Multi Tech Systems Network Card MT5634ZPX V92 ISA User Manual

MultiModem® ZPX  
MT5634ZPX-V.92-ISA  
Internal ISAData / Fax Modem  
User Guide  
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MultiModemZPX User Guide  
Contents  
Contents  
Chapter 1 - Introduction ..........................................................................................................5  
Product Description ........................................................................................................................... 5  
General features ............................................................................................................................... 6  
Manual Organization ......................................................................................................................... 7  
Technical Specifications.................................................................................................................... 8  
Chapter 2 - Installation ..........................................................................................................10  
What You Will Need ........................................................................................................................ 10  
Safety Warnings.............................................................................................................................. 10  
Step 1 - Determine System Resources ........................................................................................... 11  
Step 2 - Configure Jumpers ............................................................................................................ 14  
Step 3 - Install the Modem into Your Computer ............................................................................... 14  
Step 4 - Run Add Hardware Wizard ................................................................................................ 15  
Step 5 - Run Add Modem Wizard .................................................................................................... 16  
Step 6 - Query Modem .................................................................................................................... 16  
Step 7 - Connect Your Modem to the Telephone Line..................................................................... 17  
Step 8: Configure the Modem for Your Country .............................................................................. 18  
AT Commands ................................................................................................................................ 18  
Data Communications Software ...................................................................................................... 18  
Chapter 3 - Using Your Modem ............................................................................................19  
Operating Your MultiModemZPX..................................................................................................... 19  
Testing Your Modem ....................................................................................................................... 19  
Testing Data Functions ................................................................................................................... 19  
Testing Fax Functions ..................................................................................................................... 19  
Remote Configuration ..................................................................................................................... 20  
Basic Procedure.............................................................................................................................. 20  
Setup .............................................................................................................................................. 21  
Chapter 4 - AT Commands ....................................................................................................22  
Fax Commands............................................................................................................................... 22  
Chapter 5 - Troubleshooting .................................................................................................23  
Initial Checklist ................................................................................................................................ 23  
Common Problems ......................................................................................................................... 23  
Chapter 6 - Warranty, Service, and Tech Support ..............................................................27  
Online Warranty Registration .......................................................................................................... 28  
Service ............................................................................................................................................ 29  
Replacement Parts.......................................................................................................................... 30  
Technical Support ........................................................................................................................... 30  
Internet Sites ................................................................................................................................... 30  
Appendix A - Regulatory Compliance..................................................................................31  
FCC Part 68 Telecom ..................................................................................................................... 31  
FCC Part 15 .................................................................................................................................... 32  
Fax Branding Statement.................................................................................................................. 32  
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MultiModemZPX User Guide  
Contents  
Canadian Limitations Notice............................................................................................................ 32  
Industry Canada.............................................................................................................................. 33  
EMC, Safety, and R&TTE Directive Compliance ............................................................................. 33  
International Modem Restrictions .................................................................................................... 33  
New Zealand Telecom Warning Notice ........................................................................................... 33  
Appendix B - Updating Your Modem’s Firmware ...............................................................35  
Introduction ..................................................................................................................................... 35  
Upgrade Overview .......................................................................................................................... 35  
Appendix C - ASCII Conversion Chart .................................................................................38  
Appendix D – Waste Electrical and Electronic Equipment (WEEE) ..................................39  
Index........................................................................................................................................50  
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MultiModemZPX User Guide  
1 Introduction  
Chapter 1 - Introduction  
Congratulations on your purchase of the MultiModem® ZPX.You have acquired one of the finest internal  
data/fax modems available today from one of the world’s oldest modem manufacturers: Multi-Tech  
Systems, Inc. This User Guide will help you to install, configure, test, and use your modem.  
One Modem, Worldwide Use. The MultiModemZPX is designed for global applications. This means one  
modem can ship around the world. The global modem is ideal for businesses with global operations that  
want to standardize on one modem and are looking to simplify the ordering process. Go to  
Product Description  
The MultiModemZPX provides high-speed data transfer and fax capabilities for small businesses,  
telecommuters, and SOHO users. Its supports the new ITU-T V.92 protocol which provides quick  
connections, downstream transmissions at speeds up to 56K bps*, and upstream transmissions at  
speeds up to 48K bps when connected to V.92-compatible Internet service providers. Transmissions  
between the MultiModemZPX and other client modems are limited to 33.6K bps, as are upstream  
transmissions to non-V.92-compatible ISPs and downstream transmissions that are converted more than  
once on the telephone network.  
Fax Communications: The MultiModemZPX also supports “Super G3” ITU-T V.34 fax communications  
at speeds up to 33.6K bps with Class 2.1 fax commands.  
Features: Modem features include remote configuration. In standard mode, you can store up to four  
command lines or telephone numbers of up to 40 characters each in the modems’ nonvolatile memory.  
Other modem capabilities include AT&T calling card tone detection, pulse and tone dialing, adaptive  
answer, V.42 error correction, and V.42bis and V.44 data compression.  
NOTE:  
* Though this modem is capable of 56K bps download performance, line impairments, public telephone  
infrastructure, and other external technological factors currently prevent maximum 56K bps  
connections.  
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MultiModemZPX User Guide  
1 Introduction  
General features  
Compliance with major ITU-T, TIA, and EIA international standards to ensure compatibility with  
other modems  
Distinguishes data and fax calls  
Compliance with the V.80 standard, allowing video conferencing over analog telephone lines with  
any H.324 video phone system  
Data  
Supports V.90/K56flexTM for data transmission speeds up to 56 Kbps while maintaining  
compatibility with lower-speed modems  
Note: The V.90/K56flex standard asymmetrically transfers data—client downloads at speeds up to 56  
Kbps; client uploads at speeds up to 33.6 Kbps  
Supports the enhanced ITU-T V.34 standard with data transmission speeds to 33.6 Kbps while  
also maintaining compatibility with lower-speed modems  
Supports V.90/K56flex speeds plus 33.6K, 31.2K, 28.8K, 26.4K, 24K, 21.6K, 19.2K, 16.8K, 14.4K,  
12K, 9.6K, 7.2K, 4.8K, 2.4K, 1.2K, and 0–300 bps  
Automatic fallback to slower speeds in noisy line conditions and fall-forward to faster speeds as  
conditions improve (line quality monitoring)  
ITU V.42 LAP-M and MNP Class 3 and 4 error correction  
ITU V.42bis (4-to-1) and MNP 5 (2-to-1) data compression  
H.324 compliant (videophone ready)  
Automatic disabling of compression when transferring already compressed files  
Autodial, redial, pulse (rotary), and touch-tone dial  
Dial tone and busy signal detection for reliable call-progress detection  
Distinctive ring support to route data or fax calls on a single phone line  
FlashROM upgradable (customer upgradable in a Windows environment)  
Compatibility with the standard AT command set used by most communication programs  
Stores up to two telephone numbers  
Fax  
Supports V.17, ITU-T “Super” Group 3 fax communication standards, allowing it to communicate  
with other fax modems as well as with fax machines  
Responds to Class 1 and Class 2 fax commands, enabling it to exchange editable and encrypted  
faxes with other Windows computers  
Sends and receives faxes from your computer at 14,400 bps, 9600 bps, 7200 bps, 4800 bps, 2400  
bps, or 300 bps  
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MultiModemZPX User Guide  
1 Introduction  
Manual Organization  
This User Guide will help you to install, configure, use, and troubleshoot your modem. The manual is  
divided into seven chapters and four appendices:  
Chapter 1: Introduction. This chapter Introduces the MT5634ZPX, briefly describing features and  
technical specifications.  
Chapter 2: Installation. Chapter 2 contains information about unpacking your MultiModemZPX adapter  
and safety warnings. It also describes how to determine system resources, configure the board jumpers,  
run add hardware wizard, and add and query your modem. Also, how to install the modem in your  
computer and connect it to a telephone line. This chapter also describes the process for configuring your  
modem’s initial setup for operation within your country.  
Chapter 3: Using your Modem. In this chapter, instructions are provided for configuring your  
communications software and Windows Dial-up Networking. The chapter also describes several tests  
which can assist you in confirming that your modem is installed properly.  
Chapter 4: AT Commands, S-Registers and Result Codes. Chapter 4 refers you to separate reference  
guides:  
AT commands, S-Registers, and Result Codes  
• Fax Commands Class 1  
• Fax Commands Class 2  
Chapter 5:Troubleshooting. The troubleshooting chapter describes common problems you may have  
with your modem and how to solve them.  
Chapter 6:Warranty, Service andTechnical Support. This chapter provides information on the terms of  
your warranty and describes how to get help with your modem from Multi-Tech Systems Technical  
Support group.  
Appendix  
Appendix A: Regulatory Compliance  
Appendix B: Updating Your Modem’s Firmware  
Appendix C: ASCII Conversion Chart  
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MultiModemZPX User Guide  
1 Introduction  
Technical Specifications  
Trade Name  
MultiModemZPX  
Model Number  
MT5634ZPX  
Server-to-Client  
Data Rates  
V.90 speeds when accessing a V.90 or V.92 server (actual  
speed depends on server capabilities and line conditions)*  
Client-to-Server  
Data Rates  
Up to 50Kbps when accessing a V.92 server (actual speed  
depends  
on server capabilities and line conditions); otherwise, the same  
as client-to-client data lines.  
Client-to-Client  
33600,31200, 28800, 26400, 24000, 21600, 19200, 16800,  
14400, 12000,  
Data Rates  
9600, 7200, 4800, 2400, 1200, 0-300 bps  
Fax Data Rates  
Data Format  
14400, 12000, 9600, 7200, 4800, 2400, 1200, 0-300 bps  
Serial, binary, asynchronous  
Modem Compatibility  
ITU-T V.92, V.90, V.34 enhanced, V.34, V.34bis, V.32, V.22bis,  
V.22; Bell 212A and 103; ITU-T V.21; V.42, V.42bis, V.44  
Fax Compatibility  
ITU-T “Super” Group 3, Class 1.0, 2.0, 2.1, T.4, T30, V.21,  
V.27ter, V.29, V.34, V.17; TIA/EIA 578 Class 1,2, TR29.2  
Video Compatibility  
Error Correction  
ITU-T V.80 for H.34 video conferencing  
ITU-T V.42 (LAP-M or MNP 4)  
Data Compression  
ITU-T V.44 (4:1 throughput), V.42bis (4:1 throughput), MNP 5  
(2:1 throughput)  
Speed Detection  
Automatic speed detection and switching between available  
speeds  
Speed Conversion  
Serial port data rates adjustable to 300; 1200; 2400; 4800; 9600;  
19,200; 38,400; 57,600; 115,200 bps  
Mode of Operation  
Flow Control  
Fax online modes, full duplex data over dial-up  
XON/XOFF (software), RTS/CTS (hardware)  
Intelligent Features  
Full AT command compatible, redial, repeat dial, pulse or tone  
dial, dial pauses, auto answer, adaptive answer; EIA extended  
automode; adaptive line probing; automatic symbol and carrier  
frequency during start-up, retrain and rate renegotiation, DTMF  
detection, call status display, auto-parity and data rate selections,  
keyboard-controlled modem options, non-volatile memory, quick-  
connect startup  
*Though these modems are capable of 56K bps download performance, line impairments, public  
telephone infrastructure and other external technological factors currently prevent maximum 56K  
bps connections.  
