Motorola Mobility USA-AL200-001 Cable Modem User Manual

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Date Submitted	2000-09-29 00:00:00
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3UHOLPLQDU\
Motorola AL 200 Multi-User Modem
Installation Manual
Notice
©2000 Motorola, Inc.
20 Cabot Boulevard
Mansfield, Massachusetts 02048
(508) 261-4000
All rights reserved
Printed in U.S.A.
Restricted Rights Notification for U.S. Government Users
The software (including firmware) addressed in this guide is provided to the U.S.
Government under agreement which grants the government the minimum “restricted rights”
in the software, as defined in the Federal Acquisition Regulation (FAR) or the Defense
Federal Acquisition Regulation Supplement (DFARS), whichever is applicable.
If the software is procured for use by the Department of Defense, the following legend
applies:
Restricted Rights Legend
Use, duplication, or disclosure by the Government
is subject to restrictions as set forth in
subparagraph (c)(1)(ii) of the
Rights in Technical Data and Computer Software
clause at DFARS 252.227-7013.
If the software is procured for use by any U.S. Government entity other than the Department
of Defense, the following notice applies:
Notice
Notwithstanding any other lease or license agreement that may pertain to,
or accompany the delivery of, this computer software, the rights of the
Government regarding its use, reproduction, and disclosure are as set forth
in FAR 52.227-19(C).
Unpublished - rights reserved under the copyright laws of the United States.
Notice (continued)
Proprietary Material
Information and software in this document are proprietary to Motorola, Inc. (or its Suppliers)
and without the express prior permission of an officer of Motorola, may not be copied,
reproduced, disclosed to others, published, or used, in whole or in part, for any purpose other
than that for which it is being made available. Use of software described in this document is
subject to the terms and conditions of the Motorola Software License Agreement.
This document is for information purposes only and is subject to change without notice.
Radio Frequency Interference Regulations
This equipment has been tested and found to comply with the limits for a Class B digital
device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable
protection against interference in a residential installation. This equipment generates, uses,
and can radiate radio frequency energy and, if not installed and used in accordance with the
instructions, may cause harmful interference to radio communications. However, there is no
guarantee that interference will not occur in a particular installation. If this equipment does
cause harmful interference to radio or television reception, which can be determined by
turning the equipment off and on, the user is encouraged to try to correct the interference by
one or more of the following measures:
– Reorient or relocate the receiving antenna.
– Increase the separation between the equipment and receiver.
– Connect the equipment into an outlet on a circuit different from that to which the
receiver is connected.
– Consult the dealer or an experienced radio/TV technician to help.
Changes or modifications not expressly approved by Motorola could void the user's authority
to operate the equipment.
Notification of Canadian Requirements
This digital apparatus does not exceed the Class B limits for radio noise emissions from
digital apparatus as set out in the Radio Interference Regulations of the Canadian Department
of Communications.
Le présent appareil numérique n’émet pas de bruits radioélectriques dépassant les limites
applicable aux appareils numériques de classe B prescrites dans le règlement sur le brouillage
radioélectrique édicté par let Ministère des Communications du Canada.
Note to CATV System Installers in the USA
This reminder is provided to call the cable TV system installer’s attention to Article 820-40
of the National Electrical Code (NFPA 70) that provides guidelines for proper grounding and,
in particular, specifies that the cable shield shall be connected to the grounding system in the
building, as close to the point of cable entry as practical.
Part No. 475866-001-00, Rev A. 6/2000
Publication Code:
About This Manual
Overview
Introduction
The Motorola AL 200 Multi-User Modem Installation Manual describes how to
connect, install, and power up a multi-user modem and start a home network.
It also provides basic information about the lights, controls, and connectors on the
multi-user modem.
Audience
This manual is intended for the installer of the AL 200.
Software Revision
Level
This manual is current for Release 1.0 of the AL 200 firmware.
AL 200 Modem
Motorola provides these manuals to support the AL 200:
Documentation Set
• Motorola AL 200 Multi-User Modem Installation Manual
• Motorola AL 200 Multi-User Modem On-line Help in the Network Manager
application
Special Notices
The following notices emphasize certain information in the manual. Each serves a
special purpose and is displayed in the format shown.
Caution
Caution provides you with information that, if not followed, can result in damage to
software, hardware, or data.
Warning
Warning is the most serious notice, indicating that you can be physically hurt.
Trademarks
Motorola AL 200 is a trademark of Motorola, Inc.
Windows is either a registered trademark or trademark of Microsoft Corporation in
the United States and/or other countries.
Year 2000 Ready
The AL 200 is year 2000 ready.
About This Manual (continued)
Important Safety Notices
These are important safety instructions:
• Read Instructions
Read all the safety and operating instructions before you operate the product.
• Retain Instructions
Retain the safety and operating instructions for future reference.
• Heed warnings
Adhere to all the warnings on the product and in the operating instructions.
• Follow instructions
Follow all operating and use instructions.
• Cleaning
Unplug this product from the AC power before cleaning. Do not use liquid
cleaners or aerosol cleaners. Use a dry cloth for cleaning.
• Attachments
Do not use attachments not recommended by the product manufacturer as
they may cause hazards.
• Water and Moisture
Do not use this product near water — for example, near a bath tub, wash
bowl, kitchen sink, or laundry tub, in a wet basement, or near a swimming
pool; and the like.
• Power Sources
Operate this product only from the type of power source indicated on the
marking label of the power supply (or power plug). If you are not sure of the
type of power supply, consult your product dealer or local power company.
For products intended to operate from other sources, refer to the specific
operating instructions.
• Power-Cord Protection
Route the power supply cords so that they are not likely to be walked on or
pinched by items placed upon or against them. Pay particular attention to
cords at plugs, convenience receptacles, and the point where they exit from
the product.
• Replacement Parts
There are no replacement parts. If necessary, the modem is replaced with a
new modem.
