Reference Guide for the
Model XM128 ISDN
Digital Modem
NETGEAR, Inc.
A Bay Networks Company
48105 Warm Springs Blvd.
Fremont, CA 94539
USA
M-XM128NA-1
November 1997
Bestätigung des Herstellers/Importeurs
Es wird hiermit bestätigt, daß das Model NETGEAR Model XM 128 ISDN Digital Modem gemäß der im
BMPT-AmtsblVfg 243/1991 und Vfg 46/1992 aufgeführten Bestimmungen entstört ist. Das vorschriftsmäßige Betreiben
einiger Geräte (z.B. Testsender) kann jedoch gewissen Beschränkungen unterliegen. Lesen Sie dazu bitte die
Anmerkungen in der Betriebsanleitung.
Das Bundesamt für Zulassungen in der Telekommunikation wurde davon unterrichtet, daß dieses Gerät auf den Markt
gebracht wurde und es ist berechtigt, die Serie auf die Erfüllung der Vorschriften hin zu überprüfen.
Certificate of the Manufacturer/Importer
It is hereby certified that the NETGEAR Model XM128 Digital Modem has been suppressed in accordance with the
conditions set out in the BMPT-AmtsblVfg 243/1991 and Vfg 46/1992. The operation of some equipment (for example,
test transmitters) in accordance with the regulations may, however, be subject to certain restrictions. Please refer to the
notes in the operating instructions.
Federal Office for Telecommunications Approvals has been notified of the placing of this equipment on the market and
has been granted the right to test the series for compliance with the regulations.
VCCI-2 Statement
This equipment is in the second Class category (information equipment to be used in a residential area or an adjacent
area thereto) and conforms to the standards set by the Voluntary Control Council for Interference by Data Processing
Equipment and Electronic Office Machines aimed at preventing radio interference in such residential areas.
When used near a radio or TV receiver, it may become the cause of radio interference.
Read instructions for correct handling.
Customer Support
For assistance with installing and configuring your NETGEAR system or with post-installation questions or problems,
contact your point of purchase representative.
To contact customer support or to purchase additional copies of this document and publications for other NETGEAR
products, you can contact NETGEAR at the following numbers:
•
•
Phone:
U.S./Canada:1-800-211-2069
Japan: 0120-66-5402
Europe: (44) 171-571-5120
Australia:1-800-142-046
Fax:
U.S./Canada: 510-498-2609
iii
World Wide Web
NETGEAR maintains a World Wide Web Home Page that you can access at the universal resource locator (URL)
http://NETGEAR.baynetworks.com. A direct connection to the Internet and a Web browser such as Internet Explorer
or Netscape are required.
Bulletin Board Service
NETGEAR maintains a bulletin board that you can access to obtain information about the latest version of the software.
In the United States, phone 407-531-4574.
iv
Reference Guide for the Model XM128 ISDN Digital Modem
Contents
Preface
Conventions ...................................................................................................................xviii
Special Message Formats .......................................................................................xviii
Use of Enter, Type, and Press .................................................................................xviii
Other Conventions ....................................................................................................xix
Chapter 1
Introduction
Interface Options ......................................................................................................1-3
Front Panel .....................................................................................................................1-3
Chapter 2
Installation
Package Contents ..........................................................................................................2-1
Installing the Modem ......................................................................................................2-2
Verifying Hardware Installation .......................................................................................2-3
Chapter 3
Setup for Windows 95 and Windows NT 4.0
Selecting the Appropriate Windows 95 Driver (INF file) .................................................3-1
Contents
v
Chapter 4
Configuration
Configuring Your ISDN Line and Network ......................................................................4-1
Configuring Your Modem Using a Terminal Program .....................................................4-1
Understanding AT Commands .................................................................................4-2
Quick Tips for Issuing AT Commands ................................................................4-3
Communication Speed Setup ..................................................................................4-4
Switch Type Setup for North America ................................................................4-5
SPID Setup for North America ...........................................................................4-6
Chapter 5
Async to Sync PPP
Internet and Remote Access PPP and SLIP ..................................................................5-1
Multilink PPP ............................................................................................................5-3
Dialing Pre-stored Phone Numbers .........................................................................5-4
Endpoint Discriminator ......................................................................................5-4
Chapter 6
ISDN Overview
Dialing Out Using ISDN Mode Optional Speech Bearer Service .............................6-2
Dialing Out for Analog Adapter Port 1 ......................................................................6-2
Dialing Out for Analog Adapter Port 2 ......................................................................6-2
Manually Switching Communication Modes .............................................................6-2
Placing the Call ........................................................................................................6-3
vi
Contents
Best-effort Call Answering .................................................................................6-7
Ambiguity Resolution Switch for Voice Calls .....................................................6-8
Multi Auto-Answering of Data Calls ...................................................................6-8
V.110 ISDN Communications .................................................................................6-10
Answering a V.110 Call ....................................................................................6-10
Making a V.110 Call .........................................................................................6-10
V.120 ISDN Communications .................................................................................6-11
Answering a V.120 Call ....................................................................................6-12
Making a V.120 Call .........................................................................................6-12
Configuring the V.120 Mode ......................................................................6-12
Dialing in V.120 Mode ...............................................................................6-13
Identifying Your Line Provisioning .............................................................6-14
X.75 ISDN Communications (Europe) ...................................................................6-16
Answering an X.75 Call ...................................................................................6-16
Making an X.75 Call ........................................................................................6-17
Dialing Prestored Phone Numbers ............................................................6-18
Invoking V.42bis Data Compression ..........................................................6-18
Bundle Connection with V.42bis Data Compression .................................6-19
Contents
vii
Chapter 7
Advanced ISDN
Call Control for DSS1 .....................................................................................................7-1
Call Control for 1TR6 (Old German ISDN) .....................................................................7-5
Command Function ...........................................................................................7-6
Answering a Call for 1TR6 .......................................................................................7-8
Data Call Indication .........................................................................................7-10
Disable Inbound Call Connection ....................................................................7-10
Point-to-Point Configuration .............................................................................7-11
Placing a Call for DSS1 ..........................................................................................7-11
Placing a Call for 1TR6 ..........................................................................................7-12
User-To-User Information .......................................................................................7-13
Chapter 8
Analog Call Handling
Placing a Call from the Analog Adapter ...................................................................8-3
Chapter 9
Modem Upgrade
Upgrading with Flash EPROM ........................................................................................9-1
Upgrade Instructions ................................................................................................9-2
Kernel Mode .............................................................................................................9-2
viii
Contents
Chapter 10
Troubleshooting
Power-on Self-test ........................................................................................................10-1
Loopback Tests .............................................................................................................10-2
ISDN Loopback test (AT&T9) .................................................................................10-2
Loopback with Self-test (AT&T10) ..........................................................................10-2
B1/B2 Loopback with Self-test ...............................................................................10-3
Using The Embedded Protocol Analyzer ...............................................................10-4
Setting up the Embedded EPA ........................................................................10-5
Capturing the Protocol Data ............................................................................10-5
...............................................................................................................................10-8
Appendix A
Technical Specifications
Appendix B
Security Functions
Security Types and Levels ............................................................................................. B-1
Level 1 Security ....................................................................................................... B-2
Level 3 Security ....................................................................................................... B-3
Appendix C
AT Command Set Reference
Simplex Mode ......................................................................................................... C-1
AT Command Descriptions ............................................................................................ C-2
Description of ATI3 Output ...................................................................................... C-7
Contents
ix
Appendix D
Status Registers and Result Codes
Viewing and Setting S-Registers ................................................................................... D-1
Setting S-Registers ................................................................................................. D-2
S-Register Descriptions .......................................................................................... D-4
ATXn Result Code Option Table ............................................................................ D-19
Result Code Chart Symbol Reference .................................................................. D-21
Appendix E
Connector Pin Assignments
RJ-45 Plug and Connector ............................................................................................ E-1
RJ-11 Plug and Connector ............................................................................................ E-3
Appendix F
Serial Port Interface
RS-232 Serial Interface ..................................................................................................F-1
Asynchronous Cable Connections .................................................................................F-2
Appendix G
ISDN Reference
ISDN Overview ..............................................................................................................G-1
Basic Rate Interface ................................................................................................G-2
Out-of-Band Signaling .............................................................................................G-2
Terminal Adapter or Digital Modem .........................................................................G-3
ISDN Basic Rate Interface Points ...........................................................................G-3
SPID Setup .............................................................................................................G-4
Ordering ISDN Service ..................................................................................................G-4
Order Form for AT&T 5ESS Switch (NI-1 ISDN) ............................................................G-6
Order Form for DMS-100 Switch (NI-1 or Custom ISDN) ..............................................G-7
Order Form for EWSD (NI-1 ISDN) ...............................................................................G-8
Index
x
Contents
Figures
Figure 1-2. Front panel of the Model XM128 modem (with U interface) .....................1-4
Figure 2-1. Model XM128 modem connections ..........................................................2-2
Figure E-1. RJ-45 plug and RJ-45 connector ............................................................ E-1
Figure E-2. RJ-11 plug and RJ-11 connector ............................................................ E-3
Figures
xi
xii
Figures
Tables
Manuals ................................................................................................... xx
Interface options ......................................................................................1-3
Rear panel components ...........................................................................1-7
Table 4-2.
Table 4-4.
Terminal programs ...................................................................................4-2
Supported AT command types .................................................................4-3
Switches supported by the Model XM128 modem ..................................4-5
S85 register values ..................................................................................5-4
Table 6-2.
Table 6-3.
Table 6-4.
Table 6-5.
Table 6-6.
Dialing commands ...................................................................................6-3
Call placing commands ............................................................................6-3
Commands for assigning ISDN numbers .................................................6-6
Best-effort call answering bit commands .................................................6-8
ISDN protocol specifications ....................................................................6-9
V.110 configuration commands ..............................................................6-10
Tables
xiii
Table 7-1.
S-register values and functions ................................................................7-2
Table 9-1.
Definitions for the d modifier ....................................................................9-1
Table 10-1. Power-on self-test ..................................................................................10-1
Table 10-2. EPA Commands .....................................................................................10-6
Table 10-3. Commands for analyzing captured data ................................................10-6
Table 10-4. Control key functions .............................................................................10-7
Types of security ..................................................................................... B-2
Levels of security .................................................................................... B-3
Basic AT command set ........................................................................... C-2
ATI3 command output ............................................................................. C-8
Table D-4.
Table D-5.
Table D-6.
Table D-7.
Table D-8.
Basic S-registers ATSn=x ....................................................................... D-4
Extended S-registers ATSn=x ................................................................. D-5
ATXn command setting options ............................................................ D-19
Result code chart .................................................................................. D-21
Result code field descriptions ............................................................... D-22
Connect strings ..................................................................................... D-23
xiv
Tables
Table E-2.
Table F-2.
RJ-45 plug and RJ-45 connector pin assignments for the U interface .... E-2
Asynchronous flow control cable connection ...........................................F-2
Table G-1.
Table G-2.
Table G-3.
ISDN line configuration ...........................................................................G-6
ISDN line configuration ...........................................................................G-7
ISDN line configuration ...........................................................................G-8
Tables
xv
xvi
Tables
Preface
Congratulations on your purchase of the NETGEAR™ Model XM128 ISDN Digital Modem.
The NETGEAR Model XM128 modem provides connection for one or more PCs to the Internet
or to the office over ISDN (Integrated Services Digital Network) lines. The modem operates
at a speed of up to 460 kilobits per second (Kbps) data rate, or 115 Kbps data rate without
compression, and can download video clips, music, or high-resolution color graphics from the
World Wide Web or other online services many times faster than an analog modem. The Model
XM128 modem supports concurrent data and voice communications, reducing cost and
administration of multiple phone lines.
Purpose
This guide provides instructions for the installation and use of the Model XM128 modem. This
guide also provides instructions for the installation and use of FirstGear™, a configuration software
application for installing, configuring, and monitoring the Model XM128 modem.
Preface
xvii
Reference Guide for the Model XM128 ISDN Digital Modem
Conventions
This section describes the conventions used in this guide.
Special Message Formats
This guide uses the following formats to highlight special messages.
Note: This format is used to highlight information of importance or special interest.
Caution: This format is used to highlight information that will help you prevent
equipment failure or loss of data.
Warning: This format is used to highlight material involving possibility of injury or
equipment damage.
Use of Enter, Type, and Press
This guide uses “enter,” “type,” and “press” to describe the following actions:
•
•
•
•
When you read “enter,” type the text and press the Enter key.
When you read “type,” type the text, but do not press the Enter key.
When you read “press,” press only the alphanumeric or named key.
When you read “click,” click the left mouse button.
xviii
Preface
Reference Guide for the Model XM128 ISDN Digital Modem
Other Conventions
This guide uses the following additional conventions:
italics
Book titles and UNIX file, command, and directory names.
courier font
Initial Caps
[Enter]
Screen text, user-typed command-line entries.
Menu titles and window and button names.
Named keys in text are shown enclosed in square brackets. The notation
[Enter] is used for the Enter key and the Return key.
[Ctrl]+C
Two or more keys that must be pressed simultaneously are shown in text
linked with a plus (+) sign.
ALL CAPS
DOS file and directory names.
Related Publication
Refer to Getting Started Using FirstGear for the Model XM128 ISDN Digital Modem for a quick
installation guide. Refer to Table 1 to identify the contents of both manuals. The subject column in
this table identifies the order of basic procedures you must complete to install your Model XM128
modem.
Table 1.
Subject
Manual contents
Getting Started Using FirstGear
Reference Guide for the Model
XM128 ISDN Digital Modem
for the Model XM128 ISDN Digital
Modem
Installing modem hardware
Configuring the modem
Chapter 3
Chapter 2
Chapter 3
(If you are using Windows® 95
or Windows NT®)
Chapter 4
(If you are using a terminal
program.)
Installing the Windows 95 and
Windows NT Driver
Chapter 3
No information given.
Installing FirstGear
Chapter 3
Chapter 3
No information given.
Assigning ISDN numbers
Chapter 4 and Chapter 5
(For using AT commands when
assigning ISDN numbers.)
Preface
xix
Reference Guide for the Model XM128 ISDN Digital Modem
Table 1.
Subject
Manual contents (continued)
Getting Started Using FirstGear
Reference Guide for the Model
XM128 ISDN Digital Modem
for the Model XM128 ISDN Digital
Modem
Assigning multiple subscriber
numbers
Chapter 3
Chapter 5
(For using AT commands when
assigning multiple subscriber
numbers.)
Assigning protocols
Chapter 3
Chapter 4 and Chapter 5
(For using AT commands when
assigning protocols.)
Configuring Windows 95 Dial-Up Chapter 3
Networking
See: Getting Started Using
FirstGear
Table 2 lists the manuals that are available for various localized products.
Table 2.
Manuals
Product Model/
Version
Reference
Manual
FirstGear
Manual
Language
Interface
English
Model XM128S
International
S/T
M-XM128NA-0
M-XM128NA-0
M-XM128JP-0
M-XM128NA-0
M-XM128KO-0
M1-XM128S-0
M1-XM128U-0
M1-XM128JP-0
M1-XM128S-0
M1-XM128KO-0
English
Model XM128AU
North America
U
Japanese
German
Korean
Model XM128D
Japanese
DSU
S/T
U
Model XM128GE
German
Model XM128KO
Korean
xx
Preface
Chapter 1
Introduction
Congratulations on your purchase of the NETGEAR Model XM128 ISDN Digital Modem. The
Model XM128 modem sets a new price and performance standard for the rapidly growing Internet
and telecommuting applications.
When used with off-the-shelf Internet or remote access client software, the Model XM128 modem
enables mobile or home users to easily connect to the Internet or branch offices over Integrated
Services Digital Network (ISDN) lines. The same device also allows a user to connect to the
analog world via a modem, fax machine, or telephone connected directly to the Model XM128
modem.
To take advantage of constant new developments, the Model XM128 modem employs flash
EPROMs, which allow for convenient uploading of newly available firmware that preserves your
hardware investment.
The Model XM128 modem supports both D and B channel protocols. For the D channel,
it supports DSS1, 1TR6, DMS-100, AT&T Custom, and NI-1. For the B channel, it supports
X.75 SLIP, V.120, V.110, PPP Async-to-sync Conversion and Bundle (128 Kbps).
With its Hi/fn LZS or V.42bis compression on the B channel using either X.75 or V.120, the Model
XM128 modem can effectively communicate at speeds up to 460 kilobits per second (Kbps) over
ISDN lines.
Features
The Model XM128 modem supports a variety of compression schemes including V.42bis and
Hi/fn LZS Compression (STAC) and communicates effectively at speeds up to 460 kilobits per
second (Kbps) over ISDN lines.
Introduction
1-1
Reference Guide for the Model XM128 ISDN Digital Modem
The Model XM128 modem has two analog ports to connect analog devices such as fax machines,
modems, and telephones. Two different devices can communicate over the two B channels to
different locations simultaneously, enabling you to send a fax and make a voice call at the same
time. The analog ports recognize standard dual-tone multifrequency (DTMF) tones as well as
pulse dialing.
The Model XM128 modem has the following features:
•
•
Plug-and-Play support for a windows 95® environment
Full compatibility with both ISDN and remote public-switched telephone network (PSTN) by
way of ISDN
•
•
Multiple signaling protocol compatibility with DSS1, 1TR6, NI-1, AT&T 5ESS, and Northern
Telecom DMS 100 network switches
X.75, V.110, V.120, and Point-to-Point Protocol (PPP) Async-to-Sync Conversion B Channel
Protocol support
•
•
•
•
•
•
•
•
•
•
B channel speeds of 56 Kbps (in-band signaling) and 64 Kbps (out-of-band signaling)
MLP and Multipoint PPP (RFC1717)
Hi/fn LZS compression (STAC)
V.42bis data compression using the X.75, V.120, and bundle protocols
NETGEAR ISDN AT modem commands
Automatic ISDN and analog call detection
Two analog telephone jacks (analog adapters)
Push-button switch for quick dial and teardown
Easy-to-use configuration software
Flash EPROM memory for easy firmware upgrades
1-2
Introduction
Reference Guide for the Model XM128 ISDN Digital Modem
Interface Options
Several interfaces are available. Table 1-1 lists the interface options for the Model XM128 modem
as applicable for each region.
Table 1-1.
Interface options
XM128NA XM128GE
XM128UK
XM128AU
XM128JP
Unit
XM128U
XM128S
Germany
XM128S
UK
XM128S
Australia
S/T
XM128D
Japan
Region
North America
Interface U (internal NT-1) S/T
Auto SPID Switch
S/T
Internal DSU
For the North American ISDN, NETGEAR provides an optional 2B1Q U interface to allow direct
connection to the network without the use of an external NT-1 device.
Front Panel
For easier management and control of the Model XM128 modem, familiarize yourself with the
components on the front panel, as illustrated in Figure 1-1 and Figure 1-2. Use the key at the
bottom of each illustration to identify the panel components.
1
2
3
4
INTERFACE
128Kpbs
MODELXM128
S
ISDN Digital Modem
PWR
D
B1
B2
ISDN
AA
CP
DTR DSR RTS CTS
TD
RD
1
2
COM
7848MEA
Key:
1 = PWR (power) LED
2 = ISDN LEDs
3 = RS-232 COM LEDs
4 = PHONE 1 and PHONE 2 LEDs
Figure 1-1.
Front panel of the Model XM128 modem (with S/T interface)
Introduction
1-3
Reference Guide for the Model XM128 ISDN Digital Modem
1
2
3
4
INTERFACE
128Kpbs
MODELXM128
U
ISDN Digital Modem
PWR
D
B1
B2
ISDN
AA
CP
DTR DSR RTS CTS
TD
RD
1
2
COM
7847MEA
Key:
1 = PWR (power) LED
2 = ISDN LEDs
3 = RS-232 COM LEDs
4 = PHONE 1 and PHONE 2 LEDs
Figure 1-2.
Front panel of the Model XM128 modem (with U interface)
LEDs on the front panel of the Model XM128 modem allow you to monitor and diagnose the
device. Table 1-2 describes each LED.
Table 1-2.
Label
LED descriptions
Color
Activity
Description
PWR
(Power)
Yellow
Green
On
Power is supplied to the modem.
ISDN LEDs:
D
On
The ISDN link on the D channel is active.
Blinking
On
The modem is attempting to make a connection to the switch.
A connection is established to the B1 channel.
A connection is established to the B2 channel.
The Model XM128 modem is in the automatic answering mode.
An incoming call is ringing.
B1
B2
AA
CP
On
On
Blinking
On
Compression is active on either of the B channels.
1-4
Introduction
Reference Guide for the Model XM128 ISDN Digital Modem
LED descriptions (continued)
Table 1-2.
Label
Color
Activity
Description
COM LEDs:
DTR
Green
On
The data terminal or computer connected to the COM port on
the Model XM128 modem is ready to communicate.
DSR
RTS
On
The Model XM128 modem is ready to communicate with the
connected data terminal or computer.
On
The data terminal or computer connected to the COM port on
the Model XM128 modem is ready to transmit data.
CTS
On
The Model XM128 modem is ready to accept data from the
connected data terminal or computer.
TD
Blinking
On
The data terminal or computer connected to the Model XM128
modem is transmitting data to the modem.
RD
The data terminal or computer connected to the Model XM128
modem is receiving data from the DTE port of the modem.
PHONE 1
PHONE 2
On
The handset of the telephone connected to the port is not
properly placed in the receiver cradle.
On
The handset of the telephone connected to the port is not
properly placed in the receiver cradle.
Introduction
1-5
Rear Panel
As illustrated in Figure 1-3 and Figure 1-4, the rear panel contains a power switch, a power
receptacle, and ports to connect a computer, ISDN line, and two analog devices (phone, fax, or
modem).
4
5
1
2
3
ON/OFF
ISDN-S
PHONE 1PHONE 2
POWER
RS-232
7861MEA
key:
1 = ON/OFF switch
2 = Receptacle for power adapter
3 = RS-232 COM port for connecting to a computer
4 = ISDN port for connecting to an ISDN line NT-1
5 = PHONE 1 and PHONE 2 ports for connecting analog devices (telephone, fax, or modem)
Figure 1-3.
Rear panel of the Model XM128 modem (with S interface)
4
5
1
2
3
ON/OFF
ISDN-U
PHONE 1PHONE 2
POWER
RS-232
7862MEA
Key:
1 = ON/OFF switch
2 = Receptacle for power adapter
3 = RS-232 COM port for connecting to a computer
4 = ISDN port for connecting to an ISDN line
5 = PHONE 1 and PHONE 2 ports for connecting analog devices (telephone, fax, or modem)
Figure 1-4.
