Cisco Systems XSCLCR15 4.9 GHz WMIC Mini PCI Module User Manual MRhBookb

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Final Draft - Cisco Conf idential
Cisco 3200 Series Mobile Access Router
Hardware Reference
July 14, 2005
Corporate Headquarters
Cisco Systems, Inc.
170 West Tasman Drive
San Jose, CA 95134-1706
USA
http://www.cisco.com
Tel: 408 526-4000
800 553-NETS (6387)
Fax: 408 526-4100
Customer Order Number: 85-4201-06
Text Part Number: OL-5816-04
Final Draft - Cisco Conf idential
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WARRANTY OF ANY KIND, EXPRESS OR IMPLIED. USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS.
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between Cisco and any other company. (0401R)
Cisco 3200 Series Mobile Access Router Hardware Reference
Copyright © 2005, Cisco Systems, Inc.
All rights reserved.
CONTENTS
Introduction to the Cisco 3200 Series Mobile Access Router Cards
Audience and Scope ii
Related Documentation ii
Obtaining Documentation iv
Cisco.com iv
Ordering Documentation iv
Documentation Feedback v
Tools and Web Sites v
Obtaining Additional Publications and Information
vi
Cisco 3200 Documentation CD vii
System Requirements for the CD vii
Printing Documents from the CD viii
Conventions
viii
Obtaining Technical Assistance xii
Cisco Technical Support Website xii
Submitting a Service Request xiii
Definitions of Service Request Severity
CHAPTER
Mobile Access Router Card (MARC)
xiii
1-1
MARC Component Systems 1-2
MARC Router Signals 1-2
10/100 Fast Ethernet Signals on the MARC
Console, Auxiliary, LED Signals, and Power
MARC Power Requirements 1-6
CHAPTER
Fast Ethernet Switch Mobile Interface Card (FESMIC)
Auto-Negotiation and Auto-MDI/MDIX
MAC Address Allocation 2-2
1-3
1-4
2-1
2-2
FESMIC Component Systems 2-3
Signals for the FESMIC 2-4
10/100 Fast Ethernet Signals on the FESMIC
FESMIC LED Signals 2-5
FESMIC Rotary Switch Positions 2-7
2-4
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Contents
CHAPTER
Serial Mobile Interface Card (SMIC)
3-1
SMIC Component Systems 3-2
Signals for the SMIC 3-3
Serial Cable Length 3-3
SMIC LED Signals 3-4
4-Port SMIC Rotary Switch Positions
CHAPTER
Wireless Mobile Interface Card (WMIC)
3-4
4-1
WMIC Component Systems 4-1
Signals for the WMIC 4-2
10/100 Fast Ethernet Signals on the WMIC
WMIC Multifunction Header Signals 4-4
LED Behavior 4-5
Antenna Connector 4-6
4-3
Key Features 4-6
2.4-GHz (802.11b/g) Features 4-6
4.9-GHz (US Only, Public Safety) Features 4-7
Throughput 4-8
Modulation 4-8
Receive Sensitivity 4-8
2.4-GHz (802.11b/g) WMIC and the 4.9-GHz (US Only, Public Safety) Features
MAC Address Allocation 4-10
Power Requirements
Related Documentation
4-9
4-10
4-10
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Introduction to the Cisco 3200 Series
Mobile Access Router Cards
The Cisco 3200 Series Mobile Access Routers include a combination of mobile
interface cards. The following cards are available from Cisco:
•
Mobile Access Router Card (MARC)
•
Fast Ethernet Switch Mobile Interface Cards (FESMICs)
•
Serial Mobile Interface Cards (SMICs)
•
Wireless Mobile Interface Cards (WMICs)
A completed router includes a third-party power source, cables, and an enclosure,
that are assembled and installed by your system integrator. This document
describes the cards provided by Cisco Systems, Inc. used to assemble
Cisco 3200 Series Mobile Access Routers. For information regarding the specific
hardware configuration of your router, contact your vendor.
The following chapters provide the information that you need to understand the
physical components of a completed Cisco 3200 Series Mobile Access Router. It
is not intended as assembly or repair instructions.
Chapter 1, “Mobile Access Router Card (MARC),” describes the Mobile Access
Router Card (MARC) layout, ports, and buses.
Chapter 2, “Fast Ethernet Switch Mobile Interface Card (FESMIC),” describes
the Fast Ethernet Switch Mobile Interface Cards (FESMICs) layout, ports, and
buses.
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Chapter 3, “Serial Mobile Interface Card (SMIC),” describes the Serial Mobile
Interface Cards (SMICs) layout, ports, and buses.
Chapter 4, “Wireless Mobile Interface Card (WMIC),” describes the Wireless
Mobile Interface Cards (WMICs) layout, ports, and buses.
Audience and Scope
The audience for this document is the system administrator (SA), system
integrator (SI), and system engineer (SE). They are experts, with networking
industry training and experience. We assume that users are familiar with the
terminology and concepts of the PC-104, IOS, and Mobile IP networking.
The SA, SI, or SE uses this document to understand how the router hardware is
connected to peripheral devices and to perform minor troubleshooting on the
cards. Although they might not be specifically identified as SAs, SIs, or SEs, all
users of this documentation are assumed to have comparable skills and
knowledge.
Related Documentation
You can access these documents on the Documentation page on Cisco Connection
Online (CCO) at www.cisco.com. The following documentation is available at the
http://www.cisco.com/en/US/products/hw/routers/ps272/tsd_products_support_s
eries_home.html
URL:
•
Release Notes for the Cisco 3200 Series Mobile Access Routers
(78-13975)—Provides information on accessing documentation and
technical assistance for the Cisco 3200 Series Mobile Access Router.
•
Cisco 3200 Series Wireless MIC Software Configuration Guide1
(OL-7734)—This document. It provides example procedures for using the
IOS commands to configure Wireless Mobile Interface Cards (WMICs).
•
Configuration Guide for the Cisco 3200 Series Mobile Access
Router1—Example procedures for using the IOS commands to configure the
Mobile Access Router Card (MARC) in Cisco 3200 Series routers.
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•
Cisco 3200 Series Mobile Access Router Hardware Reference1
(OL-5816)—descriptions of the Cisco MIC I/O cards found in Cisco 3200
Series routers.
•
Cisco 3200 Series Mobile Access Router Reference Sell Document1
(OL-3880)—An overview of the reference sell program and components for
the Cisco 3200 Series router.
•
Regulatory Compliance and Safety Information for the Cisco 3200 Mobile
Access Router (78-16930)—Regulatory compliance and safety information.
1.
Also available on the platform-specific CD-ROM.
The Release Notes for the Cisco 3250 Mobile Router lists the enhancements to
and caveats for Cisco IOS releases as they relate to the Cisco 3200 Series router
can be found at:
http://www.cisco.com/en/US/products/sw/iosswrel/products_ios_cisco_ios_soft
ware_releases.html or
http://www.cisco.com/en/US/products/sw/iosswrel/ps5012/ps4629/index.html
For information about using Cisco IOS software to configure SNMP, refer to the
following documents:
•
The “Configuring SNMP Support” chapter of the Cisco IOS Configuration
Fundamentals Configuration Guide, Release 12.2
•
The “SNMP Commands” chapter of the Cisco IOS Configuration
Fundamentals Command Reference, Release 12.2
For information about using Cisco IOS software to configure SNMP MIB
features, refer to the appropriate documentation for your network management
system.
For information on configuring Mobile IP using Cisco IOS software, refer to the
following documents:
•
The “Configuring Mobile IP” chapter of the Cisco IOS IP Configuration
Guide, Release 12.2
•
The “Mobile IP Commands” chapter of the Cisco IOS IP Command
Reference, Volume 1 of 3: Addressing and Services, Release 12.2
Related documents from the Cisco TAC Web pages include:
•
Antenna Cabling
http://www.cisco.com/warp/public/102/wlan/antcable.html
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Obtaining Documentation
Cisco documentation and additional literature are available on Cisco.com. Cisco
also provides several ways to obtain technical assistance and other technical
resources. These sections explain how to obtain technical information from Cisco
Systems.
Cisco.com
You can access the Cisco website at this URL:
http://www.cisco.com
You can access international Cisco websites at this URL:
http://www.cisco.com/public/countries_languages.shtml
Ordering Documentation
You can order Cisco documentation in these ways:
•
Registered Cisco.com users (Cisco direct customers) can order Cisco product
documentation from the Ordering tool:
http://www.cisco.com/en/US/partner/ordering/index.shtml
•
Nonregistered Cisco.com users can order documentation through a local
account representative by calling Cisco Systems Corporate Headquarters
(California, USA) at 408 526-7208 or, elsewhere in North America, by
calling 1 800 553-NETS (6387).
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Documentation Feedback
You can send comments about technical documentation to bug-doc@cisco.com.
You can submit comments by using the response card (if present) behind the front
cover of your document or by writing to the following address:
Cisco Systems
Attn: Customer Document Ordering
170 West Tasman Drive
San Jose, CA 95134-9883
We appreciate your comments.
Tools and Web Sites
If you are registered Cisco Direct Customer, you can access the following web
sites:
IOS Command Lookup—A search engine dedicated to finding information on
Cisco IOS commands in the Cisco IOS Command Reference, Cisco IOS
Configuration Guide, Catalyst Command Reference, and PIX Firewall Command
Reference.
http://www.cisco.com/cgi-bin/Support/Cmdlookup/home.pl
Bug Toolkit—Searches for known bugs based on software version, feature set and
keywords. The resulting matrix shows when each bug was integrated, or fixed if
applicable.
http://www.cisco.com/cgi-bin/Support/Bugtool/launch_bugtool.pl
Feature Navigator—Locates the Cisco IOS Software release based on the features
you want to run on your network.
http://tools.cisco.com/ITDIT/CFN/jsp/index.jsp
Obtain information on compatibility between hardware products and software
releases at the following public URL:
http://tools.cisco.com/Support/Fusion/FusionHome.do
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Obtaining Additional Publications and Information
Information about Cisco products, technologies, and network solutions is
available from various online and printed sources.