• Heat
Situate the product away from heat sources such as radiators, heat registers,
stoves, and other products that produce heat.
• Rain or moisture
To prevent fire or shock hazard, do not expose this unit to rain or moisture.
vi
About This Manual (continued)
• Damage Requiring Service
Unplug this product from the wall outlet and refer servicing to qualified
service personnel under the following conditions:
- The power supply cord or plug is damaged.
- Liquid has been spilled, or objects have fallen into the product.
- The product has been exposed to rain or water.
- The product does not operate normally by following the operating
instructions.
- The product has been dropped or the cabinet has been damaged.
- The product exhibits a distinct change in operation.
• Ventilation
Holes on the top and side of the modem provide ventilation thereby ensuring
reliable operation of the product by protecting it from overheating. Do not
block or cover these openings. Do not block the openings by placing the
product on a bed, sofa, rug, or other similar surface. Do not place the product
in a built-in installation such as a bookcase or rack unless proper ventilation is
provided or the manufacturer’s instructions have been adhered to.
Do not block the unit’s ventilation by placing objects on this product.
• Overloading
Do not overload wall outlets and extension cords as this can result in a fire or
electric shock.
• Unit Location
The AL200 has been certified as a mobile device as per FCC Section 2.1091.
In order to comply with the FCC RF exposure requirements the AL200 must
only be installed with approved antennas, and a minimum separation distance
of 20 cm must be maintained from the antenna to any nearby persons.
Customer Support
For technical support within North America, contact Motorola Customer Support at
(800) 544-0062.
For technical support outside of North America, refer to the following World Wide
Web site for your local Motorola representative:
http://www.mot.com/MIMS/Multimedia/cont
vii
Contents (continued)
Important Safety Notices ..............................................................................
vi
Chapter 1.
The Motorola AL 200 Multi-User Modem
About the Motorola AL 200 Multi-User Modem .........................................
Preparing for Installation ..............................................................................
Installing the AL 200 ....................................................................................
Installing Motorola’s Net Manager Software ...............................................
Training the Subscriber to Use the AL 200 ..................................................
1-2
1-4
1-7
1-12
1-13
Appendix A.
Specifications
Appendix B.
Connector Pinouts
Using the Ethernet Port ................................................................................
B-3
Appendix C.
Front and Back Panels
LEDs .............................................................................................................
Appendix D.
Regulatory Information
Glossary
ix
C-2
Contents (continued)
Chapter 1
The Motorola AL 200 Multi-User Modem
Overview
Introduction
This chapter introduces the Motorola AL 200 Multi-User Modem.
The Motorola AL 200 Multi-User Modem
1-1
About the Motorola AL 200 Multi-User Modem
About the Motorola AL 200 Multi-User Modem
Introduction
Motorola’s AL 200 Multi-User Modem enables you to access the Internet over
broadband cable and share resources in your own home network.
The AL 200 connects computers and other devices in a home or small office
network, and connects a your personal computers, workstations, or hub to the hybrid
fiber/coaxial (HFC) system. After you connect the AL 200 to the HFC network,
install Motorola’s net manager software on the computers, and make logical
connections, you can:
• Share local files and resources on the local network
• Access remote network services, including the Internet and the World Wide
Web, from multiple computers, simultaneously
Local Network Hub In conjunction with broadband Internet access, or without it, the AL 200 performs as
a network hub, enabling the computers in your home to communicate with one
another. The computers on the home network must each have suitable network
adapters (hardware) and network drivers (software). This guide explains how to
install the hardware and software, and describes the available options and
configurations.
Together, the AL 200’s networking and broadband Internet access features form a
solution for a home or office that is powerful, yet easy to set up and to use.
Components
Figure 1-1 shows the AL 200 and its packaged components.
Warning
For your safety, do not open the AL 200. There are no serviceable parts in the unit.
Refer all service to qualified service personnel.
Antenna
USB Male/Female
Cable
AL200
Multi-User Modem
Wall-Mount Transformer
Power-Supply
Motorola Home Net
Manager Software
CD-ROM
Straight-through
Ethernet Cable
Figure 1-1. Motorola AL 200 Multi-User Modem Components
1-2
The Motorola AL 200 Multi-User Modem
About the Motorola AL 200 Multi-User Modem
The Motorola AL 200 Multi-User Modem
1-3
Preparing for Installation
Preparing for Installation
Introduction
This section describes how to prepare for AL 200 installation.
Local
Requirements
Before installation, ensure that:
Computer or
Workstation
Requirements
Each computer or workstation must have hardware and software to establish a
connection with the AL 200.
• Your cable service includes broadband Internet access
• The service is functioning properly
• The coaxial cable is installed and active in the room where the AL 200 is
located
• The site chosen for the AL 200 installation is within an appropriate distance
of a power source and that the site is free of accumulated dust and environmental extremes
Before installation, decide which computer(s) to connect to the network and
determine the type of adapter to use for each computer. The next section provides
further information.
Verify that the components listed in this section for the computer’s network
connection type are installed. The network connection types are:
• RF/USB
• RF/PCMCIA
• Ethernet
1-4
The Motorola AL 200 Multi-User Modem
Preparing for Installation
RF/USB Connection
The computer connects to the AL 200 with a wireless Home RF USB adapter. This
device plugs into the computer’s USB connector and communicates on the RF
spectrum with the AL 200.
For an RF/USB connection, these components must be installed and available on the
computer:
Component
Description
Network driver
Software that lets you connect the AL 200 to the
communications software. This software is included
with the Home RF adapter.
TCP/IP network protocol
Software installed as part of the operating system that
lets computers communicate on a network
Wireless HomeRF USB
adapter
Device with an antenna and receiver that plugs into
USB port
Data application
Software that lets you connect to the Internet; for
example, a Web browser or FTP
USB port
Port that meets USB standards to connect to a USB
peripheral
Windows 98
Windows Networking
Operating system. Files from the system disk are
needed for the AL 200 installation.
