CUSTOMER
SUPPORT
INFORMATION
Order toll-free in the U.S. 24 hours, 7 A.M. Monday to midnight Friday: 877-877-BBOX
FREE technical support, 24 hours a day, 7 days a week: Call 724-746-5500 or fax 724-746-0746
Mail order: Black Box Corporation, 1000 Park Drive, Lawrence, PA 15055-1018
Web site: www.blackbox.com • E-mail: info@blackbox.com
JANUARY 2000
LW0050A LW0057A
LW0051A LW0058A
LW0052A LW0059A
LW0053A LW0060A-CAN
LW0054A LW0061A-CAN
LW0055A LW0062A-CAN
LW0056A LW0063A-CAN
Pro 11 Series Wireless Ethernet
PWR
INFR
ETHR
H
M
L
LOAD
Wireless
Access
Point
1
TRADEMARKS
TRADEMARKS USED IN THIS MANUAL
Apple and AppleTalk are registered trademarks of Apple Computer, Inc.
Digital is a trademark of Digital Equipment Corporation.
HP is a registered trademark of Hewlett-Packard.
IBM is a registered trademark of International Business Machines Corporation.
Windows and Windows NT are registered trademarks of Microsoft Corporation.
Sun is a registered trademark of Sun Microsystems, Inc.
UL is a registered trademark of Underwriters Laboratories Incorporated.
Any other trademarks used in this manual are acknowledged to be the property of
the trademark owners.
2
PRO 11 SERIES WIRELESS ETHERNET
FEDERAL COMMUNICATIONS COMMISSION
AND
CANADIAN DEPARTMENT OF COMMUNICATIONS
RADIO FREQUENCY INTERFERENCE STATEMENTS
This equipment generates, uses, and can radiate radio frequency energy and if not
installed and used properly, that is, in strict accordance with the manufacturer’s
instructions, may cause interference to radio communication. It has been tested
and found to comply with the limits for a Class A computing device in accordance
with the specifications in Subpart J of Part 15 of FCC rules, which are designed to
provide reasonable protection against such interference when the equipment is
operated in a commercial environment. Operation of this equipment in a
residential area is likely to cause interference, in which case the user at his own
expense will be required to take whatever measures may be necessary to correct the
interference.
Changes or modifications not expressly approved by the party responsible for
compliance could void the user’s authority to operate the equipment.
This digital apparatus does not exceed the Class A limits for radio noise emission from digital
apparatus set out in the Radio Interference Regulation of Industry Canada.
Le présent appareil numérique n’émet pas de bruits radioélectriques dépassant les limites
applicables aux appareils numériques de la classe A prescrites dans le Règlement sur le
brouillage radioélectrique publié par Industrie Canada.
3
NOM STATEMENT
NORMAS OFICIALES MEXICANAS (NOM)
ELECTRICAL SAFETY STATEMENT
INSTRUCCIONES DE SEGURIDAD
1. Todas las instrucciones de seguridad y operación deberán ser leídas antes de
que el aparato eléctrico sea operado.
2. Las instrucciones de seguridad y operación deberán ser guardadas para
referencia futura.
3. Todas las advertencias en el aparato eléctrico y en sus instrucciones de
operación deben ser respetadas.
4. Todas las instrucciones de operación y uso deben ser seguidas.
5. El aparato eléctrico no deberá ser usado cerca del agua—por ejemplo, cerca
de la tina de baño, lavabo, sótano mojado o cerca de una alberca, etc..
6. El aparato eléctrico debe ser usado únicamente con carritos o pedestales que
sean recomendados por el fabricante.
7. El aparato eléctrico debe ser montado a la pared o al techo sólo como sea
recomendado por el fabricante.
8. Servicio—El usuario no debe intentar dar servicio al equipo eléctrico más allá
a lo descrito en las instrucciones de operación. Todo otro servicio deberá ser
referido a personal de servicio calificado.
9. El aparato eléctrico debe ser situado de tal manera que su posición no
interfiera su uso. La colocación del aparato eléctrico sobre una cama, sofá,
alfombra o superficie similar puede bloquea la ventilación, no se debe colocar
en libreros o gabinetes que impidan el flujo de aire por los orificios de
ventilación.
10. El equipo eléctrico deber ser situado fuera del alcance de fuentes de calor
como radiadores, registros de calor, estufas u otros aparatos (incluyendo
amplificadores) que producen calor.
11. El aparato eléctrico deberá ser connectado a una fuente de poder sólo del
tipo descrito en el instructivo de operación, o como se indique en el aparato.
4
PRO 11 SERIES WIRELESS ETHERNET
12. Precaución debe ser tomada de tal manera que la tierra fisica y la polarización
del equipo no sea eliminada.
13. Los cables de la fuente de poder deben ser guiados de tal manera que no
sean pisados ni pellizcados por objetos colocados sobre o contra ellos,
poniendo particular atención a los contactos y receptáculos donde salen del
aparato.
14. El equipo eléctrico debe ser limpiado únicamente de acuerdo a las
recomendaciones del fabricante.
15. En caso de existir, una antena externa deberá ser localizada lejos de las lineas
de energia.
16. El cable de corriente deberá ser desconectado del cuando el equipo no sea
usado por un largo periodo de tiempo.
17. Cuidado debe ser tomado de tal manera que objectos liquidos no sean
derramados sobre la cubierta u orificios de ventilación.
18. Servicio por personal calificado deberá ser provisto cuando:
A: El cable de poder o el contacto ha sido dañado; u
B: Objectos han caído o líquido ha sido derramado dentro del aparato; o
C: El aparato ha sido expuesto a la lluvia; o
D: El aparato parece no operar normalmente o muestra un cambio en su
desempeño; o
E: El aparato ha sido tirado o su cubierta ha sido dañada.
5
ELECTRONIC EMISSION NOTICES
Electronic Emission Notices
This device complies with Part 15 of the FCC rules, ETSI 300-328, UL®, UL/C,
TUV/GS, and CE.
Operation is subject to the following two conditions:
1. This device may not cause harmful interference.
2. This device must accept any interference received, including interference that
may cause undesired operation.
6
PRO 11 SERIES WIRELESS ETHERNET
Contents
Chapter Page
1. Introduction............................................................................................................11
1.1 How to Use This Guide ..................................................................................11
1.2 Pro 11 Series Features ....................................................................................12
1.3 Pro 11 Series Product Line ............................................................................13
1.3.1 Access Point (LW0050A, LW0055A, or LW0060A-CAN)....................13
1.3.2 Single Station Adapter (LW0051A, LW0056A, or LW0061A-CAN) ..14
1.3.3 Four-Port Station Adapter (LW0052A, LW0057A, or LW0062A-CAN)..15
1.3.4 Workgroup Bridge (LW0053A, LW0058A, or LW0063A-CAN) ........16
1.3.5 PC Adapter (LW0054A or LW0059A)..................................................16
1.4 Pro 11 Functional Description ......................................................................17
1.4.1 Quick Review of Ethernet ....................................................................17
1.4.2 Startup Procedure..................................................................................17
1.4.3 Access Point............................................................................................17
1.4.4 Single-Port Station Adapters ................................................................18
1.4.5 Four-Port Station Adapter ....................................................................18
1.4.6 Ethernet Workgroup Bridge ................................................................18
1.4.7 3-Mbps Type II PCMCIA Adapter ........................................................19
2. Basic Installation ....................................................................................................20
2.1 Basic Installation Checklist ............................................................................20
2.2 Check the Packing List ..................................................................................20
2.3 Position the Unit ............................................................................................21
2.4 Connect the Unit to the Power Supply ........................................................22
2.5 Connect the Unit to the Ethernet Port ........................................................23
2.6 Check LED Indicators ....................................................................................23
2.6.1 LEDs on Station Adapters and Bridges................................................23
2.6.2 Access Point LEDs..................................................................................24
2.6.3 Verifying the Ethernet Connection......................................................24
3. Using the Local Terminal for Unit Setup and Management ..............................25
3.1 Getting Started with the Local Terminal ......................................................25
3.2 Configuration Screens....................................................................................26
3.3 Main Menu ......................................................................................................29
3.4 System Configuration Menu ..........................................................................29
3.4.1 Station Status..........................................................................................30
3.4.2 IP and SNMP Parameters......................................................................31
3.4.3 Wireless LAN (WLAN) Parameters ......................................................31
3.4.4 Bridging..................................................................................................34
7
CONTENTS
Chapter Page
3.4.5 Station Control ......................................................................................35
3.4.6 Security (Authentication Feature) ......................................................35
3.5 Advanced Settings Menu................................................................................37
3.5.1 Translation Mode ..................................................................................37
3.5.2 Performance ..........................................................................................37
3.5.3 Radio ......................................................................................................38
3.5.4 Rate ........................................................................................................39
3.5.5 Access Point Redundancy Support ......................................................39
3.5.6 Maintenance ..........................................................................................39
3.6 Site Survey Menu ............................................................................................40
3.6.1 System Counters ....................................................................................40
3.6.2 Survey Software ......................................................................................45
3.6.3 Using the Site Survey Software ............................................................45
3.6.4 Event Log................................................................................................48
3.6.5 Display Neighboring Access Points ......................................................48
3.7 Access Control Menu......................................................................................48
4. PCMCIA Adapter Installation, Setup, and Management ....................................50
4.1 Packing List ....................................................................................................50
4.2 Before You Begin ............................................................................................50
4.3 Installing the PCMCIA Adapter ....................................................................51
4.3.1 Installing the PCMCIA Adapter Drivers ..............................................51
4.3.2 Checking the LED Indicators ..............................................................56
4.3.3 Initial Configuration..............................................................................56
4.4 Installing the PCMCIA Adapter Utilities ......................................................57
4.4.1 Uninstalling PCMCIA Adapter Utilities ..............................................57
4.5 Using the Wireless LAN Configuration Utility ............................................57
4.5.1 Station Status Tab ..................................................................................58
4.5.2 WLAN Parameters Tab..........................................................................59
4.5.3 Station Control Tab ..............................................................................59
4.5.4 Configuration Access Tab ....................................................................60
4.5.5 Power Management Tab ......................................................................61
4.5.6 Security Tab............................................................................................62
4.5.7 Maintenance Tab ..................................................................................63
4.5.8 Radio Tab ..............................................................................................63
4.5.9 Performance Tab ..................................................................................64
4.5.10 Resetting the PCMCIA Adapter............................................................65
4.6 Using the Site Survey Utility ..........................................................................66
4.6.1 Accessing the Site Survey Utility ..........................................................66
4.6.2 Site Survey Main Window......................................................................67
4.6.3 Performing a Site Survey with the PCMCIA Adapter..........................69
8
PRO 11 SERIES WIRELESS ETHERNET
Chapter Page
4.7 Using the Upgrade Kit Program....................................................................70
4.8 Installation Troubleshooting ........................................................................74
4.9 Installing the PCMCIA Adapter Drivers in ODI Systems ............................75
5. Planning and Installing Wireless LANs ................................................................78
5.1 System Configurations....................................................................................78
5.1.1 Single-Cell Configuration......................................................................78
5.1.2 Overlapping Cell Configuration ..........................................................82
5.1.3 Multicell Configuration ........................................................................84
5.1.4 Multi-hop Configuration (Relay) ........................................................85
5.2 Indoor Installation Considerations ..............................................................86
5.2.1 Site-Selection Factors ............................................................................87
5.2.2 Antennas for Indoor Applications........................................................88
5.2.3 Construction Materials ..........................................................................89
5.2.4 Cell Size ..................................................................................................90
5.3 Outdoor Installation Considerations ............................................................91
5.3.1 Site-Selection Factors ............................................................................91
5.3.2 Rooftop Installation ..............................................................................92
5.3.3 Antennas for Outdoor Applications ....................................................92
5.3.4 Antenna Seal ..........................................................................................94
5.3.5 Cell Size ..................................................................................................94
5.3.6 Link Distance ........................................................................................95
5.3.7 Outdoor Installations ............................................................................95
5.4 Precautions......................................................................................................95
5.4.1 Transmit Antenna Gain ........................................................................95
5.4.2 Spurious Radio Frequency Emissions ..................................................96
5.4.3 Lightning Protection ............................................................................96
5.4.4 Rain Proofing ........................................................................................96
6. Upgrade Procedure ................................................................................................97
7. System Troubleshooting ........................................................................................99
7.1 Troubleshooting Guide..................................................................................99
7.2 Checking Counters ......................................................................................103
7.2.1 WLAN Counters ..................................................................................103
7.2.2 Ethernet Counters ..............................................................................103
Appendix A Supported MIBs and Traps ................................................................104
A.1 Supported MIBs ............................................................................................104
A.2 Supported Traps ..........................................................................................104
9
CONTENTS
Chapter Page
Appendix B. Specifications ......................................................................................107
B.1 Specifications for LW0050A–LW0053A and LW0055A–LW0058A ..........107
B.2 Specifications for LW0054A and LW0059A ................................................109
Appendix C. Wireless LAN Concepts ......................................................................112
C.1 Topology........................................................................................................112
C.1.1 Wired LAN Topology ..........................................................................112
C.1.2 Wireless LAN Topology ......................................................................113
C.2 Roaming ........................................................................................................115
C.3 Load Balancing ............................................................................................115
C.4 Dynamic Rate Switching ..............................................................................116
C.5 Media Access ................................................................................................116
C.6 Fragmentation ..............................................................................................117
C.7 Collision Avoidance ......................................................................................117
C.8 Channelization..............................................................................................117
Appendix D. Radio Signal Propagation ..................................................................118
D.1 Introduction ..................................................................................................118
D.2 RF Terms and Definitions ............................................................................119
Appendix E. IEEE 802.11 Technical Tutorial ........................................................125
E.1 Architecture Components............................................................................125
E.2 IEEE 802.11 Layers Description ..................................................................126
E.3 The MAC Layer ............................................................................................127
E.3.1 The Basic Access Method: CSMA/CD ..............................................127
E.3.2 Virtual Carrier Sense ..........................................................................128
E.3.3 MAC-Level Acknowledgments ............................................................129
E.3.4 Fragmentation and Reassembly..........................................................129
E.3.5 Inter Frame Spaces ..............................................................................131
E.3.6 Exponential Backoff Algorithm..........................................................131
E.4 How Does a Station Join an Existing Cell (BSS)? ......................................132
E.4.1 The Authentication Process................................................................133
E.4.2 The Association Process ......................................................................133
E.5 Roaming ........................................................................................................133
E.6 Keeping Synchronization ............................................................................134
E.7 Security ..........................................................................................................134
E.7.1 Preventing Access to Network Resources ..........................................134
E.7.2 Eavesdropping ....................................................................................134
E.8 Power Saving ................................................................................................135
E.9 Frame Types ..................................................................................................136
E.10 Frame Formats ..............................................................................................136
10
PRO 11 SERIES WIRELESS ETHERNET
Chapter Page
E.10.1 Preamble ..............................................................................................136
E.10.2 PLCP Header ......................................................................................136
E.10.3 MAC Data ............................................................................................137
E.11 Most Common Frame Formats ....................................................................141
E.11.1 RTS Frame Format ..............................................................................141
E.11.2 CTS Frame Format ..............................................................................142
E.11.3 ACK Frame Format..............................................................................142
E.12 Point Coordination Function (PCF) ..........................................................143
E.13 Ad-hoc Networks ..........................................................................................143
11
CHAPTER 1: Introduction
1. Introduction
1.1. How to Use This Guide
This guide contains instructions for overall planning and setting up your wireless
LAN. It explains how to install each unit, plus how to install antennas and
accessories.
This guide contains:
• Chapter 1, Introduction – Explains how to use this guide.
• Chapter 2, Basic Installation – Explains how to install the Pro 11 Series units.
• Chapter 3, Using the Local Terminal for Unit Setup and Management – Describes
how to use the local terminal to set up, configure, and manage Pro 11 Series
units.
• Chapter 4, PCMCIA Adapter Installation, Setup, and Management – Describes how
to install the LW0054A and LW0059A and how to set up and manage the
Adapter using the appropriate utilities.
• Chapter 5, Planning and Installing Wireless LANs – Guidelines and restrictions
regarding antenna selection and installation.
• Chapter 6, Upgrade Procedure – Explains how to perform upgrades for Pro 11
Series units using a TFTP application.
• Chapter 7, System Troubleshooting – Solves some common problems that may
occur when installing and using Pro 11 Series products.
• Appendices – These include: Supported MIBs and traps, specifications, wireless
LAN concepts, radio signal propagation, and an IEEE 802.11 technical
tutorial.
12
PRO 11 SERIES WIRELESS ETHERNET
1.2. Pro 11 Series Features
• IEEE 802.11 Compliant – All Pro 11 Series units are fully compliant with the
final IEEE 802.11 specification for wireless LANs, and thus support
interoperability with other 802.11-compliant vendors.
• Fully Integrated Product Family – One high-performance Access Point for all
products in the series.
• Increased Throughput – A 3-Mbps modem, with up to 2-Mbps data throughput.
• Translation Bridging – Support for both translation and transparent bridging as
defined in the IEEE 802.1.h and RFC 1042 standards.
• Seamless Roaming – Network connection is maintained while roaming between
overlapping coverage areas. Transmission and reception can be continued
while moving at high speeds with no data packet loss or duplication.
• Load Sharing – Traffic is equally distributed among all Access Points in the area.
• Redundancy – In co-located cell environments, upon failure of an Access Point,
stations will switch to other available Access Points.
• LED Display – Power, Network Activity, and WLAN Load or Signal Quality
LEDs indicate the current status of the unit.
• Upgrading – Simple, quick, and free software upgrades via TFTP.