Rear panel of the Model XM128 modem (with U interface)
1-6
Introduction
Reference Guide for the Model XM128 ISDN Digital Modem
Table 1-3 describes the components on the rear panel of the Model XM128 modem.
Table 1-3.
Label
Rear panel components
Description
ON/OFF
POWER
RS-232
This switch turns power on or off.
This is the power receptacle for the power adapter.
This RS-232 COM port is for connecting the Model XM128 modem to the serial port
of a computer or data terminal.
ISDN
This port is for connecting the RJ-45 connector of an ISDN line.
PHONE 1
This port is for connecting the RJ-11 connector of an analog device (telephone, fax,
or analog modem).
PHONE 2
This port is for connecting the RJ-11 connector of an analog device (telephone, fax,
or analog modem).
Introduction
1-7
Chapter 2
Installation
This chapter information about installing and using the Model XM128 ISDN Digital Modem.
Package Contents
Your package should contain the following items:
•
•
•
•
•
•
•
•
•
•
Model XM128 ISDN Digital Modem
Power adapter
RJ-45 ISDN telephone cable
Shielded RS-232 25-pin to 25-pin cable
25-pin to 9-pin adapter
This manual
Getting Started Using FirstGear
3.5-inch driver and utility diskettes
Warranty Registration Card
Call your reseller or customer support in your area if there are any wrong, missing, or damaged
parts. Refer to page iii for the location of customer support in your area.
Keep the carton, including the original packing materials. Use them to repack the modem if you
need to return it for repair.
Installation
2-1
Reference Guide for the Model XM128 ISDN Digital Modem
To qualify for product updates and product warranty registrations, fill in the Warranty and Owner
Registration Card within 30 days of purchase and return it to NETGEAR, Inc.
Installing the Modem
Before connecting any of the devices to your modem, make sure the power is turned off on your
computer and your Model XM128 modem. If connecting to the model with the S/T interface, you
must use an NT-1 device, which converts the S/T interface to a U interface. If connecting to the
Model XM128 modem with the U interface, you can connect directly to your ISDN line. Refer to
Figure 2-1 and then the detailed steps that follow for making those connections.
1
6
2
6
4
5
3
7860MEA
Key:
1 = Model XM128 modem
2 = AC power adapter
3 = Station (PC, Macintosh, or UNIX workstation)
4 = Shielded RS-232 25-pin straight cable
5 = ISDN wall connection (connected with ISDN cable provided in package)
6 = Analog device (telephone or fax)
Figure 2-1.
Model XM128 modem connections
2-2
Installation
Reference Guide for the Model XM128 ISDN Digital Modem
To install your Model XM128 modem, follow these steps:
1. Connect the male end of the 25-pin cable to the RS-232 COM port of the Model XM128
modem.
2. Connect the other end of the 25-pin cable (female end) to the serial (COM) port on your
computer.
Note: If your computer has a 9-pin serial connector, use a 25-pin to 9-pin converter
(25-pin male to 9-pin female). If you have a Macintosh, a special cable is needed for the
connection.
3. Using the ISDN cable that is included, connect the RJ-45 connector on one end of the
cable to the ISDN port on the back of the Model XM128 modem.
4. For European models, connect the other end of the RJ-45 ISDN cable to your NT-1
terminal or S/T interface. Using the proper cable supplied with your NT-1, connect your
NT-1 or U interface to the wall jack installed by your phone company.
5. For North American models, connect the other end of the RJ-45 ISDN cable to the wall
jack installed by your phone company.
6. Using the proper cable, insert the round end of the power adapter in the POWER
connector on the rear panel.
7. Plug the power supply unit into an AC wall outlet.
8. Turn the power on to your Model XM128 modem.
9. Turn the power on to your computer.
Verifying Hardware Installation
When the installation is complete and power applied to the modem, a self-test sequence begins.
The B1, B2, and AA LED lights blink on and then off again. After this cycle is complete, the PWR
(power) LED remains on.
If the test routine fails, the D LED blinks. Refer to Chapter 10, “Troubleshooting,” for more
information about the self-test and the error codes.
Installation
2-3
Chapter 3
Setup for Windows 95 and Windows NT 4.0
This chapter contains step-by-step procedures both for installing the Windows NT and
Windows 95 drivers and for configuring Dial-Up Networking for the Model XM128 modem.
Selecting the Appropriate Windows 95 Driver (INF file)
If your computer supports the Plug-and-Play feature, be sure your Model XM128 modem is
powered on before starting your computer. If you are using a non-Plug-and-Play protocol, follow
the steps to complete installation:
1. Open the Control Panel by double-clicking the Control Panel icon in your My Computer
folder.
2. Double-click on Modems.
3. Click on Add.
The Install New Modem screen appears.
4. Select Don't detect my modem; I will select from a list.
5. Click on Next.
6. Click on Have Disk.
7. Insert the NETGEAR Windows 95 driver disk into your floppy drive and click on OK.
8. If you have downloaded an updated INF file from NETGEAR’s Web site or BBS, use
Browse to find the location of the updated INF file, click on Open, then click on OK.
Setup for Windows 95 and Windows NT 4.0
3-1
Reference Guide for the Model XM128 ISDN Digital Modem
9. Select the Model XM128 modem driver with the protocol that your host is using.
Generally, the following examples work. However, we recommend that you verify
the protocol your Internet service provider (ISP) uses.
If you are connecting to an Internet service provider (ISP), select:
NETGEAR XM128, PPP 64K
If the ISP has not upgraded to an ASCEND compatible server, select:
NETGEAR XM128 V.120 64K
If you are calling another location such as a BBS system, select:
NETGEAR XM128 V.120 64K
If you dial up to CompuServe, select:
NETGEAR XM128 V.120 64K
If you are calling the Microsoft Network (MSN) ISDN line, select:
NETGEAR XM128, PPP 64K
10. After you have completed the selections above, click on Next.
11. Select the COM port your modem is connected to and click on Next.
A final dialog box will appear.
12. Click on Finish.
The Modems Properties screen is displayed.
13. Click on Close.
This step completes the installation of your Model XM128 modem driver. You may now
use programs such as Dial-Up Networking with your modem.
3-2
Setup for Windows 95 and Windows NT 4.0
Chapter 4
Configuration
This chapter describes the procedures for configuring your Model XM128 modem and your ISDN
line.
Configuring Your ISDN Line and Network
The setup procedure for the Model XM128 modem needs to be done only once. The settings are
stored in the nonvolatile random access memory (NVRAM) of the modem. Turning power on and
off will not erase the information. The only time that you need to reconfigure your line is when you
perform a hardware reset on your modem when you change options on your ISDN line.
NETGEAR provides a simple Windows 95 or NT 4.0 utility to help you set up the Model XM128
modem. Refer to Getting Started Using FirstGear for the XM128 ISDN Digital Modem for
complete instructions. This chapter explains how to set up your switch using the Windows/
Windows 95 utility that comes with the modem.
If your Model XM128 modem is not going to be set up by a computer running Windows, use
a terminal program that allows you to send AT commands to the modem and receive responses
from it.
Configuring Your Modem Using a Terminal Program
If you are not running Windows 95 or Windows NT, configure your Model XM128 modem with
a terminal program that allows you to send and receive AT commands and responses from the
modem.
NETGEAR recommends that you have your Model XM128 modem ready to use before the
telephone company installs your ISDN line. If the modem is ready, you can enter the SPID and
confirm that the ISDN network is responding properly before the telephone installer leaves.
Configuration
4-1
Reference Guide for the Model XM128 ISDN Digital Modem
The setup procedure for the Model XM128 modem needs to be done only once because the
settings are stored in the nonvolatile RAM of the modem and turning the power off does not erase
the information. The only time you have to reconfigure your line is when you perform a hardware
reset or when you change options on your ISDN line.
Note: If you perform a hardware reset and have to reenter the SPID number(s) and switch
type again, it is easier if you write down or store all the relevant information so it can be
easily retrieved.
Table 4-1 shows a list of example terminal programs for different operating platforms. For
instructions on how to use a terminal program, refer to the instructions that came with the program.
Table 4-1.
Terminal programs
Operating system
Program
Windows 95
Windows 3.x
Hyper Terminal
Terminal
Procomm Plus for Windows
Qmodem for Windows
UNIX
DOS
Minicomm
PC Plus
Qmodem
Macintosh
Z-Term
Communicate Lite
Understanding AT Commands
AT commands configure and control the Model XM128 modem through a terminal program.
Command statements are usually sent to the modem from the computer keyboard.
Command statements must be written in a specific form in order for the Model XM128 modem to
recognize them. A command statement begins with the letters AT or at. It is then followed by one
or more commands and the Enter key.
AT commands can be issued only when the Model XM128 modem is in command or offline mode.
After the Model XM128 modem has established a connection with the remote device, it goes into
online mode, and the characters sent from your computer (through the modem) are transmitted
to the remote device.
4-2
Configuration
Reference Guide for the Model XM128 ISDN Digital Modem
In order to issue an AT command statement, you first need to run your communications software
and configure it to the port connected to the Model XM128 modem. Refer to your communications
software manual for more information.
Table 4-2 lists the supported AT command types.
Table 4-2.
Supported AT command types
Type of AT command
Example
Basic AT (Hayes compatible)
Basic AT$ (online Help)
Extended AT&
ATA
AT$
AT&F
AT*I1
ATS0=1
Extended AT* command
S-Register command
S-Register bitmapped command ATS13.1=1
(set S-Register bit 1 equal to 1)
Register inquiry command
SATS0? or ATS13.1?
You can also browse the list by using the command AT$.
Quick Tips for Issuing AT Commands
The following is a list of quick tips when issuing AT commands:
•
•
The [Enter] key must be pressed to execute a command.
Multiple AT commands can be combined into one line (for example, AT&O2 and ATB02 are
combined as follows: AT&O2B02).
•
•
•
The Model XM128 modem processes commands from left to right. The AT command that
appears to the right might overwrite the command to the left (for example, ATB13B14 results
in ATB14 because both B13 and B14 cannot coexist).
If you see duplicated characters for each one you type, your Model XM128 modem and
software both have their echo feature turned on (the modem defaults to enable command
echo). To eliminate the double characters, turn off software command echo.
Use A/ to repeat the last command. No AT prefix is needed for this command.The Model
XM128 modem supports either verbose result code (OK, for example) or numerical result
code (0, for example). You can use the ATVn command to set it one way or the other.
Configuration
4-3
Reference Guide for the Model XM128 ISDN Digital Modem
Table 4-3 lists the commands for viewing both the numerical and verbose result codes.
Table 4-3.
Command
Result codes commands
Description
ATV0
ATV1
Select numerical result code
Select verbose result code
Using AT Commands to Verify Modem Response
Use AT commands to make sure the Model XM128 modem responds, and follow these steps:
1. Type the command AT and press [Enter].
You should receive the following response:
OK
2. Type the command ATI and press [Enter].
You should receive the following response:
1291
3. Type the command ATI1 and press [Enter].
You should receive the following response:
NETGEAR XM128 ISDN Digital Modem xxxx: V x.xx
7607
OK
In the first line, x designates the country or region of operation and the firmware version
number. The second line is the firmware checksum (which changes based on your firmware
version).
Communication Speed Setup
Make sure the program is set up to communicate with the COM port that is connected to the Model
XM128 modem. In most cases, when the terminal program is active and ready to communicate
with the connected port, the DTR signal is activated and the DTR LED lights. If the DTR LED is
off, check the terminal program settings.
The communication speed can be set between 110 bits per second (bps) and 460.8 bps, but 115.2
bps is a good default value. The Model XM128 modem automatically adjusts its speed to match
the communication speed you set.
4-4
Configuration
Reference Guide for the Model XM128 ISDN Digital Modem
Switch Type Setup for North America
In North America, the popular types of switches are AT&T 5ESS, Northern Telecom DMS100,
and Siemens EWSD. All of these switches run software that either conforms to the National
ISDN-1 standard or a custom version. The Model XM128 modem supports the six different
combinations listed in Table 4-4. The value for n in the ATPn command is shown in the AT
command column. The ATPn command programs the D channel protocol so that the Model
XM128 modem works with the type of switch that is connected to your ISDN line.
Table 4-4.
Switches supported by the Model XM128 modem
ISDN network switch
Switch version
AT command
Number of SPIDs
AT&T 5ESS network switch
Point-to-point Protocol
Point-to-multipoint Protocol
Point-to-multipoint Protocol
National ISDN-1
ATP4
ATP5
ATP6
ATP1
ATP2
ATP0
ATP1
ATP2
ATP1
ATP2
ATP1
ATP2
0
1
2
1
2
2
1
2
1
2
1
2
National ISDN-1
NT DMS 100 network switch
Custom
National ISDN-1
National ISDN-1
Siemens EWSD network switch National ISDN-1
National ISDN-1
Other
National ISDN-1
National ISDN-1
To set your switch type, use AT commands (examples given are if your switch type is DMS 100
with Custom Protocol) and follow these steps:
1. Type ATP0 and press [Enter].
You should receive the following response:
OK
Switch Type: Northern Telecom DMS 100
2. Type AT&WZ and [Enter] to save the settings.
You should receive the following response:
OK
Configuration
4-5
Reference Guide for the Model XM128 ISDN Digital Modem
SPID Setup for North America
SPID numbers are needed unless your switch type is AT&T 5ESS with Point-to-Point Protocol.
The ISDN switches use SPID numbers to represent the subscribed network services. Each SPID
corresponds to one terminal end point identifier. Different switches might provide different rules
for the SPID number format. You should get the SPID number from your local telephone company.
To program your SPID number(s), use AT commands (n is the SPID provided by your telephone
company) and follow these steps:
1. Type ATSPIDO=n and [Enter].
You should receive the following response:
OK
SPID Correct!
It might take up to 30 seconds for the response. This response indicates that the SPID number
was accepted. If a second SPID is required, go to step 2.
2. Type ATSPID1=n and [Enter].
You should receive the following response:
OK
SPID Correct!
An error condition is present and it indicates that an incorrect SPID number was entered if you
receive the following response:
OK
SPID Error!
A general failure is indicated if the ISDN line is not connected to your Model XM128 modem or
if you select the wrong switch. The SPID number was not verified if you receive the following
response:
OK
The D LED lights when the SPID(s) are entered and verified. If you are not able to get the SPID(s)
to accept correctly, recheck all cable connections before verifying the number(s) with your
telephone company and reentering them again. If the D LED still does not light, the telephone
company should make sure the line you ordered has been correctly set up.
4-6
Configuration
Reference Guide for the Model XM128 ISDN Digital Modem
Entering DNs
You will need to enter the phone numbers given to your ISDN line. The phone numbers will be
cleared whenever the switch type is changed.
1. Type ATDN0=n and [Enter].
Where n is the 7-digit phone number.
You should receive the following response:
OK
2. Type ATDN1=n [Enter].
Where n is the second 7-digit phone number.
You should receive the following response:
OK
3. Type AT&W0Z0 and [Enter] to save the settings.
You should receive the following response:
OK
Setup for Europe and the United Kingdom
To configure your Model XM128 modem for Europe and the United Kingdom, follow these steps:
1. Type the command AT&ZOI= and the ISDN telephone number to assign the outgoing
telephone numbers.
For example, AT&ZO=5551111
2. Press [Enter].
For example, AT&ZOA=5552222
4. Type the command AT&ZOB= and the outgoing telephone number for PHONE 2.
For example, AT&ZOB=5553333
5. Assign a protocol using the commands in Table 4-5 to configure the B channel protocol.
Configuration
4-7
Reference Guide for the Model XM128 ISDN Digital Modem
Table 4-5.
AT commands for setting protocols
Protocol
AT command
X.75
ATB00&O2
V.110 user rate - 38400 bps
ATB18&O2
ATB20&O2
ATB40&O2
V.120
PPP
For example, if the protocol you want is PPP, type the command ATB40&O2. For other X.75
or V.110 protocol options, refer to Appendix C, “AT Command Set Reference.”
6. Assign the appropriate MSN telephone numbers, using the AT commands in Table 4-6.
Table 4-6.
AT commands for setting MSN
Multiple subscriber number
AT command
X.75 telephone number
V.110 telephone number
V.120 telephone number
PPP telephone number
AT&ZI0=telephone number
AT&ZI1=telephone number
AT&ZI2=telephone number
AT&ZI3=telephone number
ISDN Data (Protocol autodetection) AT&ZI4=telephone number
PHONE 1
PHONE 2
AT&ZI6=telephone number
AT&ZI7=telephone number
For example, to assign an MSN number for a V.120 call, type the command AT&ZI2=5553434.
7. Type the AT command AT&W0Z0 to store the information into NVRAM.
4-8
Configuration
Chapter 5
Async to Sync PPP
This chapter describes the application of asynchronous to synchronous HDLC conversion.
Internet and Remote Access PPP and SLIP
More and more Internet Service Providers are offering their services through dial-up ISDN lines
for higher data bandwidth. The equipment used by your service provider frequently consists of
ISDN LAN routers which, unlike a digital modem, do not have asynchronous capability. For this
reason, terminal adapters that support only V.120 or asynchronous protocol do not work with this
type of equipment.
The Model XM128 modem converts the asynchronous data it receives from your computer to
synchronous format in order to communicate with ISDN LAN routers. We call this process
asynchronous to synchronous HDLC conversion or Async to Sync PPP (Point-to-Point Protocol)
or Async to Sync Serial Line Internet Protocol (SLIP) protocol.
Making Async to Sync PPP and SLIP calls
In order to communicate with an ISDN LAN router (from vendors such as Ascend and Cisco), set
the Model XM128 modem B channel protocol to one of the following:
ATB40<Enter> (HDLC PPP)
or
ATB41<Enter>(HDLC SLIP)
You should also set the DTE speed based on the bandwidth that the switches support.
Async to Sync PPP
5-1
Reference Guide for the Model XM128 ISDN Digital Modem
Most of the time, you only use this protocol for making calls to remote sites with ISDN LAN
Routers. If the remote access site you are calling uses a Terminal Adapter such as the
Model XM128 modem, you can use V.120, as it provides data compression.
Before making the call, check which protocol is set for the ISDN mode using the &V command to
view the settings.
When you are ready to view the settings type:
AT&V<Enter>
The Model XM128 modem modem responds:
Current Settings...
Switch Type: Northern Telecom DMS
ISDN Outgoing Service: PPP Async-to-Sync Conv 64K
If the settings displayed match your current setup, you are ready to place the call.
When you are ready to place the call type:
ATDI<remote_access_number><Enter>
The Model XM128 modem responds:
Connect 115000/64000 PPP/None
Keeping a Line Connection During Idle Time
If you are using PPP to access a server the server probably has a watchdog timer to monitor the
line activity. If the idle time exceeds some time interval (usually 1 minute), the server releases the
connection for other clients to dial in. Users may suffer some inconvenience because you have to
dial to the server again and repeat the login procedure when disconnected. The value in register
S124 (in seconds) is used as the idle time gauge. If the idle time exceeds this guarding period, the
Model XM128 modem sends out a dummy PPP packet to the server to keep it from disconnecting
the line.
Example: If the server you are calling disconnects after 1 minute of inactivity, issue the following
command before connecting:
ATS124=59<Enter> (send dummy PPP packet after 59 seconds of inactivity)
Setting S124=0 disables this function.
5-2
Async to Sync PPP
Reference Guide for the Model XM128 ISDN Digital Modem
Answering Async to Sync PPP calls
There is no need to configure the ISDN mode to the protocol of an incoming call. If it is set to
auto-answer or an answering command is issued, the Model XM128 modem determines the
correct protocol to use by examining the data coming in from the remote site. One exception is
when the ISDN data call is carried through a Speech bearer. In this case you would need to set up
an MSN for the phone number of the calling party. To do this, use the command AT&ZI3=xxx;
where xxx is the number from which the call originates.
For the Model XM128 modem to automatically answer incoming calls, you need to set S0 to a
value greater than 0 (i.e. ATS0=1). The Model XM128 modem answers the call and uses
asynchronous to synchronous conversions to and from the DTE. If S0 is not set (S0=0), the DCE
reports RING and also makes an audible ring notification.
Multilink PPP
Multilink PPP (MPPP) is a protocol that allows virtual bundling of the two B channels allowing
connection speeds of 128Kbps. MPPP support is a standard feature of the Model XM128 modem.
Making a call using Multilink PPP
A Multilink PPP connection is initiated at the calling site when ATB40 (B channel protocol HDLC
PPP) has been selected and the Multilink PPP mode has been enabled by an AT&Jn command:
AT&J0 (disables Multilink PPP)
AT&J1 (enables Multilink PPP in answer mode only)
AT&J2 (enables Multilink PPP in call mode only)
AT&J3 (enables Multilink PPP in both call and answer modes)
By default, the Model XM128 modem dials the same number for both Multilink PPP connections.
If the destination you are dialing requires two different telephone numbers to establish a two
channel Multilink PPP connection, then the following command can be used:
ATDIphone_number_1+phone_number_2
The phone numbers of the destination are determined by the commands: phone_number_1 and
phone_number_2 are the phone numbers of the destination.
If the destination refuses the Multilink PPP during the Link Control Protocol (LCP) negotiation, a
single B channel PPP connection is established. The connection message is the same whether the
Multilink PPP connections have been established or not.
Async to Sync PPP
5-3
Reference Guide for the Model XM128 ISDN Digital Modem
Dialing Pre-stored Phone Numbers
The ATDSn command, n=0,1,..,39, dials the (n+1)th phone number twice for both of the Multilink
PPP connections. The command ATDSn+Sm, (n and n=0,1,...,39) dials the (n+1)th phone number
for the first connection and the (m+1)th phone number for the second connection.
Example: ATDIS0+S1 [Enter] dials the number stored in location 0, and the number stored in
location 1 for the MPPP connection.
Endpoint Discriminator
The Endpoint Discriminator option represents identification of the system transmitting the packet.
This option advises a system that the peer on this link could be the same as the peer on another
option.
The Endpoint Discriminator consists of two components: Class and Address.
The Class field is one octet as stored in S-register S85 and indicates the identifier address space.
Table 5-1 lists the valid values of the S85 register.
Table 5-1.
S85 register values
Description
Value
0
1
2
3
4
5
Null Class (by default).
Internet Protocol (IP) Address
IEEE 802.3 Globally Assigned MAC Address.
Locally Assigned Address.
PPP Magic-Number Block.
Public Switched Network Directory Number.