Software for communication among computers
RF/PCMCIA Connection
The computer connects to the AL 200 with a wireless Home RF PCMCIA adapter.
This device plugs into the computer’s PCMCIA port and communicates on the RF
spectrum with the AL 200.
For an RF/PCMCIA connection, these components must be installed and available
on the computer:
Component
Description
Network driver
Software that lets you connect the AL 200 to the
communications software. This software is included
with the Home RF adapter.
TCP/IP network protocol
Software installed as part of the operating system that
lets computers communicate on a network
Wireless HomeRF
PCMCIA adapter
Device with an antenna and receiver; plugs into
PCMCIA port
Data application
Software that lets you connect to the Internet; for
example, a Web browser or FTP
PCMCIA port
Port that meets PCMCIA standards
Windows 95 or 98
Windows Networking
The Motorola AL 200 Multi-User Modem
Operating system. Files from the system disk are
needed for the AL 200 installation.
Software for communication among computers
1-5
Preparing for Installation
Ethernet Connection
The computer connects to the AL 200 with an Ethernet network adapter. This device
plugs into the computer’s Ethernet port (on the adapter card) and communicates on
the Ethernet cable with the AL 200.
For an Ethernet connection, these components must be installed and available on the
computer:
Component
Network driver
Software that lets you connect the AL 200 to the
communications software. This software is included
with the Ethernet adapter.
TCP/IP network protocol
Software installed as part of the operating system that
lets computers communicate on a network
Ethernet network adapter
Device with an antenna and receiver; plugs into
Ethernet port
Data application
Software that lets you connect to the Internet; for
example, a Web browser or FTP
Ethernet port
Network card port that meets Ethernet standards
Windows 95 or 98
Windows Networking
1-6
Description
Operating system. Files from the system disk are
needed for the AL 200 installation.
Software for communication among computers
The Motorola AL 200 Multi-User Modem
Installing the AL 200
Installing the AL 200
Introduction
This section explains how to:
• Make antenna and cable connections to the AL 200, and power it up—see the
“AL 200 Antenna Connection” section on page 1-7.
• Connect computers to the AL 200:
- To connect the AL 200 to each computer with a wireless Home RF adapter,
see the “Wireless Computer Connections” section on page 1-8
- To connect the AL 200 to one computer using a higher-rate Ethernet or
USB cable, see the “Wireline Computer Connections” section on page 1-10
Caution
Ensure that the AL 200 is disconnected from the power outlet during the cabling
procedure, until the step that instructs you to connect it.
To turn the AL 200 on or off, connect or disconnect the power cord at the wall outlet.
Do not disconnect using the connector at the back of the unit.
Do not operate a AL 200 with an object physically located on top. This may result in
damage to the product or injury to the person.
Use the AL 200 only with the appropriate Motorola power supply.
The AL200 has been certified as a mobile device as per FCC Section 2.1091. In
order to comply with the FCC RF exposure requirements the AL200 must only be
installed with approved antennas, and a minimum separation distance of 20 cm must
be maintained from the antenna to any nearby persons.
AL 200 Antenna
Connection
Follow these steps:
Steps to Connect the Antenna to the AL 200
Step
Action
Unpack the AL 200 antenna.
Screw the antenna connector into the AL 200 antenna connector until it is
snug.
Adjust the antenna elbow joint so that the antenna is vertical when the AL
200 is right side up.
The Motorola AL 200 Multi-User Modem
1-7
Installing the AL 200
AL 200 Cable
Connections
Folow these steps.
Steps to Connect Home RF on AL 200
Step
Action
Connect a coaxial cable to the CABLE connector on the back of the AL 200
and to the cable termination point.
Connect the power cable to the POWER connector on the back of the AL
200.
Plug the wall-mount power supply into a standard electrical outlet.
The LEDs blink in the power-up sequence, then the POWER, S1, S2, and
S3 LEDs remain on. The PC LED goes on, or flickers rapidly, when a
computer is detected on the line.
**/Open Issue/from Mike McGovern/ AL 200 must be registerd before PC
can receive IP address/ resolve w/ Mike
Wireless Computer Follow these steps for each computer:
Connections
Steps to Connect Home RF/USB or RF/PCMCIA Clients
Step
Action
Connect an RF antenna/adapter to the computer’s USB or PCMCIA port.
Refer to Figure 1-2.
The New Hardware Found dialog box appears; then the Add New Hardware
Wizard window.
Click Next. Follow the on-screen instructions. Windows installs the
network adapter driver and the required Windows files.
Note
This step requires the Windows disk. After loading files from the Windows
disk, remove the disk (before restarting the computer).
1-8
**Set the security ID ?/Mike/Tom
**Tell user not to follow Windws instructions--follow Symph instructions-for driver install??
The Motorola AL 200 Multi-User Modem
Installing the AL 200
What You See
Figure 1-2 shows examples of Home RF connections.
Laptop
Computer
Home RF
Antenna/Adapter
Home RF
Antenna/Adapter
Desktop Computer
Network Interface
PCMCIA Connector
Figure 1-2. RF Network Connections, USB and PCMCIA
Figure 1-3 shows AL 200 connections.
CABLE
ENET
POWER
RESET
Antenna
Coaxial Cable
Optional Ethernet Connection
to One Computer
To Directional
Coupler or
Splitter
(if necessary)
Wall-Mount Transformer Power Supply
Figure 1-3. AL 200 Multi-User Modem Cable Connections
The Motorola AL 200 Multi-User Modem
1-9
Installing the AL 200
Wireline Computer Follow these steps to connect the AL 200 to one computer with Ethernet or USB
Connections
cable:
Steps to Connect the AL 200, Wireline Ethernet or USB
Step
What You See
Action
Connect the AL 200 to your computer in one of these ways:
a)For an Ethernet connection, use a Category 5 UTP straight-through
Ethernet cable to connect the Ethernet port on the computer to the
ENET connector on the back of the AL 200.
b)For a USB connection, use a USB cable to connect the USB port on
the computer to the USB connector on the back of the AL 200.