• Flash Updates – All items in the Pro 11 Series line can be freely and quickly
upgraded with flash updates.
• LW0054A/LW0059A Card – The LW0054A Pro 11 PC Card is extremely
compact and does not extend beyond your PC. It comes with two retractable
antennas. The LW0059A has two connectors to which antennas may be
connected. Multi-rate support for 1, 2, and 3 Mbps guarantees efficient use of
the medium. Throughput is up to 2 Mbps.
Configuration Utility – This user-friendly application helps you quickly set
up stations containing the LW0054A/LW0059A Card. You can save the
configuration to a file and import the file to other stations for fast
installation.
Site Survey Utility – This user-friendly application records the signal
strength received by the LW0054A/LW0059A Card at different
locations, giving a clear image of existing coverage. The gathered data
indicates whether to add, remove, or move Access Points.
13
CHAPTER 1: Introduction
1.3 Pro 11 Series Product Line
These are Pro 11 Series Wireless Ethernet Units with Integral 2-dBi Antennas.
Ethernet Access Point, Monitor Cable, Power Supply ............................LW0050A
Single-Port Station Adapter, Power Supply ............................................LW0051A
Four-Port Station Adapter, Power Supply................................................LW0052A
Ethernet Workgroup Bridge, Power Supply..............................................LW0053A
3-Mbps Type II PCMCIA Adapter with
Folding Diversity Antenna and Software..............................................LW0054A
If you’re using one or two detached antennas, use one of these units.
Ethernet Access Point, Monitor Cable, Power Supply,
Mounting Bracket ................................................................................LW0055A
Canadian version..............................................................LW0060A-CAN
Single-Port Station Adapter, Power Supply, Mounting Bracket ..............LW0056A
Canadian version..............................................................LW0061A-CAN
Four-Port Station Adapter, Power Supply, Mounting Bracket..................LW0057A
Canadian version..............................................................LW0062A-CAN
Ethernet Workgroup Bridge, Power Supply, Mounting Bracket................LW0058A
Canadian version..............................................................LW0063A-CAN
Type II PCMCIA Adapter with MMCX Connectors ..................................LW0059A
Note: Pro 11 series products are not compatible with Pro series products, but the Pro
Series can be upgraded to be compatible with the Pro 11 series. Call Technical
Support for information.
1.3.1 A
CCESSPOINT
(LW0050A, LW0055A, ORLW0060A-CAN)
The Access Point is fully compliant with the IEEE 802.11 wireless LAN standard.
The Access Point is a wireless hub that provides access for wireless workstations into
wired Ethernet LANs. It also contains the wireless relaying function that enables
workstations equipped with a Station Adapter (Station Adapter, Bridge, or
PCMCIA Adapter) to communicate with one another inside the cell coverage area
(even if they are not in direct line of sight) via the Access Point. Any two wireless
stations in two different cells can communicate through their Access Points.
The Access Point can support various data rates simultaneously at 3 Mbps, 2 Mbps,
or 1 Mbps.
14
PRO 11 SERIES WIRELESS ETHERNET
Mobile workstations, such as laptops and hand-held devices, can roam between
Access Points that belong to the same Extended Service Set (ESS). In an Extended
Service Set, all Access Points have the same ESSID. When the access points are set
up so that their coverage areas overlap, users can roam seamlessly from cell to cell.
This means that there is no interruption of network connection when moving from
one coverage area to the other through the overlap area. The roaming is
completely transparent to the user and the applications. The Station Adapters
decide when a mobile user becomes disassociated from one access point and
associated with another. This process is fully transparent, requires no user
intervention, and involves no loss of data packets.
Multiple access points can be positioned in locations where heavy network traffic is
expected; this creates a multicell and increases the aggregate throughput capacity
in areas where it is needed most. The system implements a load-balancing
algorithm to divide the stations equally between the available co-located Access
Points.
The Access Point contains an embedded SNMP agent, enabling effective
management by any standard SNMP management station. Software upgrades can
be downloaded by TFTP protocol via the wired LAN or wireless LAN.
The Access Point is available in two models:
• With two integrated omnidirectional antennas (LW0050A), and
• For use with external high-gain antennas (LW055A or LW0060A-CAN).
1.3.2 S
INGLE-PORTSTATIONADAPTER
(LW0051A, LW0056A, ORLW0061A-CAN)
The Single-Port Station Adapter is a wireless LAN station adapter that converts any
device equipped with an Ethernet interface into a wireless LAN station. The SinglePort Station Adapter is transparent to the device’s hardware, software, and network
operating system. This enables plug-and-play installation.
The Single-Port Station Adapter enables its workstation to communicate with any
other wireless station in the same cell coverage area, and to access all network
resources—such as file servers, wired stations, printers, and shared databases—via
the Access Point. Any two wireless stations in two different cells can communicate
through their Access Points.
Workstations that can be connected to the wireless LAN include PCs, X-Terminals,
and any other device that supports Ethernet. The unit is transparent to the
workgroup devices’ hardware, software, and network operating system.
15
CHAPTER 1: Introduction
The Single-Port Station Adapter contains an embedded SNMP agent enabling
effective management. Software upgrades are downloaded by TFTP via the
Ethernet port or via the Wireless LAN and Access Point.
Network connection is maintained while roaming between overlapping coverage
areas. Transmission and reception can be continued while moving at high speed
with no data-packet loss or duplication.
The Single-Port Station Adapter is available in two models:
• With two integrated 2-dBi omnidirectional antennas (LW0051A).
• For use with external antennas (LW0056A or LW0061A-CAN).
1.3.3 F
OUR-PORTSTATIONADAPTER
(LW0052A, LW0057A, ORLW0062A-CAN)
The Four-Port Station Adapter is a wireless LAN adapter that connects a
workgroup of up to four Ethernet-equipped workstations to the wireless LAN. The
Four-Port Station Adapter is transparent to the workgroup devices’ hardware and
software, allowing plug-and-play installation.
The Four-Port Station Adapter enables connected workstations to communicate
with other wireless stations in the same cell coverage area, and to access all network
resources—such as file servers, wired stations, printers, and shared databases—via
the Access Point. The Four-Port Station Adapter also allows highly efficient and fast
wired communication among the four connected workstations.
Workstations that can be connected to the wireless LAN include PCs, X-Terminals,
and any other device that supports Ethernet. The unit is transparent to the
workgroup devices’ hardware, software, and network operating system.
The Four-Port Station Adapter contains an embedded SNMP agent and software
downloading capabilities which allow it to be effectively managed. Software
upgrades are downloaded by TFTP protocol via the Ethernet ports or via the
Wireless LAN and Access Point.
Network connection is maintained while roaming between overlapping coverage
areas. Transmission and reception can be continued while moving at high speed
with no data-packet loss or duplication.
The Four-Port Station Adapter is available in two models:
• With two integrated omnidirectional antennas (LW0052A).
• For use with external antennas (LW0057A or LW0062A-CAN).
16
PRO 11 SERIES WIRELESS ETHERNET
1.3.4 W
ORKGROUPBRIDGE
(LW0053A, LW0058A, ORLW0063A-CAN)
The Workgroup Bridge is a high-speed, wide-range wireless LAN bridge that
provides connectivity to remote Ethernet networks.
The Workgroup Bridge communicates with the Access Points of the remote LANs,
effectively creating an extended wireless network spanning sites situated up to 6
miles (9.7 km) apart (in Europe, this range is limited by ETSI regulations to 2.5
km; in deregulated regions, this range can be up to 60 km). In this way a central
Ethernet LAN may be connected with one or more branch-office LANs.
In addition, an island consisting of a Workgroup Bridge together with an Access
Point can work as a relay. Transmissions from the central LAN and from the
remote LAN are relayed via the island located between them. This configuration
effectively doubles bridge range.
Workstations that can be connected to the wireless LAN include PCs, X-Terminals,
and any other device that supports Ethernet. The unit is transparent to the
workgroup devices’ hardware, software, and network operating system.
The Workgroup Bridge contains an embedded SNMP agent and software
downloading capabilities enabling effective management. Software upgrades are
downloaded using TFTP protocol via the Ethernet ports or via the wireless LAN
and Access Point.
The Workgroup Bridge is available in two models:
• With two integrated 2-dBi omnidirectional antennas (LW0053A).
• With two external-antenna connector ports (LW0058A or LW0063A-CAN).
1.3.5 PCMCIA A
DAPTER
(LW0054A ORLW0059A)
The PCMCIA Adapter gives the portable computer user continuous connectivity
and complete mobility, allowing seamless roaming throughout the wireless LAN
campus. It converts any portable computer (including notebooks, laptops, penbased and hand-held computers) containing a PCMCIA Release 2.1 Type II slot
into a wireless LAN workstation.
The PCMCIA Adapter can communicate with any other wireless station in its cell
coverage area. Furthermore, any two wireless stations in two different cells can
communicate through their Access Points. The PCMCIA Adapter can access all
network resources, such as file servers, other wired stations, printers, and shared
databases, via the Access Point.
17
CHAPTER 1: Introduction
Network connection is maintained while roaming between overlapping cell
coverage areas. Transmission and reception can be continued while moving at
high speed with no data-packet loss or duplication.
The PCMCIA Adapter is available in two models:
• With two integrated omnidirectional retractable antennas (LW0054A).
• With two external-antenna connector ports (LW0059A).
1.4 Pro 11 Functional Description
1.4.1 Q
UICKREVIEW OF
E
THERNET
Standard Ethernet LAN stations are wired to a common bus. When one of the
stations sends a message, it assigns a destination address to the message and sends
the message on the bus. All stations on the bus “hear” the message, but only the
station with the proper address processes the message.
1.4.2 S
TARTUPPROCEDURE
When wireless units (other than Access Points) start up, they scan the frequencies
for an Access Point. If an active Access Point is in range, the units synchronize with
it. The addresses associated with the units are registered in the Access Point (the
registration process is different for each unit type). From then on, the units can
send and receive messages to and from the wired LAN.
1.4.3 A
CCESSPOINT
The Access Point is connected to a wired Ethernet LAN, and it keeps a list of
known stations on its wireless side. When an Access Point “hears” a message that is
destined for a wireless station, the Access Point forwards the message wirelessly to
the station. If the message has a destination address that the Access Point does not
recognize, the Access Point ignores the message.
The Access Point continuously “listens” for wireless messages as well. When the
Access Point “hears” a wireless message destined for another wireless unit, it relays
the message directly to the wireless unit without forwarding the message to the
wired LAN. When the Access Point “hears” a wireless message whose destination is
not on the wireless LAN, it forwards the message to the wired LAN. Messages
cannot be sent directly between wireless stations without an Access Point to relay
the message.
18
PRO 11 SERIES WIRELESS ETHERNET
1.4.4 S
INGLE-PORTSTATIONADAPTERS
The Single-Port Station Adapter is connected to a station’s network card. When the
station sends a message, the Single-Port Station Adapter wirelessly forwards it to the
Access Point. And when the Access Point receives a message destined for the
station, it wirelessly forwards the message to the Single-Port Station Adapter.
The first time the station sends a message, the station’s address is registered in the
Access Point. The Access Point keeps only the first address for each Single-Port
Station Adapter, so the Single-Port Station Adapter will not work properly if
connected to more than one station.
1.4.5 F
OUR
-P
ORTSTATIONADAPTER
The Four-Port Station Adapter has four connectors for up to four stations, and
features operation identical to that of the Single-Port Station Adapter. As each
station connected to the Four-Port Station Adapter sends its first message, each
address is registered in the Access Point. The Access Point only keeps up to four
addresses for each Four-Port Station Adapter (1 address per port), so the Four-Port
Station Adapter will not work properly if connected to more than four stations.
1.4.6 E
THERNETWORKGROUPBRIDGE
The Ethernet Workgroup Bridge connects to a hub in a wired Ethernet LAN.
When a station on the Ethernet Workgroup Bridge’s LAN sends a message that is
not destined for a local station, the Ethernet Workgroup Bridge wirelessly forwards
the message to the Access Point. And when the Access Point receives a message
destined for a station on the Ethernet Workgroup Bridge’s LAN, the Access Point
wirelessly forwards it to the Ethernet Workgroup Bridge. In this way, the Ethernet
Workgroup Bridge and Access Point work together like a standard network bridge.
The first time each station on the Ethernet Workgroup Bridge’s LAN sends a
message, the station’s address is registered in the Ethernet Workgroup Bridge and
the Access Point. The Ethernet Workgroup Bridge and Access Point can hold all
the addresses necessary to support an entire LAN connected to an Ethernet
Workgroup Bridge.
19
CHAPTER 1: Introduction
1.4.7 3-M
BPSTYPE
II PCMCIA A
DAPTER
The 3-Mbps Type II PCMCIA Adapter is inserted into the station’s PCMCIA slot
and features identical operation to that of the Single-Port Station Adapter. As
opposed to the Single-Port Station Adapter that connects to the station’s network
card, the 3-Mbps Type II PCMCIA Adapter is the station’s network card. The
Single-Port Station Adapter can be used with stations of any operating system as
long as the station sends legal Ethernet messages, but the 3-Mbps Type II PCMCIA
Adapter requires a driver that is compatible with the station’s operating system.
20
PRO 11 SERIES WIRELESS ETHERNET
2. Basic Installation
This chapter describes the physical installation of the Pro 11 Series units described
in Chapter 1, with the exception of the PCMCIA Adapter. Installation for the
LW0054A/LW0059A PCMCIA Adapter is described in Chapter 4.
The Pro 11 Series features plug-and-play operation (the unit starts operating
immediately after physical installation with a set of default operation parameters).
A local terminal can be connected to the unit to perform system-specific parameter
settings. The use of a local terminal and the configuration parameters are
described in Chapter 3. In addition, all products in the Pro 11 Series contain an
SNMP agent and can be configured from a remote location via the network.
2.1. Basic Installation Checklist
Standard installation involves these steps:
• Check the packing list.
• Position the unit and the antenna in the best location.
• Connect the power supply to the unit.
• Connect the Ethernet port to the unit.
• Check unit functionality using the LED indicators.
2.2 Check the Packing List
When you first open the package, verify that the unit is complete with the following
components:
• The unit, complete with two omnidirectional antennas or RF connectors for
use with external antennas (for models LW0055A through LW0059A).
• 5-VDC power-supply transformer.
• Mounting bracket for wall or ceiling installations and torque key for antenna
connectors (supplied with models LW0055A through LW0058A).
21
CHAPTER 2: Basic Installation
The Access Points come with these additional components:
• This guide.
• A monitor connector cable for connecting the units to a monitor in order to
perform Local Terminal Management functions (see Section 3.1).
A proprietary MIB disk for performing remote-unit configuration and monitoring
via SNMP is also available.
Open the packaging carefully and make sure that none of the items listed above
are missing. Do not discard packaging materials. If, for any reason, the unit is
returned, it should be shipped in its original package.
2.3 Position the Unit
Pro 11 wireless LAN products are robust, trouble-free units, designed to operate
efficiently under a wide range of conditions. The following guidelines are provided
to help you position the units to ensure optimum coverage and operation of the
wireless LAN.
Metal Furniture
Position the units clear of metal furniture and away from moving objects such as
metal fans or doors.
Microwave Ovens
For best performance, position the units clear of radiation sources that emit in the
2.4-GHz frequency band, such as microwave ovens.
Antennas
For models with integrated antennas, make sure the antennas point up. For
models with external antennas, connect the external antennas and RF cable. For
information about external antenna installation, refer to Section 5.3.
Heat Sources
Keep the units well away from sources of heat, such as radiators and air
conditioners.
22
PRO 11 SERIES WIRELESS ETHERNET
A
DDITIONALCONSIDERATIONSWHENPOSITIONING THEACCESSPOINT
When positioning the Access Points, take into account the following additional
considerations.
Height
Install the Access Point at least 5 feet (1.5 m) above the floor, clear of any high
office partitions or tall pieces of furniture in the coverage area. The Access Point
can be placed on a high shelf, or can be attached to the ceiling or a wall using a
mounting bracket.
Central Location
Install the Access Point in a central location in the intended coverage area. Good
positions are:
• In the center of a large room.
• In the center of a corridor.
• At the intersection of two corridors.
Many modern buildings have partitions constructed of metal or containing metal
components. We recommend that you install the Access Points on the corridor
ceilings. The radio waves propagated by the Pro 11 LAN are reflected along the
metal partitions and enter the offices through the doors or glass sections.
2.4 Connect the Unit to the Power Supply
The unit operates on a power input of 5 VDC (1200 mA, 1500 mA peak) supplied
by the power transformer included with the unit.
• Plug the output jack of the power transformer into the DC input socket on the
unit. This socket may be located on the rear or side panel of the unit.
• Connect the power transformer to a power outlet supplying 110 or 220 VAC.
23
CHAPTER 2: Basic Installation
2.5 Connect the Unit to the Ethernet Port
• Connect one end of an Ethernet 10BASE-T cable (not supplied) to the RJ-45
port on the rear panel of the unit (marked UTP).
• Connect the other end of the connector cable to the Ethernet outlet:
When connecting a Single-Port Station Adapter or Four-Port Station
Adapter to a PC, use a straight cable.
When connecting an Access Point or Ethernet Workgroup Bridge to a
LAN, use a straight cable.
When connecting an Access Point or Ethernet Workgroup Bridge to a
PC, use a crossed cable.
When connecting an Access Point to a Ethernet Workgroup Bridge, use
a crossed cable.
2.6 Check LED Indicators
Verify that the unit is functioning correctly via the front-panel LEDs. The following
tables describe the front-panel LEDs for Station Adapters, Bridges, and Access
Points.