•
Cisco Marketplace provides a variety of Cisco books, reference guides, and
logo merchandise. Visit Cisco Marketplace, the company store, at this URL:
http://www.cisco.com/go/marketplace/
•
The Cisco Product Catalog describes the networking products offered by
Cisco Systems, as well as ordering and customer support services. Access the
Cisco Product Catalog at this URL:
http://cisco.com/univercd/cc/td/doc/pcat/
•
Cisco Press publishes a wide range of general networking, training and
certification titles. Both new and experienced users will benefit from these
publications. For current Cisco Press titles and other information, go to Cisco
Press at this URL:
http://www.ciscopress.com
•
Packet magazine is the Cisco Systems technical user magazine for
maximizing Internet and networking investments. Each quarter, Packet
delivers coverage of the latest industry trends, technology breakthroughs, and
Cisco products and solutions, as well as network deployment and
troubleshooting tips, configuration examples, customer case studies,
certification and training information, and links to scores of in-depth online
resources. You can access Packet magazine at this URL:
http://www.cisco.com/packet
•
iQ Magazine is the quarterly publication from Cisco Systems designed to
help growing companies learn how they can use technology to increase
revenue, streamline their business, and expand services. The publication
identifies the challenges facing these companies and the technologies to help
solve them, using real-world case studies and business strategies to help
readers make sound technology investment decisions. You can access iQ
Magazine at this URL:
http://www.cisco.com/go/iqmagazine
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•
Internet Protocol Journal is a quarterly journal published by Cisco Systems
for engineering professionals involved in designing, developing, and
operating public and private internets and intranets. You can access the
Internet Protocol Journal at this URL:
http://www.cisco.com/ipj
•
World-class networking training is available from Cisco. You can view
current offerings at this URL:
http://www.cisco.com/en/US/learning/index.html
Cisco 3200 Documentation CD
The Cisco 3200 Series Router Documentation CD contains the technical
publications for the Cisco 3200 Series Mobile Access Router. To view the
documentation requires Acrobat Reader 4.0 or higher.
After the CD is inserted in the CD ROM drive and recognized by your PC, do the
following:
Step 1
Access the root directory CD drive.
Step 2
Double click the StartHere.htm file.
System Requirements for the CD
Processor
Pentium 150 MHz or faster recommended
PC Operating System
Microsoft Windows 95
Microsoft Windows 98
Microsoft Windows ME
Microsoft Windows XP
Microsoft Windows NT 4.0
Microsoft Windows 2000
Memory
64-MB DRAM
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Processor
Pentium 150 MHz or faster recommended
Drives
4x CD-ROM drive
Monitor
Color monitor capable of 800 x 600 pixel
resolution
Software
Adobe Acrobat Reader 4.0 or later
Printing Documents from the CD
To print a document:
Step 1
Display the document in Acrobat.
Step 2
Click the Printer icon on the Acrobat toolbar.
The Windows Print Dialog box appears.
Step 3
Select your default printer, and click OK.
Conventions
This publication uses these conventions to convey instructions and information:
Command descriptions use these conventions:
•
Commands and keywords are in boldface text.
•
Arguments for which you supply values are in italic.
•
Square brackets ([ ]) mean optional elements.
•
Braces ({ }) group required choices, and vertical bars ( | ) separate the
alternative elements.
•
Braces and vertical bars within square brackets ([{ | }]) mean a required
choice within an optional element.
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Interactive examples use these conventions:
•
Terminal sessions and system displays are in screen font.
•
Information you enter is in boldface screen font.
•
Nonprinting characters, such as passwords or tabs, are in angle brackets (< >).
Notes, cautions, and timesavers use these conventions and symbols:
Tip
Means the following will help you solve a problem. The tips information might
not be troubleshooting or even an action, but could be useful information.
Note
Means reader take note. Notes contain helpful suggestions or references to
materials not contained in this manual.
Caution
Means reader be careful. In this situation, you might do something that could
result equipment damage or loss of data.
Warning
This warning symbol means danger. You are in a situation that could cause
bodily injury. Before you work on any equipment, be aware of the hazards
involved with electrical circuitry and be familiar with standard practices for
preventing accidents. (To see translations of the warnings that appear in this
publication, refer to the appendix “Translated Safety Warnings.”)
Waarschuwing
Dit waarschuwingssymbool betekent gevaar. U verkeert in een situatie die
lichamelijk letsel kan veroorzaken. Voordat u aan enige apparatuur gaat
werken, dient u zich bewust te zijn van de bij elektrische schakelingen
betrokken risico’s en dient u op de hoogte te zijn van standaard maatregelen
om ongelukken te voorkomen. (Voor vertalingen van de waarschuwingen die
in deze publicatie verschijnen, kunt u het aanhangsel “Translated Safety
Warnings” (Vertalingen van veiligheidsvoorschriften) raadplegen.)
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Varoitus
Tämä varoitusmerkki merkitsee vaaraa. Olet tilanteessa, joka voi johtaa
ruumiinvammaan. Ennen kuin työskentelet minkään laitteiston parissa, ota
selvää sähkökytkentöihin liittyvistä vaaroista ja tavanomaisista
onnettomuuksien ehkäisykeinoista. (Tässä julkaisussa esiintyvien
varoitusten käännökset löydät liitteestä "Translated Safety Warnings"
(käännetyt turvallisuutta koskevat varoitukset).)
Attention
Ce symbole d’avertissement indique un danger. Vous vous trouvez dans une
situation pouvant entraîner des blessures. Avant d’accéder à cet équipement,
soyez conscient des dangers posés par les circuits électriques et
familiarisez-vous avec les procédures courantes de prévention des accidents.
Pour obtenir les traductions des mises en garde figurant dans cette
publication, veuillez consulter l’annexe intitulée « Translated Safety
Warnings » (Traduction des avis de sécurité).
Warnung
Dieses Warnsymbol bedeutet Gefahr. Sie befinden sich in einer Situation, die
zu einer Körperverletzung führen könnte. Bevor Sie mit der Arbeit an
irgendeinem Gerät beginnen, seien Sie sich der mit elektrischen
Stromkreisen verbundenen Gefahren und der Standardpraktiken zur
Vermeidung von Unfällen bewußt. (Übersetzungen der in dieser
Veröffentlichung enthaltenen Warnhinweise finden Sie im Anhang mit dem
Titel “Translated Safety Warnings” (Übersetzung der Warnhinweise).)
Avvertenza
Questo simbolo di avvertenza indica un pericolo. Si è in una situazione che
può causare infortuni. Prima di lavorare su qualsiasi apparecchiatura,
occorre conoscere i pericoli relativi ai circuiti elettrici ed essere al corrente
delle pratiche standard per la prevenzione di incidenti. La traduzione delle
avvertenze riportate in questa pubblicazione si trova nell’appendice,
“Translated Safety Warnings” (Traduzione delle avvertenze di sicurezza).
Advarsel
Dette varselsymbolet betyr fare. Du befinner deg i en situasjon som kan føre
til personskade. Før du utfører arbeid på utstyr, må du være oppmerksom på de
faremomentene som elektriske kretser innebærer, samt gjøre deg kjent med
vanlig praksis når det gjelder å unngå ulykker. (Hvis du vil se oversettelser av
de advarslene som finnes i denne publikasjonen, kan du se i vedlegget
"Translated Safety Warnings" [Oversatte sikkerhetsadvarsler].)
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Aviso
Este símbolo de aviso indica perigo. Encontra-se numa situação que lhe
poderá causar danos fisicos. Antes de começar a trabalhar com qualquer
equipamento, familiarize-se com os perigos relacionados com circuitos
eléctricos, e com quaisquer práticas comuns que possam prevenir possíveis
acidentes. (Para ver as traduções dos avisos que constam desta publicação,
consulte o apêndice “Translated Safety Warnings” - “Traduções dos Avisos de
Segurança”).
¡Advertencia!
Este símbolo de aviso significa peligro. Existe riesgo para su integridad física.
Antes de manipular cualquier equipo, considerar los riesgos que entraña la
corriente eléctrica y familiarizarse con los procedimientos estándar de
prevención de accidentes. (Para ver traducciones de las advertencias que
aparecen en esta publicación, consultar el apéndice titulado “Translated
Safety Warnings.”)
Varning!
Denna varningssymbol signalerar fara. Du befinner dig i en situation som kan
leda till personskada. Innan du utför arbete på någon utrustning måste du vara
medveten om farorna med elkretsar och känna till vanligt förfarande för att
förebygga skador. (Se förklaringar av de varningar som förekommer i denna
publikation i appendix "Translated Safety Warnings" [Översatta
säkerhetsvarningar].)
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Obtaining Technical Assistance
For all customers, partners, resellers, and distributors who hold valid Cisco
service contracts, Cisco Technical Support provides 24-hour-a-day,
award-winning technical assistance.
The Cisco Technical Support Website on Cisco.com features extensive online
support resources. In addition, Cisco Technical Assistance Center (TAC)
engineers provide telephone support. If you do not hold a valid Cisco service
contract, contact your reseller.
Cisco Technical Support Website
The Cisco Technical Support Website provides online documents and tools for
troubleshooting and resolving technical issues with Cisco products and
technologies. The website is available 24 hours a day, 365 days a year, at this
URL:
http://www.cisco.com/techsupport
Access to all tools on the Cisco Technical Support Website requires a Cisco.com
user ID and password. If you have a valid service contract but do not have a user
ID or password, you can register at this URL:
http://tools.cisco.com/RPF/register/register.do
Note
Use the Cisco Product Identification (CPI) tool to locate your product serial
number before submitting a web or phone request for service. You can access the
CPI tool from the Cisco Technical Support Website by clicking the Tools &
Resources link under Documentation & Tools. Choose Cisco Product
Identification Tool from the Alphabetical Index drop-down list, or click the
Cisco Product Identification Tool link under Alerts & RMAs. The CPI tool
offers three search options: by product ID or model name; by tree view; or for
certain products, by copying and pasting show command output. Search results
show an illustration of your product with the serial number label location
highlighted. Locate the serial number label on your product and record the
information before placing a service call.