Make the connections shown in Figure 1-4 and Figure 1-5.
**ISSUE/Check w/ Peg Burbank, Mike McGovrnre another step? Re
USB driver from CD-ROM/ install it/ add a step at appropriate location
Figures 1-4 and 1-5 show examples of Ethernet connections.
Home RF
Antennae/Adapter
Desktop Computer
AL200
To Cable
Service
Directional
Splitter
or Coupler
Converter
Laptop
Computer
Home RF
Antenna/Adapter
Network Interface
PCMCIA Connector
Television
Figure 1-4. Cable Service and Home Network Connections,
Ethernet/USB
1-10
The Motorola AL 200 Multi-User Modem
Installing the AL 200
CABLE
ENET
POWER
RESET
Antenna
Coaxial Cable
Optional Ethernet Connection
to One Computer
To Directional
Coupler or
Splitter
(if necessary)
Wall-Mount Transformer Power Supply
Figure 1-5. AL 200 Multi-User Modem Cable Connections
The Motorola AL 200 Multi-User Modem
1-11
Installing Motorola’s Net Manager Software
Introduction
When you have completed the tasks in the previous section, perform the following
steps to install the net manager software on each computer in the local network.
Procedure
Follow these steps to install the net manager software on each computer:
Step
Action
Ensure that Microsoft NetBUI and Microsoft Windows Networking are
installed on the computer.
Insert the Motorola Net Manager Software CD-ROM into the CD-ROM
drive.
If auto-run is enabled, the net manager setup program begins. Otherwise,
double click Motorola Net Manager→ setup.exe on the CD-ROM.
If you need help during the installation, press F1.
Follow the setup instructions, which include restarting the computer.
When the computer has been restarted, the Net Manager Device Sharing
view appears. This occurs only after the first restart.
Optionally, continue with these steps to change the access to one or more
resources. The default setting for each resource is Not Shared.
Close the Network Sharing window.
Locate a resource, such as a CD-ROM drive or a printer, in the list.
Click an access setting. For details on access settings, refer to the
“Sharing Resources on a Computer” topic in the net manager on-line
Help.
Click Apply or OK.
Optionally, assign access settings to other resources.
The Net Manager icon appears in the Windows system tray.
You can run Net Manager to update access settings by double clicking
the Net Manager icon on the Windows Desktop or selecting Start→
Programs→ Motorola Network Manager→ Network Manager.
The Network View appears. You can view the devices on the network.
To update access settings, click the Device Sharing tab.
Training the Subscriber to Use the AL 200
Training the Subscriber to Use the AL 200
Introduction
This section explains how to deliver basic training to the cable subscriber during the
installation visit, and lists the materials to leave with the subscriber.
It is extremely important to train the cable subscriber carefully. Providing clear
instruction during the installation visit will reduce the number of service calls to
subscribers’ homes.
What to Teach the
Subscriber
Explain and demonstrate the following to the subscriber:
Starting the Net
Manager
Run net manager by double clicking its icon or selecting Start→ Programs→
Motorola Network Manager→ Network Manager.
Opening the Net
Manager On-Line
Help
Open the Net Manager on-line Help by double clicking the Help icon
in the upper right corner of the net manager window.
Troubleshooting
Check network connections by running net manager and clicking the Link Test tab.
•
•
•
•
How to start the net manager application
How to open the net manager on-line Help
Troubleshooting local connections and common problems
Contacting Technical Support
Troubleshoot problems by noting changes in the color of the net manager system tray
icon. Refer to the “Troubleshooting” topic in the on-line Help.
Contacting
Technical Support
If you cannot resolve a problem, contact Motorola Customer Support, as described in
the “Customer Support” section in the front of this manual.
Materials for the
Subscriber
At the end of the installation visit, leave the following materials for the subscriber:
• Motorola Net Manager Software CD-ROM
Net Manager CD-ROM
Figure 1-6. Materials for the Cable Subscriber
The Motorola AL 200 Multi-User Modem
1-13
Training the Subscriber to Use the AL 200
1-14
The Motorola AL 200 Multi-User Modem
Appendix A
Specifications
Introduction
This section describes the specifications for the Motorola AL 200 Multi-User
Modem.
IP and MAC Layer
Specifications
This table describes the IP and MAC layer specifications for the AL 200.
IP and MAC Layer
Physical Layer
Specifications
Specification
MAC performance
16 CPE MAC addresses and eight
downstream encryption SIDs
Upstream bandwidth request
Four independent upstream transmit
controllers
Multicast
256 multicast groups
Filtering
272 IP filters
This table describes the Physical layer specifications for the AL 200.
Physical Layer
Property
Specification
Upstream Transmitter
Downstream Receiver
Impedance, return loss
75 Ohms nominal, >6 dB
75 Ohms nominal, >6 dB
Frequency range
5 - 42 MHz
91-857 MHz
Channel assignment
Variable center frequencies Standard, IRC, and HRC
Channel bandwidth
200, 400, 800, 1600, and
3200 KHz
6 MHz for 64QAM and
256QAM
This table describes the physical specifications for each modulation mode.
Physical Layer
Property
Specification
Transmitter
16QAM
Dynamic range
Symbol rate
Specifications
+8 to +55 dBmV
Receiver
QPSK
+8 to +58 dBmV
64QAM
256QAM
-20 to +15 dBmV
-15 to +15 dBmV
Typically -25 to
+15 dBmV
Typically -20 to
+15 dBmV
160, 320, 640, 1280, 160, 320, 640, 1280, 5.056941 Msym/s 5.360537 Msym/s
2560 Ksym/s
2560 Ksym/s
A-1
Raw signaling rate 6.4 to 10.24 Mbps
.32 to 5.12 Mbps
Information rate
FEC
Physical and
Environmental
30.34 Mbps
42.88 Mbps
26.97 Mbps
38.81 Mbps
Programmable Reed-Solomon block code Concatenation of Reed-Solomon block
code and Trellis code; ITU J.83-B;
DOCSIS RFI Sec 4.3.2
This table describes the physical and environmental specifications.