The Endpoint Discriminator Address field is of variable length from 0 to 20 octets and can be
assigned by the ATEPD command:
ATEPD = <Octet_1,Octet_2,Octet_3,..,Octet_n>
5-4
Async to Sync PPP
Reference Guide for the Model XM128 ISDN Digital Modem
Each Octet_i is in the range from 0 to 255. The angle brackets (<) and (>) are part of the this
command. The command ATEPD? can be used to view current setting of the Endpoint
Discriminator Address.
Note: The Endpoint Discriminator option is not required in most cases, thus users don't
have to change the default settings. The system administrator of your corporate or the
Internet service provider provides these values if the Endpoint Discriminator option is
required.
Call Bumping Dynamic Channel Allocation
When call bumping, Dynamic Channel Allocation (DCA) is enabled (by default), you can place or
answer a voice call (and only one) from a device that is attached to one of the phone ports. The call
can be placed while a Multilink PPP call is active. The Model XM128 modem automatically
removes one of the Multilink PPP connections and uses it for the voice call. When the voice call
ends, the Model XM128 modem automatically reestablishes that channel for Multilink PPP
operation. The call bumping DCA function is only effective when the Model XM128 modem is at
the calling site (the client site). The following command can be used to select the DCA function:
ATCE0 (disables call bumping)
ATCE1 (enables call bumping by default)
Async to Sync PPP
5-5
Chapter 6
ISDN Overview
This chapter covers the procedures for initiating and receiving calls over digital lines using your
Model XM128 ISDN Digital Modem.
Commands for Outgoing Calls
The Model XM128 modem uses the following three modes to send communication over your
ISDN network:
•
•
•
ISDN data
Analog port, PHONE 1 communication
Analog port, PHONE 2 communication
These modes are automatically switched based on the commands you issue. To understand this
process, use your terminal program and proceed with the instructions explained in the following
sections.
Dialing Out Using ISDN Mode
The command ATDI tells your Model XM128 modem that you want to make an ISDN data call
and to therefore use the ISDN mode to call out. Enter:
ATDI17142630398
This command initiates an ISDN call.
ISDN Overview
6-1
Reference Guide for the Model XM128 ISDN Digital Modem
Dialing Out Using ISDN Mode Optional Speech Bearer Service
The Model XM128 modem supports ISDN data utilizing Speech Bearer Service. To enable this
function, you need to set S-register S83 bit 7 to 1 (ATS83.7=1). This function is useful in the areas
where ISDN service providers charge lower usage rates for voice (speech) calls. To enable this
function, enter:
ATS83.7=1
To disable it, enter:
ATS83.7=0
Dialing Out for Analog Adapter Port 1
Using the A command following the ATD tells your Model XM128 modem to switch the call to
analog adapter port PHONE 1, when dialing is complete. Enter:
ATDA17146930762
Note: You must have an analog modem connected to your plain old telephone service
(POTS) port before you issue this command.
Dialing Out for Analog Adapter Port 2
Using the B command following the ATD tells your Model XM128 modem to automatically
switch the call to analog adapter port PHONE 2, when dialing is complete. Enter:
ATDB17146930762
Manually Switching Communication Modes
The manual switching function is necessary only if your communication software does not allow
you to change your dial-up string.
6-2
ISDN Overview
Reference Guide for the Model XM128 ISDN Digital Modem
Conventional dialing commands ATD, ATDT, and ATDP, used by much of the existing
communication software, can be mapped onto one of the new dialing commands according
to the AT&O setting as shown in Table 6-1.
Table 6-1.
Dialing commands
Dial string it maps to
AT Command
AT&O0
AT&O2
AT&O3
ATD, ATDT, and ATDP are the same as ATDB.
ATD, ATDT, and ATDP are the same as ATDI.
ATD, ATDT, and ATDP are the same as ATDA.
The factory default is AT&O2, which means that the Model XM128 modem selects ISDN data
Placing the Call
To initiate a call, choose the proper communication mode and configure the mode according to
the bearer service (or protocol) you want to use. Table 6-2 contains some simple commands that
are useful when placing a call.
Table 6-2.
Command
Call placing commands
Description
ATBnn
ATDL
Changes ISDN B channel protocol setting
Redials the last dialed telephone number
ISDN Overview
6-3
Reference Guide for the Model XM128 ISDN Digital Modem
Commands for Incoming Calls
When a call comes in, the call is carried by one of the following protocols:
•
•
•
•
V.120
HDLC PPP, MPPP, or SLIP
V.110
X.75
Or the call may be initiated by an analog device.
This section provides some general guidelines for setting up the Model XM128 modem for call
answer handling. Be aware that the modem does not automatically answer a call unless S-register
S0 is set to a value greater than 0 (zero). If S-register S0=0, the modem only reports RING to your
terminal program. It can also respond with an audible tone that allows you to decide whether or not
you should take any action.
When an ISDN data call comes in, the Model XM128 modem tries to negotiate a connection using
the proper ISDN protocol. When an analog call comes in, the modem sends the call to the analog
port as the factory default, PHONE 1, and then PHONE 2.
Digital Data
The Model XM128 modem currently supports Circuit Switched Data (CSD) for ISDN data
applications. The CSD protocols supported by the Model XM128 modem include: PPP, MPPP,
V.120, X.75, and V.110. PPP is the most popular protocol used in North America; it is used by
the incoming data to determine which protocol to use and automatically switches to that mode.
This process occurs transparently to the user. The Model XM128 modem is able to auto-switch for
PPP, MPPP, V.120, X.75, and V.110 protocols over speech channel. In most cases, you can rely on
the auto-switching feature for your applications. If you need more specific settings for answering
calls, refer to “Answering a Call Using MSN” on page 5-5.
6-4
ISDN Overview
Reference Guide for the Model XM128 ISDN Digital Modem
Determining the Packet Length
The user’s information is sent on a frame-by-frame basis for V.120 and X.75, sometimes called
packetized. The maximum frame length on the sending side should not exceed the maximum
frame length that the receiving side allows. Sometimes this information is exchanged during
handshaking. However, few manufacturers, if any, have implemented this mechanism.
If the sending side sends packets greater than what the receiving side allows, the receiving side
discards the frame and replies with a Frame Reject Frame (FRMR). The FRMR indicates that the
information received is too long. Both sides then reset their link layer negotiation and send the
frame again. Usually this process repeats until the call gets disconnected.
The Model XM128 modem has a fixed maximum receiving frame size of 2048 octets, which is
larger than most devices can support. The default maximum sending frame size is 252 octets for
V.120 and 2048 for X.75. If you need to change the maximum sending frame size, the ATCL
command is used.
To change the maximum sending frame size, use the following commands and follow these steps:
1. Enter ATCL252 (set the frame size to 252 octets, user value between 1 and 2048).
You should receive this message:
OK
2. Enter ATCL? (to inquire about the current setting of the packet length).
You should receive this message:
Maximum user data length in a packet (byte) : 252
ISDN Overview
6-5
Reference Guide for the Model XM128 ISDN Digital Modem
Answering a Call Using MSN
Multiple Subscriber Number (MSN) settings.
The MSN supplementary service enables multiple ISDN numbers to be assigned to a single
ISDN BRI line. It allows the caller to select, through the public network, one or more distinct
terminals from a variety of terminal choices. The Model XM128 modem supports many different
communication protocols and two analog adapters. Table 6-3 shows the commands used to assign
each of the ports to an ISDN number.
Table 6-3.
Commands for assigning ISDN numbers
Command
&ZI0=s
&ZI1=s
&ZI2=s
&ZI3=s
&ZI4=s
Description
Assigns the MSN phone number for X.75
Assigns the MSN phone number for V.110
Assigns the MSN phone number for V.120
Assigns the MSN phone number for PPP, MPPP
Assigns the MSN phone number for ISDN data,
protocol auto-detection
&ZI5=s
&ZI6=s
&ZI7=s
Assigns the MSN phone number for PPP, MPPP
Assigns the MSN phone number for Phone 2
Assigns the MSN phone number for Phone 1
The command AT&ZI? can be used to display the MSN numbers. The factory default for these
numbers is UNASSIGNED.
6-6
ISDN Overview
Reference Guide for the Model XM128 ISDN Digital Modem
If an incoming setup message is offered with addressing information (that is, the appropriate part
of the Called Party Number), this address is compared with the MSN numbers assigned by the
AT&ZIn=s commands. The call is accepted using the specific protocol if the assigned number of
this protocol matches the received Called Party Number.
Note: You are not required to enter the complete numbering string for the AT&Z
command. The last few distinguishable digits are enough for the XM128 to make the
decision. Two phone number strings are said to be matched if their least significant n
digits are identical, where n is the number of digits in the shorter string.
The called party subaddress information within the incoming setup message can also be
used to select the protocols and/or analog ports. In normal conditions, called party subaddress
information is not used by the Model XM128 modem to select the protocols or services, but only
indicates the subaddress (if any) to the DTE. Refer to Chapter 11 for more detailed information.
Data over Speech Channel
If you are expecting ISDN data calls through Speech (Voice) channel, you would need to set up
MSN for it. If no MSN entries are found in MSN ISDN data lists, all speech (voice) calls are sent
to either PHONE 1 jack or PHONE 2 jack. The entry to use would depend on the type of data call
that you are expecting. If you expect only PPP type of calls, you should enter the number that the
remote user used to dial in to entry #3 (AT&ZI3=xxx) or entry #5 (A&ZI5=xxx). After this
number is set, when the caller dials in to this number, the Model XM128 modem attempts to use
PPP protocol to handshake with this remote user. This handshake takes place whether the setup
message from the switch indicates an ISDN data call or a speech (voice) call.
Best-effort Call Answering
If some numbers have been set using &ZIn command (as can be seen by the AT&ZI? command)
and they are not matched with the address of the incoming call, the Model XM128 modem, by
default, ignores the call because it may be intended for other devices that share the same S/T
interface (S0 bus) with the Model XM128 modem.
ISDN Overview
6-7
Reference Guide for the Model XM128 ISDN Digital Modem
If you want the Model XM128 modem to answer inbound calls using all possible protocols, refer
to Table 6-4 for the commands used to set the best-effort call answering bit.
Table 6-4.
Command
Best-effort call answering bit commands
Function
ATS119.3=0 Answer call only when number matched (by default)
ATS119.3=1 Best-effort call answering
Ambiguity Resolution Switch for Voice Calls
For a speech or voice-band-data call, if the &ZI number assignment can tell which of the analog
adapters is being addressed, then the call is delivered to the proper destination. Sometimes,
however, ambiguity of address matching may exist. This ambiguity may exist if the &ZIn numbers
of the various protocols are either unassigned or not matched or the address information is absent
in the incoming setup message. In this case, users may want to set answering priority to an analog
port. The AT&Ln command sets the address ambiguity resolution flag as follows:
•
AT&L0
The analog adapter 1 has the higher priority to answer a voice or voice-band-analog-data call.
If the analog adapter 1 is busy, the call is routed to the analog adapter, PHONE 2.
•
AT&L1
The analog adapter 2 has the higher priority to answer a voice or voice-band-analog-data call.
If the analog adapter 2 is busy, the call is routed to the analog adapter, PHONE 1.
Multi Auto-Answering of Data Calls
When an ISDN data call comes in, the Model XM128 modem can determine the protocol to be
used in one of two ways.
One is way is through the information conveyed by the setup message. For DSS1, this information
includes the bearer capability, low-layer compatibility, or high-layer compatibility information
elements; for 1TR6, it includes the Service Indicator as well as an Additional Octet of the Service
Indicator.
The other way is by the Multi Auto-answering process. The Model XM128 modem determines
the protocol by monitoring the B channel signal sent by the calling site.
With either method, the data call can be identified by the modem to be X.75, V.110, V.120,
or PPP, MPPP Async-to-Sync conversion.
6-8
ISDN Overview
Reference Guide for the Model XM128 ISDN Digital Modem
If the address-matching process is again unable to tell which protocol to use, the Model XM128
modem goes into the Multi Auto-answering Routine by examining the B channel data pattern and,
hence, determining the protocol to use.
When alerted, the Model XM128 modem sends a RING message to the DTE in the following
format:
RING
Understanding ISDN Communication Protocols
Table 6-5 shows the specifications of different ISDN protocols.
Table 6-5.
Parameter
ISDN protocol specifications
V.110
V.120
X.75
Layer 1
80 Bits Framing
HDLC
LAPD
V.120
Yes
HDLC
Layer 2
None
None
No
LAPB Transparent
ISO8208T.70 NL
Yes
Layer 3
Error Control
V.42bis
No
Yes
Yes
Async or Sync if used
with V-Series DTE
Async Only
Async Only
Async Only
Bundle
No
Yes
Yes
Max. Line Speed
Async: 38.4 Kbps
Sync: 64 Kbps
64 Kbps
128 Kbps
64 Kbps
128 Kbps
AT-Command
Configuration
ATB10
ATB20
ATB00 Transparent
ATB01: T.70 NL
ISDN Overview
6-9
Reference Guide for the Model XM128 ISDN Digital Modem
V.110 ISDN Communications
This section describes how to set up and configure your Model XM128 modem with the V.110
Protocol.
Answering a V.110 Call
After you set the proper V.110 communication mode, there is no need to configure the ISDN mode
to the protocol of an incoming call. If the device is set to auto-answer, the Model XM128 modem
Otherwise, this determination takes place after an answering command is issued.
One exception to this process is when the ISDN data call is carried through speech bearer. In this
case, you need to make an MSN entry for the phone number from which you are expecting the
data-over-speech-bearer call to be coming for X.75 protocol. Use AT&ZI1=n. Refer to “Data over
Speech Channel” on page 6-7 for details.
To allow the Model XM128 modem to answer the incoming call, you need to set S0 to a value
greater than 0 (in other words. ATS0=1). The Model XM128 modem answers the call and uses
reports RING and also makes an audible ring notification.
Making a V.110 Call
Before an ATDIxxx command is issued to dial out, make sure that your Model XM128 modem is
in the asynchronous mode (AT&M0). Use the commands in Table 6-6 to configure V.110 ISDN
communication.
Table 6-6.
V.110 configuration commands
Description
AT Command
ATB10
ATB13
ATB14
ATB15
ATB16
ATB17
ATB18
ATB19
User rate follows DTE speed
User rate = 2400bps
User rate = 4800bps
User rate = 9600bps
User rate = 14400bps
User rate = 19200bps
User rate = 38.4 Kbps
User rate = 57.6 Kbps (Japanese version only)
6-10
ISDN Overview
Reference Guide for the Model XM128 ISDN Digital Modem
The highest asynchronous V.110 user rate depends on bit 4 of S119 as follows:
•
•
•
S119.4=0 (19.2 Kbps)
S119.4=1 (38.4 Kbps for areas other than Japan)
S119.4=1 (57.6 Kbps for Japanese version)
If the DTE speed is higher than what has been set, the user rate in Table 6-6 is used.
V.120 ISDN Communications
This section describes how to set up and configure your Model XM128 modem with the V.120
ISDN protocol. Refer to Table 6-5 on page 6-9 for the ISDN protocol specifications.
Selecting V.120 for European ISDN (DSS1) Switch
With European ISDN, V.120 is an option in the bearer capability (BC) information element, which
is a mandatory information element in the setup message. Although we can specify V.120 in the
low-layer compatibility (LLC) information element, some switches just do not deliver the LLC.
Other switches do deliver the LLC, but the V.120 selection is discarded midway.
If the called modem does not get any B channel protocol information from the incoming setup
message and the remote device is a NETGEAR ISDN device, the Model XM128 modem can
identify the V.120 protocol automatically with the Multi Auto-answer Routine. Otherwise, the
handshake fails.
Selecting V.120 for German National ISDN (1TR6)
With a 1TR6 switch, data connections are achieved by setting the Service Indicator to 7
(Daten_bertragung 64Kbps) and using the Additional Information octet to select B channel
protocols. Because there is no predefined code for asynchronous V.120, the Model XM128 modem
uses the synchronous V.120 code to fill in the additional information octet. This approach might
not work all the time.
ISDN Overview
6-11
Reference Guide for the Model XM128 ISDN Digital Modem
Answering a V.120 Call
In most cases, there is no need to configure the Model XM128 modem to properly answer calls.
The Model XM128 modem decides which protocol to use by detecting the type of data that is
received. You only need to set S0 to greater than or equal to 1 in order for the modem to
and sounds a ring notification.
One exception to this is when the ISDN data call is carried through speech bearer. In this case,
you would need to make an MSN entry for the phone number from which you are expecting the
data-over-speech-bearer call to be coming. For V.120 protocol, use AT&ZI2=n. Refer to “Data
over Speech Channel” on page 6-7.
Making a V.120 Call
Some switches transmit all network signals through the D channel (out-of-band signaling),
allowing both B channels to be used exclusively for your communication purposes. This
arrangement allows for throughput of 64 Kbps per channel. However, not all switches support
out-of-band signaling at this time. For switches that do not support out-of-band signaling, network
signals are transmitted through the B channels, which reduces the bandwidth to 56 Kbps.
When making a V.120 call, be sure that the communication supports out-of-band signaling. If it
does not support out-of-band signaling, you need to set your Model XM128 modem to 56K mode
using the AT&E1 command (AT&E0 to set it back to 64K mode). If your modem is on the
receiving end, you can keep the setting at AT&E0 (64K data mode). The modem automatically
switches between the two speeds in answer mode.
Configuring the V.120 Mode
To configure for a 56K V.120 call, use the following commands:
1. Enter ATB20 (Select V.120 for communication).
Model XM128 modem should respond with:
OK
2. Enter AT&E1 (Select 56K data mode).
Model XM128 modem should respond with:
OK
6-12
ISDN Overview
Reference Guide for the Model XM128 ISDN Digital Modem
Now you are ready to dial the phone number. If you need to save the setting into NVRAM, use the
following commands and follow these steps:
1. Enter AT&W0 (save the settings to profile 0) [Profiles available: 0-3].
Model XM128 modem should respond with:
OK
2. Enter ATZ0 (save stored settings as the power on settings to profile 0)
[Profiles available: 0-3].
Model XM128 modem should respond with:
OK
All of the above commands can be simplified by combining all the commands onto one line
(for example, AT&B20&E1&WZ0).
Dialing in V.120 Mode
Finally, use the ATDn command to make the call (n is the phone number you want to dial). Once
the connection is made, you should see the following connect messages:
CONNECT 115200/V120 56000/LAPD
This message indicates that the connection is made with the following specifications:
•
•
•
•
DTE speed of 115.2 Kbps
Protocol V.120
Data speed of 56 Kbps
Error Control LAPD
Making a Bundled Call with V.120
A bundled V.120 connection is initiated at the calling site when ATB20 (B channel protocol V.120)
has been selected and the channel bundling mode has been enabled by an AT&J3 command. The
channel bundling command (AT&J3) must be set on both the calling and receiving sides;
otherwise, a single channel connection is made.
To set up your Model XM128 modem to make a bundled V.120 connection, follow these steps:
1. Enter ATB20 (set B channel protocol to V.120).
2. Enter AT&J3 (set the Model XM128 modem to make a bundled call).
ISDN Overview
6-13
Reference Guide for the Model XM128 ISDN Digital Modem
3. Enter AT&WZ (if you want to save the setting).
After these commands are entered, the ATD command generates two consecutive setup
messages to invoke bundle initiation.
For the Northern Telecom switch, each BRI phone number can be called only once at any
given time. So if you dial this number, it reports busy to any other incoming calls. In order to
use two B channels for aggregation, you must place two calls with different phone numbers.
To place these calls, separate the two numbers with a plus (+) sign after the ATD command.
For bundling calls with the Northern Telecom switch, enter the following commands:
ATDI[phone_number_1]+[phone_number_2]
4. Press [Enter].
The answering Model XM128 modem determines that the call is a bundle request: when AT&J3 is
set and two consecutive setup messages are received. The two data calls are established as one
message. The phone company’s ISDN line splits it off into two messages. That is, the ISDN
network treats the messages as two independent calls. Finally, the receiving side receives one
bundled message into the computer’s serial port.
The success of a bundle connection initiation is indicated by the connect message reported to the
DTE. The following two examples are of connect messages:
CONNECT 115200/V120M 128K/LAPD
or
CONNECT 115200/V120M 128K/LAPD/V42b (with data compression)
If you are not using American ISDN, you have a choice between Multiple Link Protocol (MLP) or
cFos channel bundling (CCB), two bundle protocols. You can set it by the following commands:
ATS100=0
ATS100=1
(for MLP channel bundling)
(for CCB channel bundling)
Identifying Your Line Provisioning
For bundled connections, the two B channels of your ISDN line must be able to handle data circuit
switch connections with unrestricted 64 Kbps or 56 Kbps line speeds. Two separate data calls can
be established consecutively.
6-14
ISDN Overview
Reference Guide for the Model XM128 ISDN Digital Modem
128 Kbps Speeds
BRI ISDN consists of three (2B+D) logical channels. Each B channel can be used independently
for a dial-up connection running at 56 Kbps or 64 Kbps (bits per second).
The two B channels can be used together for a single data connection to provide 112K (with
In-Band Signaling) or 128K (when Out-of-Band Signaling is used). It is called a Bundle
Connection (different from BONDING).
The type of channel bundling described in the V.120 section is supported only between the
following NETGEAR products: Model XM128 modem. Dialing Prestored Phone Numbers
Use ATDSn, n=0,1,...,39, to dial the (n+1)th phone number twice for both the bundle connections.
Use ATDSn+Sm, (n and n=0,1,...,39) to dial the (n+1)th phone number for the first connection and
the (m+1)th phone number for the second connection.
For example, ATDIS0+S1[Enter] dials the number stored in location 0, and the number stored in
location 1 for the bundle connection.
Error Correction and Data Compression with V.120
With V.120, the default setting is for Link Access Protocol Digital (LAPD) error correction only.
No data compression is negotiated. The following AT commands are used to switch the V.42bis
data compression on or off for ISDN data calls when using V.120 protocol:
•
•
AT&K44 (enable V.42bis on ISDN call)
AT&K00 (disable V.42bis on ISDN call)
With the &K44 setting, the Model XM128 modem tries to connect using V.42bis data
compression. If the remote device does not support V.42, then LAPD error correction can be used.
When a connection is made using V.42bis compression, the following connect message is
displayed:
CONNECT 115200/V120 56000/LAPD/V42b.
It takes extra time for the calling ISDN device to negotiate V.42bis. If you know in advance that the
called site has no V.42bis capability, it would be better to issue the AT&K00 command beforehand
in order to get a quick connection.