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Submitting a Service Request
Using the online TAC Service Request Tool is the fastest way to open S3 and S4
service requests. (S3 and S4 service requests are those in which your network is
minimally impaired or for which you require product information.) After you
describe your situation, the TAC Service Request Tool provides recommended
solutions. If your issue is not resolved using the recommended resources, your
service request is assigned to a Cisco TAC engineer. The TAC Service Request
Tool is located at this URL:
http://www.cisco.com/techsupport/servicerequest
For S1 or S2 service requests or if you do not have Internet access, contact the
Cisco TAC by telephone. (S1 or S2 service requests are those in which your
production network is down or severely degraded.) Cisco TAC engineers are
assigned immediately to S1 and S2 service requests to help keep your business
operations running smoothly.
To open a service request by telephone, use one of the following numbers:
Asia-Pacific: +61 2 8446 7411 (Australia: 1 800 805 227)
EMEA: +32 2 704 55 55
USA: 1 800 553-2447
For a complete list of Cisco TAC contacts, go to this URL:
http://www.cisco.com/techsupport/contacts
Definitions of Service Request Severity
To ensure that all service requests are reported in a standard format, Cisco has
established severity definitions.
Severity 1 (S1)—Your network is “down,” or there is a critical impact to your
business operations. You and Cisco will commit all necessary resources around
the clock to resolve the situation.
Severity 2 (S2)—Operation of an existing network is severely degraded, or
significant aspects of your business operation are negatively affected by
inadequate performance of Cisco products. You and Cisco will commit full-time
resources during normal business hours to resolve the situation.
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Severity 3 (S3)—Operational performance of your network is impaired, but most
business operations remain functional. You and Cisco will commit resources
during normal business hours to restore service to satisfactory levels.
Severity 4 (S4)—You require information or assistance with Cisco product
capabilities, installation, or configuration. There is little or no effect on your
business operations.
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C H A P T E R
Mobile Access Router Card (MARC)
The Mobile Access Router Card (MARC) is one component of the Cisco 3200 Series Mobile Access
Router. It includes the host processor, memory, and headers for the 10/100 Fast Ethernet, console, and
auxiliary signals for the router. Additional components provide power and link interfaces to the MARC.
For example, the 4-port Serial Mobile Interface Card provides up to 4 smart serial interfaces. The exact
configuration of your router will vary, depending on how it was configured by your vendor.
Note
This section provides basic information regarding the MARC hardware for the purpose of performing
simple troubleshooting, such as reconnecting a loose cable. To solve more difficult problems, please
contact your vendor.
The key features of the MARC include the following:
Caution
•
MPC8250 processor running 210-MHz at the CPU core, 150-MHz at the CPM core, and 60-MHz
on the Motorola 60x bus
•
32 MB of Flash memory
•
128 MB synchronous DRAM
•
10/100 Fast Ethernet, full-duplex connection with auto negotiation
•
Console connection with hardware/software flow control
•
Asynchronous, RS-232 serial connection with a 5 V auxiliary power supply for Global Positioning
System (GPS) and auxiliary (AUX) devices
•
A 32-bit PCI bus, version 2.1 running at 25-MHz
•
Supports zeroization when this featured is configured on the router.
Zeroization is a feature that erases all potentially sensitive information from the router. Zeroization is
configured through the CLI and activated through an actuator that must be attached to the AUX port,
such as a push button. Zeroization is disabled by default on the Cisco 3200 Series router.
When Zeroization is not configured on the router, the AUX port functions as a modem port or a terminal
port. When declassification is enabled through the CLI, we recommend that you do not use the AUX port
for any other function than declassification. This is because there is no way for the router to reliably
determine if a device attached to the AUX port is an actuator; therefore, any device attached to the AUX
port could potentially trigger declassification.
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Chapter 1
Mobile Access Router Card (MARC)
MARC Component Systems
MARC Component Systems
The industry-standard architecture (ISA) buses and peripheral component interconnect (PCI) buses on
the Cisco 3200 Series Mobile Access Router cards provide power to the components on the cards. Both
buses comply with the PC/104-Plus standard. The ISA bus allows PC/104-Plus ISA signals to pass
through the card bus, but the Cisco cards do not use any of the signals.
The PCI bus signals allow the Cisco cards to communicate. Non-Cisco cards cannot communicate with
the Cisco 3200 Series Mobile Access Router cards over the PCI bus.
Caution
If you add non-Cisco cards that generates signals on the PCI bus, the router might shut down. Please do
not add non-Cisco cards that generate signals on the PCI bus.
Figure 1-1 shows the MARC header and bus locations.
Figure 1-1
MARC Header and Bus Locations
74518
Note
PCI Bus
ISA Bus
Ethernet Header
Multifunction Header
The PC/104-Plus standard requires that the PCI Bus and the ISA bus utilize keying features in the
standard stacking headers to guarantee proper module installation. On the PCI bus, pin D30 is removed
and the D30 opening plugged. On the ISA bus, pin C19 and B10 are removed, and the C19 and B10
openings are plugged.
MARC Router Signals
Cisco 3200 Series router cards do not support any ISA bus signals. The PCI bus connector supports
communication between Cisco 3200 Series Mobile Access Router cards.
Note
Non-Cisco MIC cards cannot use PCI signals. The use of PCI signals by non-Cisco cards causes
unpredictable results. You cannot add 3rd-party devices that might attempt to communicate with the
SMIC through the ISA or PCI bus.
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Mobile Access Router Card (MARC)
MARC Component Systems
The signals are delivered through the shared, 34-pin multifunction header and the 10-pin Ethernet
header. LED signals and 5 V of power are also provided through the shared, 34-pin multifunction header.
10/100 Fast Ethernet Signals on the MARC
There is one fixed 10/100 Fast Ethernet port on the MARC. A Cisco router identifies a 10/100 Fast
Ethernet interface address by its slot number and port number, in the format slot/port. The slot/port
address of a Fast Ethernet interface on the MARC is 0/0.
The 10/100 Fast Ethernet port signals are in compliance with IEEE 802.3. They are provided through the
10-pin Ethernet header, which supports the following:
•
Auto-negotiation and parallel detection MII interface with extended register capability for
10/100BASE-TX connection
•
Full-duplex and half-duplex modes
•
3.3V operation low power consumption (300 mW typical)
•
Low-power sleep mode
•
10BASE-T and 100BASE-TX using a single Ethernet connection
•
Robust baseline wander correction performance
•
100BASE-FX fiber optic capabilities
•
Standard carrier signal multiple access collision detect (CSMA/CD) or full-duplex operation
•
Integrated, programmable LED drivers
Figure 1-2 shows the 10-pin 10/100 Fast Ethernet header pin locations.
MARC Ethernet Header Pin Locations
10
Board edge
74521
Figure 1-2
Board edge
Table 1-1 describes the pin assignments shown in Figure 1-2.
Table 1-1
MARC Ethernet Header Pin Assignments
Pin
Signal
Description
TX+
Transmit Positive
TX-
Transmit Negative
RX+
Receiving Positive
Unused
Terminated
Unused
Terminated
RX-
Receiving Negative
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Mobile Access Router Card (MARC)
MARC Component Systems
Table 1-1
MARC Ethernet Header Pin Assignments (continued)
Pin
Signal
Description
Unused
Terminated
Unused
Terminated
Reserved
Do not use
10
Reserved
Do not use
The FastEthernet 0/0 port on the MARC is a 10/100 Fast Ethernet router port. The FastEthernet ports on
the 4-port FESMIC and the 2-port FESMIC are 10/100 Fast Ethernet switch ports. The routing features
supported on the MARC cannot be configured on the FESMIC ports.
Console, Auxiliary, LED Signals, and Power
Figure 1-3 shows the 34-pin multifunction header that provides console, AUX and GPS connectivity.
A small footprint +3.3V/+12V dual RS-232 transceiver drives the RS-232 lines. It supports full
modem control signals DTR, CD, RTS, and CTS. The transceiver is connected directly to SMC-1 on
the MPC8250. The serial baud rates can be between 9,600 to 115,000bps.
The same +3.3V/+12V dual RS232 transceiver—Maxim’s MAX3209E—drives the RS-232 lines. It
supports full modem control signals DTR, CD, RTS, and CTS. The transceiver is connected directly to
SCC-1 on the MPC8250. The serial baud rates can be between 9,600 and 115,000bps.
MARC Multifunction Header Pin Locations
17
16
15
14
13
12
11
10
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
Board edge
74522
Figure 1-3
Board edge
Console Connections
You can configure the console interface by using IOS command line interface (CLI) commands. The
console interface and the AUX port can be accessed simultaneously. For example, you can connect a
terminal to the console interface and an external modem or a GPS to the AUX port.
The console port signals are provided through the multifunction header:
•
Asynchronous serial DCE
•
1.2 Kbps, 2.4 Kbps, 4.8 Kbps, 9.6 Kbps, 19.2 Kbps, 38.4 Kbps, 57.6 Kbps, and 115.2 Kbps baud
rates
•
Support full modem control DTR, DSR, RTS, and CTS signals
Table 1-2
MARC Multifunction Header Console Interface Pin Assignments
Pin
Signal
Description
CON_RTS_OUT
Request To Send
18
CON_DTR_OUT
Data Terminal Ready
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Mobile Access Router Card (MARC)
MARC Component Systems
Table 1-2
MARC Multifunction Header Console Interface Pin Assignments (continued)
Pin
Signal
Description
CON_TXD_OUT
Transmit Data
19
GND
Ground
GND
Ground
20
CON_RXD_IN
Receive Data
CON_DSR_IN
Data Set Ready
21
CON_CTS_IN
Clear To Send
AUX Connections
The AUX port is a serial asynchronous port that works at speeds of 1.2 Kbps, 2.4 Kbps, 4.8 Kbps,
9.6 Kbps, 19.2 Kbps, 38.4 Kbps, 57.6 Kbps, and 115.2 Kbps. The console port and AUX port can be
accessed simultaneously. For example, you can connect a terminal to the console interface and an
external modem or a GPS modem to the AUX port.