Physical
Specification
Dimensions
1.7 in. (H) x 6.8 in. (W) x 10 in. (D)
(43.2 mm x 172.7 mm x 254 mm)
Weight
1.8 pounds (.818 kg)
Front panel LEDs
• POWER
• S1 (System connectivity)
• S2 (System connectivity)
• S3 (System connectivity)
• PC (CPE connectivity)
• TRANSMIT (Transmit data)
• RECEIVE (Receive data)
• MESSAGE (programmable message)
Back panel interfaces, connectors and
controls
• IEC 169-25 RF 75 Ohm threaded
coaxial, Type F
• 120VAC power
• -->**this is not correct/per Peg
• Reset button, time-triggered dual
function:
– Reset
– Factory setting
• USB v1.0
•
**need specs for antenna connector
Operating temperature
A-2
0 C to +40o C (+32o F to +104o F)
Specifications
Regulatory and
Power
This table describes the regulatory and power specifications.
Regulatory
Standards
compliance
Wall-mount Transformer Power Supply
Specification
DOCSIS 1.0
Ethernet/IEEE 802.3
ITU J83-B
Safety
UL 1950
CSA C22.2 No. 950
IEC 950
EN 60950
AS/NZS 3260
**last three may be incorrect/Randy Weaner/info
Emissions
FCC Part 15, Class B
CISPR 22, Class B
EN 55022, Class B
AS/NZS 3548, Class B
**last four may be incorrect/Randy Weaner/info
Immunity
EN 50082-1
Power Input
Specifications
Power supply, input
120Vac +/-10%, 60 Hz +/- 5%, output +12Vdc at 1.2 A
Auto-ranging 100-240Vac, 47-63Hz
AC/DC power
adapter, output
External Wall-mount Power Supply: Class 2 Type with
NEMA 1-15 plug
External AC/DC power adapter: Class II 2-wire type with
IEC320-C8 inlet, uses country specific power cord with
IEC320-C7 connector
Modem
+12Vdc at 1.2 A
A-3
Appendix B
Connector Pinouts
Pinouts
Introduction
This appendix describes the connector pinout requirements for the Motorola AL 200
Multi-user Modem.
Ethernet Port
Connector
The Ethernet (ENET) port on the rear panel of the modem is an 8-pin modular
connector. The connector conforms to the IEEE standard for 10/100BaseT access as
defined in 802.3i.
Ethernet Port
This table describes the pinouts for the Ethernet port on the modem. For examples,
refer to the “Using the Ethernet Port” section on page B-3.
Pin
Signal
+Receive Data
-Receive Data
+Transmit Data
4-5
Not Used
-Transmit Data
7-8
Not Used
Coax Cable
Connector
The coax cable connector uses the following pinouts:
USB Port
Connector
The universal serial bus (USB) connector on the rear of the modem is a standard
USB connector. The connector conforms to the USB specifications.
USB Port
This table describes the pinouts of the USB port:
• Center conductor — signal
• External conductor — ground
Pin
Connector Pinouts
Signal
+5V
Data Negative
Data Positive
Ground
B-1
Power Connector
The power supply terminates at a two conductor barrel connector on the back of the
AL 200.
This table describes the pinouts for the power connector.
Pin
B-2
Signal
Outer Contact
Ground
Inner Contact
+12vdc (nominal)
Connector Pinouts
Using the Ethernet Port
Using the Ethernet Port
Introduction
This section shows examples of devices that can be connected to the AL 200 using
an Ethernet connection and the required cabling.
When You Connect Figure B-1 shows the connection between a cable modem ENET (10/100BT) port
the AL 200 to a PC and the Ethernet LAN PC port using a Cat 5 UTP straight-through Ethernet cable.
The wiring diagram is included.
Straight-through
cable
Computer
Wiring Diagram
Multi-User Modem
Modem
PC
Pins 4, 5, 7, and 8 are unused.
Figure B-1. Modem to PC Connection
When You Connect Figure B-2 shows a connection using crossover Ethernet cable (not supplied)
the AL 200 to a Hub between the AL 200 and a hub. The wiring diagram for the crossover cable is
included.
Note
If the configuration includes an intelligent hub or a hub with an intelligent port,
you may not need crossover cable. Refer to the hub documentation.
Straight-through cable
Hub
PC
PC
Crossover cable
PC
Wiring Diagram
Modem
Multi-User Modem
Hub
Pins 4, 5, 7, and 8 are unused.
Figure B-2. Modem to Hub Connection
Connector Pinouts
B-3
Using the Ethernet Port
When You Connect Figure B-3 shows a connection between the AL 200 and a customer premise router
the AL 200 to a
using a crossover Ethernet cable (not supplied). The wiring diagram is included.
Customer Premise
Customer Premise Router
Crossover cable
Router
PC
Multi-User Modem
PC
PC
Wiring Diagram
Modem
Hub
Pins 4, 5, 7, and 8 are unused.
Figure B-3. Modem to Customer Premise Router Connection
***MIkeMcg/wants to represent bridging here? Get sketch from him; have Tim
Kinch update the graphic; paste it in.
Note
This set-up may require configuration by the service provider.
B-4
Connector Pinouts
Appendix C
Front and Back Panels
Introduction
This appendix describes the AL 200 front and back panel lights and buttons.
Front Panel
Figure C-1 shows the front panel of the AL 200. The LEDs indicate connectivity
status and also act as a diagnostic aid. Refer to the “LEDs” section on page C-2.
MS
RD
TD
PC
S3
S1
S2
PO W
ER
Text and graphics on
front-panel label may
vary with multimedia
vendor.