V.42bis is an international data compression standard commonly used in modem communications.
This standard provides real-time data compression. The NETGEAR expertise in data compression
has been brought into its ISDN applications, which are much higher in speed than modem
communications.
ISDN Overview
6-15
Reference Guide for the Model XM128 ISDN Digital Modem
Because the V.42bis algorithm needs an error-free transmission channel between the compression
and decompression processes, it can only work with a protocol that has error control competence.
The X.75 and V.120 protocols can be used together with V.42bis data compression. The V.110
protocol, on the other hand, is just an R-interface layer 1 adaptation protocol without error-control
X.75 ISDN Communications (Europe)
This section describes how to set up and configure your Model XM128 modem with X.75
protocols. Refer to Table 6-5 for the X.75 protocol specifications for Europe.
The X.75 protocol was originally designed for packet-switched signaling systems in public
networks to provide data transmission services. Now, however, it is also used as the link layer for
telematic services (as defined in T.90) in ISDN. These services include both the ISDN
circuit-switched mode (DTE-DTE communication) and the ISDN packet-switched mode
(DTE-DCE communication).
Answering an X.75 Call
There is no need to configure the ISDN mode to the protocol of an incoming call. The Model
XM128 modem is able to determine the correct protocol to use by examining the data coming in
from the remote site. Protocol determination takes place if the device is set to auto-answer or after
an answering command is issued.
One exception to this process is when the ISDN data call is carried through speech bearer. In this
case, you need to make an MSN entry for the phone number from which you are expecting the
data-over-speech-bearer call to be coming for the X.75 protocol. Use AT&ZI0=n. Refer to “Data
over Speech Channel” on page 6-7 for further information.
To allow the Model XM128 modem to answer the incoming call, you need to set S0 to a value
greater than 0 (for example, ATS0=1). The Model XM128 modem answers the call and uses
asynchronous-to-synchronous conversions to and from the DTE. If S0 is not set (S0=0), the DCE
reports RING and also makes an audible ring notification.
Making an X.75 Call
The default data protocol of the Model XM128 modem is ATB20 (V.120). the X.75 protocols can
be chosen using the following AT commands:
ATB00
ATB01
(for X.75 with transparent layer 3)
(for X.75 with T.70 NL)
6-16
ISDN Overview
Reference Guide for the Model XM128 ISDN Digital Modem
The ATB0x commands not only specify the outgoing protocol, but also set the default layer 3
for an incoming X.75 call without layer 3 information. It is important for both ends of an X.75
connection to execute the same preassigned layer 3 protocol because it reduces the chance of
the Model XM128 modem making the wrong protocol selection.
For European ISDN (DSS1), the low-layer compatibility (LLC) information element in the setup
message can be used to specify the layer 3 protocol. Because this is an option for ISDN switches,
some of the switches might not deliver the LLC information element to the remote end. There is no
provision for 1TR6 switches to specify the layer 3 protocol for X.75 type of calls.
Making a Bundled Call with X.75
A bundle connection is initiated at the calling site by sending two consecutive setup messages
to the network. The two setup messages are all the same except for the Call Reference values.
AT&Jn can be used for bundle configuration as follows:
•
•
•
•
AT&J0 (disables B channel bundling)
AT&J1 (enables B channel bundling in answer mode only)
AT&J2 (enables B channel bundling in call mode only)
AT&J3 (enables B channel bundling in both call and answer modes)
The bundle protocol can be selected as follows:
•
•
ATS100=0 (MLP channel bundling)
ATS100=1 (CCB channel bundling)
If channel bundling is enabled, the ATDIs command generates two consecutive setup messages to
invoke bundle initiation.
For Northern Telecom ISDN, each BRI destination phone number can be called only once at any
time. In order to use two B channels for aggregation, you must place two calls with different phone
numbers. For this purpose, enter the following command:
ATDIphone_number_1+phone_number_2
If the called site receives two consecutive setup messages with the same calling party number and
bearer capability (or origination address for and service indicator for 1TR6), then it is deemed as a
bundle request. The two data calls are established following normal call control procedures. That
is, the network treats them as two independent calls.
ISDN Overview
6-17
Reference Guide for the Model XM128 ISDN Digital Modem
The devices in the two sites then use X.75 Multiple Link Protocol or cFos channel bundling
protocol to coordinate the two B channels. The former would need an overhead of 2 octets for each
packet. The following is an example of the connect message reported to the DTE. The success of
bundle connection initiation is indicated by this message:
CONNECT 460800 / X.75M 128K / V42b
If any B channel is unavailable in any site, the bundle initiation falls back to single channel
connection. The following message may appear in this case:
CONNECT 460800 / X.75 64000 / V42b
Dialing Prestored Phone Numbers
The 40 phone numbers stored in NVRAM can also be used to place a bundle call:
•
•
ATDSn (dials the (n+1)th phone number twice for both the bundle connections; n=0 to 39)
ATDSn+ (dials the (n+1)th phone number for the first connection and dials the (n+2)th phone
number for the second connection; n=0-38)
•
ATDSn+Sm (dials the (n+1)th phone number for the first connection and the (m+1)th phone
number for the second connection; n=0-39; m=0-39)
Invoking V.42bis Data Compression
The following AT commands are used to switch the V.42bis data compression on or off for ISDN
data calls when using X.75 or V.120 protocols:
•
•
AT&K44 (enables V.42bis on ISDN call)
AT&K00 (disables V.42bis on ISDN call)
For X.75 to negotiate compression parameters with the remote ISDN terminal, you exchange XID
frames before the Link Layer is established. The calling site sends an XID frame with V.42bis
request to the called site. If the called site understands the meaning of this XID, it replies to an
XID frame with a V.42bis request. If it is able to execute V.42bis, it ignores the XID or replies
using an XID frame with a V.42bis reject or empty information field.
The calling site assumes that the remote site is unable to execute V.42bis if it gets no reply for a
period of time after sending the request XID. In this situation, normal connection without data
compression is established.
It takes about 2 seconds for the calling Model XM128 modem to send XID and wait until timing
out. If you know in advance that the called site has no V.42bis capability, it would be better to issue
the AT&K00 command beforehand in order to get a quick connection.
6-18
ISDN Overview
Reference Guide for the Model XM128 ISDN Digital Modem
Although not defined in X.75, the XID frame is based on the encoding in ISO Standard 8885 and
on being used in V.42/V.42bis. In addition to the compression parameters, XID can be used to
negotiate such packet parameters as window or packet size.
Bundle Connection with V.42bis Data Compression
If both sites have set AT&K44 to enable V.42bis negotiation, XID frames can be exchanged
through the main B channel, which corresponds to the call established by the first setup message.
Only one data compression channel can be used in bundle connection, which means that the
compression is done before packet disassembly and the decompression is done after packet
assembly. The compression ratio of V.42bis is commonly recognized as up to 4:1 for text files. If
the line speed is 128 Kbps, the DTE speed may reach 460 Kbps. This circumstance makes the
normal RS-232 serial port of the DTE unsuitable for bundle applications. A special I/O card on the
computer side is required in this situation for external models.
ISDN Overview
6-19
Chapter 7
Advanced ISDN
This chapter provides information about using advanced ISDN for the Model XM128 ISDN
Digital Modem.
Call Control for DSS1
In order to initiate a Digital Subscriber Signaling #1 (DSS1) ISDN call, two information elements
are necessary:
•
The bearer capability element indicates what kind of bearer service is desired. It is also used
for compatibility checking in the addressed entity.
•
The called party number element provides necessary information for the telephone company
central office (CO) to direct the call to the destination.
The following optional information elements are also pertinent to call control:
•
•
•
•
•
•
High-layer compatibility
Low-layer compatibility
Calling party number
Called party number
Calling party subaddress
Called party subaddress
Advanced ISDN
7-1
Reference Guide for the Model XM128 ISDN Digital Modem
Control of Outgoing Service Indicator
The high-layer compatibility and low-layer compatibility information provides a means for
compatibility checking by the called party. This information is transferred transparently by the
ISDN network between the call-originating entity (for example, the calling user) and the addressed
entity.
The outgoing high-layer compatibility can be controlled by setting the value of S-register
S(108+n) as follows:
•
•
•
n=0 (S108) setting for analog adapter 2
n=2 (S110) setting for ISDN data calls
n=3 (S111) setting for analog adapter 1
Table 7-1 lists the S-register values and their functions.
Table 7-1.
S(108+n=)
S-register values and functions
Function
0
No high-layer compatibility info element sent (default)
Telephony
1
4
Facsimile Group 2/3
40
49
50
Telex service (Rec. F.220)
Telex service (Rec. F.200)
International internetworking for video services (Rec.
F.300 and T.110)
53
56
Telex service (Rec. F.60)
Message Handling Systems (MHS)
(Rec. X. 400 series)
65
OSI application (Rec. X.200 series)
Example: ATS111=4 sets fax compatibility message for analog port 1.
7-2
Advanced ISDN
Reference Guide for the Model XM128 ISDN Digital Modem
Bearer capability and low-layer compatibility information elements are determined when you
configure the B channel protocols using the ATBnn command. The outgoing low-layer
compatibility information element can be turned on or off by setting the S80 bit n as follows:
•
•
•
n = 4 for analog adapter 2
n = 6 for ISDN data calls
n = 7 for the analog adapter 1
Table 7-2 lists the commands for enabling and disabling outgoing low-layer compatibility.
Table 7-2.
S108.n=
Outgoing low-layer compatibility commands
Function
S80.n=0
S80.n=1
Disable outgoing low-layer compatibility(default)
Enable outgoing low-layer compatibility
Example: ATS80.4=0 disables low-layer-compatibility message for analog port 2.
Control of ISDN Phone Numbers and Subaddresses
The calling-party number information element identifies the origin of a call, and the called-party
number information element identifies the destination of a call.
The calling-party subaddress information element identifies the subaddress associated with the
origin of a call.
The called-party subaddress information element identifies the subaddress of the destination of
a call.
Each type of outgoing call can be assigned with one number/subaddress pair by using the
AT&ZOx=s command. The possible values for x are as follows:
•
•
•
x = I for ISDN data calls
x = A for the analog adapter 1
x = B for the analog adapter 2
Advanced ISDN
7-3
Reference Guide for the Model XM128 ISDN Digital Modem
The number-subaddress string s is defined as:
s = [[Yn][Nn]own-number][/[[Zn]own-subaddress]/]
Yn specifies the type of number:
•
•
•
•
•
Y0 for unknown (default if Yn is omitted)
Y1 for international number
Y2 for national number
Y3 for network specific number
Y4 for subscriber number
Nn is the identifier of the numbering plan:
•
•
•
•
•
•
N0 for unknown (default if Nn is omitted)
N1 for ISDN numbering plan (Rec. E.164) (default for Australia if Nn is omitted)
N3 for data numbering plan (Rec. X.121)
N4 for telex numbering plan (Rec. F.69)
N8 for national standard numbering plan
N9 for private numbering plan
Zn specifies the subaddress type:
•
•
Z0 for NSAP (Rec. X.213) with AFI=0x50, IA5 characters (default if Zn is omitted)
Z2 for user specified, IA5 characters
The command AT&ZOx=// removes the number/subaddress assignment.
The number and subaddress assigned by AT&ZOx=s, if any, can be used for calling-party number
and calling-party subaddress information elements, respectively, while dialing.
The default settings of the phone number and subaddress of all the types of calls are
UNASSIGNED, meaning the setup message sent by the Model XM128 modem contains neither
calling-party number nor calling-party subaddress information elements.
The command AT&ZO? can be used to browse the current settings of the known numbers and
subaddresses.
7-4
Advanced ISDN
Reference Guide for the Model XM128 ISDN Digital Modem
Call Control for 1TR6 (Old German ISDN)
In order to initiate a 1TR6 ISDN call, two information elements are necessary:
•
•
Service indicator, which determines what kind of bearer services are desired.
Destination address, which provides necessary information for the telephone company central
office to direct the call to the remote party.
Control of Outgoing Service Indicator
The outgoing service indicator is assigned when you configure the B channel protocols using the
command ATBnn.
Because there are a number of combinations of voice or voice-band-data services on the analog
adapters, users may want to control the outgoing service indicator themselves for some specific
applications.
The following information is recommended to configure S104/S107 (service indicator) and S108/
S111 (additional information octet) according to the terminal types:
•
•
•
•
•
•
•
•
•
Service indicator
S107: analog, PHONE 1
S104: analog, PHONE 2 Addi. S. I.
S111: analog, PHONE 1
S108: analog, PHONE 2
Telephone1 (Fernsprechen)1 (3.1 KHz)
Modem2 (analog - dienste)3 (Daten Über Modem)
4 (Btx Über Modem)
G3 Fax3 (analog - dienste)2 (Fax Gruppe 3)
Advanced ISDN
7-5
Reference Guide for the Model XM128 ISDN Digital Modem
Control of EAZ (ENDGERÄTEAUSWAHLZIFFER)
EAZ (or terminal selection code) is the last digit of an ISDN phone number in 1TR6. Usually
EAZ=0 indicates that a global call (any terminal on the S0 interface), which is service-compatible
with the incoming call, can answer the call.
Other values of EAZ (1,2,....,9) provide the possibility for assigning multiple ISDN numbers to
a single ISDN BRI line. A calling user can select, via the public network, one or more distinct
terminals on a single BRI line.
With its highly integrated, multifunction features, the Model XM128 modem can be imagined as
a “black box” containing multiple distinct terminals. Each of these “internal terminals” can be
assigned one EAZ using the command AT&ZIn=m, where n=0-7 and m= 0-9.
Command Function
The following commands are used for assigning EAZs:
•
•
•
•
•
•
•
•
&ZI0=massigns EAZ for X.75
&ZI1=massigns EAZ for V.110
&ZI2=massigns EAZ for V.120
&ZI3=massigns EAZ for PPP, MPPP
&ZI4=massigns EAZ for ISDN data, protocol auto-detection
&ZI5=massigns EAZ for PPP, MPPP
&ZI6=massigns EAZ for PHONE 2
&ZI7=massigns EAZ for PHONE 1
The default EAZ of each protocol is as follows:
•
•
•
•
•
&ZI0=1 for data
&ZI4=2 for data
&ZI6=3 for the analog adapter, PHONE 2
&ZI7=4 for the analog adapter, PHONE 1
T&ZI? for displaying the EAZ numbers assigned by the AT&ZIn=m commands
7-6
Advanced ISDN
Reference Guide for the Model XM128 ISDN Digital Modem
The EAZ (last digit) of the destination address in an incoming setup message is checked with the
protocol of each EAZ. If there is a match and the service indicated is compatible with this protocol,
the call be accepted using the protocol.
Note: The EAZs must be assigned precisely in order to accept calls accordingly.
The suffix digit to an ISDN phone number in a dial-out command is used as the destination EAZ
(in the Destination Address W-element) in the setup message sent to the destination. If this suffix
digit is omitted, the switch assumes the EAZ as 0.
Each type of outgoing call of the XM128 can be assigned with one origination EAZ by using the
command AT&ZOx=Origination_EAZ (where x = I for ISDN data calls, A for the analog adapter
1, and B for the analog adapter 2).
The command AT&ZOx=// removes the assignment of the origination EAZ.
The number assigned by AT&ZOx=Origination_EAZ, if any, can be used for the Origination
Address W-element while dialing. The default settings of origination EAZ of all the types of calls
are UNASSIGNED, meaning the setup message sent by the Model XM128 modem contains no
Origination Address W-element.
The command AT&ZO? can be used to list the current settings of the origination EAZs.
Answering a Call
The incoming call first must be identified as either an ISDN data call or a voice call (including the
voice-band-data call). ISDN data calls are routed to the digital communications portion of the
Model XM128 modem. Voice calls or voice-band data calls are assigned to the analog adapters.
Answering a Call for DSS1
The Multiple Subscriber Number (MSN) supplementary service provides the possibility for
assigning multiple ISDN numbers to a single ISDN BRI line. Calling users can select, via the
public network, one or more distinct terminals on a BRI line.
Advanced ISDN
7-7
Reference Guide for the Model XM128 ISDN Digital Modem
In some areas, however, it is very expensive to get additional subscriber numbers. The subaddress,
which is transferred transparently by the ISDN network between the calling user and the addressed
user, can be used for the same purpose as the MSN. Because the Model XM128 modem is highly
integrated and multifunctional, it can be thought of as a black box that contains multiple distinct
terminals. Each of these internal terminals can be assigned one ISDN number using the
AT&ZIn=xxxx... command.
The number assigned by AT&ZIn=xxxx... can be interpreted as either the MSN or the subaddress,
determined by the bit 5 of S119 as follows:
•
•
S119.5=0 for number treated as the MSN (default)
S119.5=1 for number treated as the subaddress
The factory defaults for these numbers are unassigned. If an incoming setup message is offered
with addressing information (in other words, the appropriate part of the called party number or the
called party subaddress), this address is compared with the MSN/subaddress numbers assigned by
the AT&ZIn=xxxx... commands. The call is accepted using the specific protocol if the assigned
number of this protocol matches the received called party number or called party subaddress.
Note: Two phone number strings are said to be matched if their least significant n digits
are identical, where n is the number of digits of the shorter string. Usually one digit is
enough to distinguish the various protocols.
Answering a Call for 1TR6
If an incoming setup message is offered with addressing information (for example, the destination
address W-element). This address is compared with the EAZ numbers assigned by the AT&ZIn=m
commands. The call is accepted using the specific protocol if the assigned number of this protocol
matches with the received address.
Best-effort Call Answering
If some numbers have been set using the &ZI command (as can be seen by the AT&ZI? command)
and they are not matched with the address of the incoming call, the Model XM128 modem, by
default, ignores the call because it may be intended for other devices that share the same S/T
interface (S0 bus) with the modem.
7-8
Advanced ISDN
Reference Guide for the Model XM128 ISDN Digital Modem
If you want the Model XM128 modem to answer inbound calls as often as possible, you can set the
best-effort call answering bit as follows:
•
•
S119.3=0 for Answering call only when number matched (by default)
S119.3=1 for best effort call answering
Ambiguity Resolution Switch for Voice Calls
For a voice or voice-band data call, if the &ZI number assignment can tell which of the analog
adapters is being addressed, then the call is delivered to the proper destination. Sometimes,
however, ambiguity of address matching may exist. This ambiguity may happen if the &ZI
numbers of the various protocols are either unassigned or not matched or the address information
is absent in the incoming setup message. In this case, users may wish to set the priority of
answering a call by the analog adapter PHONE 1 or the analog adapter PHONE 2.
The AT&Ln command sets the address ambiguity resolution flag:
•
AT&L0
The analog adapter 1 has the higher priority to answer a voice or voice-band-data call. If the
analog adapter 1 is busy, the call is routed to the analog adapter PHONE 2.
•
AT&L1
The analog adapter 2 has the higher priority to answer a voice or voice-band-data call. If the
analog adapter 2 is busy, the call is routed to the analog adapter PHONE 1.
Multi-Auto-Answering of Data Calls
For an ISDN data call, if the Model XM128 modem can exclusively determine the protocol to be
used by means of the information conveyed by the setup message (for DSS1, this information
includes the bearer capability, low-layer compatibility, or high-layer compatibility information
elements; for 1TR6, it includes the service indicator as well as the Additional Octet of Service
Indicator), then the indicated protocol is used. Otherwise, the Multi-Auto Answering process is
invoked. The Model XM128 modem can monitor the B channel signal sent by the calling site.
The data call can be identified by the Model XM128 modem as X.75, V.110, V.120, or PPP
Async-to-Sync conversion and MPPP.
Advanced ISDN
7-9
Reference Guide for the Model XM128 ISDN Digital Modem
Data Call Indication
Data calls are accepted by the Model XM128 modem in the same way as with any terminal
adapter. When alerting, the Model XM128 modem sends the first Ring message to the DTE with a
format as follows:
RING <CR><LF>
[FM:[[Prefix]Calling-Party-Number][/Subaddress/]]
[TO:[Called-Party-Number][/Subaddress/]] <CR><LF>
RING <CR><LF>
RING <CR><LF>
The display of address information between the first Ring and the second Ring is disabled by
setting ATS84.4=1. The term Prefix is a predefined number string is added in front of the
calling-party number before indicating it to the DTE. Adding Prefix is useful for some automatic
dial-back-up systems. The number string is assigned as follows:
•
ATCI<Prefix>
When and only when the type of number denotes an international number, this "Prefix" is
added to the calling-party number before indicating it to the DTE.
•
•
ATCI<>
This command disables the international number prefix-adding function. (Default)
ATCN<Prefix>
When and only when the type of number denotes a national number, this "Prefix" is added
to the calling-party number before indicating it to the DTE.
•
ATCN<>
This command disables the national number prefix-adding function. (Default)
Note: The angle brackets (<) and (>) are part of this command.
Disable Inbound Call Connection
In some cases, the user may require that the Model XM128 modem not answer any incoming calls.
This response is accomplished by setting the bit 0 of S-register S118 as follows:
•
•
S118.0=0 to enable answering a call (by default)
S118.0=1 to disable answering any call
7-10
Advanced ISDN
Reference Guide for the Model XM128 ISDN Digital Modem
Point-to-Point Configuration
In some areas, the Direct-Dial-In (DDI) number is less expensive than the MSN; therefore, you
might want to subscribe to point-to-point ISDN to employ the DDI function. In this case, only one
modem can be connected to the ISDN line and the TEI (Terminal Equipment Identifier) is always
zero. The TEI is established by setting the bit 1 of S-register S119 as follows:
•
•
S119.1 = 0 to disable point-to-point DDI function (default)
S119.1 = 1 to enable point-to-point DDI function
Placing a Call
To initiate a call, configure the Model XM128 modem according to the bearer service (or protocol)
that you want to use.
ATBnn is used for ISDN data calls.
Placing a Call for DSS1
The ATDx command ATDx[Yn][Nn]called_party_number[/[Zn]called-party-subaddress/] is used
for dialing.
Where x = I (for ISDN data calls), A (for the analog adapter 1), or B (for the analog adapter 2).
Yn specifies the type of number:
•
•
•
•
•
Y0 for unknown (default if Yn is omitted)
Y1 for international number
Y2 for national number
Y3 for network specific number
Y4 for subscriber number
Advanced ISDN
7-11
Reference Guide for the Model XM128 ISDN Digital Modem
Nn is the identifier of the numbering plan for the ATDx command:
•
•
•
•
•
•
N0 for unknown (default if Nn is omitted)
N1 for ISDN numbering plan (Rec. E.164)
N3 for data numbering plan (Rec. X.121)
N4 for telex numbering plan (Rec. F.69)
N8 for national standard numbering plan
N9 for private numbering plan
Zn specifies the type of the subaddress:
•
•
Z0 for NSAP (Rec. X.213) with AFI=0x50, IA5 characters (default if Zn is omitted)
Z2 for user specified, IA5 characters
The called-party number or an appropriate part of it is sent to the addressed entity. The called-party
subaddress is transferred transparently by the ISDN network to the destination.