The AUX port supports the following:
•
Asynchronous serial DTE
•
Baud rates range from 1,200 to 115,000
•
5 to 8 data bits
•
1, 1.5, or 2 stop bits
•
Odd, even, or no parity
•
Flow control by using RTS, CTS, DTR, and CDC signals
Table 1-3
MARC Multifunction Header AUX Pin Assignments
Pin
Signal
Description
AUX_RTS_OUT
Request To Send
22
AUX_DTR_OUT
Data Terminal Ready
AUX_TXD_OUT
Transmit Data
23
GND
Ground
AUX_DSR_IN
Data Set Ready
24
AUX_RXD_IN
Receive Data
AUX_CD_IN
Carrier Detect
25
AUX_CTS_IN
Clear To Send
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Mobile Access Router Card (MARC)
MARC Component Systems
LED Connections
Table 1-4 shows the MARC LEDs supported through the multifunction header that indicate system and
LAN status.
Table 1-4
MARC LEDs Multifunction Header Pin Assignments
Pin
Signal
Description
Function
Indicates
10
LED_PWR
Power–up status
LED - (1)
27
+3.3V
LED power supply
LED + (1)
Indicates the router operating status. The LED blinks
during IOS bootup and is continuously on after the router
completes its self-test and begins operating. If the
ROMMON self–tests fail, this LED will be off.
11
LED_LAN_ACT
LAN activity status LED - (2)
28
+3.3V
LED power supply
LED + (2)
12
LED_LAN_LINK LAN link indicator
LED - (3)
29
+3.3V
LED + (3)
LED power supply
Blinks when a packet is either transmitted or received on
10/100 Fast Ethernet port.
Indicates the status of the 10/100 Fast Ethernet port. The
LED is on while the Ethernet link is up and connected to
another device.
Power Connections (AUX)
A +5V power supply is provided for device connected to AUX port. A GPS modem is used as an example
in this section. Typically the +5V power supply current to GPS modems should be limited to less than
200 mA.
Table 1-5 shows the pin assignments for power.
Table 1-5
MARC Multifunction Header Pin Assignments for Power
Pin
Signal
Description
Function
GND
Ground
GND
26
+5V
+5V DC Power Supply
Power
MARC Power Requirements
The MARC uses +3.3 V, +5 V, and +12 V power sources. Internal on-board DC-to-DC conversion
circuitry generates 1.8 V/1.5 amps from the +3.3V power source.
Table 1-6
MARC Voltages
Voltage
Current
Power
+5.0 V
0.3 amps
1.5 W
+12.0 V
0.1 amps
1.2 W
+3.3 V
2.0 amps
6.6 W
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Fast Ethernet Switch Mobile Interface Card
(FESMIC)
The Fast Ethernet Switch Mobile Interface Card (FESMIC) is a mobile interface card (MIC) in a
standard PC/104-Plus form factor. FESMICs are components of the Cisco 3200 Series Mobile Access
Router. The 4-port FESMIC provides 4 sets of switched 10/100 Fast Ethernet signals. The
2-port FESMIC provides 2 sets of switched 10/100 Fast Ethernet signals.
The key features of the FESMIC include the following:
•
Auto-sensing switched 10/100 Fast Ethernet interfaces.
•
Auto-MDIX (medium-dependent interface crossover). Auto-MDIX automatically detects and
corrects crossed Ethernet cabling.
•
Support for 802.1D standard bridging, 802.1Q trunking, and 802.1P class of service (CoS).
•
Layer 3 routing support between VLANs.
Additional cards and components provide power and link interfaces to the FESMIC. The exact
configuration of your router will vary, depending on how it was configured by your vendor.
Note
This section provides basic information about the FESMIC hardware for the purpose of performing
simple troubleshooting, such as reconnecting a loose cable. To solve more difficult problems, please
contact your vendor.
The FESMIC draws power from the PCI and the ISA connectors. Table 2-1 shows the estimated power
consumption. Note that these are theoretical maximum wattages.
Table 2-1
FESMIC Estimated Power Consumption
Voltage
Current Draw
Power
Source
+5.0 V
0.2 amps
1.0 W
ISA and PCI connectors
+3.3 V
2.3 amps
7.7 W
PCI connectors
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Fast Ethernet Switch Mobile Interface Card (FESMIC)
Auto-Negotiation and Auto-MDI/MDIX
Auto-Negotiation and Auto-MDI/MDIX
All of the 10/100 Fast Ethernet interfaces support Ethernet auto-negotiation for the line transmission
speed. Both sides of the connection are automatically set to either 10BASE-TX or 100BASE-TX.
Auto-negotiation is widely used on most Ethernet interfaces, and it is the default mode.
When a 10/100 Fast Ethernet interface is enabled, one end of the link must perform media dependent
interface (MDI) crossover (MDIX), so that the transmitter on one end of the data link is connected to the
receiver on the other end of the data link (a crossover cable is typically used). The Auto-MDIX feature
eliminates the need for crossover cabling by performing an internal crossover when a straight cable is
detected during the auto-negotiation phase.
If auto-negotiation is disabled, Auto-MDI/MDIX cannot work because there is no signal transmission at
initialization to sample the cabling with. Therefore, as in all systems not supporting the HP Auto-MDIX
feature, cabling must be correct for the devices being connected. The Auto-MDIX feature is disabled if
you explicitly set the line speed rather than leaving the default mode of auto-negotiation. Although it is
possible to disable HP Auto-MDIX with auto-negotiation enabled, the current software does not
implement an explicit CLI command to allow you to disable Auto-MDIX during auto-negotiation.
Auto-negotiation Enable
To enable auto-negotiation, do the following:
Router#(config) FastEthernet m/n
Router#(config-if) speed auto
where m is the slot and n is the port number.
Auto-negotiation Disable
To disable auto-negotiation and auto-MDIX by forcing the line speed through a manual setting, do the
following:
Router#(config) FastEthernet m/n
Router#(config-if) speed 10
or
Router#(config) FastEthernet m/n
Router#(config-if) speed 100
MAC Address Allocation
The 4-port FESMIC stores 4 unique MAC addresses for the 10/100 Ethernet interfaces. The
2-port FESMIC stores 2 unique MAC addresses for the 10/100 Ethernet interfaces. In addition, 33
unique MAC addresses are burned into the Mobile Access Router Card (MARC) to support the FESMIC
per-VLAN spanning tree (PVST) and inter-VLAN routing features.
To provide support for up to 32 VLANs, and the 32 Spanning Tree Protocol (STP) sessions that might
be running, 32 unique MAC addresses required for the bridge packet data unit (BPDU) IDs. In addition,
one MAC address is needed by the FESMIC for VLAN routing., bringing the total of number of MAC
addresses on the wired router to 34. The MAC addresses are burned in the MARC, instead of the
FESMIC to support future development.
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Fast Ethernet Switch Mobile Interface Card (FESMIC)
FESMIC Component Systems
FESMIC Component Systems
The ISA buses and PCI buses on the Cisco 3200 Series Mobile Access Router cards provide power to
the components on the cards. Both buses comply with the PC/104-Plus standard. The ISA bus allows
PC/104-Plus ISA signals to pass through the card bus, but the Cisco cards do not use any of the signals.
The PCI bus signals allow the Cisco cards to communicate. Non-Cisco cards cannot communicate with
the Cisco 3200 Series Mobile Access Router cards over the PCI bus.
Caution
If you add non-Cisco cards that generates signals on the PCI bus, the router might shut down. Please do
not add non-Cisco cards that generate signals on the PCI bus.
Figure 2-1 shows the 2-port FESMIC header and bus locations.
Figure 2-1
2-port FESMIC Header and Bus Locations
95228
PCI bus
20-pin LED header
ISA bus
Rotary switch
FE0 10/100 Fast Ethernet header
FE1 10/100 Fast Ethernet header
Figure 2-2 shows the 4-port FESMIC header and bus locations.
Figure 2-2
4-port FESMIC Header and Bus Locations
81598
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Fast Ethernet Switch Mobile Interface Card (FESMIC)
FESMIC Component Systems
Note
PCI bus
20-pin LED header
ISA bus
Rotary switch
5-8
E0–E3 10/100 Fast Ethernet headers
The PC/104-Plus standard requires that the PCI bus and the ISA bus utilize keying features in the
standard stacking headers to guarantee proper module installation. On the PCI bus, pin D30 is removed
and the D30 opening is plugged. On the ISA bus, pin C19 and pin B10 are removed, and the C19 and
B10 openings are plugged.
Signals for the FESMIC
Cisco 3200 Series router cards do not support any ISA bus signals. The PCI bus connector supports
communication between Cisco 3200 Series Mobile Access Router cards.
Note
Non-Cisco MIC cards cannot use PCI signals. The use of PCI signals by non-Cisco cards causes
unpredictable results. You cannot add third-party devices that might attempt to communicate with the
router through the ISA or PCI bus.
The signals are delivered through 10-pin headers, one set of 10/100 Fast Ethernet signals per header.
LED signals and 5 V of power are provided through the 20-pin LED header.
10/100 Fast Ethernet Signals on the FESMIC
There are 4 fixed 10/100 Fast Ethernet signals on the FESMIC. A Cisco router identifies a 10/100 Fast
Ethernet interface address by its slot number and port number, in the form of slot/port. The slot/port
addresses of the 10/100 Fast Ethernet interfaces on the FESMIC depend on the position of the rotary
switch.
For example, if the rotary switch on the 4-port FESMIC is in position 0, the ports are identified as 1/0,
1/1, 1/2, and 1/3. If the rotary switch on the 2-port FESMIC is in position 0, the ports are identified as
1/0 and 1/1.