2.6.1 LED
SONSTATIONADAPTERS ANDBRIDGES
Name Description Meaning
PWR power supply On – After successful power-up
Off – Power off
WLNK WLAN Link On – Unit is synchronized or associated with an
Access Point
Off – Unit is not synchronized or associated with an
Access Point
ETHR Ethernet activity On – Reception on Ethernet port
Off – No reception on Ethernet port
24
PRO 11 SERIES WIRELESS ETHERNET
Name Description Meaning
QLT Quality of reception H, M, and L LEDs not lit: Very-low-quality reception (less
than -81 dBm) or not synchronized with Access Point.
H and M LEDs not lit, L LED is lit: Low-quality reception
(from -81 to -77 dBm), usually enabling 1-Mbps traffic.
H LED not lit, M and L LEDs lit: Medium-quality
reception (from -77 to -65 dBm), usually enabling 2Mbps traffic.
H, M, and L LEDs lit: High-quality reception (greater
than -65 dBm), enabling 3-Mbps traffic.
2.6.2 A
CCESSPOINT
LED
S
Name Description Meaning
PWR power supply On – After successful power-up
Off – Power off
INFR radio interference Off – No interference
Blinking – Interference present
ETHR Ethernet activity On – Reception of data from Ethernet LAN that is
forwarded to WLAN (in reject-unknown mode)
Off – No reception of data from Ethernet LAN that is
forwarded to WLAN
LOAD WLAN load H, M, and L LEDs not lit: No stations.
(Number of H and M LEDs not lit, L LED lit: 1 to 8 stations.
associated stations) H LED not lit, M and L LEDs lit: 9 to 16 stations.
H, M, and L LEDs lit: 17 or more stations.
2.6.3 V
ERIFYING THEETHERNETCONNECTION
Once you have connected the unit to an Ethernet outlet, verify that the ETHR
LED on the front panel is blinking. The ETHR LED should blink whenever the
unit receives LAN traffic.
At the other end of the Ethernet link, verify that the LINK indicator is ON. On
Access Points, the LINK indicator is located on the attached hub port; on Station
Adapters, the LINK indicator is located on the NIC.
25
CHAPTER 3: Using the Local Terminal for Unit Setup and Management
3. Using the Local Terminal for Unit
Setup and Management
The Pro 11 Series units feature plug-and-play operation; the unit starts operating
immediately following physical installation with a set of default parameters. Systemspecific configuration of the unit to meet specific requirements can be done via a
local terminal (ASCII ANSI terminal or PC) connected to the unit.
This chapter explains how to use the local terminal to configure and manage the
Pro 11 Series units described in Chapter 1. Configuration and management for the
LW0054A/LW0059A PCMCIA PC Card is described in Chapter 4.
3.1 Getting Started with the Local Terminal
1. Use the Monitor cable supplied with the Access Point. Connect one end of the
cable to the MON jack on the rear panel of the unit and the other to the COM
port of the terminal.
2. Run a terminal-emulation program (such as HyperTerminal).
3. Set communication parameters to the following:
• Baud Rate: 9600
• Data Bits: 8
• Stop Bits: 1
• Parity: None
• Flow Control: None
• Connector: Connected COM port.
4. Press Enter. The main menu is displayed (see Figure 3-1 on page 29).
26
PRO 11 SERIES WIRELESS ETHERNET
To use Local Terminal Management:
1. Click an option number to open/activate the option. You may need to press
Enter in some cases.
2. Press Esc to exit a menu or option.
3. Reset the unit after making configuration changes.
3.2 Configuration Screens
Listed below are the menus, sub-menus, and sub-submenus in the terminal
program that the Installer can edit. Default values are listed where applicable.
Numbers in the table below indicate how to reach each option. For example, to
reach the 1.2.1 IP Address option, start at the main menu and press 1, then 2, and
then 1.
Table 3-1. Configuration Menus
Menu Sub-Menu Sub-Submenu Default Values
1. System 1.1 Station
Config- Status
uration
1.2 IP and 1.2.1 IP Address
SNMP 1.2.2 Subnet Mask
Parameters 1.2.3 Default Gateway Address
1.2.4 SNMP Traps Enabled
1.2.5 Display Current Values
1.3 Wireless 1.3.1 Hopping Sequence (only for Access Points)1
LAN (WLAN) 1.3.2 Hopping Set (only for Access Points)1
Parameters 1.3.3 ESS ID ESSID1
1.3.4 Maximum Data Rate 3 Mbps
1.3.5 Transmit Antenna Use 2 Antennas*
1.3.6 Mobility Low
1.3.7 Load Sharing Disabled**
1.3.8 Preferred AP (not available for Access Points)
1.3.A Display Current Values
* Option 1.3.5 Transmit Antenna has the default value Use #2 for the Four-Port Station Adapters only.
** Option 1.3.7 Load Sharing has the default value Enabled for the Access Points only.
27
CHAPTER 3: Using the Local Terminal for Unit Setup and Management
Table 3-1 (continued). Configuration Menus
Menu Sub-Menu Sub-Submenu Default Values
1.4 Bridging 1.4.1 LAN to WLAN Bridging Mode (Access Points only) Reject Unknown
1.4.2 Intelligent Bridging Period (Access Points only) 15 sec
1.4.3 IP Filtering Disabled
1.4.4 Tunneling Both Enabled
1.4.5 Broadcast Relaying Enabled
1.4.6 Unicast Relaying Enabled
1.5 Station 1.5.1 Reset Unit
Control 1.5.2 Load Defaults
1.6 Security 1.6.1 Authentication Algorithm Open System
1.6.2 Default Key ID
1.6.3 Pre-authentication Disabled
1.6.4 Privacy Option Implemented
1.6.A WEP Key #1
1.6.B WEP Key #2
1.6.C WEP Key #3
1.6.D WEP Key #4
2.Ad- 2.1 Translation Enabled
vanced Mode
Settings
2.3 Perfor- 2.3.1 Dwell Time (Access Points only) 128 msec
mance 2.3.2 RTS Threshold 120 bytes
2.3.5 Maximum Multicast Rate 1 Mbps
2.3.6 Power Save Support Disabled
2.3.7 DTIM Period 4
2.3.8 IP Stack Enabled
2.3.9 Acknowledge Delay Regular
2.3.A P.S. Broadcast Reservation Percentage 30
2.4 Radio 2.4.1 Hopping Standard US FCC
2.4.2 Display Site Proprietary Sequence
2.4.3 Power level High
2.5 Rate 2.5.1 Multi-Rate Support Enabled
2.6 AP Redun- Disabled
dancy Support
28
PRO 11 SERIES WIRELESS ETHERNET
Table 3-1 (continued). Configuration Menus
Menu Sub-Menu Sub-Submenu Default Values
2.7 Main- 2.7.1 Auto Calibration Enabled
tenance 2.7.2 Wait for Association Address (not in Access
2.7.3 Japan Call Sign Points)
3. Site 3.1 System 3.1.1 Display Ethernet and WLAN Counters
Survey Counters 3.1.2 Display Rate Counters
3.1.3 Display Rx packets per frequency
3.1.4 Reset All Counters
3.1.5 Power Saving Counters
3.2 Survey 3.2.1 Operation Mode (RX/TX) RX only
Software 3.2.2 Start Statistics
3.2.3 Stop Statistics
3.3 Event Log 3.3.1 Display Event Log
3.3.2 Erase Event Log
3.3.3 Event storage policy From level
warning up
3.4 Display
Neighboring
Access Points
4. Access 4.1 Change 4.1.0 User Installer
Control Access Rights 4.1.1 Installer
4.1.2 Technician
4.2 Change “User”
Installer Password
4.S Show Current Access
Right
29
CHAPTER 3: Using the Local Terminal for Unit Setup and Management
3.3 Main Menu
Figure 3-1. Main Menu.
3.4 System Configuration Menu
Figure 3-2. System Configuration Menu.
Pro 11 Series (Workstation Bridge)
Version: 4.4.1
Date: 26 May 1999 15:46:24
Monitor
========================
1 - Station Status
2 - IP and SNMP Parameters
3 - Wireless LAN Parameters
4 - Bridging
5 - Station Control
6 - Security
Select option >
Pro 11 Series (Workstation Bridge)
Version: 4.211
Date: 25 Jun 1998 15:46:24
Monitor
===================
1 - System Configuration
2 - Advanced Settings
3 - Site Survey
4 - Access Control
Select option >
30
PRO 11 SERIES WIRELESS ETHERNET
3.4.1 S
TATIONSTATUS
Station Status is a read-only sub-menu that displays the current values of the
following parameters:
• Unit’s Mode – Identifies the unit’s function. For example, if the unit is an
Access Point, “AP” appears in this field.
• Unit’s HW Address – Displays the unit’s unique MAC address.
• Unit’s WLAN Address (Station Adapters or Workgroup Bridges) – The address
associated with the unit. For the Single-Port Station Adapters, this is the
address of the PC. For the Four-Port Station Adapters and Workgroup Bridges,
this is the MAC address of the unit. This field does not appear when the unit is
an Access Point.
• Station Status (Station Adapters or Workgroup Bridges) – Current status of the
station. This field does not appear when the unit is an Access Point. There are
three options:
Scanning – The station is searching for an Access Point with which to
associate.
Sync Waiting for Address – The station is synchronized with an Access Point
but has not yet learned its WLAN MAC address (this option is relevant
only to the Single-Port Station Adapters). The Access Point does not
forward packets to the station when it is in this mode.
Associated – The station is associated with an Access Point and has adopted
the attached PC MAC address (for Single-Port Station Adapters) or uses
the unit’s hardware address (Four-Port Station Adapters and Workgroup
Bridges), and is receiving packets from the LAN.
• AP Address (Station Only) – For stations, this parameter indicates an address
of the Access Point with which the unit is currently associated.
• Total Number of Associations Since Last Reset (Station Only) – For stations,
this indicates the total number of associations and disassociations with various
Access Points. This is usually an indication of roaming.
• Current Number of Associations (Access Point Only) – Total number of
stations currently associated with this Access Point.
• Maximum Number of Associations Since Last Reset (Access Point Only) –
Maximum number of stations that were associated with an Access Point since
the last reset.
31
CHAPTER 3: Using the Local Terminal for Unit Setup and Management
• Current Number of Authentications (Access Point Only) – Total number of
stations currently authenticated with an Access Point. A station may be
concurrently authenticated with several Access Points, but is associated with
only one Access Point at a time.
• Maximum Number of Authentications Since Last Reset (Access Point Only) –
Maximum number of stations that were authenticated with an Access Point
since the last reset.
3.4.2 IP
AND
SNMP P
ARAMETERS
All Pro 11 units contain IP Host software. This software can be used for testing the
unit for SNMP management functions and for downloading software upgrades
using the TFTP protocol.
• IP Address – IP address of the unit.
• Subnet Mask – Subnet mask of the unit.
• Default Gateway Address – Gateway address of the unit.
• SNMP Traps – Type 0 to disable SNMP trap sending. Type 1 to enable SNMP
trap sending. When an event occurs, a trap is sent to the defined host address
(see Appendix A for a list of traps). You can configure the host address to
which the traps are sent through SNMP management.
• Display Current Values – Type A to display information concerning the
current status of all IP-related items.
3.4.3 W
IRELESS
LAN (WLAN) P
ARAMETERS
The WLAN Parameters Menu contains the following options:
• Hopping Sequence (Access Points Only) – Hopping sequence of the unit.
A hopping sequence is a pre-defined series of channels (frequencies) that are
used in a specific pseudo-random order as defined in the sequence. The unit
“hops” from frequency to frequency according to the selected sequence. When
more than one Access Point is co-located in the same area (even if they are not
part of the same network) it is best to assign a different hopping sequence to
each Access Point.
Hopping sequences are grouped in three hopping sets (see the next
parameter). When setting up multiple Access Points in the same site, always
choose hopping sequences from the same hopping set. This reduces the
possibility of collisions on the WLAN.
32
PRO 11 SERIES WIRELESS ETHERNET
This parameter is set only in the LW0050A and LW0055A Pro 11 Access Point
models. It is not accessible from any other Pro 11 unit. During the association
process, all other stations learn the hopping sequence from the Access Point.
Different co-located WLAN segments should use different hopping sequences.
• Hopping Set (Access Points Only) – Hopping set (between 1 and 3) of the
unit. Hopping sequences are grouped in several hopping sets. Always use the
same hopping set per site.
The number of hopping sequences per set is different for each hopping standard
according to this table:
Hopping Standard # of Sequences
per Hopping Set
Australia 20
Canada 10
Europe ETSI 26
France 11
Israel 11
Japan 4
Korea 4
Netherlands 5
Spain 9
US FCC 26
• ESSID – The ESSID (up to 32 printable ASCII characters) of the unit is a
string used to identify a WLAN. This ID prevents the unintentional merging of
two co-located WLANs. A station can only associate with an Access Point that
has the same ESSID. Use different ESSIDs to segment the WLAN network and
add security.
NOTE
The ESSID parameter is case-sensitive.
• Maximum Data Rate – Maximum data rate of the unit. Pro 11 units operate at
1 Mbps, 2 Mbps, or 3 Mbps. The unit adaptively selects the highest possible
rate for transmission. Under certain conditions (compatibility reasons or for
range/speed trade-off) you may decide to limit the use of higher rates.
33
CHAPTER 3: Using the Local Terminal for Unit Setup and Management
• Transmit Antenna – Which antennas are used for transmission. During
reception, a Pro 11 unit dynamically selects the antenna where reception is
optimal. In contrast, the unit selects the antenna from which it will transmit
before transmission. It usually uses the antenna last used for successful
transmission. In models with external antennas, sometimes only a single
antenna is used. In this case, Transmit Antenna should be configured to
transmit only from that single antenna. Similarly, models using a booster
(transmit power amplifier with a 250-mW output) or an LNA (low-noise
receive amplifier) use only a single antenna for transmission. There are three
possibilities for configuration: 1) use two antennas, 2) use Antenna no. 1 only,
or 3)use Antenna no. 2 only.
• Mobility – Pro 11 stations optimize their roaming algorithms according to the
Mobility parameter. For example, a stationary station is more tolerant of bad
propagation conditions. It assumes that this is a temporary situation and is not
caused by the station changing position. Initiating a roaming procedure in
such a case would be counter-productive. In general, wireless stations can be
used in one of three mobility modes:
High (Mobility). Type 2 for stations that may move at speeds of over 30 km
per hour.
Medium (Mobility). Type 1 for stations that may move at speeds of over 10
km per hour, but not over 30 km per hour.
Low (Mobility). Type 0 for stations that will not move at speeds of over 10
km per hour. Stationary is the default value, and in almost all cases this is
the best choice.
• Load Sharing – Type 1 to enable Load Sharing. When installing a Wireless
LAN network in a high-traffic environment, you can increase the aggregate
throughput by installing multiple Access Points to create co-located cells. Load
Sharing allows the wireless stations to distribute themselves evenly among the
Access Points to best divide the load between the Access Points.
NOTE
When working in Load Sharing mode, both the Access Points and the
units should be configured to Load Sharing Enabled.
• Preferred AP MAC (Ethernet) address of the preferred Access Point — You
can configure a station to prefer a specific Access Point unit. When the station
powers up, it will associate with the preferred Access Point even if the signal
from that Access Point is lower than the signal from other Access Points. The
station will roam to another Access Point only if it stops receiving beacons
from the preferred Access Point.
34
PRO 11 SERIES WIRELESS ETHERNET
• Display Current Values – This read-only status screen displays current WLAN
parameters. Press any key to return to the WLAN Parameters Menu.
3.4.4 B
RIDGING
The Bridging Menu contains the following options:
• LAN to WLAN Bridging Mode (Access Points Only) – The options are:
Reject Unknown – Type 0 to allow transmission of packets only to stations
that the Access Point knows to exist in the Wireless LAN (behind the
Wireless Bridge).
Forward Unknown – Type 1 to allow transmission of all packets except those
sent to stations that the Access Point recognizes as being on its wired
Ethernet side.
• Intelligent Bridging Period – Intelligent bridging enables smooth roaming of
Workgroup Bridges. When intelligent bridging is enabled, the Access Point
goes into a special bridging mode for a fixed amount of time whenever a
wireless bridge roams into its area. This mode causes the Access Point to
forward packets destined for the stations behind the Workgroup Bridge even
though they are known or were learned from the wired side (except that no
learning of the wired LAN will take place). Afterwards, the Access Point will
switch back to Reject Unknown bridging mode. This procedure prevents
packets destined for stations behind the bridge from getting lost. The value of
this parameter is the length of time in seconds that the Access Point will
remain in special mode.
NOTE
When connecting very large networks, we recommend setting this
parameter to Forward Unknown.
• IP Filtering – Whether IP filtering is enabled for the unit. Enable IP Filtering
to filter out any other protocol (such as IPX) if you want only IP traffic to pass
through the WLAN.
• Tunneling – Whether the unit performs tunneling. Enable AppleTalk
®
tunneling if the network contains a mix of EtherTalk1 (ET1) and EtherTalk2
(ET2) stations to ensure smooth communications. Enable IPX tunneling if
IPX protocol is running over your network. Be sure to set all units to the same
tunneling setting.
35
CHAPTER 3: Using the Local Terminal for Unit Setup and Management
• Broadcast Relaying (Access Points Only) – Whether the unit performs
broadcast relaying. When Broadcast Relaying is enabled, Broadcast packets
originating in WLAN devices are transmitted by the Access Point back to the
WLAN devices, as well as to the LAN. If it is disabled, these packets are sent
only to the local wired LAN and are not sent back to the WLAN. Disable
Broadcast Relaying only if you know that all Broadcast messages from the
WLAN will be destined for the wired LAN.