Use ATDL to redial the last dialed telephone number (and/or subaddress).
Placing a Call for 1TR6
The ATDx[Yn][Nn]destination_address command is used for dialing as follows:
x = I (ISDN data), A (the analog adapter 1), or B (the analog adapter 2)
Yn specifies the type of address:
•
•
•
Y0 for unknown (default if Yn is omitted)
Y1 for international number
Y2 for national number
Nn is the identifier of numbering/addressing plan:
•
•
N0 for unknown (default if Nn is omitted)
N1 for ISDN numbering plan (Rec. E.164)
The destination address is the ISDN phone number of the called party. The last digit of this number
is the EAZ. Use ATDL to redial the last dialed ISDN phone number.
7-12
Advanced ISDN
Reference Guide for the Model XM128 ISDN Digital Modem
User-To-User Information
The Model XM128 modem supports user-to-user information exchange via the D channel. To
transmit a message, use the ATT4<message.....> command. The angle brackets (< >) are part of
this command. The message is included in a user-to-user information element, which is sent with
the first valid message that follows.
If the ATT4<message.....> command is issued before dialing, the user-to-user information element
is sent in the setup message. Whether the information element can be sent to the called party or not
is switch dependent. If the switch supports this information element, the called party can see the
message before the call is answered.
During a call connection session, the D channel is still used to exchange user-to-user information.
For the single stream configuration, both sides must be in Escaped state because only then can they
send the AT commands and view the responses.
The user-to-user information element is a supplementary service that has to be invoked on a
per-call basis.
Advanced ISDN
7-13
Chapter 8
Analog Call Handling
This chapter outlines the steps required to place and answer analog calls through the ISDN line for
your Model XM128 ISDN Digital Modem.
to an ISDN basic rate line. Any conventional analog telephony equipment that supports desktop
management task force (DTMF) tone/pulse dialing can be plugged into either of the two RJ-11
connectors (labeled PHONE 1 and PHONE 2) on the back of the Model XM128 modem.
The analog adapters use RJ-11 phone jacks. The pin assignment of the connectors and plugs are
shown in Appendix E, “Connector Pin Assignments.”
Note: German NETGEAR customers: The inner two pins of the RJ-11 are used for the
Tip and Ring (or a and b signals in Germany, the two signals that connect to a telephone
set). This is the standard pin assignment, but some BZT-approved telephones use the
outer two pins for a and b. If this is the case, use the attached TAE adapter, which has a
unique interface definition, or use an RJ-11 cable that connects the inner pins on one end
and the outer pins on the other end.
Analog Call Handling
8-1
AT Commands for Analog Calls
Table 8-1 lists some of the most frequently used AT commands.
Table 8-1.
Frequently used AT commands
Description of command
AT Command
ATDAs
Automatically dials out for device connected to PHONE 1.
The number string to dial is represented by the letter s.
ATDBs
AT&V6
AT&V7
Automatically dials out for device connected to PHONE 2.
View current setting of analog adapter, PHONE 1.
View current setting of analog adapter, PHONE 2.
Assign analog calls to PHONE 1 if the line is not in use.
AT&L0
orATS84.5=0
AT&L1
Assign analog calls to PHONE 2 if the line is not in use.
orATS84.5=1
AT&ZIn=s
MSN setting, assign called phone number, s, to be answered by n port
(where n=6 for PHONE 1 and n=7 for PHONE 2).
AT&ZI6=s
ATS56=n
Assign the called phone number for analog adapter, PHONE 1.
Assign the called phone number for analog adapter, PHONE 2.
Flash timer, in 100 ms unit, to set maximum duration of on/off hook
transition to be recognized as flash.
Table 8-2 lists the AT commands that are specific to European switches.
Table 8-2.
Frequently used AT commands (European switches)
AT Command
ATS89.6=0
ATS89.6=1
ATS89.5=0
ATS89.5=1
Description of command
To disable the metering pulse for analog adapter, PHONE 1
To enable the metering pulse for analog adapter, PHONE 1
To disable the metering pulse for analog adapter, PHONE 2
To enable the metering pulse for analog adapter, PHONE 2
8-2
Analog Call Handling
Reference Guide for the Model XM128 ISDN Digital Modem
Making and Receiving Analog Calls
This section explains the role of analog adapters in placing outgoing analog calls and receiving
incoming analog calls.
Placing a Call from the Analog Adapter
Making a call from the analog adapter is as easy as picking up the telephone connected to the
analog port and dialing. With a terminal program, you can also use the Model XM128 modem
to dial the number for you.
To place a call from the analog adapter, follow these steps:
1. Type ATDB714-693-0808 (dial the number).
You should see this message:
CONNECT (Dialing is complete)
2. Pick up the phone handset and wait for the remote device to answer.
3. Use ATDAs (ATDBs) to place a call for the analog adapter 1 (analog adapter 2).
When the hook sensor of the analog adapter detects that the handset on the telephone device is
picked up (off hook), it sends a setup message to the ISDN central exchange to request a
connection. One B channel, if available, is assigned to this connection, and the exchange waits
for the dialed number to route the call. At the same time, a dial tone is presented to the adapter
port to prompt the user to dial. Both tone and pulse dialing are accepted.
A busy tone is heard on the handset if:
•
•
•
The B channel is unavailable.
The dialed number is undeliverable.
The called party is busy.
This busy tone indicates the failure of the attempt to connect. To place another call, hang up
the phone; then pick it up again. If the called party is alerted, a ring-back tone is heard.
Analog Call Handling
8-3
Reference Guide for the Model XM128 ISDN Digital Modem
Accepting an Incoming Call
Incoming ISDN calls are directed to one of the analog ports (PHONE 1 or PHONE 2) if:
•
A voice call is sent to one of the two analog adapters automatically when it is received. As the
manufacturer default, the call is sent to the analog adapter, PHONE 1, first then PHONE 2 if
PHONE 1 is busy.
•
•
The MSN is set (AT&ZIn=s, as shown in Table 6-1 to specify the phone number (s) the remote
user dialed to be sent to specific analog adapter, n.
The MSN setting for the phone number in the incoming setup message is acceptable to both
the analog adapters, and the ambiguity resolution bit is set to 0 or 1.
8-4
Analog Call Handling
Chapter 9
Modem Upgrade
This chapter describes how to upgrade flash electrically erasable programmable read-only memory
(EEPROM) firmware on your Model XM128 ISDN Digital Modem.
Upgrading with Flash EPROM
Your Model XM128 modem employs a flash EEPROM that lets you conveniently download
upgrade the firmware. For other operating systems, use a terminal program that supports the
X-modem Protocol.
Obtain the new firmware from the NETGEAR bulletin board system (BBS), WWW, or FTP site.
Refer to Customer Support on page -iii. The firmware is distributed in the ONETd.vvv file, where
the extension vvv denotes the version of this firmware. Table 9-1 lists the definitions for the d
modifier in the file name.
Table 9-1.
Modifier
Definitions for the d modifier
Definition
G
E
German national ISDN (1TR6)
European ISDN (DSS1)
European ISDN is also used in most other countries including Asian
countries.
A
American ISDN (AT&T 5ESS, Northern Telecom DMS-100, or National
ISDN-1)
The active D channel protocol can be chosen by an AT command.
Note: The American firmware version supports both the S/T interface and U interface
models. During power-on test, it checks the hardware configuration and follows the
initialization procedures of the specific interface.
Modem Upgrade
9-1
Reference Guide for the Model XM128 ISDN Digital Modem
Upgrade Instructions
To upgrade your Model XM128 modem, turn the modem on and follow these steps:
1. Start any communications program that supports the X-modem Protocol.
2. Enter the command ATUPX.
Your Model XM128 modem responds:
You have chosen Xmodem (128 octets of data with checksum) protocol to
update your ISDN modem. Data in Flash ROM will be erased !!!
Are you sure (Y/N) ?
3. Press Y.
The following message appears:
Start programming, please upload.
4. Use the X-modem Protocol to upload the file ONETd.vvv to your Model XM128 modem.
This step updates the flash EEPROM of the modem with the new firmware. When
installation is complete, the Model XM128 modem restarts automatically.
Kernel Mode
In the unlikely event that your Model XM128 modem fails to respond to AT commands after
upgrading the EEPROM, turn on power to the modem. The reset prompts the modem to check the
integrity of the codes in the flash EEPROM. If proper valid firmware cannot be verified, the
modem initiates kernel mode. When the Model XM128 modem is in kernel mode, you can issue
limited AT commands. Start from step 2 of the upgrade instructions on this page.
9-2
Modem Upgrade
Chapter 10
Troubleshooting
This chapter provides quick easy-reference troubleshooting tables for the Model XM128 ISDN
Digital Modem. For troubleshooting purposes, the Model XM128 modem performs its own
diagnostic tests, which can provide information about each of its functions.
The Model XM128 modem provides several diagnostic capabilities:
•
•
•
•
Power-on self-test
Local digital loopback tests
Diagnostic command
Modem reset
Power-on Self-test
At each power-up sequence or upon a reset command from the panel, the Model XM128 modem
tests the ROM code checksum, system RAM memory, EEPROM, digital and analog circuit
calibrations, and analog circuit calibrations.
Table 10-1 summarizes the power-on self-test of the Model XM128 modem.
Table 10-1.
Power-on self-test
Test Sequence
LED LNK
LED B1
LED B2
LED AA
Test Description
1
2
3
4
On
Off
Off
Off
Off
On
Off
Off
Off
Off
On
Off
Off
Off
Off
On
Memory test
ISDN chip interface test
ISDN chip functional test
HDLC functional test
Troubleshooting
10-1
Reference Guide for the Model XM128 ISDN Digital Modem
Note: The LED lights up during the test and blinks if the test fails.
The LNK LED light s up for a half second to indicate the success of the power-on self-test. Then
the LNK LED becomes the normal physical layer (layer 1) active indicator.
Loopback Tests
The Model XM128 modem performs several loopback tests as part of its diagnostic capabilities.
ISDN Loopback test (AT&T9)
The AT&T9 command invokes an ISDN loopback test connection. The loopback point is in the
S/T interface chip (Siemens 2086 chip) or the U interface chip (Siemens 2091 chip) just behind the
line transformers. It checks almost every part of the Model XM128 modem and RS-232 cable
except the passive front end of the ISDN S/T or U interface.
During this test, data from the terminal or computer is sent through the DTE interface to the
transmitter of the Model XM128 modem. Data is then packetized to the proper frame format
according to the B channel protocol selected. Finally, the data is looped back to the receiver,
depacketized, and sent through the DTE interface back to the terminal or computer screen. You can
tell if anything is wrong by looking at the screen. The screen shows the data you sent to the
Model XM128 modem.
Loopback with Self-test (AT&T10)
The AT&T10 command invokes an ISDN loopback connection with self-test. The data is
generated by the Model XM128 modem and goes through the same path as the above loopback test
does. The data pattern is printable ASCII characters, so you can see the result on the screen. The
looped back data is compared with the transmitted data. Should an error occur, the LNK LED
starts to flash. Any character sent through the DTE interface to the Model XM128 modem
discontinues the test.
10-2
Troubleshooting
Reference Guide for the Model XM128 ISDN Digital Modem
B1/B2 Loopback with Self-test
An AT and T11 command is designed for testing the readiness of your ISDN line that uses one
B channel (B1) to place a call to itself and uses the other B channel (B2) to receive the call. This
test is a modem loopback test.
To make your test call, follow these steps:
1. Enter the command AT&ZOI=your_isdn_number.
Your Model XM128 modem responds with:
OK
2. Enter the command AT&T11.
Your Model XM128 modem responds with:
OK
Dial your_isdn_number
Loop from B1 to B2 through the switch established!
Sending and receiving data.....
B1/B2 loopback test successed.
Disconnecting.....
NO CARRIER
The modem loopback test is complete.
The Diagnostic Command
The ATCG command is used to test and isolate fault if there are any hardware problems in the
Model XM128 modem. Some of the tests are interactive operations. Follow the instructions
prompted on the screen to carry out the tests. If the modem is in the normal condition, the test
results printed on the screen are as follows:
System address & data bus test .......................OK
Layer 1 hardware test ............................... OK
Layer 2 hardware test ............................... OK
Layer 1 activation test.............................. OK
First B channel hardware test ....................... OK
Second B channel hardware test....................... OK
Listen to the Ring and then pick up phone set #1..... !!
Off-hook action is detected, (Hook Interrupt) ....... OK
Listen to the dial tone and then dial 1234567890*# in sequence.!!
1234567890*#
Troubleshooting
10-3
Reference Guide for the Model XM128 ISDN Digital Modem
Dialed digits detected, please hang-up the handset….!!
On-hook action is detected, (Hook Interrupt)........ OK
Listen to the RING and then pick up phone set #2 ....!!
Off-hook action is detected, (Hook Interrupt) ....... OK
Listen to the dial tone and then dial 1234567890*# in quence.!!
1234567890*#
Dialed digits detected, please hang-up the handset ..!!
On-hook action is detected, (Hook Interrupt) ........ OK
Listen to the prompt signal of the Internal Speaker and then press the button
switch.......!!
Button switch is pushed (Button Interrupt) .......... OK
Modem Reset
If you have modified the setting of the Model XM128 modem and cannot get it back because the
unit is locking up, or you just want to reset it back to the factory default state, the following reset
procedure helps you to reset the modem back to the factory default state.
To reset the Model XM128 modem back to the factory default state, follow these steps:
1. Hold the DATA/VOICE button down while turning the unit on.
Continue holding the switch down for 3 seconds after the power switch is turned on.
2. Release the switch.
The Model XM128 modem resets itself back to the factory setting and runs a continuous
loopback self-test. If the modem is connected to a terminal, printable characters show on the
terminal screen.
3. Turn power to the modem off and then back on again.
Using The Embedded Protocol Analyzer
This section describes how to set up the embedded protocol analyzer (EPA) and capture and
analyze the protocol data.
10-4
Troubleshooting
Reference Guide for the Model XM128 ISDN Digital Modem
Setting up the Embedded EPA
The EPA records and analyzes various protocols on the B channel, D channel and DTE-DCE
interface. The results are displayed with ANSI color. This professional tool is designed for
hobbyists as well as users with technical backgrounds. The EPA enables you to examine messages
exchanged between your Model XM128 modem and the Central Exchange office when making an
ISDN call. You can review the packets sent or received through the B channel (for X.75 or V.120
protocols) to or from the remote site. You can also check the AT commands issued from an
application software program. This helps you understand their causal relationship with other
events.
In addition to its tutorial purpose, the EPA is very useful for diagnostics. If you have compatibility
problems with your Central Exchange or with the TA at the remote site, the EPA is your first aid
resource. According to the analysis of the EPA, you might decide to fix the problem yourself
( modify the configuration and try again) or log the analyzed results as a file (a very
comprehensive bug report), and then send it to NETGEAR Technical Support.
Capturing the Protocol Data
The data captured by the EPA is classified into three categories:
•
•
•
B channel user data protocols
D channel signaling protocols
DTE-DCE protocols
The D channel signaling protocols include layer 2 and layer 3 call control protocols. Frames and
messages exchanged through the D channel are all recorded for further analysis. These data
messages are essential to understanding interactive operations between an ISDN TA and the ISDN
network. They contain the compatibility information for the Model XM128 modem and your
Central Exchange.
The B channel user data protocols include X.75 and V.120 protocols. Only the layer 2 header
(addresses and control bytes) and layer 3 header are captured. Since the X.75 protocol can be used
with various layer 3 protocols (T.70, T.90, and ISO8208 protocols), only the first 8 octets of the
information field are recorded as the layer 3 header, and are displayed in raw data form. The
analysis of the protocol data is carried out by NEGEAR Technical Support.
Troubleshooting
10-5
Reference Guide for the Model XM128 ISDN Digital Modem
The DTE-DCE protocols (at the R reference point according to the ISDN nomenclature) include
the AT commands/responses as well as the CAPI internal interface. The CAPI internal interface is
used with NETGEAR CAPI driver. The NETGEAR CAPI driver communicates with the
Model XM128 modem through this internal interface. It is not recommended that users get
standard user interface. An analysis of these commands and responses might prove very
informative. All messages captured by the EPA are tagged with a time stamp according to a free
running timer that starts at the beginning of data capture. The resolution of this timing information
is in 0.01 second.
The commands listed in Table 10-2 determine the kind of protocol data to be captured by the EPA.
Table 10-2.
EPA Commands
Description
AT Command
ATCDn n = 0 Disables the capture of D channel protocols
n = 1 Enables the capture of D channel protocols (default)
ATCBn n = 0 Disables the capture of B channel protocols (default)
n = 1 Enables the capture of B channel protocols
ATCCn n = 0 Disables the capture of DTE-DCE interface protocols (default)
n = 1 Enables the capture of DTE-DCE interface protocols
The EPA starts to capture data when the command ATCT is issued. This capturing process
In case the buffer is full, the earliest data captured is overwritten by the latest data.
Analyzing the Captured Data
To view the analyzed result, use the command ATC$. The relevant AT commands are summarized
in Table 10-3.
Table 10-3.
Commands for analyzing captured data
Description
AT Command
ATCT
Clears buffer and starts the embedded protocol analyzer. Captures data
immediately and starts the timer.
ATC$
10-6
Invokes the interpretation function of the embedded protocol analyzer and
displays the results on the DTE screen.
Troubleshooting
The analyzed results can be viewed as if contained in a full screen editor. Several number keys are
used to control the display. For PC users, it is convenient to use the keys on the numeric keypad
(make sure that Num-Lock is on.).
The functions of the control keys are listed in Table 10-4. Any other key pops up the control menu.
Table 10-4.
Control key functions
Key
Function Description
1
End
Display to the end of buffer
2
Cursor down
Page down
Home
Scroll one line up
3
Display the next page
Display the first page
7
8
Cursor up
Page up
Quit
Scroll one line down
9
Display the previous page
Quit embedded protocol analyzer
Q, q
Troubleshooting
10-7
Appendix A
Technical Specifications
This appendix provides the technical specifications for the Model XM128 ISDN Digital Modem.
General Specifications
Network Protocols and Standards Compatibility
WAN Protocols:
ISDN Standards:
Multilink PPP, BACP, PPP V.120, V.110, X.75
National ISDN-1 (North America)
AT&T 5ESS Custom (North America)
1TR6 (Europe)
Nortel DMS-100 (North America)
EURO ISDN ETSI/NET-3/CTR3 (Europe)
NTT INS-Net64 (Japan)
Compatibility:
AT Command Set with ISDN extensions
DTR Dialing Supplementary Services
Calling Line Identification
Security
PAP, CHAP, Caller ID, Callback, Call blocking
Technical Specifications
A-1
Reference Guide for the Model XM128 ISDN Digital Modem
Data Compression
Power Adapter
Hi/fn LZS (Stac) Compression with CCP
V.42bis
16 V, 1A (22W max.)
UL/CSA (North America)
CE/TUV (Europe)
TMark (Japan)
Physical Specifications
Dimensions:
190 x 122 x 31 mm
7.5 x 4.8 x 1.2 in.
0.7 kg
Weight:
1.6 lb
Environmental Specifications
Operating temperature:
Operating humidity:
0° C to 40° C
90% max. relative humidity, noncondensing
Electromagnetic Emissions
CE Mark
FCC Part 15 Class B
EN 55 022 (CISPR 22), Class A
VCCI Class 2
A-2
Technical Specifications
Appendix B
Security Functions
This appendix describes the security functions of the Model XM128 ISDN Digital Modem. The
modem provides two types of security functions that may be enabled to prevent unauthorized
connections.
Security Types and Levels
The Model XM128 modem provides the following types of security:
•
•
Type 1 security is used when the remote modem is a NETGEAR modem.
Type 2 security is used when the remote modem is a non-NETGEAR device.
With a Type 1 connection, the dial-in (remote) modem sends in its supervisor password for
matching with the prestored password list of the local modem. With a Type 2 connection, the
remote terminal is prompted to enter the password at the initial connection. The local
Model XM128 modem matches the entered password with the prestored password list.
Security Functions
B-1
Reference Guide for the Model XM128 ISDN Digital Modem
The two types of security are summarized in Table B-1.
Table B-1.
Types of security
Type 1 Security
Type 2 Security
Remote (Calling) Site NETGEAR ISDN device only
Can be modem of any brand
Interactive
Password Check
Protocols Supported
AT Commands
Automatic
X.75, V.120
Any data protocol
*G1 for Level 1 security
*G2 for Level 2 security
*G3 for Level 1 security
*G4 for Level 2 security
*G5 for Level 3 security
Level 1 Security
This security level performs only password checking. With Level 1 security, the local modem
maintains the connection if the password is matched. Otherwise, the line is disconnected.
Level 2 Security
Level 2 security provides extra calling party number (CPN) checking and callback. The callback
number is prestored in the password table. If the password has been matched (in a maximum of
three tries over a 40-second time period) with its prestored password list, the local modem checks
the calling party number (or origination address for 1TR6) against the prestored number
corresponding to the password. If they are matched, the local modem chooses either to keep the
connection or to disconnect; then it calls back according to the following settings of bit 6 of S119:
•
S119.6=0
This setting prompts the modem to connect and then to call back.
S119.6=1
•
This setting prompts the modem to keep the connection.
If the CPN does not match what is stored in the table, the local modem disconnects the call. If CPN
is unavailable in the setup message, the local modem disconnects the call and calls back using the
prestored number corresponding to the dial-in password.
B-2
Security Functions
Reference Guide for the Model XM128 ISDN Digital Modem
Level 3 Security
After the password is matched, the local modem prompts the remote user to enter a callback
number.
The three levels of security are summarized in Table B-2.
Table B-2.
Levels of security
Level 1
Level 2
Level 3
Password Check
Yes
N/A
Yes
Yes
CPN Check OK
and S119.6=0
Call back
Prompts the remote
user to enter callback
number for calling
back
CPN Check OK
and S119.6=1
N/A
Keep the
connection
CPN unmatched
CPN not Available
N/A
N/A
Disconnect
Call back using the
corresponding
prestored number
AT Commands
*G1 for Type 1
*G3 for Type 2
*G2 for Type 1
*G4 for Type 2
*G5 for Type 2
Setting and Modifying Passwords
The AT*Hn command (where n represents the index to the entry) can define 40 user passwords.