The 10/100 Fast Ethernet port signals are in compliance with IEEE 802.3. They are provided through the
Ethernet headers, which support the following:
•
Auto-negotiation for 10/100BASE-TX connection
•
Full-duplex and half-duplex modes
•
Low-power sleep mode
•
10BASE-T and 100BASE-TX using a single Ethernet connection
•
Robust baseline wander correction performance
•
Standard carrier signal multiple access collision detect (CSMA/CD) or full-duplex operation
•
Integrated LED drivers
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Fast Ethernet Switch Mobile Interface Card (FESMIC)
FESMIC Component Systems
The FastEthernet ports on the 4-port FESMIC and the 2-port FESMIC are 10/100 Fast Ethernet switch
ports. The switch ports support all layer 2 features. The FastEthernet 0/0 port on the MARC is a
10/100 Fast Ethernet router port. The routing features supported on the MARC cannot be configured on
the FESMIC ports.
Figure 2-3 shows the 10-pin 10/100 Fast Ethernet header pin locations.
FESMIC Ethernet Header Pin Locations
10
74521
Figure 2-3
Board edge
Board edge
Table 2-2 describes the pin assignments shown in Figure 2-3.
Table 2-2
FESMIC Ethernet Header Pin Assignments
Pin
Signal
Description
RX+
Receive positive
RX-
Receive negative
TX+
Transmit positive
Unused
Terminated
Unused
Terminated
TX-
Transmit negative
Unused
Terminated
Unused
Terminated
Reserved
Do not use
10
Reserved
Do not use
FESMIC LED Signals
Figure 2-4 shows the 20-pin LED header that provides connections for the LEDs.
FESMIC LED Header Pin Locations
10
20
19
18
17
16
15
14
13
12
11
Board edge
81599
Figure 2-4
Board edge
Table 2-3 lists the pin assignments on the FESMIC 20-pin LED header.
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Chapter 2
Fast Ethernet Switch Mobile Interface Card (FESMIC)
FESMIC Component Systems
Table 2-3
FESMIC LED Header Pin Assignments
Pin
Signal
Description
Port0 LINK+
Link Positive LED terminal Port 0
(power supply)
11
Port0 LINK-
Link Negative LED terminal Port 0
Port0 ACT+
Active Positive LED terminal Port 0 Blinks when a packet is either
(power supply)
transmitted or received.
12
Port0 ACT-
Active Negative LED terminal Port 0
Port1 LINK+
Link Positive LED terminal Port 1
(power supply)
13
Port1 LINK-
Link Negative LED terminal Port 1
Port1 ACT+
Active Positive LED terminal Port 1 Blinks when a packet is either
(power supply)
transmitted or received.
14
Port1 ACT-
Active Negative LED terminal Port 1
Port2 LINK+
Link Positive LED terminal Port 2
(power supply)
15
Port2 LINK-
Link Negative LED terminal Port 2
Port2 ACT+
16
Port2 ACT-
Active Positive LED terminal Port 2 Blinks when a packet is either
(power supply)
transmitted or received
Active Negative LED terminal Port 2 (4-port FESMIC only).
Port3 LINK+
Link Positive LED terminal Port 3
(power supply)
17
Port3 LINK-
Link Negative LED terminal Port 3
Port3 ACT+
18
Port3 ACT-
Active Positive LED terminal Port 3 Blinks when a packet is either
(power supply)
transmitted or received
Active Negative LED terminal Port 3 (4-port FESMIC only).
Open
Do not use
19
Open
Do not use
10
Open
Do not use
20
Open
Do not use
The LED is on while the
10/100 Fast Ethernet link is up
and connected to another device.
The LED is on while the
10/100 Fast Ethernet link is up
and connected to another device.
The LED is on while the
10/100 Fast Ethernet link is up
and connected to another device
(4-port FESMIC only).
The LED is on while the
10/100 Fast Ethernet link is up
and connected to another device
(4-port FESMIC only).
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Fast Ethernet Switch Mobile Interface Card (FESMIC)
FESMIC Component Systems
FESMIC Rotary Switch Positions
The rotary switch position determines the IOS port number for the MIC. Table 2-4 shows the mapping
of the switch positions to the IOS slot numbers.
Table 2-4
Caution
FESMIC Rotary Switch Positions
Switch Position
IOS Slot Number
3–7
Not supported
The rotary switch positions must be unique and should not be assigned to more than one MIC.
If a MIC rotary switch is set to 3 or higher, the message is:
“MIC-3-SLOTNOTSUPPORTED: The MIC cannot operate when the rotary switch is in position 3.
Change the switch position to one of the supported, unused positions 0-2.”
If two or more MICs have the rotary switches set to the same position, or if one or more MICs are in
rotary switch position 4 through 7, the router might crash after displaying the following error message:
“Non-recoverable error occurred. Please check the rotary switch positions on the MIC cards for the
possible misconfiguration of the switch position.”
Table 2-5 shows the FESMIC 10/100 Fast Ethernet signal assignments. The position of the rotary switch
determines the port assignments. Although the rotary switch has eight positions, only one of three
positions can be selected. The rotary switch position should be unique for each MIC.
Table 2-5
FESMIC Rotary Switch Positions and Signal Assignments
Rotary Switch Position
MIC Slot
Fast Ethernet Signal Assignments
FE 1/0
FE 1/1
FE 1/21
FE 1/31
FE 2/0
FE 2/1
FE 2/21
FE 2/31
FE 3/0
FE 3/1
FE 3/21
FE 3/31
1. 4-port FESMIC only
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FESMIC Component Systems
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C H A P T E R
Serial Mobile Interface Card (SMIC)
The Serial Mobile Interface Card (SMIC) is one component of the Cisco 3200 Series Mobile Access
Router. It provides the router up to 4 high–speed sets of serial signals in both data terminal equipment
(DTE) and data circuit equipment (DCE) modes. Additional components provide power and link
interfaces to the SMIC. For example, the Mobile Access Router Card (MARC) provides the host
processor, memory, and headers for the 10/100 Fast Ethernet, console, and auxiliary signals for the
router. The exact configuration of your router will vary, depending on how it was configured by your
vendor.
Note
This section provides basic information about the SMIC hardware for the purpose of performing simple
troubleshooting, such as reconnecting a loose cable. To solve more difficult problems, please contact
your vendor.
Each SMIC provides the following:
Note
•
Support for 2 to 4 sets of serial signals with protocol support for HDLC, asynchronous, synchronous
and octet-oriented PPP modes. The signals can be configured to any serial standard (EIA/TIA-232,
EIA/TIA-449, EIA/TIA-530, EIA/TIA-530A, EIA/TIA-X.21, or CCITT V.35).
•
DCE and DTE mode support on each set of serial signals.
•
Speeds of 2 Mbps for synchronous data transfer and 115 Kbps for asynchronous data transfer on
each serial interface. All serial standards reach 2 Mbps (for synchronous) except for the
EIA/TIA-232 standard which supports up to 192K.
The PCI bus and ISA bus utilize keying features in the standard stacking headers to guarantee proper
module installation. On the PCI bus, pin D30 is removed and the D30 opening plugged. On the ISA Bus,
pin C19 and pin B10 are removed, and the pin C19 and pin B10 openings are plugged.
The SMIC draws power from the PCI and the ISA connectors. Table 3-1 shows the estimated power
consumption. Note that these are theoretical maximum wattages.
Table 3-1
SMIC Estimated Power Consumption
Voltage
Current Draw
Power
Source
+5.0 V
1.0 amps
5.0 W
ISA and PCI connectors
+3.3 V
0.5 amps
1.7 W
PCI connectors
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Chapter 3
Serial Mobile Interface Card (SMIC)
SMIC Component Systems
SMIC Component Systems
Figure 3-1 shows the 2-port SMIC header and bus locations.
Figure 3-1
2-port SMIC Header and Bus Locations
95227
PCI bus
60-pin multifunction header for Serial 0
and Serial 1 signals
ISA bus
Rotary switch
Figure 3-2 shows the 4-port SMIC header and bus locations.
Caution
If you add non-Cisco cards that generates signals on the PCI bus, the router might shut down. Please do
not add non-Cisco cards that generate signals on the PCI bus.
Figure 3-2
4-port SMIC Header and Bus Locations
74519
PCI bus
60-pin multifunction header for Serial 2 and
Serial 3 signals
ISA bus
Rotary switch
60-pin multifunction header for Serial 0 and
Serial 1 signals
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Serial Mobile Interface Card (SMIC)
SMIC Component Systems
Signals for the SMIC
The Cisco SSB Serial standard supports the following:
•
EIA/TIA-232, EIA/TIA-449, EIA-530, EIA-530A, X.21, and V.35 standards in both DTE or DCE
modes.
•
Signals (SSB and LED) are provided through the 60-pin multifunction header(s).
The position of the rotary switch determines the port assignments. Although the rotary switch has eight
positions, only position 0, 1, and 2 are supported on the 4-port SMIC and only position 0 and 1 are
supported on the 2-port SMIC.
Table 3-2 provides 4-port SMIC port assignments.
Table 3-2
4-port SMIC Rotary Switch Settings and Port Assignments
Position
MIC Slot
Port Assignments
Serial 1/0 Serial 1/1 Serial 1/2 Serial 1/3
Serial 2/0 Serial 2/1 Serial 2/2 Serial 2/3
Serial 3/0 Serial 3/1 Serial 3/2 Serial 3/3
Table 3-3 provides the 2-port SMIC port assignments.
Table 3-3
2-port SMIC Rotary Switch Settings and Port Assignments
Position
MIC Slot
Port Assignments
Serial 1/0 Serial 1/1
Serial 2/0 Serial 2/1
Serial Cable Length
Maximum Cable length depends on a number of factors, including how well the sender and receiver are
implemented regarding rise times, and cable capacitance, inductance and screening. These are all
difficult to quantify, but the primary factor is the data rate. Typically, doubling the data rate halves the
recommended maximum cable length.
The RS-232 specification limits cable length to 15.25 metres (50 feet) at a maximum data rate of
20,000 bps. The Cisco 3200 Series router RS-232 serial interfaces data rate is 115,200 bps and are
limited to a maximum cable length of 2.8 meters (8 feet).
