defective products must be returned by Customer to MTS’s factory

– transportation prepaid.

MTS WILL NOT BE LIABLE FOR CONSEQUENTIAL DAMAGES, AND UNDER NO

CIRCUMSTANCES WILL ITS LIABILITY EXCEED THE PRICE FOR DEFECTIVE PRODUCTS.

Repair Procedures for U.S. and Canadian Customers

In the event that service is required, products may be shipped, freight prepaid, to our Mounds View,

Minnesota factory:

Multi-Tech Systems, Inc.

2205 Woodale Drive

Mounds View, MN 55112

Attn: Repairs, Serial # ____________

A Returned Materials Authorization (RMA) is not required. Return shipping charges (surface) will be

paid by MTS.

Please include, inside the shipping box, a description of the problem, a return shipping address (must

have street address, not P.O. Box), your telephone number, and if the product is out of warranty, a

check or purchase order for repair charges.

For out of warranty repair charges, go to www.multitech.com/documents/warranties

Extended two-year overnight replacement service agreements are available for selected products.

Please call MTS at (888) 288-5470, extension 5308 or visit our web site at

http://www.multitech.com/programs/orc/ for details on rates and coverage’s.

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Chapter 9 - Warranty, Service, and Technical Support

Please direct your questions regarding technical matters, product configuration, verification

that the product is defective, etc., to our Technical Support department at (800) 972-2439 or

email [email protected]. Please direct your questions regarding repair expediting,

receiving, shipping, billing, etc., to our Repair Accounting department at (800) 328-9717 or

(763) 717-5631, or email [email protected].

Repairs for damages caused by lightning storms, water, power surges, incorrect installation,

physical abuse, or user-caused damages are billed on a time-plus-materials basis.

Repair Procedures for International Customers (Outside U.S.A. and

Canada)

Your original point of purchase Reseller may offer the quickest and most economical repair

option for your Multi-Tech product. You may also contact any Multi-Tech sales office for

information about the nearest distributor or other repair service for your Multi-Tech product.

http://www.multitech.com/COMPANY/offices/DEFAULT.ASP

In the event that factory service is required, products may be shipped, freight prepaid to our

Mounds View, Minnesota factory. Recommended international shipment methods are via

Federal Express, UPS or DHL courier services, or by airmail parcel post; shipments made by

any other method will be refused. A Returned Materials Authorization (RMA) is required for

products shipped from outside the U.S.A. and Canada. Please contact us for return

authorization and shipping instructions on any International shipments to the U.S.A. Please

include, inside the shipping box, a description of the problem, a return shipping address

(must have street address, not P.O. Box), your telephone number, and if the product is out of

warranty, a check drawn on a U.S. bank or your company’s purchase order for repair

charges. Repaired units shall be shipped freight collect, unless other arrangements are

made in advance.

Please direct your questions regarding technical matters, product configuration, verification

that the product is defective, etc., to our Technical Support department nearest you or email

[email protected]. When calling the U.S., please direct your questions regarding

repair expediting, receiving, shipping, billing, etc., to our Repair Accounting department at

+(763) 717-5631 in the U.S.A., or email [email protected].

Repairs for damages caused by lightning storms, water, power surges, incorrect installation,

physical abuse, or user-caused damages are billed on a time-plus-materials basis.

Repair Procedures for International Distributors

Procedures for International Distributors of Multi-Tech products are on the distributor web

site.

http://www.multitech.com/PARTNERS/login/

10-Sep-01

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Chapter 9 - Warranty, Service, and Technical Support

Service

If your tech support specialist decides that service is required, your MVP120 may be sent (freight

prepaid) to our factory. Return shipping charges will be paid by Multi-Tech Systems.

Include the following with your MVP120:

• a description of the problem

• return billing and return shipping addresses

• contact name and phone number

• check or purchase order number for payment if the MVP120 is out of warranty (Check

with your technical support specialist for the standard repair charge for your MVP120)

• if possible, note the name of the technical support specialist with whom you spoke

If you need to inquire about the status of the returned product, be prepared to provide the serial

number of the product sent.

Send your MVP120 to this address:

MULTI-TECH SYSTEMS, INC.

2205 WOODALE DRIVE

MOUNDS VIEW, MINNESOTA 55112

ATTN: SERVICE OR REPAIRS

You should also check with the supplier of your MVP120 on the availability of local service and/or

loaner units in your part of the country.

Ordering Accessories

SupplyNet, Inc. supplies replacement transformers, cables and connectors for select Multi-Tech

products. You can place an order with SupplyNet via mail, phone, fax or the Internet at:

Mail: SupplyNet, Inc.

614 Corporate Way

Valley Cottage, NY 10989

Phone: 800 826-0279

Fax:

914 267-2420

Email: [email protected]

Internet: http://www.thesupplynet.com

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Chapter 9 - Warranty, Service, and Technical Support

Technical Support

Multi-Tech has an excellent staff of technical support personnel available to help you get the most

out of your Multi-Tech product. If you have any questions about the operation of this unit, call 1-

800-972-2439. Please fill out the MVP120 information (below), and have it available when you

call. If your MVP120 requires service, the tech support specialist will guide you on how to send it

in (refer to the next section).

Recording MVP120 Information

Please fill in the following information on your Multi-Tech MVP120. This will help tech support in

answering your questions. (The same information is requested on the Warranty Registration

Card.)

Model No.: _________________________

Serial No.: _________________________

Software Version: ____________________

The model and serial numbers are on the bottom of your MVP120.

Please note status of your MVP120 including LED indicators, screen messages, diagnostic test

results, problems with a specific application, etc. Use the space below to note the MVP120

status:

________________________________________________________________________________________________________

______________________________________________________________________________________________________________

______________________________________________________________________________________________________

About the Internet

Multi-Tech’s presence includes a Web site at:

http://www.multitech.com

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Appendixes

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Appendix A - TCP/IP Description

TCP/IP (Transmission Control Protocol/Internet Protocol) is a protocol suite and related

applications developed for the U.S. Department of Defense in the 1970s and 1980s specifically to

permit different types of computers to communicate and exchange information with one another.

TCP/IP is currently mandated as an official U.S. Department of Defense protocol and is also

widely used in the UNIX community.

Before you install TCP/IP on your network, you need to establish your Internet addressing

strategy. First, choose a domain name for your company. A domain name is the unique Internet

name, usually the name of your business, that identifies your company. For example, Multi-Tech’s

domain name is multitech.com ( .com indicates this is a commercial organization; .edu denotes

educational organizations, .gov denotes government organizations). Next, determine how many

IP addresses you’ll need. This depends on how many individual network segments you have, and

how many systems on each segment need to be connected to the Internet. You’ll need an IP

address for each network interface on each computer and hardware device.

IP addresses are 32 bits long and come in two types: network and host. Network addresses

come in five classes: A, B, C, D, and E. Each class of network address is allocated a certain

number of host addresses. For example, a class B network can have a maximum of 65,534

hosts, while a class C network can have only 254. The class A and B addresses have been

exhausted, and the class D and E addresses are reserved for special use. Consequently,

companies now seeking an Internet connection are limited to class C addresses.

Early IP implementations ran on hosts commonly interconnected by Ethernet local area networks

(LAN). Every transmission on the LAN contains the local network, or medium access control

(MAC), address of the source and destination nodes. The MAC address is 48-bits in length and is

non-hierarchical; MAC addresses are never the same as IP addresses.

When a host needs to send a datagram to another host on the same network, the sending

application must know both the IP and MAC addresses of the intended receiver. Unfortunately,

the IP process may not know the MAC address of the receiver. The Address Resolution Protocol

(ARP), described in RFC 826 (located at ftp://ds.internic.net/rfc/rfc826.txt) provides a mechanism

for a host to determine a receiver’s MAC address from the IP address. In the process, the host

sends an ARP packet in a frame containing the MAC broadcast address; and then the ARP

request advertises the destination IP address and asks for the associated MAC address. The

station on the LAN that recognizes its own IP address will send an ARP response with its own

MAC address. An ARP message is carried directly in an IP datagram.

Other address resolution procedures have also been defined, including those which allow a

diskless processor to determine its IP address from its MAC address (Reverse ARP, or RARP),

provides a mapping between an IP address and a frame relay virtual circuit identifier (Inverse

ARP, or InARP), and provides a mapping between an IP address and ATM virtual path/channel

identifiers (ATMARP).

The TCP/IP protocol suite comprises two protocols that correspond roughly to the OSI Transport

and Session Layers; these protocols are called the Transmission Control Protocol and the User

Datagram Protocol (UDP). Individual applications are referred to by a port identifier in TCP/UDP

messages. The port identifier and IP address together form a “socket”. Well-known port numbers

on the server side of a connection include 20 (FTP data transfer), 21 (FTP control), 23 (Telnet),

25 (SMTP), 43 (whois), 70 (Gopher), 79 (finger), and 80 (HTTP).

TCP, described in RFC 793 ( ftp://ds.internic.net/rfc/rfc793.txt) provides a virtual circuit

(connection-oriented) communication service across the network. TCP includes rules for

formatting messages, establishing and terminating virtual circuits, sequencing, flow control, and

error correction. Most of the applications in the TCP/IP suite operate over the “reliable” transport

service provided by TCP.

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Appendix A - TCP/IP Description

UDP, described in RFC 768 (ftp://ds.internic.net/rfc/rfc768.txt) provides an end-to-end datagram

(connectionless) service. Some applications, such as those that involve a simple query and

response, are better suited to the datagram service of UDP because there is no time lost to

virtual circuit establishment and termination. UDP’s primary function is to add a port number to

the IP address to provide a socket for the application.

The Application Layer protocols are examples of common TCP/IP applications and utilities, which

include:

•

Telnet (Telecommunication Network): a virtual terminal protocol allowing a user logged on to

one TCP/IP host to access other hosts on the network, described in RFC 854 ( ftp://

ds.internic.net/rfc/rfc854.txt).

•

FTP: the File Transfer Protocol allows a user to transfer files between local and remote host

computers per IETF RFC 959 ( ftp://ds.internic.net/rfc/rfc959.txt).