Figure C-1. Al 200 Front Panel
Back Panel
Figure C-2 shows the back panel of the AL 200.
Coaxial Connector,
Type F
CABLE
Ethernet LAN port
Power Connector
ENET
POWER
ANTENNA
RESET
Reset
Reserved for
Button
Motorola use
USB Connector
Antenna Connector
Figure C-2. AL 200 Back Panel
Front and Back Panels
C-1
LEDs
LEDs
Introduction
The AL 200 front-panel LEDs offer diagnostic and connectivity status information.
This section lists the LED states.
LEDs
This table describes the AL 200’s front-panel LEDs. For information on LED status
during modem states of operation, refer to the Diagnostics section in the Motorola io
cable modem DM 100 Installation Manual.
-->>>**this statemnt comes from the older PL 100 manual. COnfirm with Peg
Burbank or remove. Same for the same statement, next page.
Cable Modem LEDs
LED
C-2
Name
Indicates
Power
Power
Whether electrical power is applied to the
modem
S1
Status 1
S2
Status 2
The modem state (refer to the “S1, S2, and S3
LEDs” section on page C-3)
S3
Status 3
PC
Personal
Computer
Whether the cable modem is connected to
customer premise equipment (CPE)
TRANSMIT Transmit Data
That the multi-user modem is transmitting data
(on the HPNA port, Ethernet port, or both) to a
computer or CPE on the home network
RECEIVE
Receive Data
That the multi-user modem is receiving data
(on the HPNA port, Ethernet port, or both) from
a computer or CPE on the home network
MESSAGE
Message
The function of this LED is defined by the cable
system operator
Front and Back Panels
LEDs
S1, S2, and S3
LEDs
This table describes the status LEDs for the AL 200 during initial power-up. For
information on changes in LEDs that indicate failures or other problems, refer to the
Motorola io cable modem DM 100 Installation Manual.
S1, S2, and S3 LED Status
S1 LED
Front and Back Panels
S2 LED
S3 LED
State
Flashing
Flashing
Off
Power-up testing
Flashing
Flashing
On
Power-up failure
Flashing
Flashing
Flashing
Boot load failure
Flashing
Off
Off
Scanning for downstream data channel
Flashing
On
Off
Locked on downstream channel
Flashing
On
On
Performing ranging function
Flashing
Off
On
Obtaining upstream channel configuration
Off
Flashing
Off
Establishing IP connectivity
On
Flashing
Off
Establishing time of day
On
Flashing
On
Transferring modem configuration from the
TFTP Server
Off
Off
Flashing
Downloading software from the TFTP Server
On
Off
Flashing
Registering
On
On
Flashing
Establishing Baseline Privacy encryption
On
Off
Off
Network access is disabled
Off
On
Off
Changing upstream channel
On
On
Off
Changing upstream channel with ranging
Off
Off
On
Changing downstream channel
On
Off
On
Software download initiated by SNMP
On
On
On
Fully registered and operating normally
C-3
Appendix D
Regulatory Information
Regulatory
Marking
Type-approval labels indicate compliance with country regulations. AL 200s carry
country-specific labels to indicate compliance.
Canadian Emission Statements
AL 200: This Class B digital apparatus meets all requirements of the Canadian
Interference-Causing Equipment Regulations.
Cet appareil numérique de la classe B respecte toutes les exigences du Règlement sur
le materiél brouilleur du Canada.
Product Safety
Regulatory
Marking
Regulatory Information
Regulatory labels indicate compliance with safety standards. AL 200s. Modems and
enclosures carry one of the following labels:
UL, CSA
D-1
D-2
Regulatory Information
Glossary
10BaseT
Unshielded, twisted pair cable with an RJ-45 connector used with an Ethernet
LAN. “10” indicates the speed: 10Mbps; “Base” means that it is baseband
technology; and “T” means that it is a twisted pair cable.
16 QAM
Modulation scheme used by a modem transmitter. QAM uses amplitude and
phase modulation to encode multiple bits of data in one signaling element, thus
achieving higher data transfer rates than amplitude or phase modulation alone.
16 QAM encodes four bits per symbol as one of sixteen amplitude and phase
combinations. 16 QAM refers to the number of discrete phase/amplitude states
that represent data bits.
64 QAM
A modulation scheme used by a cable modem receiver. 64 QAM uses
amplitude and phase modulation to encode multiple bits of data in one
signaling element. 64 QAM encodes 6 bits per symbol as one of 64 amplitude
and phase combinations.
256 QAM
A modulation scheme used by a cable modem receiver. 256 QAM uses
amplitude and phase modulation to encode multiple bits of data in one
signaling element. 256 QAM encodes 8 bits per symbol as one of 256 possible
amplitude and phase combinations.
bandwidth
The range of frequencies that can be passed over a channel.
bridge
A device used to connect two LANs that use similar LAN protocols. The
bridge acts as an address filter, picking up packets from one LAN that are
intended for a destination on another LAN and passing them on. The bridge
does not modify the contents of a packet and does not add anything to the
packet. The bridge operates at Layer 2 of the Open System Interconnect (OSI)
model.
broadband
Network technology that multiplexes multiple, independent network carriers
onto a single cable. The technology is used to carry voice, video, and data over
a cable.
broadcast
Transmission to two or more devices at the same time, such as over network or
by satellite; protocol mechanism by which group and universal addressing is
supported.
Cable Modem
Termination System
(CMTS)
A device located in the cable system headend that interfaces the hybrid
fiber/coaxial (HFC) network to local or remote Internet Protocol (IP) networks.
Motorola’s CMTS (Cable Router) provides connections between IP hosts and
cable modems, and between the cable modems and the connected subscribers.
It also manages cable modem bandwidth.
coaxial cable (coax)
Cable that consists of an inner conductor surrounded by insulation. An outer
conductor is wrapped around the insulation, which is typically covered by
plastic. Coaxial cable has large bandwidth and can support transmission over
long distances.