• Unicast Relaying – Whether the unit performs Unicast relaying. When Unicast
Relaying is enabled, Unicast packets originating in WLAN devices can be
transmitted back to the WLAN devices. If this parameter is disabled, these
packets are not sent to the WLAN even if they are intended for devices on the
WLAN. Disable Unicast Relaying only if you know that all Unicast messages
from the WLAN will be destined for the local wired LAN.
3.4.5 S
TATIONCONTROL
The Station Control Menu contains the following options:
• Reset Unit – Type 1 to reset the Pro 11 unit and apply any changes made to
the system parameters.
• Load Defaults – When this option is implemented, system parameters revert to
the original factory-default settings. There are two options:
Load Full Factory Defaults – All parameters revert to defaults except for
Japan Call Sign (if applicable) and Hopping Standard.
Load Partial – All parameters revert to defaults, except for Japan Call Sign
(if applicable), IP Address, Subnet Mask, Default Gateway, Hopping
Sequence, Hopping Set, ESSID, Transmit Diversity, Long Range,
Preferred AP, IP Filtering, Hopping Standard, Power Level, Auto
Calibration, Encapsulation, WEP Attributes, Authentication Algorithm,
Pre-authentication, WEP Default Keys, Ethernet Disable, and Trap Host
Addresses.
3.4.6 S
ECURITY(AUTHENTICATIONFEATURE
)
Wired Equivalent Privacy (WEP) is an authentication algorithm which protects
authorized Wireless LAN users against eavesdropping. WEP is defined in the
802.11 standard.
36
PRO 11 SERIES WIRELESS ETHERNET
WEP, also referred to as the Privacy option, must be ordered specifically and is not
supported by default. The security mechanism involves configuration of the
following parameters:
• Authentication Algorithm — This module operates in two modes: 0–Open
System (default): no authentication, or 1–Shared Key authentication (for
systems that have the privacy option implemented).
• Default Key ID — The key to be used for the encryption of transmitted
messages.
• Pre-authentication — Set this parameter to Enabled when there is a great deal
of roaming between the Access Points. Pre-authentication must be activated on
both the Access Points and the stations.
• Privacy Option Implemented — Yes if Shared Key authentication is supported,
No if Shared Key authentication is not supported.
• WEP Key#1–4 — The four encryption keys must be set before you can use the
Shared Key Authentication Mode. The encryption keys you enter for the
Access Point must match those defined in the stations. Each key is a
combination of 10 Hex digits.
NOTE
We recommend changing the encryption keys periodically to enhance
system security.
37
CHAPTER 3: Using the Local Terminal for Unit Setup and Management
3.5 Advanced Settings Menu
Figure 3-3. Advanced Settings Menu.
Modification of most of the parameters in the Advanced Settings menu is limited
to certified Black Box Technical Support only.
3.5.1 T
RANSLATIONMODE
The translation mode determines how the unit handles 802.3 packets. The
translation mode is either enabled (default) or disabled.
3.5.2 P
ERFORMANCE
The Performance menu determines the unit performance:
• Dwell Time (Access Point Only) — The time spent on a radio channel before
hopping to the next channel in the sequence.
• RTS Threshold – Minimum packet size to require an RTS. For packets with a
size below RTS Threshold value, an RTS is not sent and the packet is
transmitted directly to the WLAN.
• Max Multicast Rate — Multicast and Broadcast transmissions are not
acknowledged, so the chance of error increases. By default, the unit will always
transmit broadcasts, multicasts, and control frames at the minimum possible
rate, 1 Mbps.
Pro 11 Series (Workstation Bridge)
Version: 4.4.1
Date: 26 May 199p 15:46:24
Advanced Settings menu
========================
1 - Translation MOde
2 - Roaming
3 - Performance
4 - Radio
5 - Rate
6 - AP Redundancy Support
7 - Maintenance
Select option >
38
PRO 11 SERIES WIRELESS ETHERNET
• Power Save Support — If you enable Power Save Support on one of the WLAN
stations (LW0054A or LW0059A only), you must also configure the Access
Point unit. Power Save Support is influenced by two parameters:
DTM interval on the Access Point side — Determines at which interval
the Access Point will send its broadcast traffic (default 4 beacons).
Listen interval on the LW0054A or LW0059A — Determines when the
station will “wake up” to listen to unicast packets which are destined to it
(default value: 4 beacons).
• DTIM Period — Determines at which interval the Access Point will send its
broadcast traffic to all the stations in the cell, both stations that are in powersave mode and to stations that are not in power-save mode (normal mode).
When stations that are in power-save mode “wake up” to receive broadcast
frames, they can also poll the Access Point for the unicast frames if there are
any stored in the Access Point’s buffer. Default value is 4 beacons
(approximately every 1 second).
• IP Stack — By default this parameter is disabled, to check connectivity. Any
changes to this parameter will be returned to the default value whenever the
unit resets.
• Acknowledge Delay — Enlarges the range of system but can only be enabled
for links above 20 km. It must be enlarged on both sides. The values are Long
or Regular (default) and can be configured by an Installer or Technician.
• P.S. Broadcast Reservation Percentage — Determines the buffer space
reserved for broadcast frames in percentages. Default value is 30% (auto
storing—no reservation). Allowed range is 0 to 30%.
NOTE
We recommend leaving it at the default setting.
3.5.3 R
ADIO
The Radio menu contains the following parameters:
• Hopping Standard – The Hopping Standard is a set of rules regarding the
radio-transmission standard allowed in each country. Units will work together
only if set to the same hopping standard. Use this parameter to set the unit’s
hopping standard to that of the relevant country.
39
CHAPTER 3: Using the Local Terminal for Unit Setup and Management
• Power Level – Output power level at which the unit is transmitting. There are
two possibilities, Low (4 dBm) or High (17 dBm), at the antenna connector.
3.5.4 R
ATE
• Multi-Rate Support – When this parameter is enabled, the unit will
automatically switch to the best transmission rate at any given time. When the
parameter is disabled, the unit will always stay at the maximum rate configured
in the WLAN Parameters menu.
3.5.5 A
CCESSPOINTREDUNDANCYSUPPORT
When the Access Point identifies that the Ethernet link has been discontinued over
a defined period of time, it then stops transmitting and forces the stations
associated with it to associate with another Access Point.
The default mode for the Access Point Redundancy Support parameter is disabled
(the Access Point continues transmitting even when the ETH link is discontinued).
This can only be configured by a Technician(see Section 3.7, Access Control
Menu). We recommend using this parameter only when more than one Access
Point is connected to the same distribution system and this Access Point is
configured to the same ESSID.
3.5.6 M
AINTENANCE
The Installer has access to modify the following parameters of the Maintenance
menu:
• Auto Calibration – When the unit is started, it performs an internal self-test. A
part of this test is automatic calibration of the DC Offset and deviation pattern.
• Japan Call Sign – The Japan Call Sign is part of the Japanese standard, defined
according to local regulations. The Japanese Ministry of Communications
supplies an activation code for the units; this code is set in the factory for each
unit.
40
PRO 11 SERIES WIRELESS ETHERNET
3.6 Site Survey Menu
Figure 3-4. Site Survey Menu.
The Site Survey Menu allows performing a site survey that helps you position your
units and align their antennas of the units, as well as perform troubleshooting.
3.6.1 S
YSTEMCOUNTERS
The System counters are a simple yet efficient tool for monitoring, interpreting,
and analyzing the Wireless LAN performance. The counters contain statistics
concerning Wireless and Ethernet frames. The submenu contains the following
options:
• Display Ethernet and WLAN Counters – Choose this option to display the
current value of the Ethernet and Wireless counters. Read further in Section
3.6.1 for a detailed description of the counters.
• Display Rate Counters — Displays contents of packets at each rate. The Access
Point displays counters per station.
• Display Rx Packets per Frequency — Histogram of the number of frames
received on each channel.
• Reset Counters – Choose this option to reset all the counters. After choosing
this option, you will be requested to type 1 for confirmation or 0 to cancel the
reset.
• Power-Saving Counters — Displays the power-saving counters per station, the
number of transmitted frames, and the number of discarded frames. This
applies only to Access Points.
Pro 11 Series (Workstation Bridge)
Version: 4.4.1
Date: 26 May 1999 15:46:24
Site Survey menu
===================
1 - System Counters
2 - Survey Software
3 - Event Log
4 - Display Neighboring APs
Select option >
41
CHAPTER 3: Using the Local Terminal for Unit Setup and Management
3.6.1.1 E
THERNETCOUNTERS
Ethernet counters display statistics about the unit’s Ethernet-port activity.
The unit receives Ethernet frames from its UTP port and forwards them to its
internal bridge, which decides whether or not to transmit them to the Wireless
LAN. The units have a smart hardware filter mechanism which filters most of the
frames on the LAN, and hardware-filtered frames are not counted.
On the other side, frames which were received from the wireless LAN, and some
frames generated by the unit (answers to SNMP queries and pings which reached
to the unit via the UTP port), will be transmitted to the UTP port.
Available Counters:
• Total Received frames – Indicated the total number of frames that have been
received from the Ethernet port. This counter includes both bad and good
frames.
• Received Bad Frames – The number of frames with errors received from the
UTP port. A large number of received bad frames indicates a problem in the
UTP connection such as a bad UTP cable or hub port.
• Received good frames – The number of good frames (frames with no errors)
received from the UTP port.
• Forwarded to the bridge – The number of received frames that were forwarded
to the unit’s internal bridge. This counter should be equal to the number of
good frames unless the internal bridge is overloaded.
• Missed Frames – Frames that the unit recognized but failed to read due to
internal bridge overload. This counter should equal zero unless the internal
bridge is overloaded.
• Transmitted to Ethernet – The number of frames transmitted by the unit to
the UTP port (frames that have been received from the Wireless side, and
frames generated by the unit itself).
3.6.1.2 W
IRELESS
LAN C
OUNTERS
Wireless counters display statistics about the unit’s Wireless LAN activity.
Transmission to the wireless media includes data frames received from the UTP
ports, as well as self-generated control and management frames. When a data
frame is transmitted, the unit will wait for an acknowledge from the receiving side.
If an acknowledge is not received, the unit will retransmit the frame until it gets an
42
PRO 11 SERIES WIRELESS ETHERNET
acknowledge (there are no retransmissions for control frames). If the unit has
retransmitted a frame for the maximum number of retransmissions, it will stop retransmitting the frame and drop this frame.
Available Counters:
• Total Transmitted Frames – The number of frames transmitted to the wireless
media. The count includes the first transmission of data frames (without
retransmissions), and also the number of control and management frames.
Notice that an Access Point continuously transmits a control frame called
beacon in every frequency to which it hops, in order to publish its existence
and keep its associated stations synchronized. Thus, the total transmitted
frames counter will get high values even if the Access Point is not connected to
an active LAN.
• Total Transmitted Frames (Bridge) – The total number of data frames
transmitted to the wireless media (that is, frames that were received from the
UTP port and forwarded to the internal bridge, which decided to transmit
them to the wireless media).
• Frames Dropped (too many retries) – The number of frames which have been
dropped because they were retransmitted for the maximum number of
allowed retransmissions and weren’t acknowledged.
• Total Transmitted Fragments – The total number of transmitted frames. The
count includes data, control, and management frames, and also the number of
retransmissions of data frames (for example, if the same data frame is
retransmitted ten times, the count will increase ten times).
• Total Retransmitted Fragments – The total number of retransmissions of data
frames (for example, if the same data frame is retransmitted ten times, then
the count will increase ten times). In a point-to-point application, this counter
should be about the same as the number of bad fragments received on the
other side.
• Total Tx Errors – The number of transmit errors that have occurred.
Currently this counter also includes normal situations where a fragment has
not been transmitted because the dwell time has elapsed.
• Internally Discarded – The number of frames that the Access Point discarded
because of a buffer overflow. Frame discard will occur mainly when the
wireless conditions are bad, and the unit is busy re-transmitting frames and
doesn’t have time for handling new frames.
43
CHAPTER 3: Using the Local Terminal for Unit Setup and Management
• Power Saving Aged – Total number of buffered frames that were aged out.
This counter counts the number of frames dropped by the Access Point
because a station did not poll those frames for a long period of time.
• Power Saving Free Entries – The current number of free buffers (one frame
each) available for power-save management. These buffers hold messages for
stations that are currently in Power Save mode.
• Total Received Frames – The number of frames received from the wireless
media. The count includes data and control frames (including beacons
received from Access Points).
• Total Received Data Frames – The number of data frames received from the
wireless media.
• Total Received Fragments – The total number of frames received, including
data, control, and duplicate data frames (see the Duplicates and Dwell
Timeouts parameter below).
• Bad Fragments Received – The number of frames received from the WLAN
with errors.
• Duplicates and Dwell Timeouts – When a unit receives a frame, it sends an
acknowledge for it. If the acknowledge is lost, it receives a copy of the same
frame. Although duplicate frames are counted, only the first copy of the frame
is forwarded to the UTP port.
3.6.1.3 D
ISPLAYRATECOUNTERS
The rate counters display the number of frames transmitted in each data rate since
the last reset. The rate counters show the number of frames transmitted at 1 Mbps,
2 Mbps, 3 Mbps, and the number of retransmitted frames (Ret). The counters
display the rate of packets transmitted for the first time only (without
retransmission).
NOTE
Counters for Access Points are displayed for all associated stations,
indicated by their MAC address. Rate counters for stations are
displayed with no indication of MAC address.
Checking the rate counters is the best way to determine which data rate is the
optimal data rate for the unit. We recommend restricting the Maximum Data Rate
for each unit according to the Rate counters (see also Section 3.4.3). The Ret
counter displays the number of frames that had to be retransmitted; however, it
does not count the number of retransmissions that actually accrued.
44
PRO 11 SERIES WIRELESS ETHERNET
3.6.1.4 U
SING THERXPACKETS PERFREQUENCYHISTOGRAM
Use the Display Rx Packets per Frequency option to see a histogram of the number
of frames received on each channel.
Figure 3-5. Display Rx Packets per Frequency.
Each point of the histogram line corresponds to a frequency. The base frequency
appears at the far left, and gradations are marked in steps of ten along the line. A
hash (#) represents each packet received on a given frequency. The Max and Min
values indicate the highest and lowest number of frames received across all
frequencies. This graph is very useful for tracking interference. Frequencies with
small numbers of packets received probably have more interference than other
frequencies.
3.6.1.5 R
ESETALLCOUNTERS
This option allows you to reset the system counters, Ethernet counters, WLAN
counters, and Rate counters.
• Click 1 to reset all counters.
• Click 0 to cancel request.
Pro 11 Series (Workstation Bridge)
Version: 4.211
Date: 25 Jun 1998 15:46:24
Max = 187
Min = 112
#
# # # # #
# # #### ### # # # # # ## # ## # # ## #
# ## ## # ## ######## ###### # ######## # ### ## # ## # # ## # ##
####### ## ######################################################### ########
#############################################################################
^ ^ ^ ^ ^ ^ ^ ^
2 +10 +20 +30 +40 +50 +60 +70
Hit any key to return >
45
CHAPTER 3: Using the Local Terminal for Unit Setup and Management
3.6.1.6 P
OWER-SAVINGCOUNTERS
These counters apply only to Access Points.
• PS stations — Number of associated stations currently working in Power Save
mode.
• Internally Discarded — Number of frames that were discarded because of
aging.
• Table — Valid only when Power Save mode is enabled.
Station ID — Current number of buffered frames per station.
Aged — Number of buffered frames that were aged out from buffer per
station.
Send — Number of buffered frames that were sent to a specific station.
Queue — Number of frames that could not be stored in the buffer.
3.6.2 S
URVEYSOFTWARE
The Survey Software menu enables you to align antennas and to assess the radio
signal quality of a point-to-point link. The sub-menu includes the following
options:
• Operation Mode – When running a Site Survey, set the units on either side of
the link to either receive (option 1) or transmit (option 2) packets (one unit
should be set to transmit and the other to receive).
• Start Statistics – Type 2 and then press any digit to start Site Survey.
• Stop Statistics – Type 3 and then press any key to stop update of Site Survey
statistics.
3.6.3 U
SING THESITESURVEYSOFTWARE
1. Roughly align the antennas on either side of the link before starting the Site
Survey procedure.
2. Verify that the Ethernet cables are disconnected from both units.
3. Type 1 to access the Operation mode screen. Set the units on either side of the
link to either receive (option 1) or transmit (option 2) packets (one unit should
be set to transmit and the other to receive).
46
PRO 11 SERIES WIRELESS ETHERNET
4. Start the survey by selecting option (2) in the Survey Software menu in both
units. When performing a site survey from a station to an Access Point
(transmitting from the station to the Access Point), always begin with the station
(select option [2] on the station).
5. On the transmit side, a screen appears displaying a table with the number of
packets and the frequency at which each packet was transmitted (refer to Figure
3-6). This list is updated continuously. Select option (3) to stop sending packets.
Figure 3-6. Transmit Statistics.
6. On the receive side of the link, the screen displays a table showing the packet
number received, the frequency at which each packet was transmitted, the
Received Signal Strength Indicator (RSSI) for each antenna, and the antenna
that was selected for reception (refer to Figure 3-7). Use only the RSSI reading
from the selected antenna.
Pro 11 Series (Workstation Bridge)
Version: 4.211
Date: 25 Jun 1998 15:46:24
# Tx Packets Channel
037
110
27
330
428
544
635
712
848
976
10 42
Hit any key to return >
47
CHAPTER 3: Using the Local Terminal for Unit Setup and Management
Figure 3-7. Receive Statistics.