Archie: a utility that allows a user to search all registered anonymous FTP sites for files on a

specified topic.

Gopher: a tool that allows users to search through data repositories using a menu-driven,

hierarchical interface, with links to other sites, per RFC 1436 ( ftp://ds.internic.net/rfc/

rfc1436.txt).

•

SMTP: the Simple Mail Transfer Protocol is the standard protocol for the exchange of

electronic mail over the Internet, per IETF RFC 821 ( ftp://ds.internic.net/rfc/rfc821.txt).

HTTP: the Hypertext Transfer Protocol is the basis for exchange of information over the

World Wide Web (WWW). Various versions of HTTP are in use over the Internet, with HTTP

version 1.0 (per RFC 1945) ( ftp://ds.internic.net/rfc/rfc1945.txt) being the most current.

•

HTML: WWW pages are written in the Hypertext Markup Language (HTML), an ASCII-based,

platform-independent formatting language, per IETF RFC 1866 ( ftp://ds.internic.net/rfc/

rfc1866.txt).

•

Finger: used to determine the status of other hosts and/or users, per IETF RFC 1288 ( ftp://

ds.internic.net/rfc/rfc1288.txt).

POP: the Post Office Protocol defines a simple interface between a user’s mail reader

software and an electronic mail server; the current version is POP3, described in IETF RFC

1460 ( ftp://ds.internic.net/rfc/rfc1460.txt).

•

DNS: the Domain Name System defines the structure of Internet names and their association

with IP addresses, as well as the association of mail, name, and other servers with domains.

SNMP: the Simple Network Management Protocol defines procedures and management

information databases for managing TCP/IP-based network devices. SNMP, defined by RFC

1157 ( ftp://ds.internic.net/rfc/rfc1157.txt) is widely deployed in local and wide area network.

SNMP Version 2 (SNMPv2), per RFC 1441< ftp://ds.internic.net/rfc/rfc1441.txt) adds security

mechanisms that are missing in SNMP, but is also more complex.

•

Ping: a utility that allows a user at one system to determine the status of other hosts and the

latency in getting a message to that host. Ping uses ICMP Echo messages.

Whois/NICNAME: Utilities that search databases for information about Internet domain and

domain contact information, per RFC 954 ( ftp://ds.internic.net/rfc/rfc954.txt).

Traceroute: a tool that displays the route that packets will take when traveling to a remote

host.

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Appendix A - TCP/IP Description

Internet Protocol (IP)

IP is the Internet standard protocol that tracks Internetwork node addresses, routes outgoing

messages and recognizes incoming messages, allowing a message to cross multiple networks on

the way to its final destination. The IPv6 Control Protocol (IPV6CP) is responsible for configuring,

enabling, and disabling the IPv6 protocol modules on both ends of the point-to-point link. IPV6CP

uses the same packet exchange mechanism as the Link Control Protocol (LCP). IPV6CP packets are

not exchanged until PPP has reached the Network-Layer Protocol phase. IPV6CP packets received

before this phase is reached are silently discarded. (See also TCP/IP.)

Before you install TCP/IP on your network, you need to establish your Internet addressing strategy.

You first choose a domain name for your company. A domain name is the unique Internet name,

usually the name of your business, that identifies your company. For example, Multi-Tech’s domain

name is multitech.com (where .com indicates this is a commercial organization; .edu denotes

educational organizations, .gov denotes government organizations). Next, you determine how many

IP addresses you’ll need. This depends on how many individual network segments you have, and

how many systems on each segment need to be connected to the Internet. You need an IP address

for each network interface on each computer and hardware device.

IP addresses are 32 bits long and come in two types: network and host. Network addresses come in

five classes: A, B, C, D, and E. Each class of network address is allocated a certain number of host

addresses. For example, a class B network can have a maximum of 65,534 hosts, while a class C

network can have only 254. The class A and B addresses have been exhausted, and the class D and

E addresses are reserved for special use. Consequently, companies now seeking an Internet

connection are limited to class C addresses. The current demand for Internet connections will

exhaust the current stock of 32-bit IP addresses. In response, Internet architects have proposed the

next generation of IP addresses, Ipng (IP Next Generation). It features 16-byte addressing,

surpassing the capacities of 32-bit IP.

An IP address can serve only a single physical network. Therefore, if your organization has multiple

physical networks, you must make them appear as one to external users. This is done via

“subnetting”, a complex procedure best left to ISPs and others experienced in IP addressing. Since

IP addresses and domain names have no inherent connection, they are mapped together in

databases stored on Domain Name Servers (DNS). If you decide to let an Internet Service Provider

(ISP) administer your DNS server, the ISP can assist you with the domain name and IP address

assignment necessary to configure your company’s site-specific system information. Domain names

and IP addresses are granted by the InterNIC. To check the availability of a specific name or to obtain

more information, call the InterNIC at (703)742-4777.

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Appendix B - Cabling Diagrams

Command Port Cable

1 2 3 4 5 6 7 8

RJ-45

PIN NO.

DB9F

PIN NO.

CLEAR TO SEND

TRANSMIT DATA

RECEIVE DATA

To DTE

To Command

Port Connector

Device

(PC)

SIGNAL GROUND

LAN Cable

1 2 3 4 5 6 7 8

Circuit Signal Name

TD+ Data Transmit Positive

TD- Data Transmit Negative

RD+ Data Receive Positive

RD- Data Receive Negative

Phone Connector

2 3 4 5

Pin Connections

FXO

Description

N/C

Tip

Ring

N/C

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Appendix B - Cabling Diagrams

Remote Configuration Cable

9-Pin Male

To Command port

adapter cable

25-Pin Male

To DCE Device

(e.g., modem)

Receive Data (RX)

Transmit Data (TX)

Signal Ground

Receive Data (RX)

Transmit Data (TX)

Signal Ground

Clear to Send (CTS)

Request to Send (RTS)

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Appendix C - Regulatory Information

Class A Statement

FCC Part 15

NOTE: This equipment has been tested and found to comply with the limits for a Class A digital

device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable

protection against harmful interference when the equipment is operated in a commercial

environment. This equipment generates, uses and can radiate radio frequency energy and, if not

installed and used in accordance with the instruction manual, may cause harmful interference to

radio communications. Operation of this equipment in a residential area is likely to cause harmful

interference, in which case the user will be required to correct the interference at his own

expense.

This device complies with Part 15 of the FCC rules.

Operation is subject to the following two conditions:

(1)

(2)

This device may not cause harmful interference.

This device must accept any interference that may cause undesired operation.

Warning: Changes or modifications to this unit not expressly approved by the party responsible

for compliance could void the user’s authority to operate the equipment.

Industry Canada

This Class A digital apparatus meets all requirements of the Canadian Interference-Causing

Equipment Regulations.

Cet appareil numerique de la classe A respecte toutes les exigences du Reglement sur le materiel

brouilleur du Canada.

Fax Branding Statement

The Telephone Consumer Protection Act of 1991 makes it unlawful for any person to use a

computer or other electronic device, including fax machines, to send any message unless such

message clearly contains the following information:

• Date and time the message is sent

• Identification of the business or other entity, or other individual sending the message

• Phone number of the sending machine or such business, other entity, or individual

This information is to appear in a margin at the top or bottom of each transmitted page or on the

first page of the transmission. (Adding this information in the margin is referred to as fax

branding.)

Since any number of Fax software packages can be used with this product, the user must refer to

the Fax software manual for setup details. Typically, the Fax branding information must be entered

via the configuration menu of the software.

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Appendix C - Regulatory Information

FCC Part 68 Telecom

This equipment complies with Part 68 of the Federal Communications Commission

(FCC) rules. On the outside surface of this equipment is a label that contains, among

other information, the FCC registration number and ringer equivalence number (REN). If

requested, this information must be provided to the telephone company.

As indicated below, the suitable jack (Universal Service Order Code connecting

arrangement) for this equipment is shown. If applicable, the facility interface codes (FIC)

and service order codes (SOC) are shown. An FCC-compliant telephone cord and

modular plug is provided with this equipment. This equipment is designed to be

connected to the telephone network or premises wiring using a compatible modular jack

which is Part 68 compliant. See installation instructions for details.

The ringer equivalence number (REN) is used to determine the number of devices which

may be connected to the telephone line. Excessive REN’s on the telephone line may

result in the devices not ringing in response to an incoming call. In most, but not all

areas, the sum of the REN’s should not exceed five (5.0). To be certain of the number of

devices that may be connected to the line, as determined by the total REN’s, contact the

telephone company to determine the maximum REN for the calling area.

If this equipment causes harm to the telephone network, the telephone company will

notify you in advance that temporary discontinuance of service may be required. But if

advance notice isn’t practical, the telephone company will notify the customer as soon as

possible. Also, you will be advised of your right to file a complaint with the FCC if you

believe it is necessary.

The telephone company may make changes in its facilities, equipment, operations, or

procedures that could affect the operation of the equipment. If this happens, the

telephone company will provide advance notice in order for you to make necessary

modifications in order to maintain uninterrupted service.

If trouble is experienced with this equipment (the model of which is indicated below)

please contact Multi-Tech Systems, Inc., at the address shown below for details of how

to have repairs made. If the equipment is causing harm to the telephone network, the

telephone company may request that you remove the equipment from the network until

the problem is resolved.

No repairs are to be made by you. Repairs are to be made only by Multi-Tech Systems or

its licensees. Unauthorized repairs void registration and warranty.

This equipment cannot be used on public coin service provided by the telephone

company. Connection to Party Line Service is subject to state tariffs. (Contact the state

public utility commission, public service commission or corporation commission for

information.)

If so required, this equipment is hearing-aid compatible.

Manufacturer:

Trade name:

Multi-Tech Systems, Inc.

MultiVOIP

Model Numbers:

MVP120

FCC Registration Number:

Modular Jack (USOC):

Service Center in U.S.A.:

AU7USA-25715-DF-N

RJ-11C or RJ-11W

Multi-Tech Systems Inc.