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MultiModemZPX User Guide  
1 Introduction  
Command Buffer  
Transmission Level  
Frequency Stability  
Receiver Sensitivity  
AGC Dynamic Range  
Connectors  
40 Characters  
-11 dBm (North America and Pan Euro) - varies by country setting  
0.01%  
-43 dBm under worst-case conditions  
43 dB  
One RJ-11 phone jack  
Cables  
One modular telephone cable (USA); country-specific cord for UK  
and International models; one 9-pin to 25-pin serial cable for UK  
and International models; external power transformer and cord  
Diagnostics  
Local analog loop, local digital loop, remote digital loop  
Environmental  
Temperature range 0°–50°C (32°–120°F);  
humidity range 20–90% (non-condensing)  
Storage Temperature  
Dimensions  
-10° to +85°C (14°- 185° F)  
10.8 cm wide x 14.8 cm long x 2.9 high (4.25” × 5.8” x 1.15”)  
224 g (8 oz)  
Weight  
Operating Systems  
Tested for use with Windows 95, 98, NT, and 2000, and Linux  
(2.2.x kernal)  
Limited Warranty  
10 years  
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MultiModemZPX User Guide  
2 Installation  
Chapter 2 - Installation  
WhatYou Will Need  
Before starting, please make sure you have everything you need:  
We supply  
An MT5634ZPX-V92 data/fax modem  
An RJ-11 telephone cable  
A printed Quick Start Guide  
An MultiModemZPX system CD containing modem drivers, this User Guide, Phone Tools, and  
Adobe Acrobat Reader  
You supply  
A 100-MHz or faster Pentium personal computer with an unused ISA expansion slot. For video  
conferencing, we recommend a 166-MHz or faster computer.  
Windows 98, NT, 2000, ME, XP or Linux (2.2.x kernal) operating system installed  
A CD-ROM drive  
Tools to open your computer  
A nearby telephone line jack  
Safety Warnings  
Use this product only with UL- and CUL-listed computers (U.S.A.)  
To reduce the risk of fire, use only UL-listed 26 AWG (.41mm) or larger telephone wiring.  
Never install telephone wiring during a lightning storm.  
Never install a telephone jack in a wet location unless the jack is specifically designed for wet  
locations.  
Never touch uninsulated telephone wires or terminals unless the telephone line has been dis-  
connected at the network interface.  
Use caution when installing or modifying telephone lines.  
Avoid using a telephone during an electrical storm; there is a risk of electrical shock from light-  
ning.  
Do not use a telephone in the vicinity of a gas leak.  
The telephone cord is to be disconnected before accessing the inside of the equipment.  
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MultiModemZPX User Guide  
2 Installation  
Step 1 - Determine System Resources  
Before you physically install your new MultiModemZPX, you need to determine what system resources  
are in use on your system. The best way to check what resources are in use and which ones are  
available, run WINMSD Utility.  
1. To check the system resources, click Start I Run.  
2. Enter WINMSD in the Open: window and click OK. The operating system then displays the  
System Information dialog box.  
3. Click on Hardware Resources in the left window of System Information to expand the selec-  
tion.  
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2 Installation  
4. Click on IRQs to display the used IRQs.  
The MultiModemZPX only uses IRQs 3,4,and 5 so you need to check in the above screen to  
see if any of these IRQs are available. The MultiModemZPX is defaulted to IRQ 5.  
5. Record the available IRQ that you are going to use _____.  
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2 Installation  
6. Now, click on I/O to display the available I/O addresses.  
7. The MultiModemZPX uses the following I/O addresses:  
COM1:  
COM2:  
COM3:  
COM4:  
3F8-3FF  
2F8-2FF  
3E8-3EF  
2E8-2EF  
and is defaulted to COM 4.  
8. Record the available I/O address that you are going to use _______.  
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2 Installation  
Step 2 - Configure Jumpers  
The MT5634ZPX board contains seven Berg jumpers for setting the interrupt request (IRQ) number and  
COM port assignment. The jumpers are located on the lower part of the PC board as shown below. The  
IRQ number is set using jumpers 1, 2, and 3 and the COM port assignment is set using jumpers 4  
through 7. The default IRQ number is IRQ5 and the default COM port assignment is COM4.  
5
7
1
6
2
4
3
COM1: 4  
COM2: 5  
COM3: 4  
COM4: 5  
6
6
7
7
COM  
PC Board Jumpers  
1. Before handling the MT5634ZPX, discharge static in your body by touching a metal piece of  
the computer chassis. Carefully remove the MultiModemZPX from its antistatic bag, handling  
it only by the mounting bracket and edges. Do not touch the gold-plated connectors along the  
bottom edge.  
2. To change the IRQ from the default IRQ5, move the berg jumper from the default position to  
your new position that supports your application.  
3. To change the COM port assignment from the default COM4, move the two berg jumpers  
from their default positions to your new positions that supports your application.  
Step 3 - Install the Modem intoYour Computer  
Installing the MultiModemZPX requires you to open your computer. Please consult your computer manual  
in addition to the following instructions:  
1. Turn off the computer and unplug it. Failure to do so may result in damage to both the  
MultiModemZPX and the computer. Do not turn on the computer until the instructions tell you  
to do so.  
2. Remove the cover from the computer as instructed in the computer manual.  
3. Select an empty ISA expansion slot. Remove the expansion slot cover and save the retaining  
screw.  
4. Place the MultiModemZPX directly above the expansion slot and gently, but firmly, push it into  
the connector until the card’s retaining bracket is flush against the computer chassis.  
5. Fasten the retaining bracket to the computer chassis with the screw saved in step 3.  
6. Replace the cover of the computer.  
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2 Installation  
Step 4 - Run Add Hardware Wizard  
1. Click on Start I Control Panel I Add Hardware and the Add Hardware Wizard screen is dis-  
played.  
2. Click on the Next button on the Add Hardware Wizard screen. The wizard will pause a few  
seconds trying to detect the new device. Windows will not detect any device, if the system  
does, it may be some other device that has not been properly installed.  
3. When Is the hardware connected? screen displayed, click on Yes, I have already connect-  
ed the hardware option and click Next.  
4. The following hardware is already installed on your computer screen is displayed. Scroll down  
to Add a new hardware device and highlight. Click Next.  
5. Click on Install the hardware that I manually select from a list [Advanced] and click Next.  
6. From the following list below, select the type of hardware you are installing screen is  
displayed. Scroll down to Ports [COM & LPT] option. Click Next.  
7. Select the device driver you want to install for this hardware. In the Model window, select  
Communications Port and click Next.  
8. When the Completing the Add Hardware Wizard screen appears, click on View or change  
resources for this hardware [Advance] option and the Add Hardware Wizard Properties  
screen appears, click on Set Configuration Manually option and ckick OK.  
9. The Add Hardware Wizard Properties window for Communications Port [COM3] is dis-  
played. In the Setting based on: window, chose the basic configuration that mostly matches  
your situation. For example Basic configuration 0003 has an I/O range 02F8-02FF used by:  
Communications Port [COM2].  
10.To change either of the settings, click on either I/O Range or IRQ in the Resource type win-  
dow and then click on Change Setting button.  
11.If you need to change the IRQ, the Edit Interrupt Request window is displayed. In the Value:  
window click on either the up arrow or the down arrow to choose your interrupt value that you  
recorded in Step 5. Click OK.  
12.Click Finish in the Completing the Add Hardware Wizard window and Windows wants to  
restart your computer in order for the changes to take effect. Click Yes.  
13.After the system reboots, verify that your com port is available and your IRQ is correct by se-  
lecting the Control Panel I System and clicking on the Hardware tab in the System Proper-  
ties screen.  
14.Click on the Device Manager button. Click on the Ports (COM & LPT) to display the Commu-  
nications Ports. If either a yellow Exclamation point or Red Question mark appears, a conflict  
with some of the resources or that the device is disabled in the system. If no yellow Exclama-  
tion point or Red Question mark, no conflicts are present.  
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2 Installation  
Step 5 - Run Add Modem Wizard  
1. Place the MT5634ZPX-V92 CD in the CDROM drive and allow time for the CD to spin up. The  
MT5634ZPX-V92 AutoRun screen will appear.  
2. Click on Start I Control Panel I Phone and Modem Options.  
3. In the Phone and Modem Options screen with the Dialing Rules tab active, click on the  
Modems tab.  
4. Click on the Add button.  
5. In the Install New Modem screen, click on Don’t detect my modem; I will select it from a  
list. Click Next.  
6. In the next Install New Modem screen, click on the Have Disk button.  
7. Browse to the location of the CDROM drive, usually CD Drive(D:). The Locate File screen  
appears, click on the Look in: down arrow and choose the CDROM drive. Click on zpxisa.inf  
file.  
8. In the Models window of the Install New Modem screen, click on the MT5634ZPX-V92 option  
and click Next.  
9. The Select the port(s) you want to install the modem on screen appears. Highlight the COM  
port On which ports do you want to install it? This is the COM port that you choose in step 8  
in Determine System Resources. Click Next.  
10.Windows will display the logo compatibility test screen, click Continue Anyway button.  
11.The Modem installation is finished screen appears, click Finish.  
Step 6 - Query Modem  
1. To be sure the system can access the modem, highlight the MT5634ZPX-V92 in the Modem  
window of the Phone and Modem Options screen. Click the Properties button.  
2. The MT5634ZPX-V92 Properties screen is displayed, click on the Diagnostics button.  
3. In the Modem Information area, click on Query Modem button. The system will pause for a  
few seconds while trying to access the modem. The modem will respond to the AT commands  
sent by the system.  
4. The modem response will be displayed in the Command I Response window of the  
MT5634ZPX-V92 Properties screen.  
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MultiModemZPX User Guide  
2 Installation  
Step 7 - ConnectYour Modem to the Telephone Line  
The MultiModemZPX communicates over public-switched telephone network lines. Use the modular  
telephone cable provided with the modem to connect the MultiModemZPX to your telephone wall jack. If  
you don’t have a standard modular wall jack near your computer, install one or have one installed for you  
by your telephone company. In the U.S., installation kits and adapters are available wherever telephones  
are sold.  