Numbers between 0 and 39 are accepted.
The corresponding 40 callback numbers are defined by the AT&Zn=xxx command, where n
represents the index to the entry and xxx represents the assigned callback phone number. Any
character (ASCII 0-127) can be used in the password table. The maximum password length is eight
characters for each entry.
The security functions are accessible only through AT commands in terminal mode. A supervisory
password is required for adding or modifying the entries. The default supervisor password is
NETGEAR when the Model XM128 modem is shipped from the factory. This supervisory
password is sent to the remote user if Type 1 security is set at the remote end.
To modify the supervisor password, use the command AT*HS.
Security Functions
B-3
Reference Guide for the Model XM128 ISDN Digital Modem
You are asked to enter the original password, to enter a new password, and then to reenter the new
password for verification. For example, you are prompted with the following:
Password:
Enter the current supervisory password at this prompt. You are then prompted for a new password.
Password:
Enter the new supervisory password at this prompt. You are then prompted to verify the new
password.
Verify:
Enter the new supervisory password again at this prompt. You should receive the following
response:
OK
The supervisory password is now modified.
Use the command AT*Hn to modify the nth user password. You are prompted to enter the
supervisory password first; then the user’s password for this entry is requested and verified. The
command AT*V lists both the 40 user passwords and the supervisor password on the screen for
viewing.
Nonpassword Auto Callback Function
In addition to the standard modem-like security functions described in the previous section, the
Model XM128 modem provides another simpler callback function. The calling party number
(origination address) is checked against the five prestored callback numbers before the B channel
is connected. If the CPN is matched with any one of the numbers, the incoming call is rejected
(without connection and without any charge) and the Model XM128 modem automatically calls
back using the matched phone number. Table B-3 lists the auto callback commands.
Table B-3.
Command
Auto callback commands
Description
AT*GC0
AT*GC1
This command disables the auto callback function (default).
This command enables the auto callback function.
AT*HCn=xxxx, - n=0,1,..,4 This command sets the prestored numbers.
AT*VC
This command lists all the prestored numbers.
B-4
Security Functions
Appendix C
AT Command Set Reference
This appendix provides information for using AT commands for the Model XM128 ISDN Digital
Modem.
Operation Mode of the DTE Interface
The operation mode for the DTE interface is Simplex mode. This mode is used for conventional
AT command operation.
Simplex Mode
In simplex mode, the Model XM128 modem is used just like an ordinary modem. The DTE
interface is either in the command state or in the data state. Only one data connection session is
possible at any time.
To perform various functions of the Model XM128 modem, a number of different AT commands
can be used. The simplex mode is designed for AT command users. The guides and descriptions
throughout the rest of this manual, if not otherwise specified, are applicable to this mode. The
power-on default of the DTE interface is in simplex mode as well.
AT Command Set Reference
C-1
Reference Guide for the Model XM128 ISDN Digital Modem
AT Command Descriptions
The AT command is a command in asynchronous data format issued by the computer to the Model
XM128 modem through the asynchronous computer-modem interface. AT commands control the
behavior and actions of the modem.
To send an AT command from a computer to the Model XM128 modem, the following rules apply:
•
•
You must be running a communication software.
The modem must be in the command state.
followed by any more characters.
•
Do not combine uppercase and lowercase letters in the prefix.
Table C-1, Table C-2, Table C-3, and Table C-4 list the AT commands supported by the Model
XM128 modem. An asterisk (*) following a command option or value indicates that it is a default
setting when the Model XM128 modem is shipped. Table C-1 lists the basic AT command set.
Table C-1.
Command
Basic AT command set
Options Function and description
A/
A>
Reexecutes the last command once or repeats the last call up to 9 times. You
can abort this command by pressing down on any key on the keyboard or front
panel. This command is also aborted when a successful connection with a
remote modem is made. See also S-register S8. For a description of Basic
S-registers, refer to Table D-3 on page D-4 in Appendix D, “Status Registers
and Result Codes."
Pressing any
key
Terminates the current connection attempt when any key is pressed.
+++
A
Exits the data transfer state and begins the command entry state.
Goes online in answer mode. See also S-registers 39.2 and S43.6. For a
description of Extended S-registers, refer to Table D-4 on page D-5 in
Appendix D, “Status Registers and Result Codes."
C-2
AT Command Set Reference
Reference Guide for the Model XM128 ISDN Digital Modem
Table C-1.
Command
Options
Function and description
Bnn
Select ISDN Teleservice. B must be followed by two digits.
See also S-registers 82 and 102. For a description of Extended S-registers,
refer to Table D-4 on page D-5 in Appendix D, “Status Registers and Result
Codes."
B00
B01
B04
B10
X.75 Transparent
X.75 T.70
BTX (Data X-J)
V.110 user rate follows DTE speed (async) or V.110 user rate determined by
in-band negotiation (sync)
B13
V.110 user rate = 2400 bps. See also S-register 117. For a description of
Extended S-registers, refer to Table D-4 on page D-5 in Appendix D, “Status
Registers and Result Codes."
B14
B15
B16
B17
B18
B19
B20
B40
B41
V.110 user rate = 4800 bps
V.110 user rate = 9600 bps
V.110 user rate = 14400 bps
V.110 user rate = 19200 bps
V.110 user rate = 384000 bps (sync only)
V.120
PPP async to sync conversion
SLIP async to sync conversion
CEn
Call bumping for MPPP and CCB. See also S-register 85.0. For a description
of Extended S-registers, refer to Table D-4 on page D-5 in Appendix D, “Status
Registers and Result Codes."
CE0
CE1
Disable call bumping function.
Enable call bumping function.
CH?
Display the accumulated charging unit of the last call.
CI<prefix>
Prefix number string to be added to the Calling-party-number before indicating
to the DTE when the type of number denotes international.
CLn
n=0-2048
Maximum size of user data in a packet (number of octets).
Inquire current setting of ATCLn.
CL?
CN<prefix>
Prefix number string to be added to the calling party number before indicating
to the DTE when the type of number denotes national.
AT Command Set Reference
C-3
Reference Guide for the Model XM128 ISDN Digital Modem
Table C-1.
Basic AT command set (continued)
Command
Options
Function and description
CPn
Loopback 4 control
CP0
CP1
Disable Loopback 4
Enable Loopback 4
CRn
CSn
Ds
n=0-3
0 *
n=0-3
0 *
Suspends a call; n is the call identifier (Europe).
Dial s numbers and options that follow. See also S-register 38.0 and 35.4. For
a description of Extended S-registers, refer to Table D-4 on page D-5 in
Appendix D, “Status Registers and Result Codes."
The s options are listed as follows:
,
Pause for a time specified in S6. Remaining digits are dialed as in-band
DTMF.
+
W
Prefix for the second number string, to be used in making bundling or MPPP
calls.
Wait for second dial tone. Remaining digits are dialed as in-band DTMF (ISDN
numbering options).
Y0
Y1
Y2
Y3
Y4
Y6
Z0
Z2
N0
N1
N3
N8
N9
/
Unknown type of number
International number
National number
Network-specific number
Subscriber number
Abbreviated number
Type of subaddress, NSAP with AFI=$50, IA5 characters
Type of subaddress, user specified, IA5 characters
Unknown numbering plan
ISDN/Telephony numbering plan (CCITT E.164/E.163)
Data numbering plan (CCITT X.121)
National standard numbering plan
Private numbering plan
Called party subaddress delimiters
Format of “s” [[Yn][Nn]called_party_number][[W][,]]inband_dtmf_number
or
[[Yn][Nn]called_party_Number][/[Zn]called_party_subaddress/]
C-4
AT Command Set Reference
Reference Guide for the Model XM128 ISDN Digital Modem
Basic AT command set (continued)
Table C-1.
Command
Options
Function and description
DAs
DBs
DIs
Dial s (number and options) that follows for the analog adapter, PHONE 1.
Dial s (number and options) that follows for the analog adapter, PHONE 2.
Dial s (number and options) that follows for ISDN data call.
Repeat last ATD command.
DL
DNn=m
User enters DNs (USA switches)
DN0=
DN1=
n=0-39
First phone number (m=seven-digit phone number for North American
switches).
Second phone number (m=seven-digit phone number for North American
switches).
DSn
En
two consecutive numbers for bundling or MPPP calls. See also S-register
44.3. For a description of Extended S-registers, refer to Table D-4 on page D-5
in Appendix D, “Status Registers and Result Codes."
Command mode local echo of keyboard commands. See also S-register 23.0.
For a description of Extended S-registers, refer to Table D-4 on page D-5 in
Appendix D, “Status Registers and Result Codes."
E0
Echo off
E1
*
*
Echo on
Hn
In
On/off hook control
H0
H3
H4
Hang up the Model XM128 modem or ISDN, same as the command ATH.
Hang up the analog adapter, PHONE 1.
Hang up the analog adapter, PHONE 2.
Display inquired information
I0
I1
Display product code, same as ATI Results:
1291
1292
1293
(USA)
(DSS1)
(1TR6)
Display product information and ROM checksum
Results: XM128 <switch>: V x.xx
where <switch>= USA, DSS1, or 1TR6
I3
I9
Display link status report
Display Microsoft PnP code
Add-threshold for MPPP in Kbps unit
JAn
n=0-255
*48
AT Command Set Reference
C-5
Reference Guide for the Model XM128 ISDN Digital Modem
Table C-1.
Basic AT command set (continued)
Command
Options
Function and description
JSn
n=0-255
*32
Sub-threshold for MPPP in Kbps unit
KAxn
KSxn
Ln
n=0-63
*0
Add-persist time interval for BOD; BOD disabled if n=0
x= M(in Minute unit) or S(in Second unit)
n=0-63
*0
Sub-persist time interval for BOD; BOD disabled if n=0
x= M(in Minute unit) or S(in Second unit)
n=0-3
2 *
Speaker volume control. The higher the value, the higher the volume.
Mn
M=0-2
M0
Speaker control.
Speaker always off.
M1 *
M2
Speaker on until call is answered.
Speaker always on.
Nn
n=0-3
3 *
Ring volume control. The No command disables the audio ring function.
O
Return to online state
Pn
n=0-6
D channel protocol selection (USA) for American version
Northern Telecom proprietary ISDN
National ISDN 1 (1 SPID)
P0
P1
P2
P3
P4
P5
P6
*
National ISDN 1 (2 SPID)
Reserved
AT&T custom point-to-multipoint (1 SPID)
AT&T custom point-to-multipoint (2 SPID)
Qn
n=0-1
Result code displayed. See also S-register 23.7. For a description of Extended
S-registers, refer to Table D-4 on page D-5 in Appendix D, “Status Registers
and Result Codes."
Q0
Q1
*
The Model XM128 modem returns result code.
The Model XM128 modem does not return result code.
Set bit b of S-register r to value n. The value n is a binary digit 0 or 1.
Display value of bit b of S-register r.
Sr.b=n
Sr.b?
Sr=n
Set S-register r to value n, which must be a decimal number between 0 and
255.
Sr?
Display value stored in S-register r.
C-6
AT Command Set Reference
Reference Guide for the Model XM128 ISDN Digital Modem
Basic AT command set (continued)
Table C-1.
Command
Options
Function and description
SPIDn=m
User enters Service Profile ID (SPID) m, for USA switches.
First SPID number
SPID0
SPID1
SPID?
UPX
Vn
Display the SPID setting(s).
Download firmware to the flash EPROM using X-modem Protocol.
Sets display type for result codes. See also S-register 23.6. For a description
of Extended S-registers, refer to Table D-4 on page D-5 in Appendix D, “Status
Registers and Result Codes."
V0
Displays result code in numeric form. See also S-register 35.7 and the result
code table of ATXn. For a description of Extended S-registers, refer to
Table D-4 on page D-5 in Appendix D, “Status Registers and Result Codes."
V1 *
Xn
Zn
n=0-7
5 *
Result code options. See the options table. See also S-registers 23.3 to 23.5.
For a description of Extended S-registers, refer to Table D-4 on page D-5 in
Appendix D, “Status Registers and Result Codes."
n=0-4
Resets the Model XM128 modem and sets power-on profile. See also
S-registers15.5 to 15.7. For a description of Extended S-registers, refer to
Table D-4 on page D-5 in Appendix D, “Status Registers and Result Codes."
Zn
Z4
Resets the Model XM128 modem and loads user profile n (0-3).
Resets the Model XM128 modem and loads factory settings.
Basic command summary help
$
Description of ATI3 Output
The Link Status Report output is displayed on the screen as follows:
NETGEAR ISDN Modem LINK STATUS REPORT
Connect DTE Speed
Error Control Level
Protocol Link Speed
Octets Received
Octets Sent
:
:
:
: 0
: 0
:
Cause
Cause Value
HDLC FCS Error
: 0
: 0
HDLC Receive Over-run : 0
HDLC Transmit Under-run : 0
AT Command Set Reference
C-7
Reference Guide for the Model XM128 ISDN Digital Modem
Table C-2 shows the outputs for the AT13 commands.
Table C-2.
ATI3 command output
Output parameter
Output value description
Connect DTE Speed
Error Control Level
Protocol Link Speed
Octets Received
Octets Sent
Current online DTE speed
Error control protocol used for current session
Current online DCE speed, line speed
Number of data octets received from remote
Number of data octets sent to remote
Cause
Verbose disconnection reason for the last session
Numerical disconnection reason for the last session
Cause Value
HDLC FCS Error
Errors in frame (block) checksum (If there were many FCS
Errors, you may have experienced problems on the line.)
HDLC Transmit Under-run
HDLC Receive Over-run
For processor power measurement of the Model XM128 modem
For processor power measurement of the Model XM128 modem
Table C-3 lists the extended AT& command set.
Table C-3.
Extended AT& command set
Command
Options
Function and description
&Cn
Carrier Detect (CD) options. See also S-register 21.4. For a description of
Extended S-registers, refer to Table D-4 on page D-5 in Appendix D, “Status
Registers and Result Codes."
&C0
CD is always on. See also S-register S42.7.
&C1 *
CD tracks presence of carrier. See also S38.3 and S42.7. For a description
of Extended S-registers, refer to Table D-4 on page D-5 in Appendix D,
“Status Registers and Result Codes."
C-8
AT Command Set Reference
Reference Guide for the Model XM128 ISDN Digital Modem
Extended AT& command set (continued)
Table C-3.
Command
Options
Function and description
&Dn
25. For a description of Extended S-registers, refer to Table D-4 on page D-5
in Appendix D, “Status Registers and Result Codes."
&D0
&D1
Ignore DTR signal; assume DTR is always on.
108.1, DTR OFF-ON transition causes dialing of the default number. See
also the command AT*Dn and S48.4. For a description of Extended
S-registers, refer to Table D-4 on page D-5 in Appendix D, “Status Registers
and Result Codes."
&D2 *
&D3
hang up.
Same as &D2, but DTR OFF causes the Model XM128 modem to hang up
and reset from profile 0.
&En
B channel line speed for ISDN data call. See also S-register 118.2. For a
description of Extended S-registers, refer to Table D-4 on page D-5 in
Appendix D, “Status Registers and Result Codes."
&E0 *
&E1
64 Kbps.
56 Kbps (Default for American ISDN).
Load factory settings to RAM as active configuration.
&F
&Hn
Data flow control, DTE/DCE. See also S-registers 27.3 to 27.5. For a
description of Extended S-registers, refer to Table D-4 on page D-5 in
Appendix D, “Status Registers and Result Codes."
&H0
Flow control is disabled.
&H3 *
&H4
Hardware (CTS/RTS) flow control is disabled.
Software (XON/XOFF) flow control is disabled.
&Jn
Bundle selection. See also S-registers 87.5, 87.6 and 100. For a description
of Extended S-registers, refer to Table D-4 on page D-5 in Appendix D,
“Status Registers and Result Codes."
&J0 *
&J1
Bundle connection is disabled.
Bundle connection is enabled in answer mode only.
Bundle connection is enabled in call mode only.
Bundle connection is enabled in both directions.
&J2
&J3
AT Command Set Reference
C-9
Reference Guide for the Model XM128 ISDN Digital Modem
Table C-3.
Command
Options
Function and description
&Knn
V.120/X.75 compression control. The command &K must be followed by two
digits. See also S-register 83.2. For a description of Extended S-registers,
Codes."
&K00
&K44
Disables V.42bis.
Enables V.42bis.
&Ln
Analog port selection during call answering. See also S-register 84.5. For a
description of Extended S-registers, refer to Table D-4 on page D-5 in
&L0
&L1
Sets priority to analog port, PHONE 1.
Sets priority to analog port, PHONE 2.
&On
Set default call type for conventional dialing commands. See also S-register
83.4 and 83.5.For a description of Extended S-registers, refer to Table D-4
on page D-5 in Appendix D, “Status Registers and Result Codes."
&O0
ATDs, ATDPs, and ATDTs default to make calls for analog adapter,
PHONE 2.
&O2
&O3
ATDs, ATDPs, and ATDTs default to make ISDN data calls.
ATDs, ATDPs, and ATDTs default to make calls for the analog adapter,
PHONE 1.
&Sn
description of Extended S-registers, refer to Table D-4 on page D-5 in
Appendix D, “Status Registers and Result Codes."
&S0 *
&S1
DSR is overridden; DSR is always on.
DSR according to CCITT (ITU-TSS). See also S-registers 41.5 and 44.4. For
a description of Extended S-registers, refer to Table D-4 on page D-5 in
Appendix D, “Status Registers and Result Codes."
&Tn
&Vn
Model XM128 modem testing.
Initiates ISDN loopback test.
&T9
&T10
Initiates ISDN loopback with self-test.
Views profile settings.
&V0
&V1-4
&V5
&V6
&V7
Views current active settings.
Views the (n-1)th user profile settings.
Views factory default settings.
Views analog adapter, PHONE 1 setting.
Views analog adapter, PHONE 2 setting.
C-10
AT Command Set Reference
Reference Guide for the Model XM128 ISDN Digital Modem
Extended AT& command set (continued)
Table C-3.
Command
Options
Function and description
&Wn
n=0-3
Writes current settings to user profile n in nonvolatile RAM. See also
S-register 35.6. For a description of Extended S-registers, refer to Table D-4
on page D-5 in Appendix D, “Status Registers and Result Codes."
&Z?
Display all the phone numbers stored in nonvolatile RAM.
&Zn=s
n=0-39
n=0-7
Write phone number/s to NVRAM at location n (n=0-39); use AT*Dn or
ATS29=n to set the default dial pointer.
&ZIn=s
s=phone number
MSN setting. Assign the phone number (including subaddress, if any) for
various B channel protocols. In answer mode, these numbers are compared
with the received called_party_number and called_party_subaddress
information. The call is accepted using the specific protocol if the assigned
number of this protocol matches with the called_party_number.
n=0
n=1
n=2
n=3
n=4
n=6
Assigns multiple subscriber number (MSNs) phone number for X.75.
Assigns MSNs phone number for V.110.
Assigns MSNs phone number for V.120.
Assigns MSNs phone number for PPP, MPPP.
Assigns MSNs for ISDN data, protocol auto-detection.
Assigns the phone number s for analog adapter,
PHONE 1.
n=7
Assigns the phone number s for the analog adapter, PHONE 2.
&ZI?
Displays the phone number (including subaddress, if any) for various B
channel protocols.
&ZO?
Displays the &ZOn setting.
&ZOn=x
Writes own phone number (including subaddress, if any). The number
specified is used as the calling party number while dialing. Value for n:
I = ISDN data
A = analog adapter, PHONE 1
B = analog adapter, PHONE 2
AT Command Set Reference
C-11
Reference Guide for the Model XM128 ISDN Digital Modem
Table C-4 lists the extended AT* command set.
Table C-4.
Extended AT* command set
Command Options
Function and description
*Cn
n=0-3
Character length, including start, stop and parity bit. See also S-register 15.3 and
15.4. For a description of Extended S-registers, refer to Table D-4 on page D-5 in
Appendix D, “Status Registers and Result Codes."
*C0 *
*C1
10-bit character length.
11-bit character length.
9-bit character length.
8-bit character length.
*C2
*C3
*Dn
*Gn
n=0-39
Sets default dial pointer at telephone directory location n. See also S-register 29.
Appendix D, “Status Registers and Result Codes."
*D0 *
See also S35.4 and S38.0. For a description of Extended S-registers, refer to
Table D-4 on page D-5 in Appendix D, “Status Registers and Result Codes."
Security function selection. See also S-registers 36.5 to 36.7. For a description of
Extended S-registers, refer to Table D-4 on page D-5 in Appendix D, “Status
Registers and Result Codes."
*G3
*G4
*G5
Enables type 2 security, with password check.
Enables type 2 security, with password check and callback.
Enables type 2 security, with password check and callback; remote site enters the
callback number.
*GCn
n=0-1
*GC0
*GC1
n=0-4
n=0-39
Callback function selection.
Disables callback function.
Enables callback function.
*HCn=s
*Hn
*HS
*T
Assigns callback phone number, s to storage location n.
Modifies user password table at location n.
Modifies supervisory password (Default: NETGEAR).
Recalls the last CND (Caller ID) information.
Views the Password table.
*V
*VC
Views the Callback Number table.
C-12
AT Command Set Reference
Appendix D
Status Registers and Result Codes
This appendix describes the purpose and application of status registers and result codes for the
Model XM128 ISDN Digital Modem.
Status registers (S-registers) contain values that determine and reflect how your Model XM128
modem operates and executes commands. You can read the values and change them by using
either terminal commands or the panel controls with the same results.
Every user profile corresponds to a separate set of S-register values, but when S-registers are
mentioned in this guide, the reference is to those that correspond to the active profile. If you want
to read or change the values in a profile that is currently inactive, you must first recall that profile
to make it active.
S0 to S11 are standard AT S-registers, and S12 to S124 are mostly bitmap configured. Changes in
the bitmap configuration can have the same effect as issuing AT commands. However, NETGEAR
recommends that you use equivalent AT commands.
Viewing and Setting S-Registers
Several AT commands are used to view the values stored in the S-registers. To view S-registers,
follow these steps:
1. Type the AT command ATSr? to display the values stored in S-registers.
The S-register values may be displayed in either decimal or hexadecimal format when using
the commands. Bit 3 of S-register 84 sets the numbering system to be used for display:
•
•
ATS84.3=0 for decimal format.