2205 Woodale Drive

Mounds View, MN 55112

(763) 785-3500 Fax (763) 785-9874

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Appendix C - Regulatory Information

Canadian Limitations Notice

Ringer Equivalence Number

Notice: The ringer equivalence number (REN) assigned to each terminal device provides an

indication of the maximum number of terminals allowed to be connected to a phone interface.

The termination on an interface may consist of any combination of devices subject only to the

requirement that the sum of the ringer equivalence numbers of all the devices does not exceed 5.

Notice: The Industry Canada label identifies certified equipment. This certification means that the

equipment meets certain telecommunications network protective, operational and safety

requirements. The Department does not guarantee the equipment will operate to the user’s

satisfaction.

Before installing this equipment, users should ensure that it is permissible to be connected to the

facilities of the local telecommunications company. The equipment must also be installed using

an acceptable method of connection. The customer should be aware that compliance with the

above conditions may not prevent degradation of service in some situations. Repairs to certified

equipment should be made by an authorized Canadian maintenance facility designated by the

supplier. Any repairs or alterations made by the user to this equipment, or equipment

malfunctions, may give the telecommunications company cause to request the user to disconnect

the equipment.

Users should ensure for their own protection that the electrical ground connections of the power

utility, phone lines and internal metallic water pipe system, if present, are connected together.

This precaution may be particularly important in rural areas.

Caution: Users should not attempt to make such connections themselves, but should contact the

appropriate electric inspection authority, or electrician, as appropriate.

EMC, Safety and Terminal Directive Compliance

The CE mark is affixed to this product to confirm compliance with the following European

Community Directives:

Council Directive 89/336/EEC of 3 May 1989 on the approximation of the laws of Member States

relating to electromagnetic compatibility.

and

Council Directive 73/23/EEC of 19 February 1973 on the harmonization of the laws of Member

States relating to electrical equipment designed for use within certain voltage limits:

and

Council Directive 98/13/EC of 12 March 1998 on the approximation of the laws of Member States

concerning telecommunications terminal and Satellite earth station equipment.

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100

Voice / Fax over IP Networks

Glossary

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Glossary

Access: The T1 line element made up of two pairs of wire that the phone company brings to the customer premises. The Access

portion ends with a connection at the local telco (LEC or RBOC).

Accunet Spectrum of Digital Services (ASDS): The AT&T 56K bps leased (private) line service. Similar to services of MCI and

Sprint. ASDS is available in nx56/64K bps, where n=1, 2, 4, 6, 8, 12.

ACK (ACKnowledgement code) (pronounced "ack"): A communications code sent from a receiving modem to a transmitting

modem to indicate that it is ready to accept data. It is also used to acknowledge the error-free receipt of transmitted data. Contrast

with NAK.

Adaptive Differential Pulse Code (ADCPM): In multimedia applications, a technique in which pulse code modulation samples are

compressed before they are stored on a disk. ADCPM, an extension of the PCM format, is a standard encoding format for storing

audio information in a digital format. It reduced storage requirements by storing differences between successive digital samples

rather than full values.

Address: A numbered location inside a computer. It's how the computer accesses its resources, like a video card, serial ports,

memory, etc.

AMI line coding: One of two common methods of T1 line coding (with B8ZS). AMI line coding places restrictions on user data

(B8ZS does not).

Analog signal: A waveform which has amplitude, frequency and phase, and which takes on a range of values between its

maximum and minimum points.

Analog Transmission: One of two types of telecommunications which uses an analog signal as a carrier of voice, data, video, etc.

An analog signal becomes a carrier when it is modulated by altering its phase, amplitude and frequency to correspond with the

source signal. Compare with digital transmission.

Application Program Interface (API): A software module created to allow dissimilar, or incompatible applications programs to

transfer information over a communications link. APIs may be simple or complex; they are commonly required to link PC applica-

tions with mainframe programs.

ASCII (American Standard Code for Information Interchange) (pronounced "askey"): A binary code for data that is used in

communications and in many computers and terminals. The code is used to represent numbers, letters, punctuation and control

characters. The basic ASCII code is a 7-bit character set which defines 128 possible characters. The extended ASCII file provides

255 characters.

Asynchronous Transfer Mode (ATM): A very high-spped method of transmission that uses fixed-size cells of 53 bytes to transfer

information over fiber; also known as cell relay.

AT Commands: A standard set of commands used to configure various modem parameters, establish connections and discon-

nect. The "AT" is used to get the "attention" of the modem before the actual command is issued.

Availability: The measure of the time during which a circuit is ready for use; the complement of circuit "outage" (100% minus %

outage = % available).

B7ZS (Bipolar 7 Zero Suppression) line coding: One method of T1 line coding (see also "B8ZS" and "AMI"). B7ZS line coding

does not place restrictions on user data (AMI does).

B8ZS (Bipolar 8 Zero Suppression) line coding: One of two common methods of T1 line coding (with AMI). B8ZS line coding

does not place restrictions on user data (AMI does). A coding method used to produce 64K bps "clear" transmission. (See also

"B7ZS" and "AMI" line coding)

Backbone: 1. A set of nodes and their interconnecting links providing the primary data path across a network. 2. In a local area

network multiple-bridge ring configuration, a high-speed link to which the rings are connected by means of bridges. A backbone

may be configured as a bus or as a ring. 3. In a wide area network, a high-speed link to which nodes or data switching exchanges

(DSEs) are connected. 4. A common distribution core that provides all electrical power, gases, chemicals, and other services to the

sectors of an automated wager processing system.

Background: An activity that takes place in the PC while you are running another application. In other words, the active user

interface does not correspond to the 'background' task.

Bandwidth: The transmission capacity of a computer channel, communications line or bus. It is expressed in cycles per second

(hertz), the bandwidth being the difference between the lowest and highest frequencies transmitted. The range of usable frequen-

cies that a transmission medium will pass without unacceptable attenuation or distortion. Bandwidth is a factor in determining the

amount of information and the speed at which a medium can transmit data or other information.

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Glossary

Backward Explicit Congestion Notification (BECN): A bit that tells you that a certain frame on a particular logical connection

has encountered heavy traffic. The bit provides notification that congestion-avoidance procedures should be initiated in the opposite

direction of the received frame. See also FECN (Forward Explicit Congestion Notification).

Basic Rate Interface (BRI): An ISDN access interface type comprised of two B-channels each at 64K bps and one D-channel at

64K bps (2B+D).

Bell Operating Companies (BOC): The family of corporations created during the divestiture of AT&T. BOCs are independent

companies which service a specific region of the US. Also called Regional Bell Operating Companies (RBOCs).

Bell Pub 41450: The Bell publication defining requirements for data format conversion, line conditioning, and termination for direct

DDS connection.

Bell Pub 62310: The Bell publication defining requirements for data format conversion, line conditioning, and termination for direct

DDS connection.

Binary Synchronous Communication (BSC): A form of telecommunication line control that uses a standard set of transmission

control characters and control character sequences, for binary synchronous transmission of binary-coded data between stations.

Bit (Binary digIT): A bit is the basis of the binary number system. It can take the value of 1 or 0. Bits are generally recognized as

the electrical charge generated or stored by a computer that represent some portion of usable information.

Bit Error Rate Test (BERT): A device or routine that measures the quality of data transmission. A known bit pattern is transmitted,

and the errors received are counted and a BER (bit error rate) is calculated. The BER is the ratio of received bits in error relative to

the total number of bits received, expressed in a power of 10.

Bit robbing: The use of the least significant bit per channel in every sixth frame for signaling. The line signal bits "robbed" from

the speech pat conveys sufficient pre-ISDN telephony signaling information with the remaining line signal bits providing sufficient

line signaling bits for recreating the original sound. See "robbed bit signaling".

Blue Alarm: An error indication signal consisting of all 1s indicating disconnection or attached device failure. Contrast "Red Alarm"

and "Yellow Alarm".

Bps (bits per second): A unit to measure the speed at which data bits can be transmitted or received. Bps differs from baud when

more than one bit is represented by a single cycle of the carrier.

Bridges: 1. A functional unit that interconnects two local area networks that use the same logical link protocol but may use

different medium access control protocols. 2. A functional unit that interconnects multiple LANs (locally or remotely) that use the

same logical link control protocol but that can use different medium access control protocols. A bridge forwards a frame to another

bridge based on the medium access control (MAC) address. 3. In the connection of local loops, channels, or rings, the equipment

and techniques used to match circuits and to facilitate accurate data transmission.

Buffer: A temporary storage register or Random Access Memory (RAM) used in all aspects of data communications which

prevents data from being lost due to differences in transmission speed. Keyboards, serial ports, muxes and printers are a few

examples of the devices that contain buffers.

Bus: A common channel between hardware devices either internally between components in a computer, or externally between

stations in a communications network.

Byte: The unit of information a computer can handle at one time. The most common understanding is that a byte consists of 8

binary digits (bits), because that's what computers can handle. A byte holds the equivalent of a single character (such as the letter

A).

Call Setup Time: The time to establish a circuit-switched call between two points. Includes dialing, wait time, and CO/long

distance service movement time.

Carrier Group Alarm (CGA): A T1 service alarm generated by a channel bank when an OOF condition occurs for a predefined

length of time (usually 300mS to 2.5 seconds). The CGA causes the calls using a trunk to be dropped and for trunk conditioning to

be applied.

Carrier signal: An analog signal with known frequency, amplitude and phase characteristics used as a transport facility for useful

information. By knowing the original characteristics, a receiver can interpret any changes as modulations, and thereby recover the

information.

CCITT (Consultative Committee for International Telephone and Telegraph): An advisory committee created and controlled by

the United Nations and headquartered in Geneva whose purpose is to develop and to publish recommendations for worldwide

standardization of telecommunications devices. CCITT has developed modem standards that are adapted primarily by PTT (post,

telephone and telegraph) organizations that operate telephone networks of countries outside of the U.S. See also ITU.

Central Office (CO): The lowest, or most basic level of switching in the PSTN (public switched telephone network). A business

PABX or any residential phone connects to the PSTN at a central office.

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Glossary

Centrex: A multi-line service offered by operating telcos which provides, from the telco CO, functions and features comparable to

those of a PBX for large business users. See also "Private Branch Exchange", "Exchange".