PHONE  
MT5634ZPX Internal ISA Modem  
1. Plug one end of the supplied modular telephone cable into the LINE jack.  
2. Plug the other end of the telephone cable into a working wall jack.  
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MultiModemZPX User Guide  
2 Installation  
Step 8: Configure the Modem forYour Country  
Before you use your modem, you must configure it for the country in which it will be used. You must also  
do this if you move the modem to another country after it has been configured for the first country. You can  
use one of two configuration methods: the Global Wizard utility or AT commands.  
The Global Wizard Utility  
The Global Wizard configuration utility is recommended for computers running Windows 98 or newer.  
1. Insert the MultiModemZPX CD into the CD-ROM drive. The Autorun menu should appear.  
2. Click Initial Setup and Country Selection.  
3. In the Global Wizard dialog box, select either Run from CD or Install on your PC. Choose  
the former to configure your modem without installing the Global Wizard on your computer.  
Choose the latter to install the Global Wizard on you computer and Start menu.  
4. Click Next. The Global Wizard searches for your modem and identifies it.  
5. Click Next.  
6. Select the country in which the modem will be used, and then click Next.  
7. Review your choice of country. If it is correct, click Next to configure the modem.  
8. When Global Wizard announces that the parameters have been set, click Finish to exit.  
AT Commands  
Non-Windows users can configure the modem using AT commands. You must enter these commands in  
your communication program’s terminal window.  
There is a separate document of AT Commands provided for reference on the MultiModem system CD.  
1. Run your favorite communication program, and open the program’s terminal window.  
2. To configure the modem for a specific country, type AT%T19,0,nn, where nn is the country  
code in hexadecimal notation, and then press Enter.  
3. To verify the change, type ATI9, and then press Enter. The country code is displayed in deci-  
mal format.  
Example of country, command and result codes  
Country  
AT command  
Result code  
(decimal)  
(hexadecimal)  
Euro/NAM  
Japan  
AT%T19,0,34 (default)  
AT%T19,0,10  
52  
16  
A complete list of country codes can be found on the Multi-Tech Web site at  
Data Communications Software  
Data communications software is designed to send and receive messages. Multi-Tech includes a data  
communications software with your modem. However, the modem will work with most data  
communications software. To install the software, insert the CD into the CD-ROM drive; click the Phone  
Tools icon.You will be asked to choose your language. The software automatically loads onto your PC.  
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MultiModemZPX User Guide  
3 Using Your Modem  
Chapter 3 - UsingYour Modem  
Operating Your MultiModemZPX  
If you’re an experienced modem user, you may only want to check your modem’s settings for data  
compression, error correction, and so on.You’ll find you can get moving quite quickly by using a terminal  
window (you may use HyperTerminal in Windows) to issue the AT&V<cr> command. This command will  
list your modem’s current configuration, the stored (user) profiles, and the stored telephone numbers. If  
you come across a setting you’re unsure of, refer to the AT Command Reference Guide for AT commands  
and S-Register explanations and defaults.  
Your MT5634ZPX can be controlled by issuing AT commands and setting S-Registers. Since your  
MultiModemZPX default settings use a traditional modem set to make a dial-up call to a remote  
installation where the call is answered automatically—you shouldn’t need to change the current  
configuration.  
In operating your MultiModemZPX, it is likely that you will use your data communications software to  
either:  
• Enter terminal mode, where you can speak most directly to the modem by issuing AT  
commands, or  
• Launch a data communications or Dial-Up Networking session through a set of modem  
configurations that you select and then associate with a target telephone number.  
Testing Your Modem  
Testing Data Functions  
You can test your modem’s data transfer functions by logging on to Multi-Tech’s Web site to register your  
modem.  
Note: This procedure assumes you have set up a successful dial-up Internet connection and  
you have a web browser installed on your computer.  
1. Make your connection to the Internet.  
3. Complete and submit the form.  
Testing Fax Functions  
Test your modem’s fax capabilities by sending a fax to Multi-Tech or to a fax machine in your office.  
Windows 95, 98 and 2000 include a faxing application. If you are using Windows NT and want to fax  
from your computer, you will need to install a third party faxing application.  
The Windows fax application can act as a stand-alone fax program, or it can be used to fax from within  
an application such as a word processor. If you are using Windows 2000 and are not familiar with the  
faxing procedure, use the Windows 2000 Help index to find the topic entitled Fax, how to fax a document.  
If you are faxing from Windows 95 or Windows 98, use the following procedure:  
1. Click Start | Programs | Accessories | WordPad.  
2. Create a message in WordPad, for example: This is a test of the MultiModemZPX’s fax  
capabilities.  
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3 Using Your Modem  
3. Save the file as ZPXTest.doc and exit WordPad.  
4. Click Start | Programs | Accessories | Fax | Compose New Fax.  
5. The Compose New Fax wizard appears. Click Next.  
6. To send the file to your own fax machine or to another fax modem in your office, type the des-  
tination name and phone number in the To and Fax # boxes.  
7. Click Add to List; then click Next.  
8. Select a cover page; then click Next.  
9. Type a subject line (e.g., MultiModemZPX Fax Test) and a note to go on the cover page;  
then click Next.  
10. Click Add File. In the Open a File to Attach dialog box, select ZPX Test.doc and click  
Open. The ZPX Test.doc file is added to the Files to Send list box.  
11. Click Next; then click Finish.  
12. Microsoft Fax opens the ZPX Test.doc file in WordPad, prints it to the Rendering System, di-  
als the recipient, and then sends the fax.  
13. Exit Microsoft Fax when the Status dialog box displays that the fax was sent successfully.  
Other Methods for Accessing Microsoft Fax  
In Windows, select File | Print and select Microsoft Fax or Fax as the default printer.  
In a Windows application, select File | Send.  
In Microsoft Exchange, select Compose and then New Fax.  
Remote Configuration  
Remote configuration is a network management tool that allows you to configure modems anywhere in  
your network from one location. With password-protected remote configuration, you can issue AT  
commands to a remote MT5634ZPX modem for maintenance or troubleshooting as if you were on-site.  
Basic Procedure  
The following procedure is valid regardless of whether the connection is established by the local or  
remote Multi-Tech modem.  
1. Establish a data connection with a remote MT5634ZPX modem.  
2. Send three remote configuration escape characters followed by AT and the setup password.  
Then press ENTER. Example: %%%ATMTSMODEM, press the Enter key. You have four at-  
tempts to enter the password correctly before being disconnected. If the password is correct,  
the remote modem responds with OK.  
Note: The default setup password for your Multi-Tech Modem is MTSMODEM. Keep in  
mind, passwords are case sensitive.  
3. You now can send AT commands to configure the remote modem.  
CAUTION: Hanging up improperly while you are in remote configuration mode can lock up  
the remote modem.  
4. When you finish configuring the remote modem, save the new configuration by typing AT&W0,  
press the Enter key. Then type ATO, followed by pressing the Enter key to exit remote con-  
figuration. You can then break the connection in the normal way.  
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3 Using Your Modem  
Setup  
Multi-Tech modems are shipped with a default setup password (MTSMODEM). For security measures,  
you should change the password. As an added security measure, also change the remote configuration  
escape character.  
Changing the Setup Password  
Caution: You can only change the setup password locally; you cannot do it remotely.  
1. Open a data communications program such as HyperTerminal.  
2. In the terminal window, type AT#SMTSMODEM (or AT#Syyyyyy if you have replaced the  
MTSMODEM password with yyyyyy) and press Enter. The modem responds with OK if the  
setup password is correct and ERROR if it is wrong.  
3. To change the password, type AT#S=yyyyyy, where yyyyyy is the password, and press  
Enter. The password can include any keyboard character and must be one to eight charac-  
ters long. The modem responds with OK.  
4. The new password is saved automatically. You now can enter more AT commands or exit the  
data communications program. The next time you remotely configure the modem you must  
use the new setup password.  
Changing the Remote Escape Character  
To increase security, you can change a remote modem’s remote configuration escape character. The  
remote configuration escape character is stored in register S9. The factory default is 37, which is the  
ASCII code for the percent character (%). For more information on ASCII codes, refer to Appendix D.  
1. Establish a remote configuration link with the remote modem as described in Basic Procedure  
on the previous page.  
2. Type ATS9=n, where n is the ASCII code for the new remote configuration escape character.  
Then press ENTER.  
Caution: Setting S9 to 0 (zero) disables remote configuration entirely—if you disable remote  
configuration you will no longer be able to configure this device from a remote location!  
3. To save the new value, type AT&W and press Enter.  
4. Type ATO, then Enter to exit remote configuration.  
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4 AT Commands and Fax Commands  
Chapter 4 - AT Commands  
A complete AT Commands, S-Registers, and Result Codes Reference Guide can be found on the  
MT5634ZPX-V92 CD and on the Multi-Tech Web site.  
Fax Commands  
Fax commands resemble AT commands, but are more complicated to use. Because of this, we  
recommend that you use a fax program to send and receive faxes rather than attempting to control the  
modem directly. Developers who need to know the fax commands for the MT5634ZPX-V92 can find Fax  
Class 1 and Fax Class Class 2 Reference Guides on the MT5634ZPX-V92 CD as well as the Multi-Tech  
Web site.  
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5 Troubleshooting  
Chapter 5 -Troubleshooting  
This chapter describes common problems you may have with your modem and how to solve them. If you  
are unable to make a successful connection, or if you experience data loss or garbled characters during  
a connection, use the Initial Checklist below to begin the troubleshooting process. If the problem is not  
resolved after going through the Initial Checklist, review the Common Problems section for further  
troubleshooting recommendations. If you are still unable to make a successful connection, refer to  
Chapter 6 for information on how to reach a technical support technician via our toll-free telephone  
number or the Internet.  
Initial Checklist  
The following checklist will help to ensure the modem has been properly set up.  
Make sure the COM port you chose during setup matches the COM port set in your  
communications software. See Chapter 3 for more information.  
Check that the phone cord between the modem’s jack and the wall jack is undamaged and  
firmly connected to both.  
Retry whatever action was not working.  
If it still does not work, check the following section for a description and possible solution to  
your problem.  
Common Problems  
The following is a list of common problems associated with using a modem:  
The modem does not respond to commands.  
The modem dials but cannot make a connection.  
The modem disconnects while online.  
The modem cannot connect when answering.  
File transfer appears slower than it should be.  
Data is being lost.  
Garbage characters display on the monitor.  
Fax and communications software won’t run at the same time.  