7. The RSSI is given in arbitrary units. Use the following graph to correlate RSSI
to dBm.
Figure 3-8. RSSI to dBm Graph.
8. Re-align the antennas until the maximum received signal strength is attained.
As you align the antennas, the RSSI (received signal strength indicator)
continually increases until it reaches a certain level, after which it begins to
decrease. That highest point is the maximum attainable RSSI level, indicating
optimum receive antenna alignment.
9. Switch the functions of either side of the link (set the transmit unit to receive
and the receive unit to transmit) and repeat the procedure to check the link
from the opposite direction.
RSSI vs. dBm
RSSI Value
RF Level [dBm]
130
120
110
100
90
80
70
60
50
–30 –40 –45 –50 –55 –60 –65 –70 –75 –78 –81 –83 –85
# Pack Ant RSSI1 RSSI2 Bit_Err Freqs Rate Quality
105 1 92 84 0 76 2 #########..
106 1 92 82 0 75 2 #########..
107 1 89 89 0 58 2 ########...
108 1 95 92 0 51 2 ##########.
109 1 95 89 0 46 2 ##########.
110 1 95 81 0 10 2 ##########.
111 1 95 90 0 31 2 ##########.
112 1 95 51 0 4 2 ##########.
113 1 92 85 0 5 2 #########..
114 1 99 90 0 77 2 ##########.
115 1 102 89 0 43 2 ###########
116 1 95 89 0 22 2 ##########.
117 1 105 86 0 58 2 ###########
118 1 103 89 0 51 2 ###########
119 1 102 89 0 46 2 ###########
120 1 104 69 0 64 2 ###########
121 1 97 87 0 78 2 ##########.
122 1 100 87 0 33 2 ###########
123 2 87 85 0 71 2 ########...
124 2 82 85 0 70 2 ########...
48
PRO 11 SERIES WIRELESS ETHERNET
3.6.4 E
VENTLOG
• Display Event Log — The error messages that the unit displayed since the last
Load Full Factory Defaults reset or since the log was erased by Erase Event
Log. The Event log stores events in four levels of error notifications: MSG
(Message), WRN (Warning), ERR (Error), and FTL (Fatal).
• Erase Event Log — Erases the event log.
• Event Storage Policy — Defines severity policy for storage level of the event
log. There are four levels of storage policy:
0 — Store all events (beginning at message level).
1 — Store all events from warning level up.
2 — Store all events from error level up.
3 — Store fatal events only.
3.6.5 D
ISPLAYNEIGHBORINGACCESSPOINTS
Displays neighboring Access Points on the same ESS for both the Access Point and
the station units.
3.7 Access Control Menu
Access Control functions enable the System Administrator or Installer to limit
access to Local Terminal Maintenance setup and configuration menus.
Figure 3-9. Access Control Menu.
Pro 11 Series (Workstation Bridge)
Version: 4.211
Date: 25 Jun 1998 15:46:24
Access Control menu
===================
1 - Change Access Rights
2 - Change Installer Password
3 - Show Current Access Right
Select option > 1
49
CHAPTER 3: Using the Local Terminal for Unit Setup and Management
The Access Control menu includes the following options:
• Change Access Rights – This screen determines the level of access rights to the
Pro 11 unit’s setup and configuration menus. When the unit is first installed,
the default access right is Installer, and the default password is “user”:
User – The Local Terminal Management menus are read-only for a user
who does not possess the correct password. The ESSID and security
parameters are hidden by asterisks (*) at this level.
Installer – The installer has access to configure all required parameters in
the system configuration menu, as well as some of the advanced settings.
Access is password-protected. After configuration, the installer should
change access rights to option (0), User. The installer can also change the
installer password (see next parameter).
Technician – Only an authorized technician possessing the correct
password can select this option to configure all the parameters and
settings.
• Change Installer Password – Type in the new password according to the
directions on screen. This screen changes the installer password to prevent
unauthorized persons from making any changes in system configuration and
setup. The password is limited to eight printable ASCII characters. This option
is not available at User level.
• Show Current Access Right – This read-only screen presents the current access-
right configuration.
50
PRO 11 SERIES WIRELESS ETHERNET
4. PCMCIA Adapter Installation,
Setup, and Management
This chapter describes how to install the PCMCIA Adapter and its associated
firmware, drivers, and utilities. The PCMCIA Adapter Configuration and Site
Survey utilities, which are used to set up and manage the card, are also described
in this chapter.
4.1 Packing List
The PCMCIA Adapter package should contain:
• PCMCIA Adapter (LW0054A or LW0059A).
• Drivers diskette.
• Utilities diskette.
• Installation and Users’ Guide.
4.2 Before You Begin
• Verify that the Access Point you are going to use is compliant with the 802.11
standard.
Turn on the Access Point before installing the PCMCIA Adapter, so you can
use the PCMCIA Adapter’s LEDs to check the status of the PCMCIA Adapter
when installation is complete. See Section 4.3.2 for more information about
the LEDs.
• When installing in Windows
®
95/98, verify that you have the Windows CD with
you, or that the Windows CAB files are installed on your local hard disk in a
directory whose name does not exceed eight letters. When the CAB files are
on the disk, they are usually found in C:\Windows\Options\Cabs.
• When installing in Windows NT
®
, verify that you have the Windows NT CD
with you, or that the Windows NT distribution files are installed on your local
hard disk. During installation, enter the path of the distribution files whenever
a message appears asking for them.
51
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
• We highly recommend that you remove all PCMCIA cards from the notebook
prior to installing the PCMCIA Adapter. This will help to avoid conflicts
during installation. If you have another network card installed (for example,
an Ethernet card), you must remove it prior to installing the PCMCIA PC Card.
4.3 Installing the PCMCIA Adapter
Installing the PCMCIA Adapter consists of the following installation steps:
• Installing the card in a PCMCIA slot
• Installing the PCMCIA Adapter drivers and utilities
Section 4.3.3 provides instructions on performing initial configuration of the Card.
Section 4.8 provides installation troubleshooting information.
NOTE
If you are installing the card under Windows 95 or Windows 98, there are
two installation options. You can install the drivers and utilities
separately, or you can use the Upgrade Kit program to install all
components in one session. The Upgrade Kit program is described in
Section 4.7.
4.3.1 I
NSTALLING THE
PCMCIA A
DAPTERDRIVERS
The PCMCIA Adapter can be installed to operate under a wide range of PC
operating systems. The following table lists the supported operating systems,
together with the section number in this guide which describes the relevant
installation procedure.
If you are installing the
PCMCIA Adapter under: Refer to:
Windows 98 Section 4.3.1.1
Windows 95A Section 4.3.1.2
Windows 95B Section 4.3.1.3
Windows NT Section 4.3.1.4
ODI (DOS) Section 4.9
52
PRO 11 SERIES WIRELESS ETHERNET
4.3.1.1 I
NSTALLING THE
PCMCIA A
DAPTERDRIVERS INWINDOWS
98
1. Insert the PCMCIA Adapter in a free PCMCIA slot. Windows detects the unit
and displays the New Hardware Found window.
2. When the Add New Hardware Wizard window appears, press Next.
3. Select the Search for best driver option and press Next.
4. Insert the Black Box drivers diskette, select the Floppy disk drives option, and
press Next.
5. The installation wizard notifies you that the driver for the Brz 802.11 Wireless
LAN PC Card has been located. Press Next.
6. A window appears notifying you that the driver for the Brz 802.11 Wireless LAN
PC Card has been installed. Press Finish.
7. Restart the computer.
U
NINSTALLING THE
PCMCIA A
DAPTERDRIVERS INWINDOWS
98
1. Press the Windows Start menu, select Settings, and then select Control Panel.
Double-click on the Network icon, click the Configuration tab, select Brz
802.11 Wireless LAN PC Card, and click Remove.
A message appears asking whether you want to restart the computer; click No.
2. Insert the Black Box Drivers diskette. Press the Windows Start menu, select
Run, and type a:\DrvClean.
3. When notified that the PCMCIA PC Card driver has been deleted, click Setup.
4. Restart the computer.
I
NSTALLING THE
PCMCIA A
DAPTERDRIVERS INWINDOWS
95
Check which version of Windows 95 operating system your PC is running:
1. From the Windows 95 desktop, right-click the My Computer icon and select
Properties. The System Properties window opens.
2. Click the General tab. The letter indicating the type of operating system (a or
b) is displayed under the System heading.
53
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
3. If you are running the Windows 95A operating system, refer to Section 4.3.1.2.
If you are running the Windows 95B operating system, refer to Section 4.3.1.3.
4.3.1.2 FORW
INDOWS
95A
1. Insert the PCMCIA Adapter in the PCMCIA slot on your computer. Windows
95 detects the unit and displays the New Hardware Found window.
2. Select the Driver from disk provided by hardware manufacturer option and
press OK.
3. When prompted for the location of the driver, insert the Black Box drivers
diskette and type A:\ and press OK. The necessary files are copied from the
diskette.
4. When Please insert disk labeled Windows 95 CD-ROM appears, insert the
Windows 95 CD and press OK. If the Windows 95 CAB files are located on your
local hard disk, you can point to that directory (usually found in
\Windows\Options\Cabs).
5. If this is the first time a network card has been installed on this PC, a network
setup window may appear. It is not necessary to fill out this window for the
purposes of this installation.
6. Restart the computer.
4.3.1.3 I
NSTALLATION FORWINDOWS
95B
1. Insert the PCMCIA Adapter in the PCMCIA slot on your computer. Windows
95 detects the unit, briefly displays the New Hardware Found window, and then
displays the Update Device Driver Wizard window.
2. Insert the Black Box drivers diskette and press Next. When Windows 95
notifies you that it has found the driver, press Finish.
3. If the Windows 95 CAB files are not found automatically, the message Please
insert disk labeled Windows 95 CD-ROM appears. Press OK.
4. If the file BRZCOM.VXD is not found, direct the window to A:\ and press OK.
5. If no other windows appear, the installation is complete. If Please insert disk
labeled Windows 95 CD-ROM appears, press OK, enter the path of the
Windows 95 CAB files, and press OK. Installation is now complete.
6. Restart the computer.
54
PRO 11 SERIES WIRELESS ETHERNET
U
NINSTALLING
PCMCIA A
DAPTERDRIVERS INWINDOWS
95
1. Press the Windows Start button, select Settings, and then select Control Panel.
Double-click on the PC Card icon, select Wireless LAN PC Card, and click
Stop. Close all active applications.
When asked to restart the computer, press No.
2. From the Windows Start menu, select Settings, and then select Control Panel.
Double-click on the Network icon, click on the Configuration tab, select Brz
802.11 Wireless LAN PC Card, and click Remove.
3. Insert the Black Box Drivers diskette. From the Windows Start menu, select
Run, and type a:\DrvClean.
4. When notified that the PCMCIA PC Card driver has been deleted, click Setup.
5. Restart the computer.
4.3.1.4 I
NSTALLING THE
PCMCIA A
DAPTERDRIVERS INWINDOWS
NT
1. Press the Windows Start button, select Settings, and then select Control Panel.
Double-click on the Network icon.
2. If the message The Windows NT Networking is not installed. Do you want to
install it now? appears, continue with step 2a. If this message does not appear,
continue with step 2b.
a. Press Yes and choose Wired to the network. When a list of supported
network adapters appears, press Have Disk.
b. Click on the Adapters tab, press Add, and then click Have Disk.
3. Insert the Black Box drivers diskette, enter the location of the diskette (such as
a:\) and press OK.
4. From the list choose Brz 802.11 Wireless LAN PC Card and press OK. The
PCMCIA PC Card LAN Adapter Properties window appears.
5. The default settings are memory range D0000h to D3FFFh, IRQ 11. In the
following steps we will verify that these default settings are acceptable for your
machine.
NOTE
If the PCMCIA PC Card Configuration utility is already installed, you can
access it directly by pressing Advanced.
55
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
6. Press the Windows Start button and select Run. Type WINMSD and press OK.
The Windows NT Diagnostics window appears.
Figure 4-1. Windows NT Diagnostics Window.
7. Press IRQ and verify that IRQ 11 is not taken. If it is, find a free IRQ. For
example, in the illustration, IRQ 2 is free.
8. Press Memory and verify that memory from D0000h to D3FFFh is not taken. If
it is, find another free memory location, such as E0000h.
9. Return to the PCMCIA PC Card LAN Adapter Properties window. If the
default values for Memory Address and Interrupt are acceptable, press OK.
Otherwise, enter new values and press OK.
10. Press Close to close each installation window.
11. If configuration windows for other network components (such as Protocol)
appear, enter the requirements according to the instructions of your network
administrator.
12. Restart Windows NT.
56
PRO 11 SERIES WIRELESS ETHERNET
U
NINSTALLING
PCMCIA A
DAPTERDRIVERS INWINDOWS
NT
1. From the Windows Start menu, select Settings, and then select Control Panel.
Double-click on the Network icon, click on the Configuration tab, select Brz
802.11 Wireless LAN PC Card, and click Remove.
2. Insert the Black Box Drivers diskette. From the Windows Start menu, select
Run, and type a:\DrvClean.
3. When notified that the PCMCIA Adapter driver has been deleted, click Setup.
4. Restart the computer.
4.3.2 C
HECKING THE
LED I
NDICATORS
Verify correct operation of the PCMCIA Adapter using the LED indicators:
Color Description Meaning
Yellow Link Status Blink – Scanning
Solid – Associated
Green Data Traffic Blink – According to traffic
The LED indicators are useful only if there is an active Access Point in the area.
The LED indicators can be used to verify correct firmware download procedure;
the LEDs turn on and off quickly, one LED being ON while the other is OFF.
4.3.3 I
NITIALCONFIGURATION
If your wireless network uses a non-default ESSID, enter the proper ESSID as
follows:
1. Start the WLAN PC Card Configuration utility as described in Section 4.5.
From the Windows Start menu, select Programs - Brz 802.11 Utilities, and then
Configure.
2. Edit the ESSID parameter. Click the WLAN Parameters tab and enter the
ESSID that matches the Access Point.
3. Restart the computer.
57
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
4.4 Installing the PCMCIA Adapter Utilities
If a previous version of the PCMCIA Adapter utilities is installed, uninstall it before
reinstalling the new version (as described in Section 4.4.1).
To install the PCMCIA PC Card utilities:
1. Insert the Black Box utilities diskette.
2. From the Windows Start menu, select Run. Type A:\setup and click OK.
3. When the notification dialog box appears, click Setup.
4. In the Utilities window, choose a location for the installation, then click OK.
5. When the Setup Complete window appears, click OK. Icons for the utilities are
added to the Windows Programs menu, and a WLAN PC-Card Configure icon
is added in the Control Panel.
4.4.1 U
NINSTALLING
PCMCIA A
DAPTERUTILITIES
1. From the Windows Start menu, select Programs–WLAN Utilities and then
select Uninstall.
2. You can also uninstall the PCMCIA Adapter utilities by using Windows
Add/Remove Programs feature.
4.5 Using the Wireless LAN Configuration Utility
This section describes how to use the Wireless LAN Configuration utility to
configure and manage your PCMCIA Adapter.
Access the PCMCIA PC Card Configuration utility as follows:
• Click the Start button, select Programs, select the WLAN Utilities program
group, and choose Configure.
The Wireless LAN Configuration main window opens, with the Station Status tab
selected.
The Wireless LAN Configuration main window contains several tabs, as described
in the following sections. In addition, the Configuration windows contain the
following buttons:
• OK – Implements any changes you made and closes the window.
58
PRO 11 SERIES WIRELESS ETHERNET
• Undo – Causes the window to display currently active values. This is useful if
you started changing values and you want to start again from the current
values.
• Cancel – Closes the window without implementing any changes you made.
• Apply – Implements any changes you made but leaves the window open.
4.5.1 S
TATION
S
TATUSTAB
The Station Status tab of the Wireless LAN Configuration utility displays
information regarding the Adapter and its status.
The Station Status tab contains the following parameters:
• Network Type – In the current version, the value of this parameter should be
always set to Infrastructure.
• Firmware Version – Displays the version of unit’s current firmware (internally
installed software). The first two numbers of the firmware and driver versions
should be identical. The remaining numbers (if any) indicate the minor
version. The final letter indicates the hardware version.
• Driver Version – Displays the version of unit’s current driver.
• MAC Address – Displays the unit’s unique IEEE MAC address.
• BSS Address – The MAC address of the Access Point with which the unit is
currently associated.
• Station Status – Current status of the unit.
Scanning – The unit is searching for an Access Point with which to associate.
Associated – The unit is associated with an Access Point and has adopted the
attached PC MAC address.
• WEP Enabled – Wired Equivalent Privacy (WEP) is an authentication algorithm
which protects authorized Wireless LAN users against eavesdropping. WEP is
defined in the 802.11 standard.
NOTE
Parameter changes take effect only after reset.
59
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
4.5.2 WLAN P
ARAMETERSTAB
The WLAN Parameters tab of the Wireless LAN Configuration utility lets you view
and edit basic Wireless LAN parameters of the Adapter.
The WLAN Parameters tab contains the following parameters:
• ESSID – An ASCII string of up to 32 characters used to identify a WLAN. The
ESSID prevents the unintentional merging of two co-located WLANs. The
ESSID must be set to the same value in all stations and Access Points in the
extended WLAN. Note that the ESSID is case-sensitive.
• Maximum Data Rate – By default, the unit adaptively selects the highest
possible rate for transmission. Under certain conditions (for range/speed
trade-off) you may decide not to use the higher rates. Possible values are 1, 2,
or 3 Mbps.