Channel: A data communications path between two computer devices. Can refer to a physical medium (e.g., UTP or coax), or to a

specific carrier frequency.

Channel bank: A device that acts as a converter, taking the digital signal from the T1 line into a phone system and converting it to

the analog signals used by the phone system. A channel bank acts as a multiplexer, placing many slow-speed voice or data

transactions on a single high-speed link.

Circuit-switched Network: A technology used by the PSTN that allocates a pair of conductors for the exclusive use of one

communication path. Circuit switching allows multiple conversations on one talk path only if the end-users multiplex the signals prior

to transmission.

Circuit switching: The temporary connection of two or more communications channels using a fixed, non-shareable path through

the network. Users have full use of the circuit until the connection is terminated.

Clear Channel: A transmission path where the full bandwidth is used (i.e., no bandwidth needed for signaling, carrier framing or

control bits). A 64K bps digital circuit usually has 8K bps used for signaling. ISDN has two 64K bps circuits, and a 16K bps packet

service of which part is used for signaling on the 64K channels.

Client-Server: In TCP/IP, the model of interaction in distributed data processing in which a program at one site sends a request to

a program at another site and awaits a response. The requesting program is called a client; the answering program is called a

server.

Cluster Controller: A device that can control the input/output operations of more than one device connected to it. A cluster

controller may be controlled by a program stored and executed in the unit, or it may be entirely controlled by hardware.

CODEC (COmpression/DEcompression): The term is used to describe the conversion of voice signals from their analog form to

digital signals acceptable to modern digital PBXs and digital transmission systems. It then converts those digital signals back to

analog so that you can hear and understand what the other person is saying. In some phone systems, the CODEC is in the PBX

and shared by many analog phone extensions. In other phone systems, the CODEC is actually in the phone. Thus the phone itself

sends out a digital signal and can, as a result, be more easily designed to accept a digital RS-232-C signal.

Committed Burst Size: The maximum number of bits that the frame relay network agrees to transfer during any measurement

interval

Committed Information Rate (CIR): An agreement a customer makes to use a certain minimum data transmission rate (in bps).

The CIR is part of the frame relay service monthly billing, along with actual usage, that users pay to their frame relay service

provider.

Compression: 1. The process of eliminating gaps, empty fields, redundancies, and unnecessary data to shorten the length of

records or blocks. 2. In SNA, the replacement of a string of up to 64-repeated characters by an encoded control byte to reduce the

length of the data stream to the LU-LU session partner. The encoded control byte is followed by the character that was repeated

(unless that character is the prime compression character). 3. In Data Facility Hierarchical Storage Manager, the process of moving

data instead of allocated space during migration and recall in order to release unused space. 4. Contrast with decompression.

COMx Port: A serial communications port on a PC.

Congestion: A network condition where there is too much data traffic. The ITU I.233 standard defines congestion management in

terms of speed and burstiness.

Congestion notification: The function in frame relay that ensures that user data transmitted at a rate higher than the CIR are

allowed to slow down to the rate of the available network bandwidth.

Consecutive Severely Errored Seconds (CSES): An error condition that occurs when from 3 to 9 SES (Severely Errored

Seconds) are logged consecutively.

Customer Premise Equipment (CPE): The generic term for data comm and/or terminal equipment that resides at the user site

and is owned by the user with the following exclusions: Over voltage protection equipment, inside wiring, coin operated or pay

telephones, "company-official" equipment, mobile phone equipment, "911" equipment, equipment necessary for the provision of

communications for national defense, or multiplexing equipment used to deliver multiple channels to the customer.

D4: the T1 4th generation channel bank.

D4 channelization: Refers to the compliance with AT&T TR 62411 for DS1 frame layout.

D4 framing: The T1 format for framing in AT&T D-Series channel banks, in which there are 12 separate 193-bit frames in a super-

frame. A D4 framing bit is used to identify the channel and the signaling frame. Signalling for voice channels is carried in-band for

every channel, along with the encoded voice. See "robbed-bit signaling".

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Data Communications Equipment (DCE): Any device which serves as the portal of entry from the user equipment to a telecom-

munications facility. A modem is a DCE for the phone network (PSTN) that is commonly on site at the user’s premises. Packet

Switched Networks have another level of DCE which is most often located at a central office.

Data Link Connection Identifier (DLCI): One of the six components of a frame relay frame. Its purpose is to distinguish separate

virtual circuits across each access connection. Data coming into a frame relay node is thus allowed to be sent across the interface

to the specified "address". The DLCI is confirmed and relayed to its destination, or if the specification is in error, the frame is

discarded.

Dataphone Digital Service (DDS): A private line digital service that offers 2400, 4800, 9600 and 56K bps data rates on an inter-

LATA basis by AT&T and on an intra-LATA basis by the BOCs.

Data Service Unit (DSU): A device that provides a digital data service interface directly to the data terminal equipment. The DSU

provides loop equalization, remote and local testing capabilities, and a standard EIA/CCITT interface.

Dedicated Line: A communication line that is not switched. The term leased line is more common.

Default: This is a preset value or option in software packages, or in hardware configuration, that is used unless you specify

otherwise.

Device driver: Software that controls how a computer communicates with a device, such as a printer or mouse.

Digital Cross-connect System (DCS): The CO device which splits and redistributes the T1 bandwidth. The DCS takes time slots

from various T1 lines and alters them to provide the needed connectivity. DCS connections are made with software at an

administrator's workstation.

Digital Data: Information represented by discrete values or conditions (contrast "Analog Data").

Digital Loopback: A technique used for testing the circuitry of a communications device. Can be initiated locally, or remotely (via a

telecommunications device). The tested device decodes and encodes a received test message, then echoes the message back.

The results are compared with the original message to determine if corruption occurred en route.

Digital PBX: A Private Branch Exchange that operates internally on digital signals. See also "Exchange".

Digital Service, level 0 (DS0): The world-wide standard speed (64K bps) for digital voice conversation using PCM (pulse coded

modulation).

Digital Service, level 1 (DS1): The 1.544M bps voice standard (derived from an older Bell System standard) for digitized voice

transmission in North America. The 1.544M bps consists of 24 digitally-encoded 64K bps voice channels (north America) and

2.048M bps (30 channels) elsewhere.

Digital Signal: A discrete or discontinuous signal (e.g., a sequence of voltage pulses). Digital devices, such as terminals and

computers, transmit data as a series of electrical pulses which have discrete jumps rather than gradual changes.

Digital Signaling Rates (DSn): A hierarchical system for transmission rates, where "DS0" is 64K bps (equivalent to ISDN B

channel), and DS1 is 1.5 Mbps (equivalent to ISDN PRI).

Digital Transmission: A method of electronic information transmission common between computers and other digital devices.

Analog signals are waveforms: a combination of many possible voltages. A computer's digital signal may be only "high" or "low" at

any given time. Therefore, digital signals may be "cleaned up" (noise and distortion removed) and amplified during transmission.

Digitize: To convert an analog signal to a digital signal.

DIP switch (pronounced "dip switch"): A set of tiny toggle switches, built into a DIP (dual in-line package), used for setting

configurable parameters on a PCB (printed circuit board).

Driver: A software module that interfaces between the Operating System and a specific hardware device (i.e. color monitors,

printers, hard disks, etc.). Also known as a device driver.

Drop and Insert: The process where a portion of information carried in a transmission system is demodulated ("Dropped") at an

intermediate point and different information is included ("Inserted") for subsequent transmission.

DTE (Data Terminating Equipment): A term used to include any device in a network which generates, stores or displays user

information. DTE is a telecommunications term which usually refers to PCs, terminals, printers, etc.

DTMF (Dual-Tone MultiFrequency): A generic push-button concept made popular by AT&T TouchTone.

E1: The European equivalent of the North American 1.544M bps T-1, except that E-1 carries 2.048M bps. It is characterized by

thirty 64 Kbps digital channels for voice or data calls, plus a 64 Kbps channel for signaling and a 64 Kbps channel for framing

(synchronization) and maintenance.

E&M: A telephony trunking system used for either switch-to-switch, or switch-to-network, or computer/telephone system-to-switch

connection.

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Glossary

EIA: The Electronics Industries Association is a trade organization in Washington, DC that sets standard for use of its member

companies. (See RS-232, RS-422, RS530.)

Encapsulation: A technique used by network-layer protocols in which a layer adds header information to the protocol data unit

from the preceding layer. Also used in "enveloping" one protocol inside another for transmission. For example, IP inside IPX.

Endpoint: The clients in an H.323 network. They are typically video conferencing, audio conferencing, or other multimedia systems

implemented by end users to communicate in real time. The H.323 standard requires that every endpoint support certain functions

and codecs (Coder/Decoder) that have previously been defined by the ITU.

Errored Seconds (ES): Any second of operation that all 1.544M bits are not received exactly as transmitted. Contrast "Error Free

Seconds".

Error Free Seconds (EFS): Any second of operation that all 1.544M bits are received exactly as transmitted. Contrast "Errored

Seconds".

ESF Error Event: A T1 error condition that is logged when a CRC-6 error or an OOF error occurs.

Ethernet: A 10-megabit baseband local area network that allows multiple stations to access the transmission medium at will

without prior coordination, avoids contention by using carrier sense and deference, and resolves contention by using collision

detection and transmission. Ethernet uses carrier sense multiple access with collision detection (CSMA/CD).

Excess Zeros: A T1 error condition that is logged when more than 15 consecutive 0s or less than one 1 bit in 16 bits occurs.

Exchange: A unit (public or private) that can consist of one or more central offices established to serve a specified area. An

exchange typically has a single rate of charges (tariffs) that has previously been approved by a regulatory group.

Exchange Area: A geographical area with a single uniform set of charges (tariffs), approved by a regulatory group, for phone

services. Calls between any two points within an exchange area are local calls. See also "Digital PBX", "PBX".

Exchange Termination (ET): The carrier's local exchange switch. Contrast with "Loop Termination - LT".