Use the following instructions to guide you through troubleshooting these problems before con-  
tacting Technical Support:  
The modem does not respond to commands  
Make sure you are in terminal mode in your data communications program; then type AT and  
press Enter. You should get an OK response. If not, reset your modem by sending it an ATZ  
or AT&F command in terminal mode. If using legacy software (software designed for an older  
operating system), make sure the initialization string includes &F as the first command to  
cancel any leftover commands that could interfere with the modem’s operation.  
If you don’t get an OK, the problem may still be in the communications software. Make sure  
you have properly configured the port in your communications software. Most legacy (prior to  
Windows 95) communications programs connect to the COM port when the software loads and  
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5 Troubleshooting  
remain connected until the program terminates. Some programs can disconnect without exiting  
the program. If this is the case, try issuing the software’s connection command. If more than  
one communications program is open, they may conflict with each other. Make sure all other  
communications programs are closed and try to make the connection again.  
If using legacy software, the COM port setting may not match the COM port that Windows  
assigned. Compare the COM port setting in your software to the COM port reported in  
Windows. To view your modem COM port settings:  
In Windows 95/98, select Start | Settings | Control Panel |Modems, and then Diagnostics.  
In Windows NT, select Start | Settings | Control Panel |Modems. Click Properties.  
In Windows 2000/XP, click Start | Settings | Control Panel |Modem and Phone Options |  
Properties.  
Another expansion card (such as a sound card) may be using the same COM port, memory  
address, or interrupt request (IRQ) as your modem. See Chapter 2 for information on verifying  
the configuration for your operating system. Look for conflicts with other devices installed on  
your computer. Resources are assigned at power up by the computer’s BIOS. If the resources  
assigned to the MultiModemZPX conflict with the resources of another device, the resources of  
the second device have to be changed. Select the port the conflicting device is on and change  
it to resolve the conflict. If you need to change switches or jumpers on the conflicting device,  
refer to the device’s documentation.  
If you have another MultiModemZPX, install it and try to make a connection.  
The modem dials but cannot make a connection  
Several reasons why the MultiModemZPX fails to make a connection include:  
Lack of a physical connection to the telephone line.  
A wrong dial tone.  
A busy signal.  
A wrong number.  
No modem at the other end.  
A faulty modem, computer, or software at the other end.  
Incompatibility between modems.  
Narrow the list of possibilities by using extended result codes. If you disabled themodem’s  
extended result codes, enable them by entering ATV1X4 in a terminal window and press Enter.  
When you dial again, the modem reports the call’s progress.  
If the modem reports NO DIALTONE, check that the modem’s telephone line cable is  
connected to the modem’s jack and the telephone wall jack. If the cable looks secure, try  
replacing it.  
If that doesn’t work, the problem may be in your building’s telephone installation. To test the  
building installation, plug a telephone into your modem’s telephone wall jack and listen for a  
dial tone. If you hear a dial tone, your modem may be installed behind a company phone  
system (PBX) with an internal dial tone that sounds different from the normal dial tone. In that  
case, the modem may not recognize the dial tone and may treat it as an error. Check with your  
in-house telephone switch (PBX) personnel or the PBX system manual to see if you can  
change the internal dial tone. If you can’t, change your modem’s initialization string to include  
X3, which makes the modem ignore dial tones.  
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5 Troubleshooting  
If the modem reports BUSY, the other number may be busy. Try again later. BUSY also may  
indicate that 9 was not added to the phone number (if required to dial 9 for an outside line).  
If you are required to dial 9 to get an outside line, the easiest way to dial it automatically using  
legacy software is to include it in the modem’s dial prefix, e.g., ATDT9, (the comma inserts a  
pause before the number is dialed). If you have set up your connection through Dial-Up  
Networking or another communications program, find the dialing configuration dialog box that  
allows you to add a dial prefix. Enter 9 as the prefix when dialing.  
For example, in Windows 95/98, select Start|Settings|Control Panel, and then Modems.  
In the Modems Properties sheet, select the appropriate modem model (e.g., Multi-Tech  
MT5634ZPX-V92), click Dialing Properties and type 9 in the local and long distance box-  
es in the How I dial from this location box.  
If the modem reports NO ANSWER, the other system has failed to answer, or you may have  
dialed a wrong number. Check the number.  
If the modem reports NO CARRIER, the phone was answered at the other end, but no modem  
connection was made. You may have dialed an incorrect number and a person answered  
instead of a computer. A NO CARRIER message may also indicate the modem you are calling  
is turned off or the software on the receiving end is faulty or incorrectly configured. Check the  
number and try again or try calling another system to make sure your modem is working. You  
may also try calling the modem’s phone number from your telephone. If you hear harsh  
sounds, a modem is answering the call. If the modem is answering, the modems may be  
having problems negotiating due to modem incompatibilities or line noise. Try the call again  
connecting at a lower speed by setting register S37 to a lower rate (e.g., by typing ATS37=11  
in the terminal window and pressing Enter).  
The modem disconnects while online  
If you have call waiting on the same phone line as your modem, it may interrupt your  
connection when someone tries to call you. If you have call waiting, disable it before each call.  
In most telephone areas in North America, you can disable call waiting by preceding the  
telephone number with *70 (check with your local telephone company).  
You can disable call waiting automatically by including the disabling code in the modem’s dial  
prefix (e.g., ATDT*70,—note the comma, which inserts a pause before the telephone number  
is dialed). For example, in Windows 95/98 software, select Start | Settings | Control Panel,  
and then Modems. In the Modems Properties sheet, select Multi-Tech MT5634ZPX-V92,  
click Dialing Properties. Check This location has call waiting and select the correct code for  
your phone service.  
Note: *70 is used only in the United States.  
If you have extension phones on the same line as your modem, you or someone else can  
interrupt the connection by picking up another phone. If this is a frequent problem, disconnect  
the extension phones before using the modem or install another phone line for the modem  
only.  
Check for loose connections between the modem and the telephone jack.  
You may have a poor connection because of line conditions, or the problem may have  
originated on the other end of the line. Try again.  
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5 Troubleshooting  
If you were online with a commercial online service, it may have hung up because of lack of  
activity on your part or because you exceeded your time limit for the day. Try increasing the  
length of time in minutes the modem will wait before disconnecting when no data is sent or  
received. The Inactivity Timer can be changed using AT Command \Tn, or register S30.  
The modem cannot connect when answering  
Auto-answer may be disabled. Turn on auto-answer in your data communications program or  
send the command ATS0=1 to your modem in terminal mode.  
File transfer appears slower than it should  
If you are using a slow transfer protocol, such as Xmodem or Kermit, try Zmodem or Ymodem/  
G instead.  
Is your line noisy? If there is static on your line, the modem has to resend many blocks of data  
to ensure accuracy. You must have a clean line for maximum speed.  
If you are downloading a file compressed with MNP 5 hardware compression enabled, try  
disabling data compression. The transfer may be marginally slower with data compression  
enabled because hardware data compression cannot compress a file already compressed by  
an archiving program.  
Data is being lost  
If you are using data compression, be sure the serial port baud rate is set to a minimum of four  
times the data rate.  
Make sure the flow control method you selected in your software matches the method selected  
in the modem (see AT commands &Kn and \Qn.)  
Try entering the &V (View Parameters) command, making a screen print of the diagnostics  
listing, and checking for parameters that may be unacceptable.  
Garbage characters display on the monitor  
Your computer and the remote computer may be set to different word lengths, stop bits, or  
parities. If you are attempting to connect at 8-N-1, try changing to 7-E-1, or vice-versa, using  
your communications software.  
You may be experiencing line noise. Enable error correction if it is disabled. Or, hang up and  
call again; you may get a better connection.  
At speeds above 2400 bps, the remote modem may not use the same transmission or error  
correction standards as your modem. Try connecting at a slower speed or disabling error  
correction. (With no error correction, however, line noise can cause garbage characters.)  
Try entering the &V (View Parameters) command, making a screen print of the diagnostics  
listing, and checking for parameters that may be unacceptable.  
Fax and data software won’t run at the same time  
You can have Windows compliant data and fax communication applications open at the same  
time, but they cannot use the same modem at the same time. Make sure no other  
communications application is open when you try to dial out. If you are using legacy  
communications software with Windows, you may get a message that another application is  
occupying the device even when no call is in progress. Close any open legacy  
communications programs and try again.  
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6 - Warranty, Service, and Tech Support  
Chapter 6 - Warranty, Service, and Tech Support  
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.  
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  
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  
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.  
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6 - Warranty, Service, and Tech Support  
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/  
Online Warranty Registration  
If you have access to the World Wide Web, you can register your Multi-Tech product online at  
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6 - Warranty, Service, and Tech Support  
Service  
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), a 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 http://www.multitech.com/documents/warranties.  
Extended two-year overnight replacement 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 coverages.  
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 e-mail  
Please direct your questions regarding repair expediting, receiving, shipping, billing, etc., to our Repair  
Accounting department at 800 328-9717 or +763 785-3500, or e-mail [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.  
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 will be shipped freight collect, unless other arrangements are made in advance.  
Please direct questions regarding technical matters, product configuration, verification that the product is  
defective, etc., to our Technical Support department nearest you, as listed at http://www.multitech.com/  
COMPANY/offices/DEFAULT.ASP., or e-mail [email protected]. When calling the U.S., please  
direct questions regarding repair expediting, receiving, shipping, billing, etc., to our Repair Accounting  
department at +763 717-5631 in the U.S.A., or e-mail [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.  
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6 - Warranty, Service, and Tech Support  
International Distributors  
Procedures for international distributors of Multi-Tech products are on the Distributor Web site at http://  
www.multitech.com/PARTNERS/login/.  
Replacement Parts  
SupplyNet, Inc., can supply you with replacement power supplies, cables and connectors for selected  
Multi-Tech products.You can place an order with SupplyNet via mail, phone, fax or the Internet at the  
following addresses:  
Mail:  
SupplyNet, Inc.  
614 Corporate Way  
Valley Cottage, NY 10989  
800 826-0279  
Phone:  
Fax:  
914 267-2420  
Email:  
Internet:  
Technical Support  
Multi-Tech Systems 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, please call  
800 972-2439 (USA and Canada) or 763 717-5863 (international and local). Please have modem  
information available.You can also contact Technical Support by e-mail at the following addresses:  
Country  
Email  
Telephone  
France:  
India:  
+(33) 1-64 61 09 81  
+91 (124) 2340780  
+(44) 118 959 7774  
(800) 972-2439  
(763) 717-5863  
Europe,Asia,Africa:  
U.S.A., Canada,all others [email protected]  
Please note the status of the modem before contacting Technical Support. Status information can include  
the state of the LED indicators, screen messages, diagnostic test results, problems with a specific  
application, etc.  