• Transmit Antenna – By default, the unit dynamically selects the antenna where
reception and transmission is optimal. If your model has an external antenna
and uses only a single antenna, set Transmit Antenna to transmit only from
that single antenna. Antenna number one is the antenna nearest the yellow
LED.
• Load Sharing – When installing a Wireless LAN network in a high-traffic
environment, you can increase the aggregate throughput by installing multiple
Access Points to create co-located cells. Enable Load Sharing to cause your
stations to divide their traffic equally between the available Access Points.
NOTE
Parameter changes take effect only after reset.
4.5.3 S
TATIONCONTROLTAB
The Station Control tab of the Wireless LAN Configuration utility allows you to
return the Adapter to default configuration values, and export/import
configuration files.
The Station Control tab contains the Default button, which returns all parameters
to factory-default values.
As a time-saving feature, you can configure one unit and then save the
configuration as a file (with a .BRZ extension). You can later import the
configuration file to other units.
60
PRO 11 SERIES WIRELESS ETHERNET
• Import – Imports a configuration file to this unit, and overwrites all previous
settings.
• Export – Exports the current configuration of this unit to a file.
NOTE
Parameter changes take effect only after reset.
4.5.4 C
ONFIGURATIONACCESSTAB
The Configuration Access tab of the Wireless LAN Configuration utility lets you
log into the Adapter as User, Installer, or Technician, and lets you change the
password.
The Configuration Access tab displays the current mode (User, Installer, or
Technician) in the Present Mode box. This mode determines the security access to
system parameters. Users can view some of the window tabs, but cannot modify
parameters. Installers can view all of the tabs and can modify some of the values.
Technician access rights are reserved for authorized technicians.
When the Configuration utility opens, it will begin at the same mode that was
active when it closed. If security is an issue, change the access mode to User before
you close the utility. The first time the utility is opened, it is set to Installer access
mode.
The default password for Installer mode is User. If security is an issue, change the
Installer password.
To change the Configuration Access mode:
1. Select the radio button next to the desired mode.
2. Type in the password. (No password is necessary to lower the Access Right level.)
3. Click Set Mode. The name of the new mode appears in the Present Mode box.
To change the password for Installer Configuration Access mode:
1. Look at the Present Mode box to verify that you are in Installer mode.
2. Click Change Password.
3. In the Change Password dialog box, type in the new password twice and click
OK. The password has changed.
61
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
IMPORTANT
If you change the Installer password, do not forget it, or you will be
unable to change the unit’s access rights.
4.5.5 P
OWERMANAGEMENTTAB
The Power Management tab allows you to enable/disable Power Save mode and to
configure Power Save mode parameters.
Power Save mode is intended for laptops and hand-held computers, in order to
conserve battery energy. When Power Save mode is enabled, the unit “sleeps” most
of the time and “wakes up” occasionally to transmit to and receive from the Access
Point. This will extend the battery life span of a laptop with the PCMCIA Adapter
installed.
NOTE
Expect a degradation in performance of the entire cell, even if only the
Access Point and one station are set to Power Save mode.
The Power Management tab includes the following parameters:
• Power Management Mode — Enable Power Save mode by clicking the
Powersave option; disable by clicking the Normal option (default).
• Listen Interval Settings — Specifies how often the station is to “wake up” in
order to transmit or receive data (unicast packets). This parameter enables
performance optimization on a per-station basis. In contrast, the DTIM period
(that is, set in the Access Point only) defines the time period for all stations in
the cell to “wake up” in order to receive broadcasts.
NOTE
If the Power Save mode is enabled on one of the WLAN’s PCMCIA
Adapter stations, you must also enable the Power Save mode on the
Access Point through HyperTerminal.
62
PRO 11 SERIES WIRELESS ETHERNET
4.5.6 S
ECURITYTAB
The Security tab of the Wireless LAN Configuration utility allows you to set the
security parameters of the station.
The station in which the PCMCIA Adapter is installed can use one of the following
authentication algorithms (as defined in the 802.11 standard):
• Open System — Any station in the WLAN can associate with an Access Point
and receive and transmit data (null authentication).
• Shared Key — Only stations using a shared key encryption identified by the
Access Point are allowed to associate with it. You can only select this option if
the card was ordered with the Privacy option or if you enabled the WEP
feature during the upgrade procedure. The option which was ordered is
displayed in a read-only field at the top of the dialog box. To see whether the
WEP option was enabled during installation, select the Station Status tab
described in Section 4.5.1.
Values: Unknown Adapter is not inserted.
Implemented Shared Key authentication is enabled.
Not Implemented Shared Key authentication is disabled.
Only open system authentication is
available in this mode.
If you selected the Shared Key algorithm, proceed to set the following parameters:
• Default Key ID — Sets the default key for encryption in the Authentication
process. This is the encryption key that will be used for transmissions between
the station and the Access Point.
• WEP Key — Define the encryption keys used for transmissions between the
station and the Access Point. Specify each key by clicking the appropriate WEP
Key row (First, Second, Third, or Fourth) and entering 10 Hex digits (5 pairs
of characters) for each of the four keys.
To configure security parameters in ODI/DOS environment, use the brzsetup
application.
63
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
NOTE
The default Key ID you enter for the PCMCIA Adapter must match the
Key ID defined in the Access Point. Section 3.4.6 describes the
procedure for setting the encryption keys for Access Points.
It is recommended that you change the encryption keys periodically to
enhance system security.
4.5.7 M
AINTENANCETAB
The Maintenance tab of the Wireless LAN Configuration utility allows you to cause
the unit to verify firmware/driver compatibility, and set how the unit handles 802.3
packets.
This tab is not visible when in User login mode. When in Installer login mode, you
can see the parameters. When in Technician login mode, you can edit the
parameters.
The Maintenance tab contains the following parameters:
• Version Information – Windows drivers are divided into three files: Brzcom.vxd,
Brzwlan.sys, and Brzwlan.inf. The version number of all these files must be
identical. Control information of these files is displayed. The Configuration
utility file is called BrzConfig.exe. The first two numbers of the Configuration
utility version must match the first two numbers of the drivers.
• Disable AppleTalk tunneling — Allows you to disable (default) or enable
AppleTalk tunneling if the network contains a mix of EtherTalk 1 (ET 1) and
EtherTalk 2 (ET 2) stations to ensure smooth communications. Make sure all
units are set to the same tunneling settings.
• Show control on taskbar — Check the box with an icon of the PCMCIA Adapter
on the Windows taskbar. When this option is enabled, you can double-click the
PCMCIA Adapter icon to display the Wireless LAN Configuration utility at any
time.
4.5.8 R
ADIOTAB
The Radio tab of the Wireless LAN Configuration utility allows you to set the
power level of the unit and choose a hopping standard.
This tab is not visible when in User login mode. When in Installer login mode, you
can see the parameters. When in Technician login mode, you can edit the
parameters.
64
PRO 11 SERIES WIRELESS ETHERNET
Figure 4-2. Radio Tab.
The Radio tab contains the following parameters:
• Power Level – Level of power at which the unit is operating. There are two
possibilities, Low or High.
• Default Radio Status — For on, the radio receives in regular mode; when off,
the radio does not work at startup. You would choose off, for example, when
traveling in planes.
• Hopping Standard – A set of rules regarding the radio-transmission standard
allowed in each country. Units will work together only if set to the same
hopping standard. Use this parameter to set the unit’s hopping standard to
that of the relevant country. Proprietary hopping standards can also be
implemented. Refer to Section 3.5.3.
4.5.9 P
ERFORMANCETAB
The Performance tab of the Wireless LAN Configuration utility allows you to finetune performance and roaming parameters.
OK
Cancel
Station Status
Wireless LAN Configuration
?
Apply
Undo
Security
Radio
Power Management
Maintenance Performance
WLAN params Station Control Configuration Access
Power level
Default Radio Status
Low
High
Hopping standard
Country
Low
High
US FCC
65
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
This tab is not visible when in User login mode. When in Installer login mode, you
can see the parameters. When in Technician login mode, you can edit the
parameters.
Figure 4-3. Performance Tab.
The Performance tab contains the following important parameter:
• Rts threshold (bytes) – Minimum packet size to require an RTS (Request To
Send). For packets smaller than this threshold, an RTS is not sent and the
packet is transmitted directly to the WLAN.
4.5.10 R
ESETTING THE
PCMCIA A
DAPTER
It is necessary to reset the PCMCIA Adapter after making configuration changes via
the Wireless LAN Configuration utility. Perform this procedure as follows:
1. Close the Configuration and Site Survey utilities and then do one of the
following:
OK
Cancel
Station Status
Wireless LAN Configuration
?
Apply
Undo
Security RadioPower Management Maintenance
Performance
WLAN params Station Control Configuration Access
Performance
Roaming
Joining window
Leaving threshold (dBm)
Rts threshold (Bytes)
1600
Maximum retransmissions
1
Dwells to retransmit
2
Multirate support
Enable
1
Joining threshold (dBm)
Num of beacons to disconnect
Neighbor aging time (Sec)
20
-72
7
-77
66
PRO 11 SERIES WIRELESS ETHERNET
2. Restart the computer, or
stop the Adapter: From the Control Panel, double-click the PCMCIA Adapter
icon, select the PCMCIA PC Card, and click Stop. Then eject and reinsert the
card, or
stop and refresh the driver as follows:
3. Right-click the My Computer icon on the desktop, choose Properties, and go to
the Device Manager tab.
Select Network Adapters - WLAN PC Card, and click Refresh.
4.6 Using the Site Survey Utility
NOTE
This utility cannot be used in systems installed under ODI.
This section describes how to use the Site Survey utility to manage your PCMCIA
Adapter. The Site Survey utility keeps you informed of the signal strength your
unit is receiving.
You can run a Site Survey to compare reception at various locations. This is
extremely useful when first setting up the wireless LAN, since you can easily
determine where reception is good or bad, and where many Access Points overlap.
The following sections describe how to access the Site Survey utility, how to read
the main Site Survey window, and how to perform a site survey.
4.6.1 A
CCESSING THESITESURVEYUTILITY
Open the Site Survey utility as follows:
• Click the Start button, select Programs, select the WLAN Utilities program
group, and choose Site Survey.
The Site Survey for Wireless LAN Card main window opens.
67
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
Figure 4-4. Site Survey utility.
4.6.2 S
ITESURVEYMAINWINDOW
The Site Survey main window contains the following sections:
• Associated AP – This section, located at the top of the window, displays various
parameters regarding the Access Point with which the unit is currently
associated.
Alias – The alias you have assigned to the Access Point that the PCMCIA
Adapter is currently associated with. To assign aliases to Access Point units,
click the Alias button. If no alias has been assigned to the Access Point, this
field displays “no alias.”
AP Address – The IEEE MAC address of the Access Point.
Signal Strength – The strength of the signal from the Access Point in dBm.
The table below maps the signal strength indicators to dBm ranges:
Signal Poor Fair Good Very Good
dBm less than -74 -74 to -69 -68 to -61 greater than -61
Signal Bar – The signal bar is a graphical representation of the signal
strength. The longer the bar, the stronger the signal. As signal strength
drops, the bar changes from green, to yellow, to red.
Site Survey for Wireless LAN Card
Exit
Signal Strength: -60dBm
View Report Help
Survey Log
Iconize
Alias
Record
Alias: Sales AP address: 00-20-D6-B1-05-35
Associated AP
Poor Fair Good Very Good
Alias AP Address Signal
Production 00-20-D6-21-0D-78
Marketing 00-20-D6-69-91-2C
Edit
68
PRO 11 SERIES WIRELESS ETHERNET
• Neighbor APs – This section, located at the bottom of the window, displays
nearby Access Points (up to 4) from which the station is receiving a signal. For
each Access Point, the following parameters are displayed:
Alias – The alias you have assigned to the Access Point. To assign aliases to
Access Point units, press the Alias button. If no alias has been assigned to
the Access Point, this field displays “no alias.”
AP Address – The IEEE MAC address of the Access Point.
Signal – A miniature signal bar indicating the current signal strength from
the Access Point. When you hold the cursor over the line, the exact value
appears.
The following buttons appear on the right side of the Site Survey window. Several
of the buttons are used in the course of performing a Site Survey.
Record – Records the signal strength of the current location in the Survey
Log, as well as all neighboring Access Points. In the Record window, you
can add the name of the location and a remark. You can view the Survey
Log by pressing Survey Log.
Alias – Lets you assign alias names to Access Points. In the Alias window,
enter the Access Point address and the desired alias. For convenience, you
can drag and drop the address of the associated Access Point from the
main window into the Alias window. For neighbor Access Points, you
should use Ctrl-C to copy the AP Address from the main window.
Iconize – Closes the Site Survey window and opens the Connection Quality
Graph, which indicates current signal strength of the associated Access
Point at a glance. The Graph can be moved anywhere on the screen, and
will always appear on top of other applications. Hold the cursor over the X
to see the signal strength in units. Press the X to close the Graph and open
the Site Survey window.
Figure 4-5. Connection Quality Graph.
Survey Log – Opens the Survey Log at the bottom of the main window. The
Survey Log displays the information recorded using the Record button.
Press Clear Log to clear the Survey Log. Press Delete Last to delete the last
recorded reading.
69
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
• Menu Bar — The menu bar at the top of the window contains four menus:
Edit, View, Report, and Help. These menus contain sub-menus which
correspond in most cases to the buttons at the side of the window.
Edit Menu – Three sub-menus: Record, Alias, and Exit.
View Menu – Has two sub-menus: Survey Log and Iconize.
Report Menu – Two sub-menus: Preview and Print (do not have
corresponding buttons on side of window).
Preview – Enables you to preview a Site Survey report before proceeding
further.
Print – Opens a Site Survey report showing the information in the Survey
Log, including neighboring Access Points.
You can print the file by clicking the Printer button, or save the file by
clicking on the Diskette button. You can save the file as text, or as a QRP
file viewable using this application.
Help Menu – Contains two sub-menus: About and Getting Started (do not
have corresponding buttons on side of window). About contains standard
Windows format information about the application. Getting Started
provides basic information to enable you to begin working.
4.6.3 P
ERFORMING ASITESURVEY WITH THE
PCMCIA A
DAPTER
You can run a Site Survey to compare reception at various locations. This is
extremely useful when first setting up the wireless LAN, since you can easily
determine where reception is good or bad, and where many Access Points overlap.
To run a Site Survey:
1. Open the Site Survey utility.
2. Press Survey Log to expand the bottom of the Site Survey window.
3. Bring the station to a new location.
4. Press Record. Type in the name of the location and a remark, and press OK.
The signal details of the current location appear in the Survey Log at the
bottom of the window.
70
PRO 11 SERIES WIRELESS ETHERNET
5. Repeat steps 2 and 3 with other locations. The recorded readings should give
you a good idea of where reception is good or bad, and where many Access
Points overlap unnecessarily.
6. When you are done recording, press Print. A site survey report appears
containing information about each recorded location, including signal strength
of associated Access Point and of neighbor Access Points. You can print the file
by pressing the Print button, or save the file by pressing the Diskette button.
You can save the file as text, or as a QRP file viewable using this application
only.
4.7 Using the Upgrade Kit Program
The Upgrade Kit program is an application that allows you to upgrade previous
versions of the firmware, drivers, and utilities of the PCMCIA Adapter, if installing
on a machine that had a previous version installed. The Upgrade kit can be
obtained at www.blackbox.com. At this point, please call Technical Support for
assistance.
In addition, under Windows 95/98 you can use this program as another way to
install the firmware, driver, and utilities.
NOTE
Upgrading causes your system to lose all configuration parameters that
were set previously.
U
PGRADEPROCEDURE FORWINDOWS
95/98
1. Run the UPGR4402.EXE program from the diskette. The following dialog box
is displayed.
2. Click Setup. The following dialog box is displayed.
PCMCIA PC Card Upgrade Kit
About
Setup
Cancel
This Wizard will install PCMCIA PC Card Firmware, driver and
Application utilities.
Firmware Version: 4.4.7
Driver Version: 4.4.0
Applications Version: 4.4.0
WinZip® Self-Extractor © Nico Mak Computing, Inc. http://www.winzip.com
71
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
3. Click Next. The following dialog box is displayed.
4. From the Country drop-down list, select the standard applicable to your
country and click Next. You do not need to select the country if you are
installing the application in the following countries: USA/FCC, Europe/ETSI,
Japan.
<Back
Close
PCMCIA PC Card Upgrade
About
Next>
Country code
Inset PCMCIA PC Card and then Press “Next”
Note: If the card is already inserted, perform the following steps:
1) Stop the PCMCIA PC Card.
2) Eject the PCMCIA PC Card.
3) Insert it again.
Step 01
Choose the country code according to the country you are in.
Country Europe ETSI
<Back
Close
PCMCIA PC Card Upgrade
About
Next>
This wizard assists you in upgrading your PCMCIA PC Card
firmware, driver and applications.
It is strongly recommended that you exit all Windows programs
before running this wizard. Click “Close” to quit this wizard
and exit all programs that are currently running. Click “Next”
to continue.
Welcome
72
PRO 11 SERIES WIRELESS ETHERNET
5. If the Adapter is already installed, stop the Adapter as follows: from the Control
Panel, double-click the PCMCIA Adapter icon, select the PCMCIA PC Card,
and click Stop. Remove the PCMCIA Adapter from the slot. Wait for about 15
seconds and then reinsert. Click Next.
6. The MAC address of the PC and the hardware version of the PCMCIA Adapter
are displayed in a read-only field.
If you purchased the PCMCIA PC Card without the Wired Equivalent Privacy
(WEP) feature and want to enable this feature, contact Technical Support, or
Double-click the WEP field value (set to NO by default). A Password dialog box
appears.