Explicit Congestion Management: The method used in frame relay to notify the terminal equipment that the network is overly

busy. The use of FECN and BECN is called explicit congestion management. Some end-to-end protocols use FECN or BECN, but

usually not both options together. With this method, a congestion condition is identified and fixed before it becomes critical.

Contrast with "implicit congestion".

Extended Super Frame (ESF): One of two popular formats for framing bits on a T1 line. ESF framing has a 24-frame super-frame,

where robbed bit signaling is inserted in the LSB (bit 8 of the DS-0 byte) of frames 6, 12, 18 and 24. ESF has more T1 error

measurement capabilities than D4 framing. ESF and B8ZS are typically both offered to provide clear channel service.

Failed Seconds: A test parameter where the circuit is unavailable for one full second.

Failed Signal: A T1 test parameter logged when there are more than 9 SES (Severely Errored Seconds).

Fax (facsimile): Refers to the bit-mapped rendition of a graphics-oriented document (fax) or to the electronic transmission of the

image over phone lines (faxing). Fax transmission differs from data transmission in that the former is a bit-mapped approximation of

a graphical document and, therefore, cannot be accurately interpreted according to any character code.

Firmware: A category of memory chips that hold their content without electrical power, they include ROM, PROM, EPROM and

EEPROM technologies. Firmware becomes "hard software" when holding program code.

Foreground: The application program currently running on and in control of the PC screen and keyboard. The area of the screen

that occupies the active window. Compare with "background".

Fractional T1 (FT1): A digital data transmission rate between 56K bps (DS0 rate) and 1.544M bps (the full T1 rate - in North

America). FT1 is typically provided on 4-wire (two copper pairs) UTP. Often used for video conferencing, imaging and LAN

interconnection due to its low cost and relatively high speed. FT1 rates are offered in 64K bps multiples, usually up to 768K bps.

Frequency: A characteristic of an electrical or electronic signal which describes the periodic recurrence of cycles. Frequency is

inversely proportional to the wavelength or pulse width of the signal (i.e., long wavelength signals have low frequencies and short

wavelength signals yield high frequencies).

Foreign Exchange (FX): A CO trunk with access to a distant CO, allowing ease of access and flat-rate calls anywhere in the

foreign exchange area.

Foreign Exchange Office (FXO): provides local phone service from a CO outside of ("foreign" to) the subscriber's exchange area.

In simple form, a user can pick up the phone in one city and receive a tone in the foreign city.

Connecting a POTS phone to a computer telephony system via a T1 link requires a channel bank configured for the FX connection.

To generate a call from the POTS set to the computer telephony system, an FXO connection must be configured.

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Foreign Exchange Station (FXS): See FX, FXO. To generate a call from the computer telephony system to the POTS set, a FXS

connection must be configured.

Forward Explicit Congestion Notification (FECN): A bit that tells you that a certain frame on a particular logical connection has

encountered heavy traffic. The bit provides notification that congestion-avoidance procedures should be initiated in the same

direction of the received frame. See also BECN (Backward Explicit Congestion Notification).

Frame: A group of data bits in a specific format to help network equipment recognize what the bits mean and how to process them.

The bits are sent serially, with a flag at each end signifying the start and end of the frame.

Frame Relay: A form of packet switching that uses small packets and that requires less error checking than other forms of packet

switching. Frame relay is effective for sending "bursty" data at high speeds (56/64K, 256K, and 1024K bps) over wide area

networks. Frame Relay specifications are defined by ANSI documents ANSI T1.602, T1.606, T1S1/90-175, T1S1/90-213, and

T1S1/90-214. In using frame relay, blocks of information (frames) are passed across a digital network interface using a "connection

number" that is applied to each frame to distinguish between individual frames.

Frame Relay Forum: A non-profit organization of 300+ vendors and service providers, based in Foster City, CA, that are develop-

ing and deploying frame relay equipment.

Frame Relay Implementors Forum: A group of companies supporting a common specification for frame relay connection to link

customer premises equipment to telco network equipment. Their specification supports ANSI frame relay specs and defines

extensions such as local management.

Frame Relay Access Device (FRAD): A piece of equipment that acts as a concentrator or frame assembler/dissassembler that

can support multiple protocols and provide basic "routing" functions.

Gatekeeper: An H.323 entity that provides address translation, control access, and sometimes bandwidth management to the LAN

for H.323 endpoints.

Gateway: 1. A functional unit that interconnects two computer networks with different network architectures. A gateway connects

networks or systems of different architectures. A bridge interconnects networks or systems with the same or similar architectures. 2.

A network that connects hosts. 3. An H.323 entity that provides real-time, two-way communications between H.323 terminals on the

LAN and other ITU terminals on a WAN, or to another H.323 Gateway.

Graphical User Interface (GUI): A type of computer interface consisting of a visual metaphor of a real-world scene, often of a

desktop. Within that scene are icons, representing actual objects, that the user can access and manipulate with a pointing device.

H.323: An umbrella recommendation from the International Telecommunications Union (ITU) that sets standards for multimedia

communications over Local Area Networks (LANs) that do not provide a guaranteed Quality of Service (QoS).

H.323 Endpoint: The clients in an H.323 network. They are typically video conferencing, audio conferencing, or other multimedia

systems implemented by end users to communicate in real time. The H.323 standard requires that every endpoint support the

G.711 ITU standard for speech compression, H.245 protocol for controlling media between H.323 endpoints, Q.931 signal protocol

for establishing and terminating calls, RAS (Registration/Admissions/Status) channel data stream used to communicate with a

gatekeeper (optional), and RTP/RTCP (Real-Time Protocol/Real-Time Control Protocol) for carrying packetized real-time media on

IP networks.

H.323 Entity: Any H.323 component, including terminals, Gateways, Gatekeepers, Multipoint Controllers (MCs), Multipoint

Processors (MPs), and Multipoint Control Units (MCUs).

Handshaking: A process that two modems go through at the time of call setup to establish synchronization over the data

communications link. It is a synchronization and negotiation process accomplished by the exchange of predefined, mutually

recognized control codes.

High-level Data Link Control (HDLC): An ISO standard, bit-oriented data communications protocol that provides nearly error-free

data transfers.

Hexadecimal: A base 16 numbering system used to represent binary values. Hex uses the numbers 0-9 and the letters A-F:

usually notated by an "h" (e.g., "4CF h", read "four charley fox, hex"). The result is that one hex digit represents a 4-bit value.

Implicit congestion management: A method of informing the terminal that the network is busy. This method relies on the end-

system protocol to detect and fix the congestion problem. (TCP/IP is an example of a protocol using only implicit congestion

management.) See also "explicit congestion management".

In-band: Refers to the type of signalling over the conversion path on an ISDN call. Contrast "out-of-band".

Insufficient Ones: A T1 error condition that is logged when less than one 1 in 16 0s or less than 12.5 % average 1s density is

received.

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Glossary

Inter Exchange Carrier (IEC): The long distance company (LE) who's central office provides the point of reference for T1 access.

Any common carrier authorized by the FCC to carry customer transmissions between LATAs.

Internet: Refers to the computer network of many millions of university, government and private users around the world. Each user

has a unique Internet Address.

Internet Address (IP Address): A unique 32-bit address for a specific TCP/IP host on a network. Normally printed in dotted

decimal format (e.g., 129.128.44.227).

Internet Protocol (IP): A protocol used to route data from its source to its destination in an Internet environment. The Internet

Protocol was designed to connect to local area networks. Although there are many protocols that do this, IP refers to the global

system of interconnecting computers. It is a highly distributed protocol (each machine only worries about sending data to the next

step in the route).

Internetwork Packet Exchange (IPX): A NetWare communications protocol used to route messages from one node to another.

IPX packets include network addresses and can be routed from one network to another. An IPX packet can occasionally get lost

when crossing networks, thus IPX does not guarantee delivery of a complete message. Either the application has to provide that

control, or NetWare's SPX protocol must be used.

Interoperable: Devices from different vendors that can exchange information using a standard's base protocol.

I/O Addresses: Locations within the I/O address space of your computer used by a device, such as an expansion card, a serial

port, or an internal modem. The address is used for communication between software and a device.

IRQ Level (Interrupt Request Level): The notification a processor receives when another portion of the computer's hardware

requires its attention. IRQs are numbered so that the device issuing the IRQ can be identified, and so IRQs can be prioritized.

ISA (Industry Standards Architecture) (pronounced "ice a"): The classic 8 or 16-bit architecture introduced with IBM's PC-AT

computer.

ISDN (Integrated Services Digital Network): An International telecommunications standard for transmitting voice, video and

data over a digital communications line. ISDN is a world-wide telecommunications service that uses digital transmission and

switching technology to support voice and digital data communications. Frame relay was partially based on ISDN's data link layer

protocol (LAPD). Frame relay can be used to transmit across ISDN services offering circuit-switched connection at 64K bps and

higher speeds.

Contrast Public Switched Telephone Network (PSTN).

ITU-TSS (formerly CCITT): International Telecommunications Union-Telecommunications Sector; the United Nations organization

that prepares standards ("Recommendations") for resolving communications issues and problems.

Key Telephone System (KTS): Phone devices with multiple buttons that let you select incoming or outgoing CO phone lines

directly. Similar in operation to a PBX, except a KTS you don't have to dial a "9" for a call outside the building.

Key Service Unit (KSU): A small device containing the switching electronics for a business key telephone system (KTS).

Key Set: A phone set with several buttons for call holding, line pickup, intercom, autodialing, etc. Also called a touchtone phone

(Ericsson) and a KTS (Key Telephone Set).

LAPB: Link Access Procedure Balanced; based on the X.25 Layer 2 specification. A full-duplex point-to-point bit-synchronous

protocol commonly used as a data link control protocol to interface X.25 DTEs. LAPB is the link initialization procedure that

establishes and maintains communications between the DTE and the DCE.

LAPD: Link Access Protocol for the D-Channel; based on the ISDN Q.921 specification. A full-duplex point-to-point bit-synchronous

link-level protocol for ISDN connections; different from LAPB in its framing sequence. Transmission is in units called "frames", and

a frame may contain one or more X.25 packets.