ATS84.3=0 for hexidecimal format.
Status Registers and Result Codes
D-1
Reference Guide for the Model XM128 ISDN Digital Modem
2. Type the &Vn command AT&Vn to view all of the S-register settings.
To view different S-register settings, use the following for n:
•
•
•
•
•
0 for viewing S-register settings for current active profile
1 to 4 for viewing settings for user profile number (n-1)
5 for viewing the factory default settings
6 for viewing the setting of PHONE 1
7 for viewing the setting of PHONE 2
3. Type the command ATSr.b? to display the value of bit b of S-register r.
Setting S-Registers
In the commands to change the value in S-register r and to change the value in a specific bit of
S-register r, n is a decimal number in the given range. Although the first command modifies all bits
in the S-register simultaneously, the second command lets you change bit b without affecting other
bits in this S-register. When using ATSr=n, do a conversion to or from the binary number to find
out which bits to manipulate.
To change the S-register values, follow these steps:
1. Type the command ATSr=n (range 0-255) to change the value in S-register r to value n.
2. Type the command ATSr.b=n (range 0-1) to change the value in a specific bit (b) of
S-register r.
Examples for Setting S-Registers
Note: The values used in the examples differ from the actual values in the S-register and
are used for demonstration purposes only.
If you want to set S38 bit 3 to 1 for a specific application, use either the simple command
ATS38.3=1 or use the difficult method outlined in the following steps:
1. Read the value from S38 using the ATS38? command.
D-2
Status Registers and Result Codes
Reference Guide for the Model XM128 ISDN Digital Modem
2. Use Table D-1 to convert the decimal bit value to binary.
Table D-1. Binary conversion table
Binary
value
Decimal
value
Hexadecimal
value
Bit
0
1
2
3
4
5
6
7
00000001
00000010
00000100
00001000
00010000
00100000
01000000
10000000
1
$01
$02
$04
$08
$10
$20
$40
$80
2
4
8
16
32
64
128
3. Use Table D-2 to perform a logic OR operation with the value to set bit 3 to 1 (binary).
Table D-2.
Setting bit 3
Example 1
Example 2
Binary
Operation
Decimal Hexadecimal
Decimal
Hexadecimal
Binary
OR
10001000
00001000
10001000
00001000
11110111
10001000
10000000
136
8
$88
$08
$88
$08
$F7
$88
$80
01000000
00001000
01001000
00001000
11110111
01000000
01000000
64
8
$40
$08
$48
$08
$F7
$40
$40
136
8
72
8
NOT
AND
247
136
128
247
64
64
4. Use Table D-2 to invert the value using a logic NOT operation and then perform a logic
AND operation to set bit 3 to 0 (binary).
5. Using the resulting decimal value, type the ATS38=n command to set the register.
Status Registers and Result Codes
D-3
Reference Guide for the Model XM128 ISDN Digital Modem
S-Register Descriptions
In most bitmapped S-registers, the default bit value is 0 (which is the normal situation) and only
the nondefault situation is described. Some reserved bits are for factory use, and the user should
not change them. Table D-3 describes each basic S-register. Values followed by an asterisk (*) are
the factory default settings.
Table D-3.
Basic S-registers ATSn=x
Function and description
Command
Default
S0=
Sets the number of rings on which the Model
XM128 modem answers; 0 value disables
auto-answer.
000
S1=
S2=
Counts and stores number of rings from an
incoming call.
000
043
Defines escape code character, default [+]
(43 dec.).
S3=
S4=
S5=
S7=
Defines ASCII carriage return.
Defines ASCII line feed.
013
010
008
060
Defines ASCII backspace.
Sets duration, in number of seconds, that the
Model XM128 modem waits for a carrier.
S8=
Sets duration, in seconds, for the pause and
repeat commands. For more information, refer
to Table C-1 on page C-2.
002
D-4
Status Registers and Result Codes
Reference Guide for the Model XM128 ISDN Digital Modem
Table D-4 describes each extended S-register. Defaults are indicated by a plus sign (+) in the
Default or reference column of the table.
Table D-4.
Extended S-registers ATSn=x
Function and
description
Default or
reference
Command
Bit
Decimal
Hexadecimal
S15=
Bitmapped register
Even parity
+130
0,1
0
1
0
1
Odd parity
2
2 *
0 *
4
No parity
2
0
1 stop bit
4
2 stop bits
4,3
0
0 *
8
10-bit character length
11-bit character length
9-bit character length
8-bit character length
*C0
*C1
*C2
*C3
Z0
8
16
24
0
10
18
0
7-5
Profile 0 as active settings after
power on
32
20
Profile 1 as active settings after
power on
Z1
Z2
Z3
Z4
64
40
Profile 2 as active settings after
power on
96
60
Profile 3 as active settings after
power on
128
80 *
Factory default as active settings
after power on
S16=
S18=
Test status register
+000
&T0
&T9
0
0
9
A
No test in progress
9
Loopback test in progress
10
Loopback with self-test in progress &T10
Forces the Model XM128 modem +000
to fix baud rate when idle
0 *
Disables fixed baud function
n+1
Enables baud rate fixing at idle,
n=0-15 baud rate value settings (n)
the same as S20 value
Status Registers and Result Codes
D-5
Reference Guide for the Model XM128 ISDN Digital Modem
Table D-4.
Extended S-registers ATSn=x (continued)
Function and
description
Default or
reference
Command
Bit
Decimal
Hexadecimal
S20=
DTE speed (bps) auto-detected
from AT command
+003
0
0
1
3
4
5
9
B
C
D
E
F
230400 bps
115200 bps
57600 bps
1
3
4
38400 bps
5
19200 bps
9
9600 bps
11
12
13
14
15
4800 bps
2400 bps
1200 bps
460800 bps
921600 bps
Bitmapped register
Speaker is always off.
S21=
1-2
0
2
0
2
M0
M1
Speaker is on until carrier is
detected.
4
0
8
4
0
8
Speaker is always on.
DSR is always on.
M2
3
4
&S0
&S1
According to CCITT. See also
S-register S44.4 and S41.5.
0
0
CD is always on.
&C0
16
10
CD tracks presence of data carrier. &C1
See also S-register 38.3.
D-6
Status Registers and Result Codes
Reference Guide for the Model XM128 ISDN Digital Modem
Extended S-registers ATSn=x (continued)
Table D-4.
Command
Function and
description
Default or
reference
Bit
Decimal
Hexadecimal
S21=
(continued)
6-7
0
0
Assumes that Data Terminal
Ready (DTR) is always on.
&D0
64
40
80
108.1, DTR off-on transition
causes dial of the default number.
&D1
128
108.2, DTR off causes the Model &D2
XM128 modem to hang up and
return to command state.
192
C0
108.2, DTR off causes the Model &D3
XM128 modem to hang up and
resets the Model XM128 modem
to profile #0 after DTR dropped.
S23=
Bitmapped register
+105
E0
0
2
0
1
0
0
1
0
Command echo is disabled.
Command echo is enabled.
E1
Insertion is not allowed during a
PHONE call.
4
4
Insertion is allowed during a
PHONE call.
3-5
0
0
ATX0 (see result code table)
ATX1 dec hex AT
ATX2 40 28 X5
ATX3 48 30 X6
ATX4 56 38 X7
8
8
16
24
32
0
10
18
20
0
6
Displays result code in numeric
format. See also S-register S35.7.
V0
V1
64
40
Displays result code in verbose
format.
Status Registers and Result Codes
D-7
Reference Guide for the Model XM128 ISDN Digital Modem
Table D-4.
Extended S-registers ATSn=x (continued)
Function and
description
Default or
reference
Command
Bit
Decimal
Hexadecimal
S24=
Bitmapped register.
0-1
2
0-3
0
0-3
0
Ring volume control, in increments N0-3
of 1 in decimal value
Ignore S21.1-2 when PHONE 1
keypad is dialed.
4
4
Do not ignore S21-2 when PHONE
1 keypad is dialed.
3
0
0
Ignore S21.1-2 when PHONE 2
keypad is dialed.
8
8
Do not ignore S21-2 when PHONE
2 keypad is dialed.
5-4
Speaker volume control, in
L0-3
increments of 16 in decimal value
S25=
S27=
0-255
0-FF
Specify the time delay that DTR
signal needs to be off before it
is recognized, in 10 ms units. If
S25=0, the delay time is set to
4 ms.
+000
Bitmapped register
3-5
0
0
Flow control is disabled.
&H0
24
32
18
20
Hardware (RTS/CTS) flow control. &H3
Software (XON/XOFF) flow
control.
&H4
40
28
Reserved.
&H5
S29=
0-
39
0-
39
Sets default dial PHONE number
pointer; uses AT&Zn=s to store
PHONE numbers.
+000 *D
S31=
S32=
0-255
0-255
0-FF
0-FF
Holds the ASCII decimal value of
the XON.
+017
Holds the ASCII decimal value of +019
the XOFF.
D-8
Status Registers and Result Codes
Reference Guide for the Model XM128 ISDN Digital Modem
Extended S-registers ATSn=x (continued)
Table D-4.
Function and
description
Default or
reference
Command
Bit
Decimal
Hexadecimal
S35=
Bitmapped register
4
7
16
10
80
When Data/Voice is pressed,
the Model XM128 modem dials the
default number.
128
Enable extended numerical result
codes from 50 -71 when an error
corrected connection is made. Use
with ATV0 (see result code table).
S38=
Bitmapped register
+000
0
3
1
8
1
8
Repeatedly dialing default number. *Dn S29
DCD on/off sequence follows UNIX &C1 S21.4
standard, DCD high before
connect message is sent, DCD
off after last DCE response is sent.
S40=
S41=
S42=
Bitmapped register
+000
1
3
2
8
8
2
8
8
No result code displayed in answer Q2
mode.
Bitmapped register.
+000
Enables CCITT signals 140 and
141 on EIA-232D interface.
Bit
3
Bitmapped register
+000
Disables escape sequence code
in answer mode.
5
6
32
64
20
40
Disables Data/Voice button.
Disables <RINGING> result code. Xn
S44=
S56=
Bitmapped register
+000
3
4
8
8
ATDSn initiates auto-dial of the
stored numbers consecutively until
connection is made.
DSn
16
10
DSR follows DTR. See also
S-register S41.5.
&S1
0-255
0-FF
Hook flash detect time for analog
adapter (POTS port); units 10ms.
+050
Status Registers and Result Codes
D-9
Reference Guide for the Model XM128 ISDN Digital Modem
Table D-4.
Extended S-registers ATSn=x (continued)
Function and
description
Default or
reference
Command
Bit
Decimal
Hexadecimal
S64=
0-255
0-FF
Security callback timer in unit of 1 +050
second.
S80=
Bitmapped register
+000
4
0 *
16
0
Do not send low-layer compatibility
information for PHONE 2 (Model
XM128 modem) or internal fax/
modem (2864I).
10
Send low-layer compatibility for
PHONE 2 (Model XM128 modem)
or internal fax/modem (2864I).
6
7
0 *
64
0 *
0
Do not send low-layer compatibility
information for ISDN data call.
40
0
Send low-layer compatibility for
ISDN data call.
Do not send low-layer compatibility
information for PHONE 1 (Model
XM128 modem) or analog adapter
(2864I).
128
80
Send low-layer compatibility for
PHONE 1 (Model XM128 modem)
or analog adapter (2864I).
D-10
Status Registers and Result Codes
Reference Guide for the Model XM128 ISDN Digital Modem
Extended S-registers ATSn=x (continued)
Table D-4.
Function and
description
Default or
reference
Command
Bit
Decimal
Hexadecimal
S82=
ISDN B channel protocol
V.120 64000
Bn
60
61
62
63
64
65
72
73
74
75
76
V.120 56000
X.75 64000 Transparent
X.75 56000 Transparent
X.75 64000 T.70
X.75 56000 T.70
V.110 64000
V.110 56000
PPP async to sync 64K
PPP async to sync 56K
SLIP to sync HDLC conversion
64K
77
SLIP to sync HDLC conversion
56K
S83=
Bitmapped register
+000
CP0
0
0
0
1
0
4
0
Disables loopback 4 test.
Enables loopback 4 test.
ISDN without V.42bis
1
CP1
2
0
&K00
&K44
&O0
4
ISDN with V.42bis, if applicable
4-5
0 *
ATDs, ATDPs, and ATDTs are
mapped to ATDMs.
32
48
20
30
ATDs, ATDPs, and ATDTs are
mapped to ATDIs.
&O2
&O3
ATDs, ATDPs, and ATDTs are
mapped to ATDBs.
Status Registers and Result Codes
D-11
Reference Guide for the Model XM128 ISDN Digital Modem
Table D-4.
Extended S-registers ATSn=x (continued)
Function and
description
Default or
reference
Command
Bit
Decimal
Hexadecimal
S84=
3
8
8
Displays S-register value in hex
format.
4
5
0 *
0
Indicates Caller ID after the 1st
RING message.
16
0
10
0
Disables Caller ID indication.
PHONE 1 (Model XM128 modem) &L0
or analog port (2864I) has higher
priority for answering an analog
call.
32
20
PHONE 2 (Model XM128 modem) &L1
or internal device (2864I) has
higher priority for answering an
analog call.
S85=
DCA function
0
0
1
*0
*1
*0
0
DCA function is disabled.
DCA function is enabled.
Add-persist time interval.
S85b1-6 is in Second unit.
S85b1-6 is in Minute unit.
CE0
CE1
KAxn
KASn
KAMn
Pn
1-6
7
0
128
80
S86=
D channel protocol selection
(USA); this register is valid only for
American version.
0
0
Northern Telecom proprietary
ISDN.
1
2
3
4
5
1
2
3
4
5
National ISDN 1 (1 SPID mode).
National ISDN 1 (2 SPID mode).
Reserved.
AT&T proprietary point-to-point.
AT&T proprietary
point-to-multipoint (1 SPID mode).
6
6
AT&T custom point-to-multipoint
(2 SPID mode).
D-12
Status Registers and Result Codes
Reference Guide for the Model XM128 ISDN Digital Modem
Extended S-registers ATSn=x (continued)
Table D-4.
Function and
description
Default or
reference
Command
Bit
Decimal
Hexadecimal
S87=
5-6
0 *
32
0
Bundle connection is disabled.
&Jn
20
Bundle connection is enabled in
answer mode only.
64
96
40
60
Bundle connection is enabled in
call mode only.
Bundle connection is enabled in
both directions.
S89=
Bitmapped register
5
6
0
0
Disables the metering pulse of
analog adapter, PHONE 2.
32
0
32
0
Enables the metering pulse of
analog adapter, PHONE 2.
Disables the metering pulse of
analog adapter, PHONE 1.
64
40
Enables the metering pulse of
analog adapter, PHONE 1.
S100=
S102=
B channel bundling protocol
selection.
0 *
1
0
1
Multiple Link Protocol (MLP).
cFossil channel bundling, for
European switches only (cFos).
Outgoing ISDN data type; value
has the same definition as S82.
Bnn
Status Registers and Result Codes
D-13
Reference Guide for the Model XM128 ISDN Digital Modem
Table D-4.
Extended S-registers ATSn=x (continued)
Function and
description
Default or
reference
Command
Bit
Decimal
Hexadecimal
S104+n=
Outgoing service additional (for
1TR6 only) information:
n=0, analog adapter, PHONE 2
n=2, ISDN data
n=3, analog adapter, PHONE 1
1
2
7
1
2
7
Fernsprechen
a/b - Dienste
Daten bertragung 64 Kbps. The
defaults are:
* s104=1 - for a/b adapter 2
* s105= - reserved
* s106=7 - for ISDN data
* s107=1 - for a/b adapter 1
S108+n=
Outgoing service additional (for
1TR6 only) information:
n=0, analog adapter, PHONE 2
n=2, ISDN data
n=3, analog adapter, PHONE 1
SI=1
SI=2
1
2
2
3
4
1 *
2
ISDN-Fernsprechen 3.1 KHz
Fernsprechen analog
Fax Gruppe 3
2
3 *
4
Daten Über Modem
Btx Über Modem
D-14
Status Registers and Result Codes
Reference Guide for the Model XM128 ISDN Digital Modem
Extended S-registers ATSn=x (continued)
Table D-4.
Command
Function and
description
Default or
reference
Bit
Decimal
Hexadecimal
S108+n=
(continued)
SI=7
0
00
Daten bertragung 64 Kbps
(X.75 SLP)
192
64
C0
40
00
20
00
10
00
08
C0
C3
C4
C5
C6
C7
40
A0
A0
A3
A4
A5
A6
A7
A8
A9
AA
AF
Async. V.110
Extensions of async.
Number of data bits: 8
Number of data bits: 7
Number of stop bits: 1
Number of stop bits: 2
No parity
0
32
0
16
0
8
Even parity
192
195
196
197
198
199
64
1200 bps
2400 bps
4800 bps
9600 bps
14400 bps
19200 bps
38400 bps
160
160
163
164
165
166
167
168
169
170
175
Sync. V.110
1200 bps
2400 bps
4800 bps
9600 bps
14400 bps
19200 bps
48000 bps
56000 bps
56000 bps for 56K network
In-band negotiation
Status Registers and Result Codes
D-15
Reference Guide for the Model XM128 ISDN Digital Modem
Table D-4.
Extended S-registers ATSn=x (continued)
Function and
description
Default or
reference
Command
Bit
Decimal
Hexadecimal
S108+n=
High-layer compatibility
(Non-1TR6)
n=0, analog adapter,PHONE 2
n=2, ISDN data
n=3, analog adapter, PHONE 1
0 *
0
No high-layer compatibility
information element is sent.
1
1
Telephone
4
4
Facsimile Group 2/3
Teletex service (Rec.F.220)
Teletex service (Rec.F.200)
40
49
50
28
31
32
Information interworking for Video
Services (Rec.F.300 T.110)
53
56
35
38
Telex service (Rec.F.60)
Message handling systems (MHS)
(Rec.X.400 series)
65
41
OSI application (Rec.X.200 series)
I-field data length (MSB byte)
I -field data length (LSB byte)
V.110 user rate
S114=
S115=
S117=
B1n
D-16
Status Registers and Result Codes
Reference Guide for the Model XM128 ISDN Digital Modem
Extended S-registers ATSn=x (continued)
Table D-4.
Command
Function and
description
Default or
reference
Bit
Decimal
Hexadecimal
S118=
(see
AT&ZIn=s)
Bit
0
Decimal
Hexadecimal
0
1
0
0
1
0
Enables dial-in call.
Disables dial-in call (dial out only).
2
Default B channel line speed is
64 Kbps for ISDN data call.
&E0
&E1
4
4
0
Default B channel line speed is
56 Kbps for ISDN data call.
4
0 *
Uses 3.1KHz bearer service
whenever possible for analog
adapter, PHONE 2.
16
0 *
32
10
0
Uses speech bearer service
whenever possible for analog
adapter, PHONE 2.
5
6
Uses 3.1KHz bearer service
whenever possible for analog
adapter, PHONE 1.
20
Uses speech bearer service
whenever possible for analog
adapter, PHONE 1.
0 *
64
0
Enables analog adapter to accept
global calls.
40
Forbids analog adapter to accept
global calls with MSN unmatched.
7
0
1
0 *
128
0 *
1
0
Enables analog incoming calls.
Rejects analog incoming calls.
Disables callback function.
Enables callback function.
80
0
S119=
*GC
1
0 *
0
Disables point-to-point signaling
DDI function.
2
2
Enables point-to-point signaling
DDI function.
Status Registers and Result Codes
D-17
Reference Guide for the Model XM128 ISDN Digital Modem
Table D-4.
Command
Extended S-registers ATSn=x (continued)
Function and
description
Default or
reference
Bit
Decimal
Hexadecimal
S119=
(continued)
2
0 *
0
Disables point-to-multipoint
signaling DDI function.
4
4
0
8
Enables point-to-multipoint
signaling DDI function.
3
0 *
8
Inbound call ignored when no
MSN (EAZ) is matched.
Inbound call accepted using
default protocol when no MSN
(EAZ) is matched.
4
5
0 *
16
0
V.110 user rate = 19200 bps if DTE
speed is greater than 19200 bps.
10
V.110 user rate = 38400 bps if DTE
speed is greater than 38400 bps.
0 *
32
0
Enables normal MSN function.
&ZIn
20
Treats the number assigned by
&ZI=n... as subaddress, and
matches with the called party
subaddress for inbound call
routing.
S120=
S121=
S122=
S123=
S124=
Accumulated charging unit (MSB
byte) for B1 channel.
Accumulated charging unit (LSB
byte) for B1 channel.
Accumulated charging unit (MSB
byte) for B2 channel.
Accumulated charging unit (LSB
byte) for B2 channel.
Empties IP packet interval for PPP. +000
Units of 1 sec.
0-255
0-FF
*0
S125=
1-6
7
Sub-persist time interval.
S125b1-6 is in second unit.
S125b1-6 is in minute unit.
KSxn
KSSn
KSMn
0
*0
128
80
D-18
Status Registers and Result Codes
Reference Guide for the Model XM128 ISDN Digital Modem
Extended S-registers ATSn=x (continued)
Table D-4.
Function and
description
Default or
reference
Command
Bit
Decimal
Hexadecimal
S126=
0-255
0-FF
Add-threshold for BOD in Kbps
unit
JAn,+48
S127=
0-255
0-FF
Sub-threshold for BOD in Kbps
unit
JSn,+32
ATXn Result Code Option Table
Table D-5 lists the different options available when setting the ATXn command. The default value
for n is 5 when the Model XM128 modem is shipped.
Table D-5.
ATXn command setting options
ATV0 ATV1
X0
X1
X2
X3
X4
X5
X6
X7
0
OK
V
V
V
V
V
V
V
V
V
V
%
V
V
V
V
V
%
V
V
V
V
V
V
%
V
V
V
$
V
V
V
$
V
V
V
V
$
$
$
$
$
$
$
$
V
#
V
V
V
#
V
V
V
V
#
#
#
#
#
#
#
#
1
CONNECT
V
@
V
2
RING
V
3
NO CARRIER
ERROR
V
V
4
V
V
5
CONNECT 1200
NO DIAL TONE
BUSY
%
V
@
V
6
7
V
V
V
8
NO ANSWER
RINGING*
V
V
V
9
V
V
V
10
11
12
14
15
16
17
18
19
CONNECT 2400
CONNECT 4800
CONNECT 9600
CONNECT 19200
CONNECT 7200
CONNECT 12000
CONNECT 14400
CONNECT 16800
CONNECT 38400
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
@
@
@
@
@
@
@
@
@
Status Registers and Result Codes
D-19
Reference Guide for the Model XM128 ISDN Digital Modem
Table D-5.