Internet Sites  
Multi-Tech is a commercial provider on the Internet. Multi-Tech has a Web site at  
and an ftp site at ftp://ftp.multitech.com  
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Appendix A - Regulatory Compliance  
Appendix A - Regulatory Compliance  
FCC Part 68 Telecom  
1.  
2.  
3.  
This equipment complies with part 68 of the Federal Communications Commission Rules. On  
the outside surface of this equipment is a label that contains, among other information, the  
FCC registration number. This information must be provided to the telephone company.  
The suitable USOC jack (Universal Service Order Code connecting arrangement) for this  
equipment is shown below. 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 that is Part 68 compliant. See installation instructions for  
details.  
4.  
The ringer equivalence number (REN) is used to determine the number of devices that  
may be connected to the telephone line. Excessive RENs on the telephone line may result  
in the device not ringing in response to an incoming call. In most, but not all, areas the sum  
of the RENs should not exceed 5.0. To be certain of the nuber of devices that may be  
connected to the line, as determined by the total RENs, contact the local telephone  
company.  
5.  
6.  
7.  
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 is not practical, the telephone company will notify you 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 trouble is causing harm to the telephone network, the telephone  
company may request you remove the equipment from the network until the problem is  
resolved.  
8.  
9.  
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 should not be used on party lines or coin lines.  
10. If so required, this equipment is hearing-aid compatible.  
11. Manufacturing information:  
Manufacturer:  
Trade Name  
Model Number:  
FCC Registration No:  
Multi-Tech Systems, Inc.  
MultiModem® ZPX  
MT5634ZPX  
AU7USA32234--M5-E  
Ringer Equivalence No: 0.4B  
Modular Jack (USOC):  
RJ11C  
Service Center in USA: Multi-Tech Systems, Inc.  
2205 Woodale Drive  
Mounds View, MN 55112  
U.S.A.  
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Appendix A - Regulatory Compliance  
FCC Part 15  
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant  
to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful  
interference in a residential installation. This equipment generates, uses, and can radiate radio frequency  
energy, and if not installed and used in accordance with the instructions, may cause harmful interference  
to radio communications. However, there is no guarantee that interference will not occur in a particular  
installation. If this equipment does cause harmful interference to radio or television reception, which can  
be determined by turning the equipment off and on, the user is encouraged to try to correct the  
interference by one or more of the following measures:  
• Reorient or relocate the receiving antenna.  
• Increase the separation between the equipment and receiver.  
• Plug the equipment into an outlet on a circuit different from that to which the receiver is con-  
nected.  
• Consult the dealer or an experienced radio/TV technician for help.  
This device complies with Part 15 of the FCC rules. Operation of this device is subject to the following  
conditions:  
(1) This device may not cause harmful interference, and  
(2) 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.  
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  
• Telephone 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.  
Canadian Limitations Notice  
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 telephone 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.  
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Appendix A - Regulatory Compliance  
Notice: The Industry Canada label identifies certificated equipment. This certification means that the  
equipment meets certain telecommunications network protective, operational and safety requirements.  
The Industry Canada label 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,  
telephone 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.  
Industry Canada  
This Class B digital apparatus meets all requirements of the Canadian Interference-Causing Equipment  
Regulations.  
Cet appareil numérique de la classe B respecte toutes les exigences du Reglement Canadien sur le  
matériel brouilleur.  
EMC, Safety, and R&TTE 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 1999/5/EC of 9 March 1999 on radio equipment and telecommunications ter-  
minal equipment and the mutual recognition of their conformity.  
International Modem Restrictions  
Some dialing and answering defaults and restrictions may vary for international modems. Changing  
settings may cause a modem to become non-compliant with the national telecom requirements in  
specific countries. Also note that some software packages may have features or lack restrictions that  
may cause the modem to become non-compliant.  
33  
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Appendix A - Regulatory Compliance  
New Zealand Telecom Warning Notice  
(1) The grant of a Telepermit for any item of terminal equipment indicates only that Telecom has  
accepted that the item complies with minimum conditions for connection to its network. It indicates  
no endorsement of the product by Telecom, nor does it provide any sort of warranty. Above all, it  
provides no assurance that any item will work correctly in all respects with another item of  
Telepermitted equipment of a different make or model, nor does it imply that any product is  
compatible with all of Telecom’s network services.  
This equipment is not capable under all operating conditions of correct operation at the higher speed  
which it is designated. 33.6 kbps and 56 kbps connections are likely to be restricted to lower bit  
rates when connected to some PSTN implementations. Telecom will accept no responsibility should  
difficulties arise in such circumstances.  
(2) Immediately disconnect this equipment should it become physically damaged, and arrange for its  
disposal or repair.  
(3) This modem shall not be used in any manner which could constitute a nuisance to other Telecom  
customers.  
(4) This device is equipped with pulse dialing, while the Telecom standard is DTMF tone dialing. There  
is no guarantee that Telecom lines will always continue to support pulse dialing.  
Use of pulse dialing, when this equipment is connected to the same line as other equipment, may  
give rise to ‘bell tinkle’ or noise and may also cause a false answer condition. Should such problems  
occur, the user should NOT contact the Telecom Faults Service.  
The preferred method of dialing is to use DTMF tones, as this is faster than pulse (decadic) dialing  
and is readily available on almost all New Zealand telephone exchanges.  
(5) Warning Notice: No ‘111’ or other calls can be made from this device during a mains power failure.  
(6) This equipment may not provide for the effective hand-over of a call to another device connected to  
the same line.  
(7) Some parameters required for compliance with Telecom’s Telepermit requirements are dependent  
on the equipment (PC) associated with this device. The associated equipment shall be set to oper-  
ate within the following limits for compliance with Telecom’s Specifications:  
For repeat calls to the same number:  
There shall be no more than 10 call attempts to the same number within any 30 minute period for  
any single manual call initiation, and  
The equipment shall go on-hook for a period of not less than 30 seconds between the end of one  
attempt and the beginning of the next attempt”  
For automatic calls to different numbers:  
The equipment shall be set to ensure that automatic calls to different numbers are spaced such  
that there is no less than 5 seconds between the end of one call attempt and the beginning of  
another.  
For automatically answered incoming calls:  
The equipment shall be set to ensure that calls are answered between 3 and 30 seconds of  
receipt of ringing.  
(8) For correct operation, total of the RN’s of all devices connected to a single line at any time should  
not exceed 5.  
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Appendix B - Updating Your Modem Firmware  
Appendix B - UpdatingYour Modem’s Firmware  
Introduction  
Your modem is controlled by semi-permanent software, called firmware, which is stored in flash memory.  
Firmware is nonvolatile; that is, it remains stored in memory when the modem is turned off. However,  
either the manufacturer or the user can change the firmware as bugs are fixed or new features are added.  
Multi-Tech System’s Flash Wizard utility can be used in the Windows operating system to update (flash)  
your modem’s firmware.  
The Flash Wizard utility is available on the MT5634ZPX-V92 CD or can be downloaded from Multi-Tech’s  
ftp site.  
Upgrade Overview  
The upgrade (flash) procedure for the Windows operating system consists of the following steps:  
1. Identify the modem’s model number and firmware version.  
2. Identify the current version of the firmware.  
3. Download the upgrade (.HEX) file for your modem.  
4. Extract the firmware upgrade (.HEX) file.  
5. Install The Flash Wizard .  
6. Document your stored parameters.  
7. Upgrade the modem’s firmware using the .HEX file and the Flash Wizard.  
8. Restore your parameters.  
Step 1: Identify the Modem Firmware  
You must know the model number and firmware version of your Multi-Tech modem to know whether you  
should update it.  
1. Run your favorite terminal program. If you are using Windows 98, Windows NT, or Windows  
2000, you can use HyperTerminal.  
2. In the program’s terminal window, type AT&F. Even if you cannot see the AT&F command on  
your screen, be sure to type it completely, and then press Enter. The modem should respond  
OK.  
3. After the modem responds OK, type ATI and press Enter. Record your results. The model  
number and firmware version should appear.  
Step 2: Identify the Current Firmware Version  
Identify the current version of the firmware available for your modem on the Multi-Tech web site. If your  
modem already has the current firmware, there is no need to update it.  
1. Using your favorite Web browser, go to Multi-Tech System’s support web page. Follow the  
links to the modem firmware page.  
2. Locate your modem model number.  
3. Compare the firmware version number for your modem as found in Step 1: Identify the Modem  
Firmware, to the latest firmware version as listed on the web site. If your modem is at the cur-  
rent version, it does not need to be updated.  
4. If the current firmware version is greater than the firmware version number found in Step 1:  
Identify the Modem Firmware, your modem has an older firmware version. Continue with Step  
3: Download the Upgrade File.  
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Appendix B - Updating Your Modem Firmware  
Step 3: Download the Upgrade File  
At Multi-Tech’s Support web page, follow the links to the modem firmware page. Locate the entry for your  
modem model and click on the upgrade file name to begin downloading the file to a temporary directory  
on your hard disk.  
Step 4: Install the Flash Wizard  
Install the Flash Wizard upgrade utility from the MT5634ZPX-V92 CD.  
1. Insert the MT5634ZPX-V92 CD into your computer’s CD-ROM drive.  
2. When the Autorun menu appears, click Utilities.  
3. From the Select Utility Program dialog box, select Flash Wizard. Click OK.  
4. The Welcome dialog box displays.  
5. Before continuing with the firmware update, exit all Windows programs. Click Cancel to quit  
Setup if you need to close other Windows programs. Close any programs that are running and  
restart the update Wizard. When you are ready to proceed, click Next> to continue.  
6. The Choose Destination Location dialog box displays. You may click Browse and select  
another folder if you do not want to use the default installation path. Remember the location of  
the destination folder; you’ll need to copy the firmware .Hex file to the same location before  
using the Flash Wizard to update your modem. Destination Folder _____________________  
Click Next>.  
7. When the program finishes copying files to your computer, the Setup Complete dialog box  
displays indicating that you must restart your computer before using the program.  
8. Select Yes, then Finish to restart your system.  
Note: You must restart your computer to finish the Flash Wizard installation  
Step 5: Extract the Upgrade Files  
1. When the system restarts, move the upgrade file (downloaded from the web site) to the Flash  
Wizard utility directory on your computer’s hard drive.  
2. In Windows, double-click the self-extracting update file. The extracted files include the .HEX  
file used to update your modem.  
Step 6: Document Your Stored Parameters  
Before you flash your modem it is important that you record the parameters that are currently stored in  
your modem so you can reprogram it after flashing.  
1. Run your favorite terminal program.  
2. In the program’s terminal window, type AT&V and press Enter to list your modem’s current  
parameters.  
3. Record your parameters by saving the screens and sending them to your printer.  
4. Close the terminal program.  
Step 7: Upgrade the Modem’s Firmware  
CAUTION: If you are using Windows NT, you must disable Windows RAS and Microsoft Fax  
Service before upgrading the modem’s firmware.  