Line Coding: The representation of 1s and 0s on a T1 line. The two methods of line coding commonly used, B8ZS and AMI, differ

in the restrictions placed on user data. T1 line coding ensures that sufficient timing information is sent with the digital signal to

ensure recovery of all the bits at the far end. Timing information on the T1 line is included in the form of 1s in the data stream; a

long string of 0s in the data stream could cause problems recovering the data.

Line Termination (LT): The electronics at the ISDN network side of the user/network interface that complements the NT1 at the

user side. The LT and the NT1 together provide the high-speed digital line signals required for BRI access.

Listed Directory Number (LDN): The main number assigned by the telco; the number listed in the phone directory and also

provided by Directory Assistance. Some devices can have more than one LDN, such as ISDN devices that have one LDN for voice

and another LDN for data.

Local Area Network (LAN): 1. A computer network located on a user's premises within a limited geographical area. Communica-

tion within a local area network is not subject to external regulations; however, communication across the LAN boundary may be

subject to some form of regulation. 2. A LAN does not use store and forward techniques. 3. A network in which a set of devices are

connected to one another for a communication and that can be connected to a larger network.

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Local Access and Transport Area (LATA): A post-divestiture geographical area generally equivalent to a Standard Metropolitan

Statistical Area. At divestiture, the territory served by the Bell system was divided into approximately 161 LATAs. The Bell Operating

Companies (BOCs) provide Intra-LATA services.

Local Exchange Carrier (LEC): The local phone company which provides local (i.e., not long distance) transmission services.

AKA "telco". LECs provide T1 or FT1 access to LDCs (unless the T1 circuit is completely intra-LATA). Inter-LATA T1 circuits are

made up of a combination of Access and Long Haul facilities.

Local Management Interface (LMI): A specification for frame relay equipment that defines status information exchange.

Local Loop: A transmission path, typically twisted-pair wire, between an individual subscriber and the nearest public telecommuni-

cations network switching center. The wires provide ISDN service, but require an NT1 at the user end and an LT at the network

end. (AKA, "loop" or "subscriber loop".)

Logical Link Control (LLC2): In a local area network, the protocol that governs the exchange of transmission frames between

data stations independently of how the transmission medium is shared. The LLC2 protocol was developed by the IEEE 802

committee and is common to all LAN standards.

Logical Unit (LU): A type of network accessible unit that enables end users to gain access to network resources and communicate

with each other.

Long Haul: The T1 element that connects to the Access portion of the long distance company's (LDC's) central office. The LDC is

commonly called the point of presence (POP). Each LDC has a number of POPs, located throughout the country. The LDC is also

called an IEC (Inter Exchange Carrier).

Long Haul Communications: The type of phone call reaching outside of a local exchange (LE).

Management Information Base (MIB): A database of network management information used by the Common Management

Information Protocol (CMIP) and the Simple Network Management Protocol (SNMP).

Megacom: An AT&T service with a normal WATS line (typically T1) between the customer premise and the AT&T serving class 4

CO are the customer's responsibility.

MegaLink: BellSouth's leased T1 service.

Message: Associated with such terms as packet, frame, and segment. 1. In information theory, an ordered series of characters

intended to convey information. 2. An assembly of characters and sometimes control codes that is transferred as an entry from an

originator to one or more recipients.

Modem: A communications device that enables a computer to transmit information over a phone line. It converts the computer's

digital signals into analog signals to send over a phone line and converts them back to digital signals at the receiving end. Modems

can be internal and fit into an expansion slot, or external and connect to a serial port.

Multicast: A process of transmitting from one source to many destinations. The actual mechanism may be different for different

LAN technologies.

Multiplexer (Mux): 1. A device that takes several input signals and combines them into a single output signal in such a manner

that each of the input signals can be recovered. 2. A device capable of interleaving the events of two or more activities or capable of

distributing the events of an interleaved sequence to the respective activities. 3. Putting multiple signals on a single channel.

Multipoint Conference: A conference between three or more terminals, which may be on the LAN or on the Circuit Switched

Network.

Multipoint Control Unit (MCU): An H.323 endpoint on the LAN which enables three or more terminals and Gateways to participate

in a multipoint conference. The MCU includes a mandatory Multipoint Controller and optional Multipoint Processors.

Multipoint Controller (MC): An H.323 entity which provides for the control of three or more terminals in a multipoint conference.

Multipoint Processor (MP): An H.323 entity which provides for the processing of audio, video, and/or data streams in a multipoint

conference. The MP provides for the mixing, switching, or other processing of media streams under the control of the MC.

Multiprotocol: A device that can interoperate with devices utilizing different network protocols.

Multithreading: The ability of a software system to be able to handle more than one transaction concurrently. This is contrasted to

the case where a single transaction is accepted and completely processed before the next transaction processing is started.

Nailed Connection: A permanent or dedicated circuit of a previously switched circuit or circuits.

Nailed-up Circuit: A semipermanent circuit established through a circuit-switching facility for point-to-point connectivity.

NAK (Negative Acknowledgment): Communications code used to indicate that a message was not properly received, or that a

terminal does not wish to transmit. Contrast with ACK.

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Glossary

Network: A group of computers connected by cables or other means and using software that enables them to share equipment,

such as printers and disk drives to exchange information.

Node: Any point within a network which has been assigned an address.

Object-Orientated: A method for structuring programs as hierarchically organized classes describing the data and operations of

objects that may interact with other objects.

Office Channel Unit - Data Port (OCU-DP): The CO channel bank used as the interface between the customer's DSU and the

channel bank.

Off-hook: The condition of a device which has accessed a phone line (with or without using the line). In modem use, this is

equivalent to a phone handset being picked up. Dialing and transmission are allowed, but incoming calls are not answered.

Contrast "on-hook".

Off Premise Extension (OPX): An extension or phone that terminates in a location other than that of the PBX. Commonly used to

provide a corporate member with an extension of the PBX at home.

Ones Density: the measure of the number of logical 1s on a T1 line compared to a given total number of bits on that line; used for

timing information in data recovery in AMI and B8ZS.

On-Hook: The condition of a device which has not accessed a phone line. In modem use, this is equivalent to a phone handset

that has not been picked up. In other words, it can receive an incoming call. Contrast "off-hook".

Open Shortest Path First (OSPF): A hierarchical Interior Gateway Protocol (IGP) routing algorithm for IP that is a proposed

standard for Internet. OSPF incorporates least-cost routing, equal-cost routing, and load balancing.

Outage: The measure of the time during which a circuit is not available for use due to service interrupt. Outage is the comple-

ment of circuit "availability" (100% minus % available = % outage).

Out-of-band: Signaling that is separated from the channel carrying the information (i.e., the voice/data/video signal is separate

from the carrier signal). Dialing and various other "supervisory" signals are included in the signaling element. Contrast "In-band"

signaling.

Out of Frame (OOF): A T1 alarm condition that is logged on the loss of 2, 3 or 4 of 5 consecutive FT framing bits.

Packet: 1. In data communication, a sequence of binary digits, including data and control signals, that is transmitted and switched

as a composite whole. The data, control signals and, possibly, error control information are arranged in a specific format. 2.

Synonymous with data frame. 3. In TCP/IP, the unit of data passed across the interface between the Internet layer and the link

layer. A packet includes an IP header and data. A packet can be a complete IP datagram or a fragment of an IP diagram. 4. In

X.25, a data transmission information unit. A group of data and control characters, transferred as a unit, determined by the process

of transmission. Commonly used data field lengths in packets are 128 or 256 bytes. 5. The field structure and format defined in the

CCITT X.25 recommendation.

Packet Assembler/Dissembler (PAD): Used by devices to communicate over X.25 networks by building or stripping X.25

information on or from a packet.

Packet Data: The information format ("packetized") used for packet-mode calls.

Packet Mode: Refers to the switching of chunks of information for different users using statistical multiplexing to send them over

the same transmission facility.

Parity bit: An extra bit attached to each byte of synchronous data used to detect errors in transmission.

PBX (Private Branch Exchange): A phone exchange located on the customer's premises. The PBX provides a circuit switching

facility for phone extension lines within the building, and access to the public phone network. See also "Exchange".

Permanent Virtual Circuit (PVC): A connection between two endpoints dedicated to a single user. In ISDN, PVCs are established

by network administration and are held for as long as the user subscribes to the service.

Physical Unit (PU): The component that manages and monitors the resources (such as attached links and adjacent link stations)

associated with a node, as requested by an SSCP via an SSCP-PU session. An SSCP activates a session with the physical unit in

order to indirectly manage, through the PU, resources of the node such as attached links. This term applies to type 2.0, type 4, and

type 5 nodes only.

Point-of-Presence (POP): The central office's end points of the long distance carriers.

Point-to-Point Protocol (PPP): A protocol that lets a PC user access TCP/IP (Internet member) using an ISDN terminal adapter

or a high-speed modem over a standard phone line.

Port: A location for input or output data exchange. Computers, muxes, etc. have ports for various purposes.

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PRI (Primary Rate Interface): Used on ISDN. In North America, and Japan, PRI is one 64Kbps D channel and 23 B channels.

Elsewhere, it is one D channel and 30 B channels. PRI is the ISDN equivalent of a T-1 circuit.

Primitive: An abstract representation of interaction across the access points indicating that information is being passed between

the service user and the service provider. The OSI Reference Model defines four types of primitives: Request, Indication, Response

and Confirm.

PROM (Programmable Read Only Memory - pronounced "prom"): A permanent memory chip that can be programmed or filled

by the customer after by the manufacturer has set initial values. Contrast with ROM.

Protocol: 1. A set of semantic and syntactic rules that determines the behavior of functional units in achieving communication. 2.

In Open Systems Interconnection architecture, a set of semantic and syntactic rules that determine the behavior of entities in the

same layer in performing communication functions. 3. In SNA, the meanings of and the sequencing rules for requests and re-

sponses used for managing the network, transferring data, and synchronizing the states of network components. 4. Synonymous

with line control discipline.

PSTN (Public Switched Telephone Network): A worldwide public voice phone network that is used as a telecommunications

medium for the transmission of voice, data and other information.