ATXn command setting options (continued)
ATV0 ATV1
X0
X1
X2
X3
X4
X5
X6
X7
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
CONNECT 57600
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
@
CONNECT 76800
CONNECT 115200
CONNECT 230400
CONNECT 460800
CONNECT 921600
CONNECT 307200
CONNECT 153600
CONNECT 102400
CONNECT 61440
CONNECT 51200
CONNECT 62400
CONNECT 124800
CONNECT 62400
CONNECT 41600
CONNECT 31200
CONNECT 249600
CONNECT 20800
CONNECT 33600
CONNECT 28800
CONNECT 26400
CONNECT 24000
CONNECT 21600
CONNECT 48000
CONNECT 56000
CONNECT 64000
CONNECT 112000
CONNECT 128000
$
#
$
$
$
$
$
$
$
$
$
$
#
#
#
#
#
#
#
#
#
#
* Use S42.6 to disable RINGING result code
D-20
Status Registers and Result Codes
Reference Guide for the Model XM128 ISDN Digital Modem
Result Code Chart Symbol Reference
Table D-6 lists the result codes.
Table D-6.
Result code chart
V
Supported
%
Reports the DTE Speed as: <cr><lf>CONNECT
DTE_Speed<cr><lf>
@
CONNECT DTE_Speed/Protocol DCE_Speed/
Error_Control **
Example: CONNECT 115200/V120 64000 /LABD
<cr><lf>CONNECT DCE_Speed[/Error_Code]<cr><lf>
Example: CONNECT 64000/ARQ
$
#
CONNECT DCE _Speed/Error_Code/Error_Control
Example: CONNECT 64000/ARQ/V42b
Status Registers and Result Codes
D-21
Reference Guide for the Model XM128 ISDN Digital Modem
Result Code Field Descriptions
Table D-7 lists the result code field descriptions.
Table D-7.
Field name
Result code field descriptions
Possible values
Error_Code
NONE, ARQ
Error_Control
LAPB, LAPD, V42
(This field will not show if no error
control is negotiated)
Data_Compression
DCE_Speed
DTE_Speed
Protocol
V42b
All possible DCE speeds supported
All possible DTE speeds supported
Only ISDN protocols are listed here
X.75
X.75M (X.75 with MLP Bundle)
X.75C (X.75 with cFos Bundle)
V110
V120
V120M (V.120 with MLP Bundle)
V120C (V.120 with cFos Bundle)
SLIP
PPP
BTX
D-22
Status Registers and Result Codes
Reference Guide for the Model XM128 ISDN Digital Modem
Connect Strings for Error Corrected Connections
To enable the following numerical (ATV0) and verbose (ATV1) result codes when an error
corrected connection is made, set S35 bit 7 to 1.
Example: ATS35.7=1<enter>
Table D-8 lists the connect strings.
Table D-8.
Connect strings
ATV0
ATV0
ATV1
ATV1
50
51
52
53
54
55
56
57
58
59
60
CONNECT
61
62
63
64
65
66
67
68
69
70
71
CONNECT 24000
CONNECT 26400
CONNECT 28800
CONNECT 31200
CONNECT 33600
CONNECT 38400
CONNECT 48000
CONNECT 56000
CONNECT 64000
CONNECT 112000
CONNECT 128000
CONNECT 1200
CONNECT 2400
CONNECT 4800
CONNECT 7200
CONNECT 9600
CONNECT 12000
CONNECT 14400
CONNECT 16800
CONNECT 19200
CONNECT 21600
Status Registers and Result Codes
D-23
Appendix E
Connector Pin Assignments
This appendix describes the connector pinout assignments for the Model XM128 ISDN Digital
Modem.
The Model XM128 modem features one RJ-45 ISDN connector and two RJ-11 phone connectors.
The RJ-45 connector labeled ISDN-S or ISDN-U is for an ISDN line connection (S/T interface or
U interface), and the RJ-11 connectors labeled PHONE 1 and PHONE 2 (also known as analog
adapters in European countries) are for an optional connection to analog telephone equipment such
as a telephone, fax, or analog modem.
RJ-45 Plug and Connector
The RJ-45 plug and RJ-45 connector are both illustrated in Figure E-1.
12345678
8
1
7894FA
Figure E-1.
RJ-45 plug and RJ-45 connector
Connector Pin Assignments
E-1
Reference Guide for the Model XM128 ISDN Digital Modem
Table E-1 lists the pin assignments for the RJ-45 plug and RJ-45 connector for the S/T interface.
Table E-1.
Pin
RJ-45 plug and RJ-45 connector pin assignments for the S/T interface
Assignment
1
2
3
4
5
6
7
8
Not connected
Not connected
RCV +
XMT +
XMT -
RCV -
- 48V
- 48V RTN
Table E-2 lists the pin assignments for the RJ-45 plug and RJ-45 connector for the U interface.
Table E-2.
Pin
RJ-45 plug and RJ-45 connector pin assignments for the U interface
Assignment
1
2
3
4
5
6
7
8
Not connected
Not connected
Not connected
Ring
Tip
Not connected
- 48V
- 48V RTN
E-2
Connector Pin Assignments
Reference Guide for the Model XM128 ISDN Digital Modem
RJ-11 Plug and Connector
Figure E-2 shows an RJ-11 plug and an RJ-11 connector.
1 2 3 4
4
1
7895MFA
Figure E-2.
RJ-11 plug and RJ-11 connector
Table E-3 lists the pin assignments for RJ-11 plugs and the RJ-11 connectors for the PHONE 1 and
PHONE 2 ports.
Table E-3.
Pin
RJ-11 connector pin assignments
Assignment
1
2
3
4
Not connected
Ring
Tip
Not connected
Connector Pin Assignments
E-3
Appendix F
Serial Port Interface
This appendix provides information about the serial port interface for the Model XM128 ISDN
Digital Modem.
RS-232 Serial Interface
Table F-1 describes the RS-232 25-pin serial port interface for the Model XM128 modem.
Table F-1.
Pin number
Serial port interface
Signal direction
DTE -DCE
ITU-TSS
EIA
Signal/pin description
signal name
signal name
1
101
AA
BA
BB
CA
CB
CC
AB
CF
DB
DD
Protective ground (GND).
Transmitted data (TXD).
Received data (RXD).
¤
?
‹
2
103
3
104
4
105
Request to send (RTS).
Clear to send (CTS).
?
‹
5
106
6
107
Data set ready (DSR).
‹
7
102
Signal ground (GND).
¤
‹
8
109
Data carrier detected (DCD).
Transmit clock signal (source: DCE).
Synchronous receive clock.
Local analog loopback test.
15
17
18
20
114
‹
115
‹
141
?
?
108/2108/1
CD
Data terminal ready (DTR).
Connect DCE to line.
21
140
Remote digital loop test.
?
Serial Port Interface
F-1
Reference Guide for the Model XM128 ISDN Digital Modem
Table F-1.
Pin number
Serial port interface (continued)
Signal direction
DTE -DCE
ITU-TSS
EIA
Signal/pin description
signal name
signal name
22
24
25
125
113
CE
DA
Ring indicator (RI).
‹
Transmit clock signal (source: DTE).
Test indicator.
?
‹
Asynchronous Cable Connections
Table F-2 provides information about the asynchronous flow control cable connection.
Table F-2.
Asynchronous flow control cable connection
Modem
Signal
To PC
To DCE
To
To NeXT
(DCE) DB25
(DTE) DB 9
(Null) DB25 MAC Mini 8 68,040 Mini 8
2
TXD
3
2
7
8
6
5
1
4
9
3
3
5
1
2
3
5
6
8
3
RXD
2
4
RTS
5
5
CTS
4
6
DSR
20
7
7
Ground
CD (DCD)
DTR
4,8
1
4
2
1
8
20
6,8
20
22
RI
F-2
Serial Port Interface
Appendix G
ISDN Reference
This appendix explains ISDN technical terms. The appendix also provides you with forms to assist
you when working with your local telephone company to set up ISDN services to use with your
Model XM128 ISDN Digital Modem.
ISDN Overview
ISDN is a global system that provides a variety of high-speed digital communication solutions,
while maintaining compatibility with existing analog voice, modem, data, and fax protocols.
ISDN is based on various standards that define communications between switches and the
equipment that connects to the switches. These standards allow most types of equipment to
communicate across different types of switches in every part of the world. Implementation of
network switches by telephone companies differs from country to country.
In North America, a separate ISDN standard called National ISDN (NI-1) is currently being
adopted by network providers and equipment manufacturers. When fully implemented, NI-1 will
make installation of ISDN equipment much easier. Currently, many different types of custom
signaling protocols are used. Therefore, you must configure your Model XM128 modem for the
type of signaling that is used by your network.
In the rest of the world, Digital Subscriber Signaling Number 1 (DSS1) is widely deployed with
minor differences from country to country. In Germany, there is an old ISDN system called 1TR6,
which will be replaced gradually by DSS1.
ISDN Reference
G-1
Reference Guide for the Model XM128 ISDN Digital Modem
Basic Rate Interface
When you order a Basic Rate Interface (BRI) ISDN line, you receive what is known as the 2B+D
service. This service provides two B channels that can transmit at 64 Kbps per channel for user
information and a D channel that can communicate between the user and the ISDN network at
16 Kbps.
The D channel is used to manage communication between the equipment and the switch. It is used
mainly to exchange signal messages with the switch and to set up and release calls. In most cases,
if there is any incompatibility issue raised, it is the D channel signaling protocol that is causing the
problem. The Model XM128 modem does not allow the user to use the D channel for sending and
receiving user data.
Out-of-Band Signaling
Some switches transmit all the network signals through the D channel, freeing both B channels to
be used exclusively for your communication. This arrangement allows a throughput of 128 Kbps
(64 Kbps per channel). However, not all switches support out-of-band signaling at this time. For
the switches that do not support out-of-band signaling, network signals are transmitted through B
channels only, which reduces the bandwidth to 56 Kbps.
The Model XM128 modem currently supports the following switch types and D channel protocols:
•
•
•
•
•
•
DSS1
1TR6
AT&T 5ESS Custom and National ISDN-1 protocol
Northern Telecom DMS-100 Custom and National ISDN-1 protocol
Siemens EWSD National ISDN-1 protocol
Rate Adaption & B channel protocol
The Model XM128 modem currently supports the following protocols:
•
•
•
•
V.120
X.75
V.110
Asyn-to-sync PPP and PPP/MP
G-2
ISDN Reference
Reference Guide for the Model XM128 ISDN Digital Modem
The B channels are used for carrying user communication information, which can be data,
voice, or fax. Voice and analog data must be sent on the B channels. Unlike the asynchronous
communications between most PCs and your Model XM128 modem, the B channel operates
in synchronous mode. In order to convert the asynchronous communication to synchronous
communication, it is necessary to use a Rate Adaption Protocol.
In North America, the V.120 Protocol is the most popular Rate Adaptation Protocol used. The
V.120 Protocol is an ITU-T protocol that supports synchronous and asynchronous rate adaption
and provides link-layer error control. NETGEAR also implements V.42bis data compression on
top of V.120, allowing the user to achieve even higher data communication throughput.
The Model XM128 modem also supports high-level data link control (HDLC) asynchronous to
synchronous conversion from Point-to-Point Protocol (PPP). This protocol is very popular for
Internet access and remote access applications.
Currently, most of us still use plain old telephone service (POTS) for our regular communication
needs. The Model XM128 modem provides two POTS ports (PHONE 1 and PHONE 2) for you to
connect analog devices; this feature lets you continue to use analog communications. You can
connect phones, fax machines, or analog modems to the PHONE 1 and PHONE 2 ports, while
using one of the idle B channels (even if the Model XM128 modem is busy doing data
communications).
Terminal Adapter or Digital Modem
A terminal adapter (TA) allows users to send and receive data over the ISDN network. You can
send and receive both data and voice simultaneously by using both B channels. The PHONE 1 and
PHONE 2 ports in the Model XM128 modem allow you to connect analog devices to the modem
to make outgoing calls as well as to receive incoming calls. With its auto-detect feature, the
Model XM128 modem monitors incoming calls from both analog and digital devices. It monitors
these calls without user intervention and makes connections accordingly.
ISDN Basic Rate Interface Points
In the interest of supporting deregulated Customer Premises Equipment (CPE), the exchange
Carrier Standard Association in the United States established a basic rate transmission standard for
CPE. The standards are defined for equipment to connect to different reference points of the ISDN
link. Some of these reference points are S, T, and U. They have very specific definitions and
provide standard interfaces for equipment connected to them.
ISDN Reference
G-3
Reference Guide for the Model XM128 ISDN Digital Modem
Not all the interfaces must exist in actual implementations. For example, not all houses are
equipped with a PBX (NT2). In this case, the U interface is provided by the NT-1 device.
An ISDN terminal adapter can be constructed with the functionality of an NT-1 device. In this
case, the terminal adapter connects directly to the U interface. The Model XM128 modem
connects directly to a U interface without an NT-1 device, which can sometimes be quite
expensive.
The Model XM128 modem comes with the following two different types of interfaces:
•
An S/T interface
The Model XM128 modem with an S/T interface is called a Model XM128S modem and
requires an NT-1 device to be connected between the modem and the ISDN wall connection.
•
A U interface for American ISDN
The Model XM128 modem with a U interface is called a Model XM128U modem and can be
connected directly to the ISDN jack installed by the telephone company.
SPID Setup
Service provider identification (SPID) numbers are needed unless your switch type is AT&T 5ESS
with Point-to-Point Protocol. The ISDN switches use SPID numbers to represent the subscribed
network services. Each SPID number corresponds to one terminal end point identifier. Different
switches might provide different rules for the SPID number format. You should get the SPID
number from your local telephone company.
Ordering ISDN Service
This section provides information about ordering an ISDN line from your telephone company.
Follow these guidelines and use the information to fill in the appropriate worksheet in this
appendix:
•
Provide the following ISDN codes to the telephone company:
–
–
S
EZ-ISDN-1
Each code describes a set of capabilities and features that are available in the
Model XM128 modem. Providing these codes ensures that your ISDN line is installed
for maximum compatibility.
G-4
ISDN Reference
Reference Guide for the Model XM128 ISDN Digital Modem
Make sure the telephone company provides you with:
•
–
The switch type information
Ask the telephone company representative which switch type is available in your area.
Select the appropriate worksheet in this appendix and complete the information to use as a
guide. The three types of worksheets provided are AT& T 5ESS, Northern Telecom
DMS-100, and Siemens EWSD.
–
–
–
The switch protocol
Ask the telephone company representative which switch protocol you will be using to
communicate with the telephone company switch.
The SPID numbers
Determine the number of SPID numbers your configuration requires and request that
quantity.
The Directory numbers
In most cases, you will have two directory numbers. Determine and request the
appropriate quantity.
ISDN Reference
G-5
Reference Guide for the Model XM128 ISDN Digital Modem
Order Form for AT&T 5ESS Switch (NI-1 ISDN)
To order ISDN service for the AT&T switch, provide the information on this form to your local
telephone company by photocopying and faxing this order form.
First Name: _______________ Last Name: _______________
Address:___________________________________________
City:_____________________ State:________ Zip:________
Telephone (analog): __________________________________
Refer to Table G-1 for information about your configuring your ISDN line for the AT & T switch.
Table G-1.
ISDN line configuration
Line type
Standard (2B+D) NI -1 or Custom
Data line class
Line code
Point-to-Point (PPP) or Multipoint
2B1Q
Interface type
B1 service
B2 service
Access rate
U interface with RJ-45 jack
On demand (DMD)
On demand (DMD)
64 Kbps
Maximum B channels
2
Circuit-switched voice
2
Circuit-switched voice channel
Circuit-switched data
Any
2
Circuit-switched data channel
D channel packet
Any
No
No
Type A
Electronic Key Telephone Sets (EKTS)
Terminal Type
Information the telephone company must provide:
Switch Protocol: __ NI-1 __ Point-to-Point __ Multipoint
Number of SPIDs: __ 0 __ 1 __ 2
ISDN # 1 _______________ SPID #1 _______________
ISDN # 2 _______________ SPID #2 _______________
G-6
ISDN Reference
Reference Guide for the Model XM128 ISDN Digital Modem
Order Form for DMS-100 Switch (NI-1 or Custom ISDN)
To order ISDN service for the DMS-100 switch, provide the information on this form to your local
telephone company by photocopying and faxing this order form.
First Name: _______________ Last Name: _______________
Address:___________________________________________
City:_____________________ State:________ Zip:________
Telephone (analog): __________________________________
Refer to Table G-2 for information about your configuring your ISDN line for the DMS-100
switch.
Table G-2.
ISDN line configuration
Line type
Standard (2B+D) NI-1 or custom
Line code
2B1Q
Interface type
Access rate
U interface with RJ-45 jack
64 Kbps
Directory numbers, logical terminals
Bearer service
2
Circuit switch voice and data on any B channel
Circuit switched service
Yes
Packet switched service
No
Terminal endpoint identifier (TEI)
Electronic key telephone sets (EKTS)
Call appearance handling (CACH)
Dynamic
No
No
Information the telephone company must provide:
Switch protocol: __ NI-1 __ Point-to-Point __ Multipoint
Number of SPIDs: __ 0 __ 1 __ 2
ISDN # 1 _______________ SPID #1 _______________
ISDN # 2 _______________ SPID #2 _______________
ISDN Reference
G-7
Reference Guide for the Model XM128 ISDN Digital Modem
Order Form for EWSD (NI-1 ISDN)
To order ISDN service for the EWSD switch, provide the information on this form to your local
telephone company by photocopying and faxing this order form.
First Name: _______________ Last Name: _______________
Address:___________________________________________
City:_____________________ State:________ Zip:________
Telephone (analog): __________________________________
Refer to Table G-3 for information about your configuring your ISDN line for the EWSD switch.
Table G-3.
ISDN line configuration
Line type
Standard (2B+D) NI-1
Line code
2B1Q
Interface Type
Access Rate
U interface with RJ-45 jack
64 Kbps
Directory numbers, logical terminals
Bearer Service
2
Circuit Switch Voice and Data on any B Channel
Circuit Switched Service
Yes
Packet Switched Service
No
Terminal Endpoint Identifier (TEI)
Electronic Key telephone sets (EKTS)
Dynamic
No
Information the telephone company must provide:
Switch protocol: __ NI-1 __ Custom
Number of SPIDs: __ 0 __ 1 __ 2
ISDN # 1 _______________ SPID #1 _______________
ISDN # 2 _______________ SPID #2 _______________
G-8
ISDN Reference
Index
Numerics
issuing 4-3
MSN 4-8
placing a call 6-3
result codes 4-4
1TR6 communication
incoming calls 7-8
outgoing calls 7-5
placing a call 7-12
A
ATXn command D-19
address matching 6-8
ambiguity resolution 7-9
analog calls 8-1
B
B channel 10-5
bundling 5-3
embedded protocol analyzer 10-5
protocol 5-1
ANSI 10-5
answer modes 5-3
best-effort call answering 6-8
AT commands
address ambiguity 6-8
analog calls 8-2
basic C-2
C
call, placing 6-3
capture commands 10-6
dial strings 6-3
EAZ 7-6
EPA 10-7
European switches 8-2
extended C-8, C-12
for analog calls 8-2
frequently used 8-2
ISDN numbers, assigning 6-6
COM LEDs 1-5
configuring
ISDN line 4-1
network 4-1
using a terminal program 4-1
connect strings D-23
conventions xviii
CSD (Circuit Switched Data) 6-4
customer support iii
Index
1
D
I
D channel 10-5, 10-6
data call indication 7-10
data compression 6-15
data over speech channel 6-7
DCA 5-5
incoming calls 6-3, 7-10
installation
instructions 2-2
verifying 2-3
interfaces 1-3
ISDN
diagnostic command 10-3
answering a call 7-7
(EAZ) 7-6
dialing out
for analog adapter port 1 6-2
using ISDN mode 6-1
using speech bearer service 6-2
LEDs 1-4
DSS1 (Digital Subscriber Signaling #1)
incoming calls 7-7
outgoing calls 7-1
line configuring 4-1
numbers, assigning 6-6
ordering G-4
placing calls 7-11
overview G-1
placing a call 7-11
port 1-7
E
L
EAZ 7-6
Endpoint Discriminator 5-4
EPA 10-5
M
error correction 6-15
Europe, configuration for 4-7
modem reset 10-4
modes, answer 5-3
MPPP 5-3, 5-4
MSN 5-3
answering a call using 6-6
AT commands 4-8
F
features 1-1
frequently used AT commands 8-2
front panel 1-3
multi-auto answering 6-9, 7-9
Multilink PPP 5-3, 5-4, 5-5
N
H
network switches, setting up 4-5
HDLC 5-1, 5-3
network, configuring 4-1
2
Index
Reference Guide for the Model XM128 ISDN Digital Modem
O
S
out of band signaling G-2
security
level 1 B-2
level 2 B-2
level 3 B-3
types and levels B-1
outgoing calls 6-1
P
package contents 2-1
packet length, determining 6-5
Phone 1 port 1-7
serial port 1-7
serial port interface F-1
simplex mode C-1
SLIP 5-1
Phone 2 port 1-7
Speech bearer 5-3
point-to-point configuration 7-11
port
S-register
ISDN 1-7
Phone 2 1-7
serial 1-7
descriptions D-4
extended D-5
setting D-2
values 7-2
viewing D-1
Power LED 1-4
Status Register. See S-register
subaddresses 7-3
power receptacle 1-7
protocol specifcations 6-9
PWR LED 1-4
T
R
technical specifications A-1
terminal adapter G-3
terminal programs 4-2
troubleshooting 10-1
rear panel 1-6
related publications xix
Remote Access 5-1
reset modem 10-4
U
result codes D-21
RJ-11 connector pin assignments E-3
RJ-45 connector pin assignments E-1
RS-232 interface F-1
RS-232 port 1-6
United Kingdom, configuration for 4-7
user-to-user information 7-13
Index
3
V
W
V.110
World Wide Web iv
call answering 6-10
making a call 6-10
V.120
bundled call 6-13
configuring 6-12
dialing out 6-13
error correction and data compression
with 6-15
X
X.75
Answering a call 6-16
bundled call 6-17
ISDN communications for Europe 6-16
making a call 6-17
prestored phone numbers 6-18
making a bundled call with 6-13
selecting for European ISDN 6-11
V.42bis data compression 6-18
4
Index
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