Glossary-1
communication network
A facility that provides a data transfer service among the equipment attached to
a network.
Customer Premise
Equipment (CPE)
Equipment at the end user premises. This equipment may be provided by the
end user or service provider.
DOCSIS
The Data-Over-Cable Service Interface Specifications.
downstream
The direction of data flow from a CMTS to a cable modem.
Dynamic Host
Configuration Protocol
(DHCP)
A protocol that allows dynamic assignment of IP addresses to other computers.
DHCP is also used to assign IP addresses to cable modems. This protocol can
also provide other parameters such as a TFTP server address and TFTP path
and filename.
encryption
A method of encoding data.
encryption key
A key that is used to encrypt data to deter unauthorized interception.
Ethernet
A networking standard running at speeds of 10 Mbps (10BaseT) or 100 Mbps
(100BaseT).
Ethernet address
The physical address of the Ethernet port. It is also known as a MAC address or
a NIC address.
Ethernet card
A card that resides in an expansion slot of a PC. It can be a built-in Ethernet
port or an Ethernet port with a 10BaseT adapter. The Ethernet card takes data
from the computer, converts it to serial data, puts it into a packet format, and
sends it over the 10BaseT or 100BaseT LAN.
The Ethernet card has a 48-bit address burned into the ROM. It is also referred
to as a Network Interface Card (NIC).
event
A message generated by a cable modem to inform an operator that something
has occurred.
F connector
Connector on a cable modem that connects it to the cable system.
File Transfer Protocol
(FTP)
A protocol that allows users to log into a remote system, identify themselves,
list remote directories, and copy files to and from the remote machine. FTP
understands a few basic file formats. It is more complex than Telnet in that it
maintains separate TCP connections for control and data transfer.
firewall
A method of preventing a network from unauthorized access by filtering access
packets. This is done by the software on a cable modem or a dedicated server.
Forward Error
Correction (FEC)
A technique for correcting errors incurred in transmission over a
communications channel by the receiver, without requiring the retransmission
of information by the transmitter; typically it involves a convolution of the
transmitted bits and the appending of extra bits, using a common algorithm by
the receiver and transmitter.
headend
The central office of the service provider where cable signals originate.
Home Phone Networking Industry organization that defines a set of standards for home phoneline
networking technologies (www.homephna.org).
Alliance (HPNA)
Glossary-2
hub
A device used to connect multiple devices to a LAN or similar structure to a
headend.
Hybrid Fiber/Coaxial
(HFC) network
A network where the trunk of the cable plant is fiber technology. The fiber is
connected to a coaxial cable and the signal is converted so that it is compatible
to that media. The coaxial cable runs through the branches of the network and
is dropped into the subscriber’s home.
Initial Maintenance (IM) A contention interval that provides an opportunity for modems to join a
network.
Internet
A collection of interconnected networks used for world-wide communications.
These networks use the TCP/IP protocol.
IP address
A 32-bit address assigned to every device in a network. An IP address has two
parts: a network address and a host address. Each network is assigned an
address by a governing agency, and each company administrator assigns an
address to each host. Network addresses can be 8, 16, or 24 bits long
corresponding to classes A, B, and C, respectively, with the host address
occupying the remainder of the 32 bits. If a service provider uses Class C
addresses, for example, the first 24 bits are the network address and 8 bits are
used for host addresses.
An IP network address can be further divided by using classless addressing or
subnetting. See subnet.
IP filtering
IP filtering allows IP packets to be dropped according to information in the
packet, such as its source or destination address. IP filtering can prevent
subscribers from accessing headend servers, enforce subscribers to log on to
the cable network, enforce separately-billed service packages for data, and
provide group access control for IP Multicast.
IP network
A group of IP routers that route IP datagrams. These routers are sometimes
referred to as internet gateways. Single users access the IP network from a host.
Each individual network in the Internet includes some combination of hosts
and IP routers.
Local Area Network
(LAN)
A privately owned and administered network for data communications. A LAN
provides a relatively high bandwidth over a limited geographical area for
communication among the attached devices, typically personal computers and
servers. Communication is usually accomplished by broadcasting on a
connectionless basis over a shared media.
MAC Layer Domain
A collection of upstream and downstream channels for which a single Media
Access Control (MAC) Allocation and Management Protocol operates. Its
attachments include one CMTS and a number of cable modems.
Maximum Transmission
Unit (MTU)
The largest amount of data that can be transmitted in one discrete message on a
physical network. MTUs can be user configurable.
Mbps
Mega (million) bits per second. A rate of data transfer.
Glossary-3
Media Access Control
Address (MAC)
The hardware address usually “burned in” on a ROM for any device connected
to the network. Ethernet cards in the subscriber PC have a MAC address. The
cable modem and the network interface card on a CMTS have MAC addresses.
The MAC address is used by the link layer protocol to forward packets “one
hop at a time” between the host and the first router and between the first router
and the next router and so on through the network until the packet arrives at its
final destination. In contrast, an IP address is a “source” to “destination”
address. It does not include all the intermediate hops.
Media Access Control
(MAC) sublayer
The part of the data link layer that supports topology-dependent functions and
uses the services of the physical layer to provide services to the logical link
control (LLC) sublayer.
MHz
Mega Hertz. A measure of radio frequency - millions of cycles per second.
modem registration
The process by which a cable modem makes itself known to a CMTS. The
modem configuration and authorization are verified and the COS is negotiated.
network driver
A file packaged with the Ethernet card that connects the card to the PC
communications software.
network layer
Layer 3 in the Open System Interconnection (OSI) architecture. This layer
provides services to establish a path between open systems.
packet data
Each IP datagram consists of one or more packets. A packet has a header that
contains the source address and a destination address for routing (and other
housekeeping information). Since both the header and the data area can vary in
length, an IP datagram itself is variable in length.