Public Data Network (PDN): A packet-switched network that is available to the public for individual ("subscriber") use. Typically,

controlled by a government or a national monopoly.

Public Switched Telephone Network (PSTN): The group of circuit-switching voice carriers, which are commonly used as analog

data communications services.

Pulse Code Modulation (PCM): 1. In data communication, variation of a digital signal to represent information; for example, by

means of pulse amplitude modulation (PAM), pulse duration modulation (PDM), or pulse position modulation (PPM). 2. Transmis-

sions of analog information in digital form through sampling and encoding the samples with a fixed number of bits.

Pulse dialing: One of two methods of dialing a phone, usually associated with rotary-dial phones. Compare with "tone dialing".

Quality of Service (QoS): Guarantees network bandwidth and availability for applications.

Quantizing: The process of analog-to-digital conversion by assigning a range, from the contiguous analog values, to a discrete

number.

Random Access Memory (RAM): A computer's primary workspace. All data must be stored in RAM (even for a short while),

before software can use the processor to manipulate the data. Before a PC can do anything useful it must move programs from disk

to RAM. When you turn it off, all information in RAM is lost.

RAS Channel: An unreliable channel used to convey the Registration, Admissions and Status messages and bandwidth changes

between two H.323 entities.

Rate Enforcement: The concept in frame relay where frames sent faster than the CIR are to be carried only if the bandwidth is

available, otherwise they are to be discarded. (The frame relay network assumes that anything exceeding the CIR is of low priority.)

Rate enforcement makes sure that the network will not get so congested that it isn't able to meet the agreed on CIR

Recognized Private Operating Agency (RPOA): A corporation, private or government-controlled, that provides telecommunica-

tions services. RPOAs, such as AT&T, participate as non-voting members in the CCITT.

Red Alarm: A T1 error condition generated when a local failure (e.g., loss of synchronization) exists for 2.5 seconds, causing a

Carrier Group Alarm (CGA). See also "Blue Alarm" and "Yellow Alarm".

Request for Comment (RFC): A set of papers in which Internet standards (published and proposed), along with generally-

accepted ideas, proposals, research results, etc. are published.

Ring Down Box: A device that emulates a CO by generating POTS calls for testing and product demos.

Ring Down Circuit: A tie line connecting phones where picking up one phone automatically rings another phone. A feature used

for emergencies to alert the person at the other phone of the incoming call.

RJ-11: An industry standard interface used for connecting a phone to a modular wall outlet; comes in 4-and 6-wire packages.

RJ-45: An 8-wire modular connector for voice and data circuits.

Robbed Bit Signaling: The popular T1 signaling mechanism where the A and B bits are sent by each side of the T1 termination

and are "buried" in the voice data of each voice channel in the T1 circuit. Since the bits are "robbed" infrequently, voice quality is

remains relatively uncompromised. See "bit robbing".

The robbed-bit signaling technique is used in D4 channel banks to convey signaling information. The eighth (least significant) bit of

each of the 24 8-bit time slots is "robbed" every sixth frame to convey voice-related signaling information such as on-hook, off-

hook, etc., for each channel.

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Glossary

Router: A device that connects two networks using the same networking protocol. It operates at the Network Layer (Layer 3) of the

OSI model for forwarding decisions.

Routing Information Protocol (RIP): A distance vector-based protocol that provides a measure of distance, or hops, from a

transmitting workstation to a receiving workstation.

RS-232-C: An EIA standard for a serial interface between computers and peripheral devices (modem, mouse, etc.). It uses a 25-

pin DB-25, or a 9-pin DB-9 connector. The RS-232 standard defines the purposes, electrical characteristics and timing of the

signals for each of the 25 lines.

RS-422: The EIA standard for a balanced interface with no accompanying physical connector. RS-422 products can use screw

terminals, DB-9, various DB-25, and DB-37 connectors.

RS-530: The EIA standard for the mechanical/electrical interface between DCEs and DTEs transmitting synchronous or asynchro-

nous serial binary data. RS-530 provides for high data rates with the same connector used for RS-232; however, it is incompatible

with RS-232.

Serial Port: The connector on a PC used to attach serial devices (those that need to receive data one bit after another), such as a

mouse, a printer or a modem. This consists of a 9- or 25-pin connector that sends data in sequence (bit by bit). Serial ports are

referred to as "COMx" ports, where x is 1 to 4 (i.e., COM1 through COM4). A serial port contains a conversion chip called a "UART"

which translates between internal parallel and external serial formats.

Service: The requirements offered by an RPOA to its customers to satisfy specific telecommunications needs.

Severely Errored Seconds (SES): Refers to a typical T1 error event where an error burst occurs (a short term, high bit-error rate

that is self-clearing). Per the ITU-T (CCITT) G.821: any second in which the BER is less than 1x10^-3.

Signaling: The process of establishing, maintaining, accounting for, and terminating a connection between two endpoints (e.g., the

user premises and the telco CO). Central office signals to the user premises can include ringing, dial tone, speech signals, etc.

Signals from the user's phone can include off-hook, dialing, speech to far-end party, and on-hook signals. In-band signaling

techniques include pulse and tone dialing. With common channel signaling, information is carried out-of-band.

Simple Network Management Protocol (SNMP): TCP/IP protocol that allows network management.

Simultaneous Voice Data (SVD): A technology for letting a user send data via a modem, and use a handset to talk to another

user at the same time over the same connection. The alternative, making a second call, can be expensive or even impossible. The

uses for SVD are telecommuting, videoconferencing, distant learning, tech support, etc.

Stop Bit: One of the variables used for timing in asynchronous data transmission. Depending on the devices, each character may

be trailed by 1, 1.5, or 2 stop bits.

Superframe (D4): A T1 transmission format that consists of 12 DS1 frames, or 2316 bits. A DS1 frame consists of 193 bit

positions. A frame overhead bit is in the first position, and it is used for frame and signaling phase alignment only.

Subscriber Loop: See "Local loop".

Switched 56: A circuit-switched (full duplex digital synchronous data transmission) service that lets you dial a number and transmit

data to it at 56K bps. It is a relatively low cost service, widely used in North America for telecommuting, videoconferencing and high

speed data transfers. Many phone companies are (or will be) phasing out Switched 56 in favor of ISDN service.

Switched Virtual Circuit (SVC): A type of data transmission where the connection is maintained only until the call is cleared.

Switched Line: In communications, a physical channel established by dynamically connecting one or more discreet segments.

This connection lasts for the duration of the call after which each segment may be used as part of a different channel. Contrast with

leased line.

Switched Network: A network in which a temporary connection is established from one point via one or more segments.

Synchronous Data Link Control (SDLC): A discipline conforming to subsets of the Advanced Data Communications Control

Procedures (ADCCP) of the American National Standards Institute (ANSI) and High-level Data Link Control (HDLC) of the Interna-

tional Organization for Standardization, for managing synchronous, code-transparent, serial-by-bit information transfer over a link

connection. Transmission exchanges may be duplex, or half-duplex over switched or nonswitched links. The configuration of the link

connection may be point-to-point, multipoint, or loop.

Synchronous Transmission: The transmission of data which involves sending a group of characters in a packet. This is a

common method of transmission between computers on a network or between modems. One or more synchronous characters are

transmitted to confirm clocking before each packet of data is transmitted. Compare to Asynchronous Transmission.

Systems Network Architecture (SNA): The description of the logical structure, formats, protocols, and operational sequences for

transmitting information units through, and controlling the configuration and operation of networks.

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Glossary

Tariff: The rate/availability schedule for telephone and ISDN services from a regulated service provider.

TCP/IP: A set of communication protocols that support peer-to-peer connectivity functions for both local and wide area networks.

TCP/IP was developed by the US Department of Defense to link dissimilar computers across dissimilar and unreliable LANs.

T Carrier: The generic name for a digitally multiplexed carrier system. In the North American digital hierarchy, a T is used to

designate a DS (digital signal) level hierarchy. Examples: T1 (DS1) is a 1.544 M bps 24-channel designation. In Europe, T1 is

called E1. The T Carrier system was originally designed for transmitting digitized voice signals, but has since been adapted for

digital data applications.

T1: A digital transmission link capable of 1.544M bps. T1 uses two pairs of normal UTP, and can handle 24 voice conversations,

each digitized at 64K bps. T1 is a standard for digital transmission in the U.S., Canada, Japan and Hong Kong. T1 is the access

method for high-speed services such as ATM, frame relay, and SMDS. See also T Carrier, T1 line and FT1.

T1 Channel Tests: A set of diagnostics that vary by carrier, used to verify a T1 channel operation. Can include Tone, Noise Level,

Impulse Noise Level, Echo Cancellors, Gain, and Crosstalk testing.

T1 Framing: To digitize and encode analog voice signals requires 8000 samples per second (twice the highest voice frequency of

4000 Hz). Encoding in an 8-bit word provides the basic T1 block of 64K bps for voice transmission. This "Level 0 Signal, as its

called, is represented by "DS-0", or Digital Signal at Level 0. 24 of these voice channels are combined into a serial bit stream

(using TDM), on a frame-by-frame basis. A frame is a sample of all 24 channels; so adding in a framing bit gives a block of 193 bits

(24x8+1=193). Frames are transmitted at 8000 per second (the required sample rate), creating a 1.544M (8000x193=1.544M)

transmission rate.

T1 Line: A digital communications facility that functions as a 24-channel pathway for data or voice. A T1 line is composed of two

separate elements: the Access element and the Long Haul element.

T1 Mux: A device used to carry many sources of data on a T1 line. The T1 mux assigns each data source to distinct DS0 time

slots within the T1 signal. Wide bandwidth signals take more than one time slot. Normal voice traffic or 56/64K bps data channels

take one time slot. The T1 mux may use an internal or external T1 DSU; a "channel bank" device typically uses an external T1

CSU.

Terminal: 1) The screen and keyboard device used in a mainframe environment for interactive data entry. Terminals have no "box",

which is to say they have no file storage or processing capabilities. 2) An H.323 endpoint that provides for real-time, two-way

communications with another terminal, gateway, or H.323 MCU. An H.323 terminal must provide audio and may also provide video

and/or data.