Enter the supplied password and click OK to return to the dialog box from step
2.
NOTE
The password for enabling the WEP feature can only be obtained from
Black Box.
7. Follow the on-screen instructions and check the Adapter’s LEDs as described in
Section 4.3.2. Click Next. The following dialog box is displayed.
<Back
Close
PCMCIA PC Card Upgrade
About
Next>
PCMCIA PC Card details
Verify that both LEDs blink,
otherwise contact Technical Support.
You are now ready to perform the firmware upgrade.
Please press the “Next” button to start
the download process.
Mac Address 00-20-D6-05-3D-57
Hardware version G
Wep Enabled No
Step 02
73
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
8. When the firmware has completely downloaded, the following dialog box is
displayed.
9. At this point, the upgrade program installs the PCMCIA PC Card utilities.
Specify the directory in which the program installs the utilities.
10. Continue to follow the on-screen prompts until the following dialog box is
displayed.
<Back
Close
PCMCIA PC Card Upgrade
About
Next>
Application Installation
You have successfully completed upgrade of firmware and driver.
If you want to proceed with the application utilities installation
Press “Next”, otherwise press “Close”.
Step 04
<Back
Close
PCMCIA PC Card Upgrade
About
Next>
Downloading firmware.....
Note: This process takes approximately 15 seconds.
Do not be alarmed if it seems as if the computer
has frozen for the diuration of the downloading
of the firmware.
Step 03
74
PRO 11 SERIES WIRELESS ETHERNET
11. Restart the computer when prompted. When the computer is restarted, the
New Hardware wizard is entered automatically and the new drivers are installed
and shortcuts are updated.
U
PGRADEPROCEDURE FORWINDOWS
NT, DOS/ODI
Follow these instructions in order to upgrade PCMCIA PC Cards installed in
machines running Windows NT or DOS/ODI.
1. Upgrade the firmware in a Windows 95/98 machine, using the Upgrade Kit
program.
2. Remove the old drivers and utilities from your Windows NT or DOS/ODI
machine.
3. Download new drivers and utilities from the Black Box web site
(www.blackbox.com) according to your country.
4. Use the drivers and utilities that you have downloaded to install the new
versions of the drivers and utilities.
4.8 Installation Troubleshooting
The following are some problems that may occur while installing the PCMCIA PC
Card, and some recommended solutions to these problems. Should you encounter
problems during installation which are not listed in this section, contact Black Box
Technical Support.
<Back
Close
PCMCIA PC Card Upgrade
About
Finish
PCMCIA PC Card Upgrade completed
Press “Finish” to exit.
Step 05
75
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
Problem 1: Adapter does not function properly.
1. Check Device Manager for conflicts with any other devices and drivers.
2. Right click My Computer, Properties, and then the Device Manager tab.
3. Click Network Adapters to verify status of the Adapter—an exclamation mark
next to the card indicates a conflict.
Problem 2. There is a resolution conflict.
1. Double-click the PCMCIA PCI Card.
2. Select the Resources tab.
3. In the event that the conflicting resources are listed in the conflicting device
list, edit the Memory range and Interrupt to values that do not cause conflicts.
Problem 3. There is no resource conflict, but the card still fails to work. There may
be a conflict with DOS drivers not recognized by Windows.
1. Look for device drivers or lines containing device or call commands in either
the autoexec.bat or the config.sys file.
2. Disable the conflicting drivers and devices, and uninstall and reinstall the card.
4.9 Installing the PCMCIA Adapter Drivers in ODI Systems
The ODI driver supports Novell VLM and NETX clients, Novell TCPIP, Lantastic
v.6 (with ODINSUP), Microsoft Windows 3.11 (with ODINSUP).
The following files are supplied for the DOS ODI environment:
brzwlan.com ODI driver file, generic version
brzwlanf.com ODI driver file for Falcon 310 (supplied only on request)
brzwlan.ini Default configuration file
brzsetup.exe Site survey utility
net.cfg Sample ODI16 configuration file
brzwlan.ins Installation information for Novell client (DOS and Windows)
1. The ODI driver gets its resources from the Card & Socket Services. Verify that
the PC you are using has Card & Socket Services software installed.
76
PRO 11 SERIES WIRELESS ETHERNET
2. Copy all files from the DOSODI directory on the driver to the NetWare client
directory. (If you already have a NET.CFG file that you want to keep, copy and
paste the BRZWLAN section from the sample NET.CFG file supplied by Black
Box, into your existing file.)
3. In order to log into a NetWare server, run the following files (make sure that
the NET.CFG and the BRZWLAN.INI files are located in the directory from
which you run the following files):
• LSL.COM (supplied by Novell)
• BRZWLAN.COM
• IPXODI.COM (supplied by Novell)
• VLM.EXE (supplied by Novell)
4. After running the BRZWLAN file, the yellow LED on the Adapter should blink
several times and then remain lit.
C
ONFIGURATIONNOTES
1. To configure the PCMCIA PC Card, use the brzsetup.exe configuration utility.
2. A sample net.cfg file is provided; you may edit this to configure the parameters
for IRQ and MEM.
3. For DOS versions 3.30 to 6.20, LASTDRIVE=E by default. If the user only has
drive C, letters D and E will be available for Novell network drives. To make all
letters available for the network, add LASTDRIVE=Z to the config.sys file.
4. The units can only work with Access Points which have 802.11 software version
4.3 or later.
5. To see the version of the PCMCIA Adapter, make sure the card is inserted and
run the Site Survey utility.
6. For configuration of the NDIS2 stack using ODINSUP, refer to ODINSUP
documentation.
R
UNNING THECONFIGURATIONUTILITY
1. Change to the NetWare client directory.
2. Type brzsetup and press Enter.
77
CHAPTER 4: PCMCIA Adapter Installation, Setup, and Management
3. Enter the ESSID as defined in the Access Point (if using default ESSID, do not
change).
4. Reset/restart the computer.
NOTE
Default ESSID is ESSID1 in capital letters.
T
ROUBLESHOOTING
ODI I
NSTALLATION
The following paragraphs provide information that can help in the event of
problems encountered in the ODI drivers installation.
• It is important to note which net.cfg and brzwlan.ini is used. After installation
of new Novell client, two copies of brzwlan.ini, brzwlan.com, and net.cfg files
may exist, one in the Windows directory and another in the directory where
the Novell client is installed.
• If Card Services fails to provide correct memory and IRQ automatically, edit
net.cfg and use IRQ and MEM parameters.
• If the driver did not display a message Testing Device, this indicates that Card
Services failed to recognize the card or to provide the required information to
the driver. Check the Card Services information configuration.
• The driver reports an error in allocating IRQ or memory. The Card Services
failed to provide the required resources to the driver, or there are no
resources available. Reboot without EMM386 or other programs that may take
up the adapter memory region. Change the IRQ or MEM parameters in
net.cfg to force the driver to request specific resources.
• The driver reports errors in net.cfg or brzwlan.ini. The files are corrupt or you
are not in the correct directory.
• The yellow LED blinks and turns off after several seconds. The Access Point is
configured with incorrect parameters. Check the Access Point configuration.
The built-in antennas are not pulled out or the external antenna is not
attached to the PC card.
• The yellow LED does not blink and is not lit. The driver is not receiving
interrupts. Try to change IRQ—wrong firmware version or card initialization
error.
78
PRO 11 SERIES WIRELESS ETHERNET
5. Planning and Installing
Wireless LANs
Models LW0050A through LW0054A are equipped with two integrated 2-dBi
omnidirectional antennas and are suitable for indoor, short- to medium-range
installations. Models LW0055A through LW0059A are equipped with two
customized female connectors for use with a range of external antennas.
This chapter describes various possible system configurations, lists points to
consider when performing indoor and outdoor installations, and presents
guidelines and restrictions regarding external antenna installation.
5.1 System Configurations
This chapter describes various wireless LAN configurations and how to set them
up:
• Single-Cell Configuration – The wireless LAN consists of an Access Point and
the wireless workstations associated with it.
• Overlapping-Cell Configuration – The wireless LAN consists of two or more
adjacent Access Points whose coverage slightly overlaps.
• Multicell Configuration – The wireless LAN consists of several Access Points
installed in the same location. This creates a common coverage area that
increases aggregate throughput.
• Multi-Hop Configuration – The wireless LAN contains Access Point-
Workgroup Bridge pairs that extend the range of the wireless LAN.
Many wireless LANs contain several of these configurations at different points in
the system. The Single-Cell configuration is the most basic, and the other
configurations build upon it.
5.1.1 S
INGLE-CELLCONFIGURATION
A basic cell consists of an Access Point and the wireless workstations associated with
it. You can convert most workstations (for example, PCs and X-Terminals) that are
equipped with an Ethernet network interface card (NIC) to wireless workstations
simply by connecting a Station Adapter. You can convert most laptop computers
with a PCMCIA slot into wireless mobile stations by using the PCMCIA Adapter
(LW0054A or LW0059A).
79
There are three types of Single-Cell Configuration:
• Point-to-Point
• Point-to-Multipoint
• Mobile Applications
Each type is explained in the following sections.
5.1.1.1 P
OINT-TO-POINT
Point-to-Point installations require directional antennas at either end of the link.
To select the best antenna for a specific application, consider the following factors:
• Distance between sites
• Required throughput
• Clearance between sites
• Cable length.
5.1.1.2 P
OINT-TO-MULTIPOINT
Point-to-Multipoint applications consist of one or more Access Points at the central
site and several remote stations and bridges. In this case, use a 6-dBi
Omnidirectional Antenna (LW011A) with the Access Point because of its 360°
radiation pattern. In the United States, the 7.2-dBi Omnidirectional Antenna,
LW0029-R2 (which also has a 360° radiation pattern but has a wider range), can
also be used. The 7.2-dBi Omnidirectional antenna comes with a 20-ft. low-loss
cable and a mast mount bracket for rooftop installations.
The remote units should use directional antennas aimed in the direction of the
Access Point’s antenna(s).
5.1.1.3 M
OBILEAPPLICATIONS
In mobile applications, station orientation changes continuously. In order to
maintain connectivity throughout the entire coverage area, most mobile
applications require omnidirectional antennas for both Access Points and wireless
stations. In a motor vehicle, for example, you can install a Single-Port Station
Adapter in the cabin, and mount the antenna (in most cases a LW016A
Omnidirectional Antenna) on the roof.
CHAPTER 5: Planning and Installing Wireless LANs
80
PRO 11 SERIES WIRELESS ETHERNET
5.1.1.4 E
XTENDING THE
LAN
WITH
WLAN B
RIDGING
The figures in this section demonstrate how the Workgroup Bridge (LW0053A)
can be used with an Access Point to extend a regular network with a wireless link.
Figure 5-1. Connecting Remote Offices to Main Office Network.
Access Point
(LW0050A or LW0055A)
Bridge
(LW0053A or LW0058A)
81
CHAPTER 5: Planning and Installing Wireless LANs
The Workgroup Bridge (LW0053A) also enables connectivity between a wireless
LAN and individual workstations or workgroups located outside the LAN. The
Workgroup Bridge enables these wireless stations in its coverage area to
communicate with the wireless LAN and gain access to all of the network resources
such as file servers, printers and shared databases.
Figure 5-2. Wireless Bridging Between Two or More Wireless LAN
Segments.
5.1.1.5 S
ETTINGUPASINGLECELL
1. Install the Access Point (refer to Chapter 2). Be sure to position the Access
Point as high as possible.
NOTE
It is not necessary at this point to connect the Access Point to an
Ethernet backbone, since Access Points continuously transmit signals
(beacon frames) whether they are connected to an Ethernet backbone or
not.
2. Install a Station Adapter (refer to Chapter 2) or PCMCIA PC Card (refer to
Chapter 4 for installation instructions).
Access Point
(LW0050A or
LW0055A)
Bridge
(LW0053A or
LW0058A)
LW0054A
LW0054A
LW0050A
LW0050A
LW0052A
LW0051A
LW0051A
82
PRO 11 SERIES WIRELESS ETHERNET
3. Look at the Station Adapter’s front-panel LED indicators, or the PCMCIA PC
Card’s Site Survey application, to check signal strength.
4. Make any necessary adjustments. For example, adjust the antennas, the location
of the Station Adapter, or the location of the Access Point.
5. Set up the other workstations.
Figure 5-3. Single-Cell Configuration.
5.1.2 O
VERLAPPING-CELLCONFIGURATION
When two adjacent Access Points are positioned close enough to each other, a part
of the coverage area of Access Point #1 overlaps that of Access Point #2. This
overlapping area has two very important attributes:
83
CHAPTER 5: Planning and Installing Wireless LANs
• Any workstation situated in the overlapping area can associate and
communicate with either Access Point #1 or Access Point #2.
• Any workstation can move seamlessly through the overlapping coverage areas
without losing its network connection. This attribute is called Seamless
Roaming.
To set up overlapping cells:
1. Install an Access Point (refer to Chapter 2). Be sure to position the Access Point
as high as possible.
2. Install the second Access Point so that the two are positioned closer together
than the prescribed distance (refer to Section 5.2.4).
3. To allow roaming, configure all Access Points and station adapters to the same
ESSID.
4. To improve collocation and performance, configure all Access Points to
different hopping sequences of the same hopping set.
5. Install a Station Adapter or PCMCIA Adapter on a workstation.
6. Position the wireless workstation approximately equal distances from the two
Access Points.
7. Temporarily disconnect the first Access Point from the power supply. Verify
radio-signal reception from the first Access Point. Look at the Station Adapter’s
front-panel LED indicators, or the PCMCIA Adapter’s Site Survey application,
to check signal strength of the first Access Point.
8. Disconnect the second Access Point from the power supply and reconnect the
first Access Point. Look at the Station Adapter’s front-panel LED indicators, or
the PCMCIA Adapter’s Site Survey application, to check signal strength of the
second Access Point.
NOTE
It isn’t necessary at this point to connect the Access Points to an
Ethernet backbone, since Access Points continuously transmit signals
(beacon frames) whether they are connected to an Ethernet backbone or
not.
9. If necessary, adjust the distance between the Access Points so the coverage areas
overlap. Continue setting up overlapping cells until the required area is
covered.
84
PRO 11 SERIES WIRELESS ETHERNET
5.1.3 M
ULTICELLCONFIGURATION
Areas congested by many users and a heavy traffic load may require a multicell
structure. In a multicell structure, several Access Points are installed in the same
location. Each Access Point has the same coverage area, thereby creating a
common coverage area that increases aggregate throughput. Any workstation in
the overlapping area can associate and communicate with any Access Point
covering that area.
To set up a multicell:
1. Calculate the number of Access Points needed as follows. Multiply the number
of active users by the required throughput per user, and divide the result by 1.5
Mbps (which is the net throughput supported by collocated Access Points).
Consider the example of 5 active stations, each requiring 0.5-Mbps throughput.
The calculation is 5 × 0.5/1.5 = 1.7. Two Access Points should be used. This
method is accurate only for the first few Access Points.
The aggregate throughput of the common coverage area is equal to the
number of collocated Access Points multiplied by the throughput of each
individual Access Point, minus a certain amount of degradation caused by the
interference among the different Access Points.
2. Install several Access Points in the same location a few meters from each other
so they cover the same area. Be sure to position the Access Points at the highest
points possible.
3. To allow roaming and redundancy, configure all Access Points and station
adapters to the same ESSID.
4. To improve collocation and performance, configure all Access Points to
different hopping sequences of the same hopping set.
5. Install Station Adapters or PCMCIA Adapters in workstations.
6. Make sure the Load Sharing option is activated. Stations will automatically
associate with an Access Point that is less loaded and provides better signal
quality.
NOTE
It isn’t necessary at this point to connect the Access Points to an
Ethernet backbone, since Access Points continuously transmit signals
(beacon frames) whether they are connected to an Ethernet backbone or
not.
85
CHAPTER 5: Planning and Installing Wireless LANs
Figure 5-4. Multicell Configuration.
5.1.4 M
ULTI-HOPCONFIGURATION(RELAY
)
When you need to connect two sites and no line of sight exists between them, an
Access-Point/Workstation-Bridge pair can be positioned at a third location where
line-of-sight exists with each of the original locations. The third location then acts
as a relay point.
In areas where a wired LAN backbone is not available, another Access Point can be
added to the Access-Point/Workgroup-Bridge relay to distribute a wireless
backbone. In this manner, the range of a wireless system can be extended.
To set up a multi-hop cell:
1. Install an Access Point at the main office (refer to Chapter 2).
2. Install a Workgroup Bridge at the remote site.
3. Install an Access-Point/Workgroup-Bridge pair in a high location that has a
clear line of sight to both the main office and the remote site. Many AccessPoint/Workstation-Bridge pairs can form a chain.
Access
Point
Access
Point
Access
Point
Common Coverage Area
86
PRO 11 SERIES WIRELESS ETHERNET
4. When an Access Point and Workstation Bridge communicate over the wireless
LAN, set them both to the same ESSID. For example, set the Access Point of
the main office and the Workstation Bridge of the first Access-Point/
Workstation-Bridge relay pair to the same ESSID. Also, set the Access Point of
the last Access-Point/Workstation-Bridge relay and the Workstation Bridge of
the remote site to the same ESSID; this ESSID should be different from the first
ESSID.
Another option is to use one ESSID, and to set the Preferred AP parameter of
each Workstation Bridge to its paired Access Point (refer to Section 3.4.3). This
option allows stations to roam between the sites.
5. As usual, make sure that the hopping sequence of the Access Points are
different.
Figure 5-5. Multihop Configuration.