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Serial Mobile Interface Card (SMIC)
SMIC Component Systems
SMIC LED Signals
Table 3-4 shows the LED signals that are supported on the SMIC, along with the corresponding
functions. Serial 2 and Serial 3 apply to the 4-port SMIC only.
Table 3-4
SMIC LED Functions
LED
Function
SERIAL0 ACTIVITY
Blinks once when a packet is either transmitted or received on Serial 0, and
originates from Header 5.
SERIAL0 LINK
Indicates the status of Serial 0 and originates from Header 5. The LED is on
when a serial port is in DTE mode, and when the data set ready (DSR), data
carrier detect (DCD), and clear to send (CTS) signals are detected. The LED
is on when a serial port is in DCE mode, and when the data terminal ready
(DTR) and request to send (RTS) signals have been detected.
SERIAL1 ACTIVITY
Blinks once when a packet is either transmitted or received on Serial 1.
Originates from Header 5.
SERIAL1 LINK
Indicates the status of Serial 1, and originates from Header 5. The LED is on
when the serial port is in DTE mode, and when the data set ready (DSR), data
carrier detect (DCD), and clear to send (CTS) signals are detected. The LED
is on when the serial port is in DCE mode, and when the data terminal ready
(DTR) and request to send (RTS) signals have been detected.
SERIAL2 ACTIVITY
Blinks once when a packet is either transmitted or received on Serial 2.
Originates from Header 2.
SERIAL2 LINK
Indicates the status of Serial 2, and originates from Header 2. The LED is on
when the serial port is in DTE mode, and when the data set ready (DSR), data
carrier detect (DCD), and clear to send (CTS) signals are detected. The LED
is on when the serial port is in DCE mode, and when the data terminal ready
(DTR) and request to send (RTS) signals have been detected.
SERIAL3 ACTIVITY
Blinks once when a packet is either transmitted or received on Serial 3.
Originates from Header 2.
SERIAL3 LINK
Indicates the status of Serial 3, and originates from Header 2. The LED is on
when the serial port is in DTE mode, and when the data set ready (DSR), data
carrier detect (DCD), and clear to send (CTS) signals are detected. The LED
is on when the serial port is in DCE mode, and when the data terminal ready
(DTR) and request to send (RTS) signals have been detected.
4-Port SMIC Rotary Switch Positions
Table 3-5 shows the 4-port SMIC serial signal assignments. The position of the rotary switch determines
the port assignments. Although the rotary switch has 8 positions, only 1 of 3 positions can be selected.
The rotary switch position should be unique for each mobile interface card (MIC) card.
Table 3-5
4-port SMIC Rotary Switch Positions and Serial Set Signal Assignments
Rotary Switch Position
MIC Slot
Signal Assignments
Serial 1/0 Serial 1/1 Serial 1/2 Serial 1/3
Serial 2/0 Serial 2/1 Serial 2/2 Serial 2/3
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Serial Mobile Interface Card (SMIC)
SMIC Component Systems
Table 3-5
4-port SMIC Rotary Switch Positions and Serial Set Signal Assignments
Rotary Switch Position
MIC Slot
Signal Assignments
Serial 3/0 Serial 3/1 Serial 3/2 Serial 3/3
Serial 4/0 Serial 4/1 Serial 4/2 Serial 4/3
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Serial Mobile Interface Card (SMIC)
SMIC Component Systems
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C H A P T E R
Wireless Mobile Interface Card (WMIC)
The Wireless Mobile Interface Card (WMIC) is a mobile interface card (MIC) in a standard PC/104-Plus
form factor. It is one component of the Cisco 3200 Series Mobile Access Routers and provides a
2.4-GHz (802.11b/g) or 4.9-GHz (US Only, Public Safety) wireless interface.
The WMIC can be configured as a:
•
Wireless Access Point
•
Wireless Root Bridge
•
Wireless Non-root Bridge
•
Wireless Work Group Bridge.
The WMIC communicates with the router through its 10/100 Fast Ethernet interface.
Note
This chapter provides basic information about the WMIC hardware for the purpose of performing simple
troubleshooting, such as reconnecting a loose cable. To solve more difficult problems, please contact
your vendor.
Caution
The 4.9-GHz (US Only, Public Safety) radio requires an operators license and can only be operated by
US Public Safety operators who meet the requirements specified under FCC Part 90.20.
WMIC Component Systems
The ISA buses and PCI buses on the Cisco 3200 Series Mobile Access Router cards provide power to
the components on the cards. The WMIC does not receive or transmit communications signals on the
buses, but it will pass signals through to a card above or below the WMIC. Both buses comply with the
PC/104-Plus standard.
The PCI bus signals allow the Cisco cards to communicate. Non-Cisco cards cannot communicate with
the Cisco 3200 Series Mobile Access Router cards over the PCI bus.
Caution
If you add non-Cisco cards that generates signals on the PCI bus, the router might shut down. Please do
not add non-Cisco cards that generate signals on the PCI bus.
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WMIC Component Systems
Figure 4-1 shows the WMIC header and bus locations.
Figure 4-1
WMIC Header and Bus Locations
103981
Note
PCI bus
Left antenna connector (J2)
Right antenna connector (J1)
ISA bus
10-pin 10/100 Fast Ethernet header
24-pin multifunction header
The PC/104-Plus standard requires that the PCI bus and the ISA bus utilize keying features in the
standard stacking headers to guarantee proper module installation. On the PCI bus, pin D30 is removed
and the D30 opening is plugged. On the ISA bus, pin C19 and pin B10 are removed, and the C19 and
B10 openings are plugged.
Signals for the WMIC
Cisco 3200 Series router cards do not support any ISA bus signals. The PCI bus connector supports
communication between Cisco 3200 Series Mobile Access Router cards.
Note
Non-Cisco MIC cards cannot use PCI signals. The use of PCI signals by non-Cisco cards causes
unpredictable results. You cannot add third-party devices that might attempt to communicate with the
router through the ISA or PCI bus.
The 10/100 Fast Ethernet signals are delivered through a 10-pin header. LED signals and RS-232 console
signals are provided through the 24-pin multifunction header.
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WMIC Component Systems
10/100 Fast Ethernet Signals on the WMIC
There is one set of fixed 10/100 Fast Ethernet signals on the WMIC. The 10/100 Fast Ethernet port
signals are in compliance with IEEE 802.3. They are provided through the Ethernet headers, which
support the following:
•
Auto-negotiation for 10/100BASE-TX connection
•
Full-duplex and half-duplex modes
•
Low-power sleep mode
•
10BASE-T and 100BASE-TX using a single Ethernet connection
•
Robust baseline wander correction performance
•
Standard carrier signal multiple access collision detect (CSMA/CD) or full-duplex operation
•
Integrated LED drivers
Figure 4-2 shows the 10-pin 10/100 Fast Ethernet header pin locations.
WMIC Ethernet Header Pin Locations
10
Board edge
74521
Figure 4-2
Board edge
Table 4-1 describes the pin assignments shown in Figure 4-2.
Table 4-1
Note
WMIC Ethernet Header Pin Assignments
Pin
Signal
Description
TX+
Transmit positive
TX-
Transmit negative
RX+
Receive positive
Unused
Terminated
Unused
Terminated
RX-
Receive negative
Unused
Terminated
Unused
Terminated
Reserved
Do not use
10
Reserved
Do not use
If Auto-MDIX is disabled, when connecting to Ethernet switches or repeaters a straight-through cable
can be used. When connecting to compatible workstations, servers, and routers, a crossover cable should
be used. If Auto-MDIX is enabled, either a straight-through or crossover cable can be used can be used
to make the connection, as the router automatically changes the signals on the pins to compensate.
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WMIC Component Systems
WMIC Multifunction Header Signals
The multifunction header contains RS-232 console signals and three-color status LED signals.
Figure 4-3 shows the 24-pin multifunction header that provides connections for the LEDs.
WMIC Multifunction Header Pin Locations
12
11
10
24
23
22
21
20
19
18
17
16
15
14
13
Board edge
103464
Figure 4-3
Board edge
Table 4-2 lists the pin assignments on the WMIC 20-pin LED header.
Table 4-2
WMIC Multifunction Header Pin Assignments
Pin
Signal
Negative Ethernet RED LED terminal
13
Shared Positive Ethernet LED terminal
Negative Ethernet GREEN LED terminal
14
Negative Radio/RF RED LED terminal
Shared Positive Radio/RF LED terminal
15
Negative Radio/RF GREEN LED terminal
Negative Wireless Status RED LED terminal
16
Shared Positive Wireless Status LED terminal
Negative Wireless Status GREEN LED terminal
17
Negative Installation RED LED terminal
Shared Positive Installation/Operation LED terminal
18
Negative Operation GREEN LED terminal
Not Used (No Connection)
19
Console TX - Transmit Data
Console RX - Receive Data
20
Console GND - Signal Ground
Reserved
21
Reserved
10
Reserved
22
Reserved
11
Reserved
23
Reserved
12
Reserved
24
Reserved
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WMIC Component Systems
LED Behavior
During normal operations, the indicator signals on the wireless device have the following meanings.
•
The status indicator signals operational status. Steady green indicates that the wireless device is
associated with at least one wireless client. Blinking green indicates that the wireless device is
operating normally but is not associated with any wireless devices.
•
The radio indicator blinks green to indicate radio traffic activity. The light is normally off, but it
blinks whenever a packet is received or transmitted over the radio.
•
The Ethernet indicator signals traffic on the wired LAN. This indicator is normally green when an
Ethernet cable is connected, and blinks green when a packet is received or transmitted over the
Ethernet infrastructure. The indicator is off when the Ethernet cable is not connected.
Table 4-3 shows the details of LED behavior.
Table 4-3
Indicator Signals
Message
type
Ethernet
indicator
Status
indicator
Radio
indicator
Meaning
Boot loader
status
Green
–
Green
DRAM memory test.
–
Amber
Red
Board initialization test.
–
Blinking
green
Blinking
green
Flash memory test.