Terminal Adapter (TA): An ISDN DTE device for connecting a non-ISDN terminal device to the ISDN network. Similar to a

protocol converter or an interface converter, a TA connects a non-ISDN device between the R and S interfaces. Typically a PC

card.

Tie line: A dedicated circuit linking two points without having to dial a phone number (i.e., the line may be accessed by lifting the

phone handset or by pushing a button).

Time-Division Multiplexing (TDM): Division of a transmission facility into two or more channels by allotting the common channel

to several different information channels, one at a time.

Time Slot: One of 24 channels within a T1 line. Each channel has a 64K bps maximum bandwidth. "Time slot" implies the time

division multiplexing organization of the T1 signal.

Toll Call: A call to a location outside of your local service area (i.e., a long distance call).

Tone dialing: One of two methods of dialing a phone, usually associated with Touch-Tone® (push button) phones. Compare with

pulse dialing.

Topology: Physical layout of network components (cables, stations, gateways, and hubs). Three basic interconnection topologies

are star, ring, and bus networks.

Transmission Control Protocol (TCP): A communications protocol used in Internet and in any network that follows the US

Department of Defense standards for internetwork protocol. TCP provides a reliable host-to-host protocol between hosts in packet-

switched communications networks and in interconnected systems of such networks. It assumes that the Internet protocol is the

underlying protocol.

Transport Layer: Layer 4 of the Open Systems Interconnection (OSI) model; provides reliable, end-to-end delivery of data, and

detects transmission sequential errors.

Transport Protocol Data Unit (TPDU): A transport header, which is added to every message, contains destination and source

addressing information that allows the end-to-end routing of messages in multi-layer NAC networks of high complexity. They are

automatically added to messages as they enter the network and can be stripped off before being passed to the host or another

device that does not support TPDU's.

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Glossary

Trunk: A communication line between two switching systems or offices. Central office trunks connect a PBX to the switching

system at the central office. A tie trunk connects two PBXs.

TSR (terminate and stay resident): A software program that remains active and in memory after its user interface is closed.

Similar to a daemon in UNIX environments.

Tunneling: Encapsulation data in an IP packet for transport across the Internet.

Twisted pair wiring: A type of cabling with one or more pairs of insulated wires wrapped around each other. An inexpensive wiring

method used for LAN and telephone applications, also called UTP wiring.

UART (Universal Asynchronous Receiver/Transmitter) (pronounced "you art"): A chip that transmits and receives data on the

serial port. It converts bytes into serial bits for transmission, and vice versa, and generates and strips the start and stop bits

appended to each character.

UNIX: An operating system developed by Bell Laboratories that features multiprogramming in a multi-user environment.

Unshielded Twisted Pair (UTP): Telephone-type wiring. Transmission media for 10Base-T.

V.25bis: An ITU-T standard for synchronous communications between a mainframe or host and a modem using HDLC or other

character-oriented protocol.

V.54: The ITU-T standard for local and remote loopback tests in modems, DCEs and DTEs. The four basic tests are:

• local digital loopback (tests DTE send and receive circuits),

• local analog loopback (tests local modem operation),

• remote analog loopback (tests comm link to the remote modem), and

• remote digital loopback (tests remote modem operation).

Virtual Circuit: A logical connection. Used in packet switching wherein a logical connection is established between two devices at

the start of transmission. All information packets follow the same route and arrive in sequence (but do not necessarily carry a

complete address).

Zone: A collection of all H.323 endpoints and MCUs managed by a single Gatekeeper. A zone must include may include LAN

segments connected by using routers.

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Index

EMC, safety and terminal directive compliance87

Ethernet (10Base-T) connector ...................... 13

Ethernet, front panel....................................... 12

About the Internet........................................... 78

Accessories, ordering..................................... 77

Add/Edit Phone Entry ..................................... 31

Applications setup, changing.......................... 59

Archie ............................................................. 81

Auto Call...................................................40, 50

Auto Call Enable.......................................26, 40

Automatic Disconnection..........................26, 40

Automatic disconnection, billing/security ........ 50

Fax branding statement.................................. 85

FCC Part 15 statement .................................. 85

FCC Part 68 Telecom statement .................... 86

Finger ............................................................. 81

Firewall ........................................................... 20

Flash Timer box........................................24, 48

Front panel, description .................................. 12

FTP (File Transfer Protocol) ........................... 81

Back panel, description .................................. 13

Billing options ................................................. 51

Billing/Misc default setup, Master .............27, 41

Billing/Misc parameters, changing.................. 50

Billing/Misc tab ............................................... 40

Boot LED ........................................................ 12

Building a proprietary phonebook................... 31

Gatekeeper .................................................... 28

Registering phone numbers........................ 28

Glossary ......................................................... 89

Gopher ........................................................... 81

H.323 protocol

Cable Connection

Overview....................................................... 6

HTML ............................................................. 81

HTTP .............................................................. 81

Hunt Group..................................................... 32

Remote Site ................................................ 44

Cabling ........................................................... 18

Local site .................................................... 18

Cabling the MVP120

Remote site ................................................ 44

Call Duration ............................................27, 41

Call progress, viewing ..............................58, 62

Canadian limitations notice ............................ 87

Channel interface default setup, Master......... 38

Channel interface default setup, Slave........... 38

Channel totals, viewing .................................. 63

Coder, voice/fax ............................................. 49

Collision.......................................................... 12

Command connector ...................................... 13

Command port cable, diagram ....................... 83

Configuration port setup ................................. 46

Configuration utilities ...................................... 46

Configuration utilities, overview ...................... 46

Configuring Your Client MultiVOIPs................ 36

Connectors

Industry Canada statement ............................ 85

Installing MultiVOIP software ......................... 20

Inter Digit Time .........................................24, 48

Internet

Multi-Tech's Web site .................................. 78

Internet protocol (IP) ...................................... 82

IP default setup, Master ................................. 24

IP default setup, Slave ................................... 37

IP parameters, changing ................................ 57

IP statistics ..................................................... 60

Jitter buffer, dynamic ...................................... 51

Jitter Value ...............................................26, 40

Jitter value ...................................................... 50

Command ................................................... 13

Power ......................................................... 13

Consecutive Packets Lost ........................27, 40

Custom tone pair settings............................... 51

DNS................................................................ 81

DTMF gain, voice/fax ..................................... 49

Dynamic Jitter Buffer ...................................... 27

Dynamic jitter buffer ....................................... 51

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Index

LAN cable, diagram ........................................ 83

LAN-based remote configuration.................... 70

LEDs

Receive data .................................................. 12

Regional default setup, Master.................27, 41

Regional parameters, changing ..................... 51

Registering with the Gatekeeper .................... 28

Regulatory information ................................... 85

Remote configuration

56K DSU

RD ........................................................... 12

Ethernet

CL ........................................................... 12

LNK ......................................................... 12

RD ........................................................... 12

TD ........................................................... 12

Log entries, reports ........................................ 63

Log entry details, viewing ............................... 62

LAN-based procedure ................................ 70

Modem-based procedure............................ 68

Remote management

Telnet .......................................................... 71

WEB management...................................... 73

Remote site administrator, deployment .......... 44

Remote site cable connection ........................ 44

Reports, log entries ........................................ 63

Ring Count FXO ............................................. 48

Ringer equivalence number ........................... 87

Manual Upgrade Procedure ........................... 66

Max Baud rate, voice/fax................................ 50

Message Waiting Light ................................... 48

Modem-based remote configuration............... 68

MultiVOIP Main menu, introduction ................ 46

MultiVOIP Main menu, screen........................ 47

MultiVOIP, Telnet server menu ....................... 72

MVP120

Back panel .................................................. 13

Cabling diagrams ........................................ 83

Configuring the Slave MultiVOIP ................ 37

Deploying the VOIP network....................... 44

Front panel ................................................. 12

Installing the MultiVOIP software ................ 20

Introduction ................................................... 6

Service........................................................ 77

Specifications ............................................. 14

Technical support........................................ 78

Typical application ........................................ 8

Unpacking................................................... 17

Upgrade procedure ..................................... 64

Safety warning

General ....................................................... 17

Telecom ...................................................... 17

Send Status Report to Master ........................ 31

Service ........................................................... 77

Slave status.................................................... 54

SMTP ............................................................. 81

SNMP ............................................................. 81

SNMP agent, enabling ................................... 59

SNMP statistics .............................................. 61

Software ......................................................... 46

Description.................................................. 46

Software installation procedure ...................... 20

Specifications

Command Port ........................................... 14

Ethernet Port .............................................. 14

Station Identification ....................................... 32

Station identification ....................................... 54

Statistics, viewing

IP ................................................................ 60

SNMP ......................................................... 61

Optimization Factor ........................................ 27

Optimization factor ......................................... 51

Ordering accessories ..................................... 77

TCP packets................................................... 60

TCP/IP............................................................ 80

Technical specifications.................................. 14

Technical support ........................................... 78

Telnet........................................................71, 81

Proxy Server Configuration ........................ 73

Telnet server menu......................................... 72

Tone Pairs ................................................27, 41

Tone pairs, customizing.................................. 51

Traceroute ...................................................... 81

Transmit data ................................................. 12

Typical application ............................................ 8

Packets lost/received ..................................... 58

Password, SNMP ........................................... 59

Phone directory database, changing .............. 52

Ping ................................................................ 81

POP................................................................ 81

Power connector ............................................ 13

Proprietary phonebook

Building ....................................................... 31

Pulse generation ratio .................................... 51

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Index

UDP packets .................................................. 60

Uninstall ProxyServer configuration ............... 46

Unpacking your MVP120 ............................... 17

Upgrading software version............................ 64

Viewing statistics ............................................ 60

Voice coder, voice/fax .................................... 49

Voice over IP configuration............................. 72

Voice/Fax 1 and 2, front panel........................ 12

Voice/Fax channel connectors, diagram ........ 83

Voice/Fax default setup, Master ...............25, 39

Voice/Fax parameters, changing .................... 49

WEB Server ................................................... 73

104

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