To disable RAS and your Fax service (Windows NT Only):  
Click Start | Settings | Control Panel, then double-click Services. Select Remote Access  
Server and click Startup.... Select Manual as the Start Up Type and click OK.  
If you are using a Fax service in NT, change its Start Up Type to Manual.  
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Appendix B - Updating Your Modem Firmware  
Using the Flash Wizard  
1. Use Windows Explorer to copy the new .Hex file (which you downloaded from the Multi-Tech  
web site) to the folder in which the Flash Wizard program was installed.  
2. Click Start | Programs | Flash Wizard to start the firmware update process. The program be-  
gins by identifying devices attached to your computer.  
3. The Wizard displays a list of installed devices able to be flashed with the update. You may up-  
date more than one device in a single procedure. Select the device(s) you’d like to update and  
click Next> to continue.  
4. Next, the Firmware Update Wizard displays current firmware version information. The top  
portion of the window provides port, version and country identification for the firmware cur-  
rently installed on your device(s). The Hex File list box displays the firmware versions avail-  
able for updating your modem.  
a. If your modem’s firmware version number matches or is higher than the version number listed  
in the Hex File list, click Cancel to end the update process.  
b. If your modem’s firmware version number is lower than the firmware version shown in the  
Hex File list, continue with the update process. Select the port for the device you are updat-  
ing. Use the list box to select the latest .Hex file version number for your country and click  
Next>.  
5. The Firmware Update Wizard displays a progress indicator and begins updating your devices  
with the new firmware version. When the Wizard finishes the update, the progress indicator  
status changes to Programming Complete, and the Finish> button becomes active. Click Fin-  
ish> to complete the update.  
6. When the update completes, the Firmware Update Wizard displays indicating the device has  
been successfully updated. Click Next> to close the Wizard.  
7. You must restart your computer to make the firmware changes effective for your modem.  
Note: If you are using Windows NT, be certain to enable RAS and your fax program when the  
operating system restarts.  
Step 8: Restore Your Parameters  
Your modem has been updated.You can now open your terminal program to reprogram your modem  
parameters or to confirm the update by typing ATI in the terminal window.  
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Appendix C - ASCII Conversion Chart  
Appendix C - ASCII Conversion Chart  
CTRL CODE HEX DEC CODE HEX DEC CODE HEX DEC CODE HEX DEC  
@
A
B
C
D
E
F
G
H
I
NUL  
SOH  
STX  
ETX  
EOT  
ENQ  
ACK  
BEL  
BS  
00  
01  
02  
03  
04  
05  
06  
07  
08  
09  
0A 10  
0B 11  
0C 12  
0D 13  
0E 14  
0F 15  
10 16  
11 17  
12 18  
13 19  
14 20  
15 21  
16 22  
17 23  
18 24  
19 25  
1A 26  
1B 27  
1C 28  
1D 29  
1E 30  
1F 31  
0
1
2
3
4
5
6
7
8
9
SP 20  
32  
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
43  
44  
45  
46  
47  
48  
49  
50  
51  
52  
53  
54  
55  
56  
57  
58  
59  
60  
61  
62  
63  
@
A
B
C
D
E
F
G
H
I
40 64  
41 65  
42 66  
43 67  
44 68  
45 69  
46 70  
47 71  
48 72  
49 73  
4A 74  
4B 75  
4C 76  
4D 77  
4E 78  
4F 79  
50 80  
51 81  
52 82  
53 83  
54 84  
55 85  
56 86  
57 87  
58 88  
59 89  
5A 90  
5B 91  
5C 92  
5D 93  
5E 94  
5F 95  
`
a
b
c
d
e
f
60 96  
61 97  
62 98  
63 99  
64 100  
65 101  
66 102  
67 103  
68 104  
69 105  
6A 106  
6B 107  
6C 108  
6D 109  
6E 110  
6F 111  
70 112  
71 113  
72 114  
73 115  
74 116  
75 117  
76 118  
77 119  
78 120  
79 121  
7A 122  
7B 123  
7C 124  
7D 125  
7E 126  
!
"
21  
22  
23  
24  
25  
26  
27  
28  
29  
2A  
2B  
2C  
2D  
2E  
2F  
30  
31  
32  
33  
34  
35  
36  
37  
38  
39  
3A  
3B  
3C  
3D  
3E  
3F  
#
$
%
&
g
h
i
(
HT  
)
*
J
LF  
J
j
k
l
K
L
VT  
+
,
K
L
FF  
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
[
CR  
-
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
[
m
n
o
p
q
r
SO  
.
SI  
/
DLE  
DC1  
DC2  
DC3  
DC4  
NAK  
SYN  
ETB  
CAN  
EM  
0
1
2
3
4
5
6
7
8
9
:
s
t
u
v
w
x
y
z
{
SUB  
ESC  
FS  
;
\
<
=
>
?
\
|
]
GS  
]
}
^
RS  
^
~
_
US  
_
DEL 7F 127  
NUL  
SOH  
STX  
ETX  
EOT  
ENQ  
ACK  
BEL  
BS  
Null, or all zeros  
Start of Header  
Start of Text  
End of Text  
End of Transmission  
Enquiry  
Acknowledge  
Bell or Alarm  
Backspace  
Horizontal Tab  
Line Feed  
VT  
FF  
CR  
SO  
Vertical Tab  
Form Feed  
Carriage Return  
Shift Out  
Shift In  
Data Link Escape  
Device Control 1  
Device Control 2  
Device Control 3  
Device Control 4  
Negative Acknowledge  
SYN  
Sync.  
ETB  
CAN  
EM  
SUB  
ESC  
S
GS  
RS  
US  
DEL  
End Transmission Block  
Cancel  
End of Medium  
Substitute  
SI  
DLE  
DC1  
DC2  
DC3  
DC4  
NAK  
Escape  
File Separator  
Group Separator  
Record Separator  
Unit Separator  
Delete  
HT  
LF  
38  
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Appendix D - WEEE  
Appendix D – Waste Electrical and  
Electronic Equipment (WEEE)  
The WEEE directive places an obligation on manufacturers, distributors and retailers to take-back  
electronics products at the end of their useful life. A sister Directive, ROHS (Restriction of Hazardous  
Substances), complements the WEEE Directive by banning the presence of specific hazardous  
substances in the products at the design phase.  
The WEEE Directive covers all Multi-Tech products being sold into the EU as of August 13, 2005.  
Manufacturers, distributors and retailers are obliged to finance the costs of recovery from municipal  
collection points, reuse, and recycling of specified percentages per the WEEE requirements.  
Instructions for Disposal of WEEE by Users in the European Union  
The symbol shown below is on the product or on its packaging which indicates that this product must not  
be disposed of with other waste. Instead, it is the user’s responsibility to dispose of the user’s waste  
equipment by handing it over to a designated collection point for the recycling of waste electrical and  
electronic equipment. The separate collection and recycling of waste equipment at the time of disposal  
will help to conserve natural resources and ensure that it is recycled in a manner that protects human  
health and the environment. For more information about where you can drop off your waste equipment  
for recycling, please contact your local city office, your household waste disposal service or the seller  
from whom you purchased the product.  
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A
Glossary  
transmission control characters and control character  
sequences, for binary synchronous transmission of binary-  
coded data between stations.  
Analog signal: A waveform which has amplitude, frequency  
and phase, and which takes on a range of values between its  
maximum and minimum points.  
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.  
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.  
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.  
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 applications with mainframe programs.  
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.  
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.  
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.  
Asynchronous Transfer Mode (ATM): A very high-speed  
method of transmission that uses fixed-size cells of 53 bytes to  
transfer information over fiber; also known as cell relay.  
Bus: A common channel between hardware devices either  
internally between components in a computer, or externally  
between stations in a communications network.  
AT Commands: A standard set of commands used to configure  
various modem parameters, establish connections and  
disconnect. The “AT” is used to get the “attention” of the modem  
before the actual command is issued.  
Bus Enumeration: Detecting and identifying Universal Serial  
Bus devices.  
Availability: The measure of the time during which a circuit is  
ready for use; the complement of circuit “outage” (100% minus  
% outage = % available).  
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).  
B
Babble: unexpected bus activity that persists beyond a  
specified point in a frame.  
C
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  
wafer processing system.  
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.  
Capabilities: Those attributes of a Universal Serial Bus device  
that are administerable by the host.  
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.  
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.  
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.  
Bandwidth: the amount of data transmitted per unit of time,  
typically bits per second (bps) or bytes per second (Bps).  
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).  
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 phone networks of countries outside of the U.S.  
See also ITU.  
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.  
Central Office (CO): The lowest, or most basic level of  
switching in the PSTN (public switched telephone network). A  
Binary Synchronous Communication (BSC): A form of  
telecommunication line control that uses a standard set of  
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business PABX or any residential phone connects to the PSTN  
at a central office.  
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.  
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”.  
Consecutive Severely Errored Seconds (CSES): An error  
condition that occurs when from 3 to 9 SES (Severely Errored  
Seconds) are logged consecutively.  
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.  
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  
telephone equipment, “911” equipment, equipment necessary  
for the provision of communications for national defense, or  
multiplexing equipment used to deliver multiple channels to the  
customer.  
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.  
Characteristics: Those qualities of a Universal Serial Bus  
device that are unchangeable; for example, the device class is a  
device characteristic.  
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.  
D
Data Communications Equipment (DCE): Any device which  
serves as the portal of entry from the user equipment to a  
telecommunications facility. A modem is a DCE for the  
telephone 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.  
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.  
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.  
Clear Channel: A transmission path where the full bandwidth is  
used (i.e., no bandwidth needed for signaling, carrier framing or  
control bits). A 64 Kbps digital circuit usually has 8 Kbps used  
for signaling. ISDN has two 64 Kbps circuits, and a 16 Kbps  
packet service of which part is used for signaling on the 64K  
channels.  
Dataphone Digital Service (DDS): A private line digital service  
that offers 2400, 4800, 9600 and 56 Kbps data rates on an  
inter-LATA basis by AT&T and on an intra-LATA basis by the  
BOCs.  
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.  
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.  
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.  
Dedicated Line: A communication line that is not switched. The  
term leased line is more common.  
Committed Burst Size: The maximum number of bits that the  
frame relay network agrees to transfer during any measurement  
interval.  
Default: This is a preset value or option in software packages,  
or in hardware configuration, that is used unless you specify  
otherwise.  
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.  
Default Address: an address defined by the Universal Serial  
Bus Specification and used by a Universal Serial Bus device  
when it is first powered or reset. The default address is 00h.  