Amber
Green
–
Ethernet initialization test.
Green
Green
Green
Starting Cisco IOS software.
–
Green
–
At least one wireless client device is
associated with the unit.
–
Blinking
green
–
No client devices are associated; check the
wireless device SSID and WEP settings.
–
Green
Blinking
green
Transmitting/receiving radio packets.
Green
–
–
Ethernet link is operational.
Blinking
green
–
–
Transmitting/receiving Ethernet packets.
Red
–
Red
DRAM memory test failure.
–
Red
Red
File system failure.
Red
Red
–
Ethernet failure during image recovery.
Amber
Green
Amber
Boot environment error.
Red
Green
Red
No Cisco IOS image file.
Amber
Amber
Amber
Boot failure.
–
Green
Blinking
amber
Maximum retries or buffer full occurred on
the radio.
Blinking
amber
–
–
Transmit/receive Ethernet errors.
–
Blinking
amber
–
General warning.
Association
status
Operating
status
Boot Loader
Errors
Operation
Errors
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Key Features
Table 4-3
Indicator Signals (continued)
Message
type
Ethernet
indicator
Status
indicator
Radio
indicator
Meaning
Configuration
Reset
–
Amber
–
Resetting the configuration options to
factory defaults.
Failures
Red
Red
Red
Firmware failure; try disconnecting and
reconnecting unit power.
Blinking red
–
–
Hardware failure. The wireless device
must be replaced.
–
Red
–
Loading new firmware image.
Firmware
Upgrade
Antenna Connector
On the radio card, there are two ultra-miniature coaxial connectors (U.FL connector) that are used to
connect the coax cables between the WMIC and the external antenna connectors. This low profile
connector offers frequency performance up to 6-GHz. Two connectors are used to support antenna
diversity.
The cable should be as short as possible to minimize the loss in strength of the radio frequency (RF)
signal. The cable carries the RF signal from the antenna to the low noise amplifier (LNA) on the receiver
and transmits the RF signal from power amplifier (PA) to the antenna that radiates the RF signal.
There are many antenna connector families. The Cisco RP-TNC antenna connector can be used to
support standard antennas.
Key Features
This section lists the key features of the radios.
2.4-GHz (802.11b/g) WMIC and the 4.9-GHz (US Only, Public Safety) Features
The key features of the 2.4-GHz (802.11b/g) WMIC and the 4.9-GHz (US Only, Public Safety) WMIC
are listed below.
Table 4-4
WMIC Key Features
Wireless Medium
Direct Sequence Spread Spectrum (DSSS)
Orthogonal Frequency Division Multiplexing (OFDM)
Media Access Protocol
Carrier sense multiple access with collision avoidance (CSMA/CA)
SNMP Compliance
MIB I and MIB II
Encryption Key Length
128-bit
Virtual LAN (VLAN)
Support
The segmentation of up to 16 user groups is allowed.
Quality of Service
(QoS) Support
Prioritization of traffic for different requirements, such as voice and video.
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Key Features
Table 4-4
WMIC Key Features
Security
Cisco Wireless Security Suite including:
Authentication:
•
802.1X support including LEAP, PEAP, EAP-TLS, EAP-TTLS, and
EAP-SIM to yield mutual authentication and dynamic, per-user,
per-session WEP keys
•
MAC address and by standard 802.11 authentication mechanisms
Encryption:
Note
•
Support for static and dynamic IEEE 802.11 WEP keys of 40 bits and
128 bits
•
Pre-standard TKIP WEP enhancements: key hashing (per-packet
keying), message integrity check (MIC), and broadcast key rotation
Status Indicators
LEDs provide information concerning association status, operation,
error/warning, firmware upgrade, and configuration, network/modem, and
radio status
Memory
8 MB Flash
32 MB DRAM
Automatic Configuration
Support
BOOTP and DHCP
Remote Configuration
Support
Telnet, HTTP, FTP, TFTP, and SNMP
Uplink
Auto-sensing 10/100BaseT Ethernet
Local Configuration
Console port
If no FESMIC is installed, the Cisco 3200 Series routers support a maximum of one WMIC on each
router. The routers support a maximum of three WMICs on each router when a FESMIC is installed.
MAC Address Allocation
The WMIC stores one unique MAC address for the BVI interface.
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Key Features
Differences Between 2.4-GHz (802.11b/g) and 4.9-GHz (US Only, Public Safety)
Radios
Table 4-5
Differences between 2.4-GHz WMIC and 4.9-GHz WMIC
Power
2.4-GHz (802.11b/g)
4.9-GHz (US Only, Public Safety)
Maximum OFDM power level is
15dbm (30mw), but the power level
might vary by country.
Maximum OFDM power level is
17dbm (50mw).
power client Command Supported
Not supported.
Concatenation
Supported.
Not supported.
Fragmentation
Maximum threshold is 4000 bytes.
Maximum threshold is 2346 bytes.
distance Command (to
minimize delay
propagation)
Supported up to 99 kilometers.
Supported up to 3 kilometers (1.8
miles).
World Mode
Supported.
Not supported.
HTML-Based User
Interface
Supported
Not supported
VLANs
16 unencrypted VLANs, 16 static key
VLANs, or 16 dynamic key VLANs,
16 unencrypted VLANs, 1 static key
VLAN, or 4 dynamic key VLANs.
Wireless
encryption/cipher
suites
WEP-40, WEP-128, TKIP, CKIP,
CMIC and CKIP-CMIC
WEP-40, WEP-128, TKIP and
AES-CCM
Max Number of
Stations with WEP
255
116
Max Number of
Stations with TKIP
256
26
Max Number of
Stations with
AES-CCM
256
116
WDS server
Not supported.
The 4.9-GHz WMIC can be configured
to act as WDS server.
WDS client
The 2.4-GHz WMIC acting as root
The 4.9-GHz WMIC acting as root
device can auto discover and work with device can auto discover and work
a subnet WDS server.
within a subnet WDS server. If IP
address of a WDS server is statically
configured on a 4.9-GHz WMIC acting
as root device, the WMIC can also
work with a central WDS server
located anywhere on the network.
EAP-TLS, EAP-TTLS
Supported
Not Supported
WDS Server related
MIBS
N/A
Supported
Comment
Use the power
command.
Fragment counter is
in units of
fragmented packets.
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Key Features
2.4-GHz (802.11b/g) Features
The key features of the 2.4-GHz (802.11b/g) WMIC are listed below.
Data Rates Supported
1, 2, 5.5, 6, 9, 11, 12, 18, 24, 36, 48, and 54 Mbps
Network Standard
IEEE 802.11b and IEEE 802.11g
Frequency Band
2.400-GHz to 2.497-GHz
Modulation
BPSK
QPSK
CCK
BPSK
CCK2
QPSK
16 QAM
64 QAM
Operating Channels
North America: 11; ETSI: 13; Japan: 14
Receive Sensitivity
1 Mbps: -94 dBm
2 Mbps: -91 dBm
5.5 Mbps: -89 dBm
11 Mbps: -85 dBm
Available Transmit Power
Settings
100 mW (20 dBm)
50 mW (17 dBm)
30 mW (15 dBm)
20 mW (13 dBm)
5 mW (7 dBm)
1 mW (0 dBm)
1 Mbps and 6 Mbps
2 Mbps and 12 Mbps
5.5 Mbps
9.6 Mbps
11 Mbps
18 Mbps
24 Mbps and 36 Mbps
48 Mbps and 54 Mbps
Maximum power setting will vary according to individual country
regulations.
Range (typical @ 1000-mW Outdoor:
transmit power setting
with 6 dBi diversity dipole 0.5 mile (804 m) @ 45 Mbps
1 mile (1609 m) @ 11 Mbps
antenna)
3 miles (4,827 m) @ 1 Mbps
Compliance
2.4-GHz (802.11b/g) operates license free under FCC Part 15 and complies
as a Class B device; complies with DOC regulations; complies with ETS
300.328, FTZ 2100, and MPT 1349 standards; rugged version complies with
UL 2043
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Key Features
4.9-GHz (US Only, Public Safety) Features
The key features of the 4.9-GHz (US Only, Public Safety) WMIC are listed below.
Data Rates Supported
5-MHz channelization: 1.5, 2.25, 3, 4.5, 6, 9, 12, and 13.5 Mbps
10-MHz channelization: 3, 4.5, 6, 9, 12, 18, 24, and 27 Mbps
20-MHz channelization: 6, 9, 12, 18, 24, 36, 48, and 54 Mbps
Network Standard
Currently there is no IEEE 4.9-GHz (US Only, Public Safety) standard;
however, it is similar to the IEEE 802.11a standard.
Frequency Band
4.940-GHz to 4.990-GHz
Operating Channels
North America: 11
Available Transmit Power
Settings
40 mW (16 dBm)
30 mW (15 dBm)
20 mW (13 dBm)
10 mW (10 dBm)
5 mW (7 dBm)
Compliance
4.9-GHz (US Only, Public Safety):
•
Operation restricted to operators meeting requirements of CFR47 Part
90.20 of the technical rules for qualification as a Public Safety operator.
•
Requires a FCC license to operate under this part of the Part 90
Regulation
4.9 -GHz Channels
Table 4-6 shows the channel options for the 4.94-GHz to 4.99-GHz band for the United States regulatory
domain.
Table 4-6
FCC 4.9 Operational Channels as per TIA TR-8 specification
Operating Channel Channel Center 5-MHz
Numbers
Channel Spacing
Channel Center 10-MHz
Channel Spacing
Channel Center 20-MHz
Channel Spacing
4942.5
10
15
4945.0
4947.5
20
25
4950.0
4950.0
4952.5
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Key Features
Table 4-6
FCC 4.9 Operational Channels as per TIA TR-8 specification (continued)
Operating Channel Channel Center 5-MHz
Numbers
Channel Spacing
Channel Center 10-MHz
Channel Spacing
Channel Center 20-MHz
Channel Spacing
30
4955.0
4955.0
4960.0
4960.0
4965.0
4965.0
4970.0
4970.0
4975.0
4975.0
4980.0
4980.0
35
4957.5
40
45
4962.5
50
55
4967.5
60
65
4972.5
70
75
4977.5
80
85
4982.5
90
4985.0
91
93
95
4987.5
97
99
Note
Channel Center Frequencies (MHz) 1-MHz Channel Spacing is documented in the TIA TR-8
specification, but it is not supported by the 4.9-GHz (US Only, Public Safety) WMIC.