6. If desired, an additional Access Point may be added at the main office and
remote site, and between each Access-Point/Workstation-Bridge pair to provide
wireless LANs at those points.
7. Install Station Adapters or PCMCIA Adapters in workstations (refer to
Chapter 2).
5.2 Indoor Installation Considerations
This chapter describes various considerations to take into account when planning
an indoor installation. This includes site selection, antenna diversity, antenna
polarization, construction materials, and cell size.
AP WB AP WB
ESSID 1 ESSID 2
Main Office
Ethernet Backbone
Remote Office
Ethernet Backbone
10BASE-T Crossover Cable
87
CHAPTER 5: Planning and Installing Wireless LANs
Figure 5-6. Access Point LAN in a Typical Office Environment.
5.2.1 S
ITE-SELECTIONFACTORS
The Pro 11 Series Wireless Ethernet products are designed to operate efficiently
under a wide range of conditions. The following guidelines are provided to help
you position the units to ensure optimum coverage and operation of the wireless
LAN.
Metal Furniture
Position the units clear of metal furniture and away from moving objects such as
metal fans or doors.
Microwave Ovens
For best performance, position the units clear of radiation sources that emit in the
2.4-GHz frequency band, such as microwave ovens.
Antennas
Make sure the antennas point up. For models with external antennas, connect the
external antennas and RF cable.
Heat Sources
Keep the units well away from sources of heat, such as radiators, air-conditioners,
etc.
Access
Point
88
PRO 11 SERIES WIRELESS ETHERNET
Site Selection for Access Points
When positioning Access Points, take into account the following additional
considerations.
H
EIGHT
Install the Access Point at least 5 feet (1.5 m) above the floor, clear of any high
office partitions or tall pieces of furniture in the coverage area. The Access Point
can be placed on a high shelf, or can be attached to the ceiling or a wall using a
mounting bracket.
C
ENTRAL
L
OCATION
Install the Access Point in a central location in the intended coverage area. Good
positions are:
• In the center of a large room.
• In the center of a corridor.
• At the intersection of two corridors.
Many modern buildings have partitions constructed of metal or containing metal
components. We recommend that you install the Access Points on the corridor
ceilings. The radio waves propagated by the Pro 11 LAN are reflected along the
metal partitions and enter the offices through the doors or glass sections.
5.2.2 A
NTENNAS FORINDOOR APPLICATIONS
For most indoor applications, the best choice is the standard unit equipped with its
integrated 2-dBi antennas. The units are small, easy to install, and cover a large
area.
In some installations, you need to install the unit and antenna separately. In such
instances, use the LW0055A Access Point with a 6-dBi Omnidirectional Antenna
with ≈3-ft. (0.9-m) RG58 cable.
The 8.5-dBi Unidirectional Antenna is also useful in indoor applications. It is very
small and easily wall-mounted, but its radiation pattern is limited (75°).
We recommend that, for indoor applications, you use two antennas per unit to
take advantage of the diversity gain of the system.
Antenna Diversity
In applications where no multipath propagation is expected, a single antenna is
89
CHAPTER 5: Planning and Installing Wireless LANs
sufficient to ensure good performance levels. However, in cases where multipath
propagation exists, we recommend that two antennas be used. This takes
advantage of space-diversity capabilities. By using two antennas per unit, the system
can select the best antenna on a per-packet basis (every few milliseconds).
Multipath propagation is to be expected when there are potential reflectors
between the main and remote sites. These reflectors may be buildings or moving
objects such as airplanes and motor vehicles. If this is the case, the radio signal
does not travel in a straight line, but is reflected or deflected off of the object,
creating multiple propagation paths.
When installing a single antenna, modify the transmit diversity option to either
antenna 1 or antenna 2, according to the antenna being used (refer to
Section 3.4.3).
Antenna Polarization
Antenna polarization must be the same at either end of the link. In most
applications, the preferred orientation is vertical polarization. Above-ground
propagation of the signal is better when it is polarized vertically. To verify antenna
polarization, refer to the assembly instructions supplied with the antenna set.
5.2.3 C
ONSTRUCTIONMATERIALS
A cell’s coverage area is affected by the construction materials of the walls,
partitions, ceilings, floors, and furnishings of the cell. These materials may cause
radio signal loss:
• Metal objects reflect radio signals. They do not let the signals pass through.
• Wood, glass, plastic, and brick reflect part of the radio signals and allow part of
the radio signals to pass through.
• Water and objects with a high moisture content absorb a large part of the
radio signals.
90
PRO 11 SERIES WIRELESS ETHERNET
Use the following table as a guideline to predict the effects of different materials.
Table 5-1. Signal Loss Chart
Obstruction Additional Effective Approximate
Loss (dB) Range Range
Open Space 0 dB 100% 1000 ft. (300 m)
Window (non-metallic tint) 3 dB 70% 700 ft. (215 m)
Window (metallic tint) 5 to 8 dB 50% 500 ft. (150 m)
Light Wall (dry wall) 5 to 8 dB 50% 500 ft. (150 m)
Medium Wall (wood) 10 dB 30% 300 ft. (100 m)
Heavy Wall (solid core 6") 15 to 20 dB 15% 150 ft. (50 m)
Very Heavy Wall (solid core 12") 20 to 25 dB 10% 100 ft. (30 m)
Floor/Ceiling (solid core) 15 to 20 dB 15% 150 ft. (50 m)
Floor/Ceiling (heavy solid core) 20 to 25 dB 10% 100 ft. (30 m)
Note: Take stairwells and elevator shafts into consideration when positioning Access
Points. There is no way to quantify the loss associated with these obstructions, but
they do have an effect on the signal.
5.2.4 C
ELLSIZE
Cell size is determined by the maximum possible distance between the Access
Point and the Station Adapter. This distance varies according to the building floor
plan and the nature of that environment. There are several general categories:
Open Indoor Areas
Open office areas with no partitioning and no obstacles between the Access Point
and the workstation.
The suggested maximum distance between a standard Access Point (LW0050A)
and a workstation is 600 ft. (200 m).
Semi-Open Indoor Areas
Open-plan offices partitioned into individual workspaces, factory floors,
warehouses, etc.
The suggested maximum distance between a standard Access Point and a
workstation is 300 ft. (100 m).
91
CHAPTER 5: Planning and Installing Wireless LANs
Closed Indoor Areas
A floor divided into individual offices by concrete, masonry, or sheet-rock walls. A
house is also a closed indoor area.
The suggested maximum distance between a standard Access Point and a
workstation is 150 ft. (50 m).
5.3 Outdoor Installation Considerations
This section describes various considerations to take into account when planning
an outdoor installation, including site selection, antenna alignment, antenna
diversity, antenna polarization, antenna seal, and cell size.
5.3.1 S
ITE-SELECTIONFACTORS
When selecting a location for external antennas, remember to take into
consideration the following guidelines:
• Minimum distance between sites
• Maximum height above the ground
• Maximum line-of-sight clearance
• Maximum separation between antennas (diversity option)
Path of Clearest Propagation
A propagation path is the path that signals traverse between the antennas of any
two bridges. The “line” between two antenna sites is an imaginary straight line
which may be drawn between the two antennas. Any obstacles in the path of the
“line” degrade the propagation path. The best propagation path is, therefore, a
clear line of sight with good clearance between the “line” and any physical
obstacle.
Physical Obstacles
Any physical object in the path between two bridges can cause signal attenuation.
Common obstructions are buildings and trees. If a bridge’s antenna is installed
indoors, the walls and/or windows between the two sites are physical obstructions.
If the antenna is positioned outdoors, any buildings or other physical structures
such as trees, mountains, or other natural geographic features higher than the
antenna and situated in the path between the two sites can be obstructions.
Install indoor antennas as close as possible to a window (or wall if a window is not
accessible) facing the required direction. Avoid metal obstacles such as metal
92
PRO 11 SERIES WIRELESS ETHERNET
window frames or metal film anti-glare windows in the transmission path. Install
outdoor antennas high enough to avoid any obstacles which may block the signal.
Minimal Path Loss
Path loss is determined mainly by several factors:
• Distance between sites. Path loss is lower and system performance better when
distances between sites are shorter.
• Clearance. Path loss is minimized when there exists a clear line of sight. The
number, location, size, and makeup of obstacles determine their contribution
to path loss.
• Antenna height. Path loss is lower when antennas are positioned higher.
Antenna height is the distance from the imaginary line connecting the
antennas at the two sites to “ground” level. “Ground” level in an open area is
the actual ground. In dense urban areas, “ground” level is the average height
of the buildings between the antenna sites.
5.3.2 R
OOFTOPINSTALLATION
WARNING!
Rooftop antenna installations are extremely dangerous! Incorrect
installation may result in death, serious injury, and/or damage. Such
installations should be performed by professional antenna installers
only!
Rooftop installations offer several advantages:
• Increased antenna range.
• Fewer obstacles in path.
• Improved performance due to greater height.
• Reduced multipath problems.
5.3.3 A
NTENNAS FOROUTDOORAPPLICATIONS
The Pro 11 Series can be used in point-to-point or point-to-multipoint
configurations.
93
CHAPTER 5: Planning and Installing Wireless LANs
Point-to-Point
A point-to-point link is based on the use of one Access Point with external antennas
(LW0055A) and one adapter (LW0056A–LW0059A). The Access Point and the
Workstation Bridge must be equipped with one or two directional antennas. The
necessary antenna gain depends on the required range and performance.
Point-to-Multipoint
Setting up a point-to-multipoint link requires the use of an LW0055A Access Point
equipped with omnidirectional antennas and a remote LW0058A Workgroup
Bridge (or LW0056A, LW0057A, or LW0059A) equipped with high-gain
directional antennas.
Antenna Alignment
Low-gain antennas do not require alignment, since they have a very wide radiation
pattern. High-gain antennas have a narrow beamwidth, so you need to align them
in order to optimize the link.
Check antenna alignment by using the LED indicators on the front panel of
whichever adapter is used in the link (LW0056A, LW0057A, or LW0058A), or use
the site survey program with the LW0059A. The LED indicators, if you decide to
use them, show you the reception quality.
To perform antenna alignment:
1. Assemble antennas according to the assembly instructions included with the
antenna set.
2. Mount the antennas as high as possible.
3. Connect the coaxial cable to the Access Point at the main site.
4. Connect the coaxial cable to the Workstation Bridge (or Station Adapter) at
the remote site.
5. Power on the Access Point and the Workstation Bridge (or Station Adapter).
6. Synchronize the units by aligning the antennas manually until the WLNK
indicator LED on the front panel of the wireless Bridge or Station Adapter
lights.
7. Align antennas at the main and remote sites until maximum signal quality is
obtained. (Check QLT LEDs on the front panel of the Station Adapter and the
wireless Bridge.)
94
PRO 11 SERIES WIRELESS ETHERNET
If the received signal quality is lower than expected for this antenna/range
combination, change antenna height and verify RF cable connections.
Antenna Diversity
In applications where no multipath propagation is expected, a single antenna is
sufficient to ensure good performance levels. However, in cases where multipath
propagation exists, we recommend that two antennas be used. This takes
advantage of space-diversity capabilities. By using two antennas per unit, the system
can select the best antenna on a per-packet basis (every few milliseconds).
Multipath propagation is to be expected when there are potential reflectors
between the main and remote sites. These reflectors may be buildings or moving
objects such as airplanes and motor vehicles. If this is the case, the radio signal
does not travel in a straight line, but is reflected or deflected off of the object,
creating multiple propagation paths.
When installing a single antenna, modify the transmit-diversity option to either
antenna 1 or antenna 2, according to the antenna being used (refer to
Section 3.4.3).
Antenna Polarization
Antenna polarization must be the same at either end of the link. In most
applications, the preferred orientation is vertical polarization. Above-ground
propagation of the signal is better when it is polarized vertically. To verify antenna
polarization, refer to the assembly instructions supplied with the antenna set.
5.3.4 A
NTENNASEAL
When using outdoor antennas, you must seal the antenna connectors against rain.
Otherwise the antennas are not suitable for use in outdoor installations.
5.3.5 C
ELLSIZE
Cell size is determined by the maximum possible distance between the Access
Point and the Station Adapter, usually related to point-to-multipoint installations
using external antennas. For open outdoor areas with an unobstructed line of sight
between the Access Point and the Pro 11 workstation, the suggested maximum
distance between a standard Access Point (LW0050A) and a workstation is 2000 ft.
(700 m).
95
CHAPTER 5: Planning and Installing Wireless LANs
5.3.6 L
INKDISTANCE
Link distance is the maximum distance between the Access Point and the station
adapter, usually related to point-to-point installations using external antennas. For
open outdoor areas with an unobstructed line of sight between the Access Point
and the wireless bridge, the suggested maximum distance is:
• up to 7 miles (10 km) in the USA (with an LW0055A Access Point with
external antennas)
• up to 2.5 km in Europe (with an LW0055A Access Point with external
antennas)
NOTE
The maximum distance of 10 km/7 miles is achieved using 24-dBi
antennas. The maximum distance of 2.5 km is achieved using 18-dBi
antennas.
5.3.7 O
UTDOORINSTALLATIONS
Outdoor installations must have a clear line-of-sight. Solid obstacles such as
buildings or hills prevent the establishment of a link. Partial obstacles such as trees
or traffic can reduce range. Extending coaxial cables can cause an increase in
assembly signal loss and a reduction in range.
5.4 Precautions
CAUTION
Detached antennas, whether installed indoors or out, should be
installed ONLY by experienced antenna-installation professionals who
are familiar with local building and safety codes and, wherever
applicable, are licensed by the appropriate government regulatory
authorities.
5.4.1 T
RANSMITANTENNA
Regulations regarding maximum antenna gains vary from country to country. It is
your responsibility to operate within the limits of these regulations and to ensure
that the professional installer is aware of these regulations as well. The FCC in the
United States and ETSI in Europe limit effective transit power to 36 dBm (USA)
and 20 dBm (Europe). The maximum total assembly gain of antennas and cables
equals 19 dBi (USA) and 3 dBi (Europe).
96
PRO 11 SERIES WIRELESS ETHERNET
5.4.2 S
PURIOUSRADIOFREQUENCYEMISSIONS
The regulations referred to in the previous section also specify maximum “out-ofband” radio frequency emissions. Install a filter as close as possible to the Pro 11
unit’s connector.
5.4.3 L
IGHTNING
P
ROTECTION
Lightning protection is designed to protect people, property, and equipment by
providing a path to ground for the lightning’s energy. The lightning arrestor
diverts the strike energy to ground through a deliberate and controlled path
instead of allowing it to choose a random path. Lightning protection for a building
is more forgiving than protection of electronic devices. A building can withstand
up to 100,000 volts, but electronic equipment may be damaged by just a few volts.
Lightning protection entails connecting an antenna discharge unit (also called an
arrestor) to each cable as close as possible to the point where it enters the building.
It also entails proper grounding of the arrestors and of the antenna mast (if the
antenna is connected to one).
The lightning arrestor (LW014) should be installed and grounded at the point
where the cable enters the building. The arrestor is connected to the unit at one
end and to the antenna at the other end.
The professional installer you choose must be knowledgeable about lightning
protection. The installer must install the lightning protector in a way that
maximizes lightning protection.
5.4.4 R
AINPROOFING
12-, 18-, and 24-dBi antennas must be sealed against rain at the point where the
cable enters the pole before they are suitable for external use.
97
CHAPTER 6: Upgrade Procedure
6. Upgrade Procedure
IMPORTANT!
Please read the information below before proceeding with any
upgrades.
There are two options for upgrading to the Pro 11 Series:
1. Send in your Pro Series equipment, and we will upgrade the units to the Pro 11
802.11 standard for a service fee.
2. Download the software at no charge from the Black Box FTP site and perform
the upgrade yourself. If you choose to do the upgrade yourself, you assume all
responsibility for the condition of the product after the upgrade. Black Box
provides this upgrade software without warranty of any kind, either implied or
expressed and may change the upgrade software at any time without
notification. Performing the firmware upload to the Pro 11 Series flash-ROM is
recommended only for experienced system administrators. Improper uploads
can result in the permanent erasing of the flash-ROM, and necessitate the
return of the unit for repair and the user incurs an upgrade/service fee.
You can download firmware upgrades to the unit’s flash memory with a TFTP
application. Before beginning an upgrade, be sure you have the correct files and latest
instructions. Upgrade packages can be obtained at the Black Box web site:
www.blackbox.com.
In general terms, upgrading includes the following steps:
1. Set up an IP connection to the device. You can verify working connection using
the Ping command.
2. Run TFTP software and connect to the device.
3. Use TFTP to download the erase file to the device. Use the tables below to
determine the specific file to use, according to the unit’s current version. This
causes the flash memory to be cleared. Do not reset the device during the download
procedure in any case.
4 Use TFTP to download the software file to the device. Use the tables below to
determine the specific file to use, according to the unit’s current version.
5 The unit resets itself and comes up with the new upgraded version.
98
PRO 11 SERIES WIRELESS ETHERNET
Table 6-1. Upgrade Files
Current Version Flash Erase Software Download File Name
of Unit File Name LW0050A LW0051A, LW0052A, LW0053A
3.2, 3.38, 3.42, 3.50 download eanaf eansf
3.52, 4.204, 4.41 erase eanafb eansfb
3.62, 4.210, 4.211, erase_fw ap_fw sawb_fw
4.310, 4.41
The current version and type of the unit determine the files used for upgrade. For
example, when upgrading LW0050A from version 3.52 to version 4.4.1, use the
erase and eanafb files. When upgrading LW0051A from version 3.62 to version 4.4.1,
use the erase_fw and sawb_fw files.
Loading...