Default Pipe: the message pipe created by Universal Serial  
Bus system software to pass control and status information  
between the host and a Universal Serial Bus device’s Endpoint  
0.  
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.  
Device: a logical or physical entity that performs a function. The  
actual entity described depends on the context of the reference.  
At the lowest level, device may refer to a single hardware  
component, as in a memory device. At a higher level, it may  
refer to a collection of hardware components that perform a  
particular function, such as a Universal Serial Bus interface  
device. At an even higher level, device may refer to the function  
performed by an entity attached to the Universal Serial Bus; for  
example, a data/FAX modem device. Devices may be physical,  
electrical, addressable, and logical. When used as a non-  
specific reference, a Universal Serial Bus device is either a hub  
or a function.  
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  
managemennt in terms of speed and burstiness.  
Device Address: the address of a device on the Universal  
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Serial Bus. The Device Address is the Default Address when the  
Universal Serial Bus device is first powered or reset. Hubs and  
functions are assigned a unique Device Address by Universal  
Serial Bus software.  
concept made popular by AT&T TouchTone.  
DWORD: Double word. A data element that is 2 words, 4 bytes,  
or 32 bits in size.  
Dynamic Insertion and Removal: the ability to attach and  
remove devices while the host is in operation.  
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.  
E
E&M: A telephony trunking system used for either switch-to-  
switch, or switch-to-network, or computer/telephone system-to-  
switch connection.  
Digital Data: Information represented by discrete values or  
conditions (contrast “Analog Data”).  
EIA: The Electronics Industries Association is a trade  
organization in Washington, DC that sets standards for use of  
its member companies. (See RS-232, RS-422, RS530.)  
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.  
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.  
End User: The user of a host.  
Endpoint: See Device Endpoint.  
Endpoint Address: The combination of a Device Address and  
an Endpoint Number on a Universal Serial Bus device.  
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  
(64 Kbps) for digital voice conversation using PCM (pulse  
coded modulation).  
Endpoint Number: A unique pipe endpoint on a Universal  
Serial Bus device.  
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 64 Kbps voice channels (north America) and  
2.048M bps (30 channels) elsewhere.  
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).  
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.  
Excess Zeros: A T1 error condition that is logged when more  
than 15 consecutive 0s or fewer 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.  
Digital Signaling Rates (DSn): A hierarchical system for  
transmission rates, where “DS0” is 64 Kbps (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.  
Exchange Area: A geographical area with a single uniform set  
of charges (tariffs), approved by a regulatory group, for  
telephone 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 congesion”.  
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).  
Downstream: The direction of data flow from the host or away  
from the host. A downstream port is the port on a hub  
electrically farthest from the host that generates downstream  
data traffic from the hub. Downstream ports receive upstream  
data traffic.  
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. Both ESF and  
B8ZS are typically offered to provide clear channel service.  
Driver: When referring to hardware, an I/O pad that drives an  
external load. When referring to software, a program responsible  
for interfacing to a hardware device; that is, 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.  
F
Failed Seconds: A test parameter where the circuit is  
unavailable for one full second.  
DTE (Data Terminal 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.  
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  
DTMF (Dual-Tone MultiFrequency): A generic push-button  
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graphics-oriented document (fax) or to the electronic  
transmission of the image over telephone 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.  
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.  
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.  
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.  
High-level Data Link Control (HDLC): An ISO standard, bit-  
oriented data communications protocol that provides nearly  
error-free data transfers.  
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”.  
Host: The host computer system where the Universal Serial  
Bus host controller is installed. This includes the host hardware  
platform (CPU, bus, etc.) and the operating system in use.  
Fractional T1 (FT1): A digital data transmission rate between  
56 Kbps (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 64 Kbps multiples, usually up to 768  
Kbps.  
Host Controller: The host’s Universal Serial Bus interface. A  
hardware device that provides the interface to the Host  
Controller Driver (HCD) and the USB bus.  
Host Controller Driver (HCD): Software that provides an  
interface to the USB Driver and the Host Controller. (The  
interface to the Host Controller is defined by the OHCI spec.  
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).  
I
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”.  
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 telephone  
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 telephone 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, a FXO connection must be configured.  
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  
fewer than one 1 in 16 0s or less than 12.5 % average 1s  
density is received.  
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.  
Foreign Exchange Station (FXS): See FX, FXO. To generate a  
call from the computer telephony system to the POTS set, an  
FXS connection must be configured.  
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.  
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 initiatedin the  
same direction of the received frame. See also BECN  
(Backward Explicit Congestion Notification).  
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 enviroment. The Internet  
Protocol was designed to connect 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).  
Function: A Universal Serial Bus device that provides a  
capability to the host. For example, an ISDN connection, a  
digital microphone, or speakers.  
G
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.  
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.  
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.  
Interoperable: Devices from different vendors that can  
exchange information using a standard’s base protocol.  
Interrupt Request: A hardware signal that allows a device to  
request attention from a host. The host typically invokes an  
interrupt service routine to handle the condition which caused  
H
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Glossary  
the request.  
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.  
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.  
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.  
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.  
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.  
Isochronous data: Information delivered in a continuous  
stream at a steady rate.  
ISA (Industry Standards Architecture) (pronounced “ice a”):  
The classic 8 or 16-bit architecture introduced with IBM’s PC-AT  
computer.  
Local Area Network (LAN): 1. A computer network located on  
a user’s premises within a limited geographical area.  
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 64 Kbps and higher speeds. Contrast Public  
Switched Telephone Network (PSTN).  
Communication 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.  
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.  
ITU-TSS (formerly CCITT): International Telecommunications  
Union-Telecommunications Sector; the United Nations  
organization that prepares standards (“Recommendations”) for  
resolving communications issues and problems.  
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.  
J
No Entries.  
Local Management Interface (LMI): A specification for frame  
relay equipment that defines status information exchange.  
K
Local Loop: A transmission path, typically twisted-pair wire,  
between an individual subscriber and the nearest public  
telecommunications 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”.)  
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 with a KTS you  
don’t have to dial a “9” to call outside the building.  
Key Service Unit (KSU): A small device containing the  
switching electronics for a business key telephone system  
(KTS).  
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 commitee and is common to all LAN standards.  
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).  
Logical Unit (LU): A type of network accessible unit that  
enables end users to gain access to network resources and  
communicate with each other.  
L
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).  
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.  
Long Haul Communications: The type of phone call reaching  
outside of a local exchange (LE).  
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.  
M
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).  
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  
Megacom: An AT&T service with a normal WATS line (typically  
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T1) between the customer premise and the AT&T serving class  
4 CO are the customer’s responibility.  
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”.  
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.  
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.  
Message Pipe: A pipe that transfers data using a request/data/  
status paradigm. The data has an imposed structure which  
allows requests to be reliably identified and communicated.  
On-Hook: The condition of a device which has not accessed a  
phone line. In modem use, this is equivalent to a telephone  
handset that has not been picked up. In other words, it can  
receive an incoming call. Contrast “off-hook”.  
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.  
Open Shortest Path First (OSPF): A hierarchical Interior  
Gateway Protocol (IGP) routing algorithm for IP that is a  
proposed standard for the Internet. OSPF incorporates least-  
cost routing, equal-cost routing, and load balancing.  
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.  
Outage: The measure of the time during which a circuit is not  
available for use due to service interrupt. Outage is the  
complement of circuit “availability” (100% minus % available =  
% outage).  
Out-of-band: Signaling that is separated from the channel  
carrying the information (e.g., 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.  
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 befor the next transaction processing  
is started.  
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.  
P
N
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  
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.  
O
OHCI (OpenHCI): Open Host Controller Interface Specification  
for USB. All transfers on the USB are initiated by the host  
system’s host controller. The host controller is responsible for  
controlling traffic on the USB and can be appropriately  
programmed to transfer data to and from USB devices. This is  
typically a PCI device that can be programmed to run a given  
schedule of transfers on the USB and bus master the results  
into memory for processing by the host software. There are  
currently two standards for host controllers: OpenHCI (OHCI or  
Open Host Controller Interface) and UHCI (Universal Host  
Controller Interface). Both these standards define register level  
interfaces of the host controller to PCI bus. Bandwidth allocation  
over the USB is software managed and is done by the  
programming of the host controller.  
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.  
Object-Oriented: A method for structuring programs as  
hierarchically organized classes describing the data and  
operations of objects that may interact with other objects.  
Permanent Virtual Circuit (PVC): A connection between two  
endpoints dedicated to a single user. In ISDN, PVCs are  
establised by network administration and are held for as long as  
the user subscribes to the service.  
Office Channel Unit - Data Port (OCU-DP): The CO channel  
bank used as the interface between the customer’s DSU and  
the channel bank.  
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  
Off-hook: The condition of a device which has accessed a  
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Glossary  
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.  
Pulse dialing: One of two methods of dialing a telephone,  
usually associated with rotary-dial phones. Compare with “tone  
dialing”.  
Pipe: A logical abstraction representing the association  
between an endpoint on a device and software on the host. A  
pipe has several attributes; for example, a pipe may transfer  
data as streams (Stream Pipe) or messages (Message Pipe).  
Q
Quantizing: The process of analog-to-digital conversion by  
assigning a range, from the contiguous analog values, to a  
discrete number.  
Plug and Play (PnP): A technology for configuring I/O devices  
to use non-conflicting resources in a host. Resources managed  
by Plug and Play include I/O address ranges, memory address  
ranges, IRQs, and DMA channels.  
R
Point of Presence (POP): The central office’s end points of the  
long distance carriers.  
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.  
Point-to-Point Protocol (PPP): A protocol that lets a PC user  
access TCP/IP (Internet memeber) using an ISDN terminal  
adapter or a high-speed modem over a standard phone line.  
Polling: Asking multiple devices, one at a time, if they have any  
data to transmit.  
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.  
Port: Point of access to or from a system or circuit. For  
Universal Serial Bus, the point where a Universal Serial Bus  
device is attached.  
Primary Rate Interface (PRI): 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.  
Recognized Private Operating Agency (RPOA): A  
corporation, private or government-controlled, that provides  
telecommunications services. RPOAs, such as AT&T,  
participate as non-voting members in the CCITT.  
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.  
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”.  
Private Branch Exchange (PBX): 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”.  
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.  
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.  
RJ-11: An industry standard interface used for connecting a  
telephone to a modular wall outlet; comes in 4-and 6-wire  
packages.  
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 responses used  
for managing the network, transferring data, and synchronizing  
the states of network components. 4. Synonymous with line  
control discipline.  
RJ-45: An 8-wire modular connector for voice and data circuits.  
Root Hub: A Universal Serial Bus hub directly attached to the  
host controller. This hub is attached to the host; tier 0.  
Root Port: The upstream port on a hub.  
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.  