Throughput
The throughput is a minimum of:
•
4 Mbps half-duplex at one mile line-of-sight for a 5-MHz-wide channel
•
8 Mbps half-duplex at one mile line-of-sight range for a 10-MHz-wide channel.
•
16 Mbps half-duplex at one mile line-of-sight range for a 20-MHz-wide channel.
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Power Requirements
Modulation
Table 4-7 shows the modulation.
Table 4-7
Modulation
Modulation
5 Mbps
10 Mbps
20 Mbps
BPSK
1.5 Mbps and 2.25 Mbps 3 Mbps and 4.5 Mbps
6 Mbps and 9 Mbps
QPSK
3 Mbps and 4.5 Mbps
6 Mbps and 9 Mbps
12 Mbps and 18 Mbps
16 QAM
6 Mbps and 9 Mbps
12 Mbps and 18 Mbps
24 Mbps and 27 Mbps
64 QAM
12 Mbps and 13.5 Mbps 24 Mbps and 27 Mbps
48 Mbps and 54 Mbps
Receive Sensitivity
Table 4-8 shows the receive sensitivity.
Table 4-8
Receive Sensitivity
5-MHz
10-MHz
20-MHz
1.5 Mbps
-89 dBm
3 Mbps
-87 dBm
6 Mbps
-85 dBm
2.25 Mbps
-89 dBm
4.5 Mbps
-87 dBm
9 Mbps
-85 dBm
3 Mbps
-89 dBm
6 Mbps
-87 dBm
12 Mbps
-85 dBm
4.5 Mbps
-85 dBm
9 Mbps
-87 dBm
18 Mbps
-82 dBm
6 Mbps
-82 dBm
12 Mbps
-85 dBm
24 Mbps
-79 dBm
9 Mbps
-79 dBm
18 Mbps
-79 dBm
36 Mbps
-76 dBm
12 Mbps
-74 dBm
24 Mbps
-74 dBm
48 Mbps
-71 dBm
13.5 Mbps
-72 dBm
27 Mbps
-72 dBm
54 Mbps
-69 dBm
Power Requirements
Additional cards and components provide power and link interfaces to the WMIC. The exact
configuration of your router will vary, depending on how it was configured by the vendor.
The WMIC draws power from the PCI and the ISA connectors. Table 4-9 shows the estimated power
consumption. Note that these are theoretical maximum wattages.
Table 4-9
WMIC Power Requirement
Voltage
Current Draw
Power
Source
+5.0 V
0.4 amps
2.0 W
ISA and PCI connectors
+3.3 V
1.7 amps
5.6 W
PCI connectors
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Related Documentation
Related Documentation
These documents provide detailed information regarding the configuration of the wireless card:
•
Cisco IOS Switching Services Configuration Guide. Click this link to browse to this document:
http://www.cisco.com/univercd/cc/td/doc/product/software/ios122/122cgcr/fswtch_c/index.htm
•
Cisco Internetwork Design Guide. Click this link to browse to this document:
http://www.cisco.com/univercd/cc/td/doc/cisintwk/idg4/index.htm
•
Cisco Internetworking Technology Handbook. Click this link to browse to this document:
http://www.cisco.com/univercd/cc/td/doc/cisintwk/ito_doc/index.htm
•
Cisco Internetworking Troubleshooting Guide. Click this link to browse to this document:
http://www.cisco.com/univercd/cc/td/doc/cisintwk/itg_v1/index.htm
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Related Documentation
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INDEX
broadcast key rotation
Numerics
bus communication
10/100 Fast Ethernet
auto-negotiation
signals
1-2, 2-3, 3-1, 4-1
bus keying feature
1-2, 2-4, 3-1, 4-2
2-2
1-1, 2-1, 4-1
2.4-GHz (802.11b/g) WMIC
3rd-party devices
4-1
1-2
4.9-MHz (public safety) WMIC
cards
4-1
Cisco FESMIC
802.1D
2-1
Cisco MARC
802.1P
2-1
Cisco SMIC
802.1Q
2-1
Cisco WMIC
CCITT V.35
3-1
4-1
3-1
2-1
Cisco MARC
asynchronous
Cisco SMIC
1-1, 1-5
baud rates
data transfer
1-4
3-1
Cisco WMIC
1-4
2-1
1-1
Cisco FESMIC
AUX
4-9
4-4, 4-6, 4-7, 4-9
class of service (CoS)
3-1
console port
DTE
1-5
MARC signals
1-4
GPS
1-1
WMIC signals
4-4
audience
ii
Auto-MDIX
2-1
console port interface
2-1, 2-2, 4-3
Cisco MARC
1-4
auto negotiation
1-1
Cisco WMIC
4-4
auto-negotiation
2-2
crossover cable
2-2
AUX interface
signals
1-4
specifications
1-5
DCE mode
3-1
disabling auto-negotiation
DRAM
baud rate, serial
1-4
bridge packet data unit (BPDU)
bridging
2-1
2-2
1-1
DTE
2-2
asynchronous
mode
1-5
3-1
Cisco 3200 Series Mobile Access Router Hardware Guide
OL-5816-04
IN-1
Index
EIA/TIA-232
3-1
HDLC
EIA/TIA-449
3-1
header keying
EIA/TIA-530
3-1
header locations
3-1
1-2, 2-4, 3-1, 4-2
EIA/TIA-530A
3-1
Cisco FESMIC
EIA/TIA-X.21
3-1
Cisco MARC
enabling auto-negotiation
Cisco SMIC
2-2
Ethernet
1-2
3-2
Cisco WMIC
header
2-3
4-2
1-3
indicator
4-5
industry-standard architecture (ISA)
1-2
interface identification
Fast Ethernet
Fast Ethernet
header pin locations
Cisco FESMIC
2-5
Cisco MARC
1-3
Cisco WMIC
4-3
Cisco FESMIC
2-4
Cisco MARC
1-3
Cisco WMIC
4-3
serial
Cisco MARC
interface
Cisco FESMIC
2-4
Cisco SMIC
Cisco MARC
1-3
interfaces
Cisco WMIC
4-3
AUX
router port
3-4
1-5
Cisco FESMIC
1-4
signals
Cisco MARC
Cisco FESMIC
2-1
Cisco SMIC
Cisco MARC
1-1
Cisco WMIC
Cisco WMIC
4-1
console port
switch port
1-4, 2-5
Flash memory
flow control
1-4
1-1
1-5
2-4
1-3
3-1
4-2, 4-3
1-4, 4-4
Fast Ethernet
Cisco FESMIC
2-4
Cisco MARC
1-3
Cisco WMIC
4-2, 4-3
serial
Cisco MARC
Cisco SMIC
GPS
modem
power
1-5
1-6
1-1
3-4
inter-VLAN routing
2-2
ISA bus
signals
1-2, 2-3, 4-1
Cisco 3200 Series Mobile Access Router Hardware Guide
IN-2
OL-5816-04
Index
key hashing
non-Cisco cards
4-9
keying feature
bus communication
1-2, 2-4, 3-1, 4-2
1-2, 2-3, 3-1, 4-1
LEAP
PC-104-Plus
4-9
LED
PCI bus
Cisco FESMIC
Cisco MARC
PEAP
AUX signals
status
2-2
1-4
console signals
4-5
radio traffic
4-9
ports
4-2
LED indicators
Ethernet
1-1
per-VLAN spanning tree (PVST)
3-4
Cisco WMIC
1-2, 2-3, 4-1
PCI bus version
2-4
1-3
Cisco SMIC
1-2
1-4, 4-4
Fast Ethernet interface signals
4-5
serial interface signals
4-5
1-1, 2-1, 4-1
1-1
power consumption
Cisco FESMIC
Cisco MARC
MAC address
MDIX
Cisco SMIC
2-2, 4-10
1-6
3-1
Cisco WMIC
2-2
media dependent interface (MDI)
PPP modes
2-2
medium-dependent interface crossover
2-1
processor
2-1
4-10
3-1
1-1
memory
Flash
1-1
PC system requirements
message integrity check
vii
QoS
4-9
Mobile Access Router Card
1-1
modem
AUX connection
control signals
1-5
1-4
radio
DTR, DSR, RTS, and CTS signals
GPS modem
1-5
multifunction header
4-9
1-4
indicator
range
1-3, 1-4
4-5
4-7
rotary switch
3-3
Cisco FESMIC
Cisco SMIC
2-7
3-4
router cards
Cisco 3200 Series Mobile Access Router Hardware Guide
OL-5816-04
IN-3
Index
Cisco FESMIC
2-1
Cisco MARC
1-1
Cisco SMIC
VLAN routing
3-1
Cisco WMIC
2-2
4-1
RS232 transceiver
1-4
WEP
4-9
WMICs
4-1
serial
asynchronous port
baud rates
signals
1-5
1-4
zeroization
1-1, 3-1
1-1
serial interface
Cisco MARC
1-1
Cisco SMIC
3-4
signals
Cisco FESMIC
Cisco MARC
2-4
1-3
Cisco SMIC
3-3
Cisco WMIC
4-2
Fast Ethernet
1-3, 2-1, 4-1
ISA bus
1-2, 2-3, 4-1
PCI bus
1-2, 2-3, 4-1
serial
1-3, 3-3
Spanning Tree Protocol (STP)
status indicators
switch, rotary
synchronous
2-2
4-5
2-7
3-1
system requirements
vii
third-party devices
TKIP
2-4, 4-2
4-9
trunking
2-1
Cisco 3200 Series Mobile Access Router Hardware Guide
IN-4
OL-5816-04

---

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