PING
A program that tests host reachability by using the Internet Control Message
Protocol (ICMP) echo request and waiting for a reply. It is initiated and
verified from an IP device.
physical layer (PHY)
Layer 1 in the Open System Interconnection (OSI) architecture. It is the layer
that provides services to transmit bits or groups of bits over a transmission link
between open systems. It includes the electrical, mechanical, and handshaking
procedures.
Physical Media
Dependent (PMD)
Sublayer
A sublayer of the physical layer that transmits bits or groups of bits over
particular types of transmission links between open systems. It entails the
electrical, mechanical, and handshaking procedures.
piggybacking
A process that occurs when a modem transmits data and requests additional
bandwidth at the same time.
Quadrature Amplitude
Modulation (QAM)
Modulation scheme that uses both amplitude and phase modulation to encode
multiple bits of data in one signaling element, thus achieving higher data
transfer rates than just amplitude or phase modulation alone.
However, the signal is more prone to errors caused by noise and so requires a
better quality transmission circuit than QPSK (lower noise and therefore higher
Carrier to Noise Ratio (CNR) value).
Glossary-4
Quadrature Phase Shift
Key (QPSK)
Modulation that sends two bits of information per symbol period with one bit
90 degrees out of phase with the other bit being sent. There are only four
constellation points. These points represent the four combinations that can take
place and are represented by the coordinates:
(0,0 - 0,1 - 1,0 - 1,1).
DQPSK modulation states that the information bits are differentially encoded
prior to being modulated.
quality of service
The accumulation of the cell loss, delay, and delay variation incurred by cells
belonging to a connection.
radio frequency (RF)
Signals that are used by a cable modem transmitter and receiver to send data
over the HFC network. A radio frequency carrier is modulated to encode the
digital data stream for transmission across the cable network.
return loss
A measurement of the quality of the match of the device to the cable system.
Return loss is the ratio of the amount of power reflected by the device.
RJ-45
An 8-pin modular connector on a Motorola cable modem or CMTS that
connects the modem to a PC or external hub. Used as a 10BaseT or 100BaseT
standard connector.
router
A device used to connect two subnetworks at the network layer. These
subnetworks may be similar. An internet protocol is used in each router and in
each host of the network. A router operates at Layer 3 of the OSI model.
service provider
A company providing cable data services to subscribers.
splitter
A piece of coax equipment that divides a single spectrum into multiple
identical spectrums.
TCP/IP
A set of protocols that provides the standards and rules for controlling and
managing communications between networks. TCP/IP has become the
worldwide standard for internetworking and is the basis for the worldwide
Internet. TCP/IP stands for Transmission Control Protocol/Internet Protocol.
There are related protocols, services, and applications that are part of the
TCP/IP protocol suite.
TCP/IP Communications Software in the subscriber PC that processes packets through the
communication layers. The TCP/IP communication stack handles the
Stack
communications between the subscriber’s application, for example, an Internet
browser, and servers on the Internet.
Transmission Control
Protocol (TCP)
A reliable transport protocol of the Internet suite. TCP is a connection-oriented
protocol that uses IP to transmit the data across the network. TCP is an
end-to-end protocol defining the rules and procedures for exchanging
information between communicating partners (hosts). Transmission Control
Protocol resides in the Transport Layer of the OSI stack. It works on top of
connectionless Network Layer IP. TCP segments messages into datagrams,
uses a timer to keep track of outstanding datagrams, retransmits datagrams if
requested, and performs error checking on incoming datagrams.
Universal Serial Bus
(USB)
A device that allows PCs to connect to peripherals, eliminating the need for an
Ethernet Card.
Glossary-5
upstream
The direction of data flow from a cable modem subscriber to a CMTS.
World Wide Web
An interface to the Internet. You use the World Wide Web to navigate and
hyperlink to other information on the Internet.
Glossary-6
A
access setting 1-12
back panel A-2, C-1
cable connector B-1
cable subscriber 1-13
caution
disconnected 1-7
modem connection and disconnection 1-7
operation with object on top of cable modem 1-7
power supply 1-7
caution description v
CD-ROM 1-12
CISPR D-1
components 1-2
connecting multiple PCs to modem B-3
connections C-1
connectors
async B-1
cable B-1
PHONE (HPNA) B-2
CSA D-1
data application 1-5, 1-6
diagnostic information C-2
disconnecting a cable modem 1-7
driver, network 1-5, 1-6
ENET connector B-1
ENET port B-3
environmental specifications A-2
Ethernet 1-6
Ethernet cable
connecting 1-10
Ethernet connections 1-10
FCC D-1
front panel C-1
HPNA (PHONE) connector B-2
installation
requirements 1-4
tasks 1-4
installing net manager software 1-12
L
LED states C-2
LEDs A-2, C-1
MESSAGE LED C-2
multi-user modem
front and back panels C-1
net manager software
installing 1-12
network driver 1-5, 1-6
on-line Help 1-13
PC LED C-2
PCMCIA 1-5
PHONE (HPNA) connector B-2
physical specifications A-2
pinouts
ENET port B-1
modem to customer premise router B-4
modem to hub B-3
modem to PC B-3
power connector B-2
power specifications A-3
RECEIVE LED C-2
regulatory specifications A-3
requirements 1-4
resource 1-12
S1, S2, S3 LEDs C-2
safety notices vi
safety standards D-1
specifications A-1
IP and MAC layer A-1
modulation mode physical A-1
physical layer A-1
physical/environmental A-2
power A-3
regulatory/power A-3
subscriber 1-13
TCP/IP network protocol 1-5, 1-6
temperature A-2
TRANSMIT LED C-2
troubleshooting 1-13
TUV D-1
UL D-1
USB cable
connecting 1-10
USB port 1-5
warning
service 1-2
warning description v
Windows 1-5, 1-6
Wireless HomeRF PCMCIA adapter 1-5
Wireless HomeRF USB adapter 1-5

---

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