PSTN (Public Switched Telephone Network): A worldwide  
public voice telephone network that is used as a  
telecommunications medium for the transmission of voice, data  
and other information.  
RS-232C: 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.  
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.  
RS-422: The EIA standard for a balanced interface with no  
accompanying physical connector. RS-422 products can use  
screw terminals, DB9, various DB25, and DB37 connectors.  
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. Transmissions of analog information in digital form through  
sampling and encoding the samples with a fixed number of bits.  
RS-530: The EIA standard for the mechanical/electrical  
interface between DCEs and DTEs transmitting synchronous or  
asynchronous 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.  
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S
Glossary  
configuration and operation of, networks.  
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.  
T
TCP/IP: A set of communication protocols that support peer-to-  
peer connectivity functions for both local and wide area  
networks.  
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.  
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 .  
T1: A digital transmission link capable of 1.544M bps. T1 uses  
two pairs of normal UTP, and can handle 24 voice  
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 telephone 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.  
conversations, each digitized at 64 Kbps. 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 Cancelers, 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 64 Kbps 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.  
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.  
T1 Line: A digital communications facility that functions as a  
24-channel pathway for data or voice transmission. A T1 line is  
composed of two separate elements: the Access element and  
the Long Haul element.  
Switched Virtual Circuit (SVC): A data transmission type  
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 discrete  
segments. This connection lasts for the duration of the call,  
after which each segment can be used as part of a different  
channel. Contrast with leased line.  
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 56/64 Kbps 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.  
Switched Network: A network in which a temporary connection  
is established from one point via one or amore 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 International 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.  
Transmission Control Protocol / Internet Program (TCP/IP):  
A multi-layer set of protocols developed by the US Department  
of Defense to link dissimilar computers across dissimilar and  
unreliable LANs.  
Terminal: 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.  
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.  
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.  
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 telephone handset or by pushing a button).  
Systems Network Architecture (SNA): The description of the  
logical structure, formats, protocols, and operational sequences  
for transmitting information units through, and controlling the  
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.  
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Time Slot: One of 24 channels within a T1 line. Each channel  
has a 64 Kbps maximum bandwidth. “Time slot” implies the time  
division multiplexing organization of the T1 signal.  
Plug and receptacle are to be used for those devices on which  
the external cable is permanently attached to devices such as  
Keyboard, mouse and hubs. Series B Plug and receptacle are  
to be used for those devices that require an external detachable  
cable such as printers, scanners and modems.  
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 telephone,  
usually associated with Touch-Tone® (push button) phones.  
Compare with pulse dialing.  
U
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.  
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  
UHCI (Universal Host Controller Interface): The USB  
Universal Host Controller Interface. All transfers on the USB  
are initiated by the host system’s host controller. The host  
controller is responsible for controlling traffic on the USB and  
can be appropriately programmed to transfer data to and from  
USB devices. This is typically a PCI device that can be  
programmed to run a given schedule of transfers on the USB  
and bus master the results into memory for processing by the  
host software. There are currently two standards for host  
controllers: OpenHCI (OHCI or Open Host Controller Interface)  
and UHCI (Universal Host Controller Interface). Both these  
standards define register level interfaces of the host controller  
to PCI bus. Bandwidth allocation over the USB is software  
managed and is done by the programming of the host  
controller.  
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.  
UNIX: An operating system developed by Bell Laboratories that  
features multiprogramming in a muti-user environment.  
Trunk: Transmission links that interconnect switching offices.  
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.  
Universal Serial Bus: A collection of Universal Serial Bus  
devices and the software and hardware that allow them to  
connect the capabilities provided by functions to the host.  
Tunneling: Encapsulation data in an IP packet for transport  
across the Internet.  
Universal Serial Bus Device: Includes hubs and functions.  
See device.  
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.  
Universal Serial Bus Driver: The host resident software entity  
responsible for providing common services to clients that are  
manipulating one or more functions on one or more Host  
Controllers.  
Type A: The upstream (USB Type A) connector. A Type A  
Connector is for those devices on which the external cable is  
permanently attached. Connectors for USB come in two  
designs: the 'A' and 'B' types. Upstream connections (computer,  
hub input, etc.) are made using the 'A' type connector,  
Universal Serial Bus Interface: The hardware interface  
between the Universal Serial Bus cable and a Universal Serial  
Bus device. This includes the protocol engine required for all  
Universal Serial Bus devices to be able to receive and send  
packets.  
downstream connections (peripherals, hub outputs) are made  
using the 'B' type connector. The USB spec defines two types of  
connectors to protect the bus from illegal topologies (e.g.,  
connecting one downstream port back to another, etc.) and to  
prevent end-user confusion. This allows end users to easily  
attach the correct connectors to peripherals and ports. Type A  
Plug and receptacle are to be used for those devices on which  
the external cable is permanently attached to devices such as  
Keyboard, mouse and hubs. Series B Plug and receptacle are  
to be used for those devices that require an external detachable  
cable such as printers, scanners and modems.  
Unshielded Twisted Pair (UTP): Telephone-type wiring.  
Tansmission media for 10Base-T.  
Upstream: The direction of data flow towards the host. An  
upstream port is the port on a device electrically closest to the  
host that generates upstream data traffic from the hub.  
Upstream ports receive downstream data traffic.  
USB: See Universal Serial Bus.  
USBD: See Universal Serial Bus Driver.  
USB Performance categories: Low Speed (Interactive Devices  
at 10-100 Kb/s); Medium Speed (Phone, Audio, Compressed  
Video at 500Kb/s - 10Mbp/s); High Speed (Video, Disk at 25-  
500 Mb/s)  
Type B: The uplink (USB Type B) connector. A Type B  
Connector is for detachable external cables. Allows for double  
ended cable assemblies. Connectors for USB come in two  
designs: the 'A' and 'B' types. Upstream connections (computer,  
hub input, etc.) are made using the 'A' type connector,  
V
downstream connections (peripherals, hub outputs) are made  
using the 'B' type connector. The USB spec defines two types of  
connectors to protect the bus from illegal topologies (e.g.,  
connecting one downstream port back to another, etc.) and to  
prevent end-user confusion. This allows end users to easily  
attach the correct connectors to peripherals and ports. Type A  
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:  
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Glossary  
• 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  
wherin 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).  
W
Wide Area Network (WAN): 1. A network that provides  
communication services to a geographic area larger than that  
served by a local area network or a metropolitan area network,  
and that may use or provide public communication facilities. 2.  
A data communications network designed to serve an area of  
hundreds or thousands of miles; for example, public and private  
packet-switching networks, and national telephone networks.  
Contrast with local area network (LAN).  
Wide Area Telecommunications Service (WATS): A low-cost  
toll service offered by most long distance and local phone  
companies. Incoming (800 call service, or IN-WATS) and  
outgoing WATS are subscribed to separately, but over the same  
line.  
X
X.25: ITU-T’s definition of a three-level packet-switching  
protocol to be used between packet-mode DTEs and network  
DCEs. X.25 corresponds with layer 3 of the 7-layer OSI model.  
Y
Yellow Alarm: An error indication sent by the T1 device when it  
has not gotten a receive signal, or cannot synchronize on the  
receive signal received. Contrast “Red Alarm” and “Blue Alarm”.  
Z
Zero Byte Time Slot Interchange (ZBTSI): A method for  
allowing 64 Kbps unrestricted user data (allowing all 0s in the  
user data). An alternative to (but not as popular as) B8ZS.  
49  
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Index  
ITU-T V.42 ........................................................ 8  
ITU-T V.44 ........................................................ 8  
ITU-T V.80 ........................................................ 8  
ITU-T V.92 protocol ........................................... 5  
Index  
M
Symbols  
Multi-Tech Internet sites.................................. 30  
MultiModemZPX ............................................... 5  
11-bit operation................................................. 5  
33.6K bps ......................................................... 5  
O
A
ordering replacement parts............................. 30  
adaptive answer................................................ 5  
ASCII Conversion Chart ................................. 38  
AT&T calling card tone detection ...................... 5  
P
pulse and tone dialing ....................................... 5  
C
R
Caller ID ........................................................... 5  
Canadian regulations................................ 32–48  
Class 1.0 .......................................................... 8  
Class 2.1 fax..................................................... 5  
configuring for your country ............................ 18  
Connectors  
registering your product .................................. 28  
regulatory compliance .............................. 31–48  
Remote Configuration ..................................... 20  
Escape Character ....................................... 21  
Password .................................................... 21  
repair .............................................................. 27  
replacement parts........................................... 30  
required equipment......................................... 10  
RTS/CTS .......................................................... 8  
LINE............................................................ 17  
country configuration ...................................... 18  
D
DTR dialing....................................................... 5  
S
F
safety .............................................................. 10  
service ............................................................ 29  
servicing your modem .................................... 31  
SOHO............................................................... 5  
Super G3 .......................................................... 5  
Fax Commands .............................................. 22  
FCC regulations........................................ 31–48  
Features  
Data .............................................................. 6  
Fax ................................................................ 6  
Firmware updating .......................................... 35  
Flash Wizard utility.......................................... 35  
T
Technical Specifications.................................... 8  
technical support ............................................ 30  
telecommuters .................................................. 5  
TestingYour Modem ....................................... 19  
Data ............................................................ 19  
Fax .............................................................. 19  
TIA/EIA 578 Class 1,2 ...................................... 8  
TR29.2.............................................................. 8  
Troubleshooting  
G
Global Wizard ................................................. 18  
Glossary ......................................................... 39  
H
HyperTerminal ................................................ 19  
Common Problems ..................................... 23  
troubleshooting ............................................... 23  
Troubleshooting Initial Checklist ...................... 23  
two-wire leased-line .......................................... 5  
I
Industry Canada regulations..................... 32–48  
Internet addresses.......................................... 30  
ITU-T ................................................................ 8  
ITU-T “Super” Group 3...................................... 8  
ITU-T V.21 ........................................................ 8  
ITU-T V.34 fax ................................................... 5  
U
U.S. Caller ID reporting ..................................... 5  
50  
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Index  
V
V.17 .................................................................. 8  
V.22 .................................................................. 8  
V.22bis .............................................................. 8  
V.27ter .............................................................. 8  
V.29 .................................................................. 8  
V.3 .................................................................... 8  
V.32 .................................................................. 8  
V.34 .................................................................. 8  
V.34 enhanced .................................................. 8  
V.34bis .............................................................. 8  
V.42 .................................................................. 8  
V.42 error correction ......................................... 5  
V.42bis ..........................................................5, 8  
V.44 .................................................................. 8  
V.44 data compression ..................................... 5  
V.90 .................................................................. 8  
V.92 .................................................................. 8  
W
warranty....................................................27, 31  
X
XON/XOFF ....................................................... 8  
51  
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