Alvarion Technologies EAP-10AMP Low Power Transceiver and Amplifier Unit User Manual bnpro 17nov

Alvarion Ltd. Low Power Transceiver and Amplifier Unit bnpro 17nov

manual 1

BreezeNET PRO.11 SeriesUser’s Guide November, 1998Cat. No. 213033                                                                                                          Revision          0
© 1998 by BreezeCOM Ltd. All rights reserved.No part of this publication may be reproduced in any material form without thewritten permission of the copyright owner.Trade NamesBreezeNET and BreezeLINK are trade names ofBreezeCOM Ltd. Other brand and product names are registered trademarks ortrademarks of their respective companies.
Statement of ConditionsThe information contained in this manual is subject to change without notice. BreezeCOM Ltd. shall not beliable for errors contained herein or for incidental or consequential damages in connection with thefurnishing, performance, or use of this manual or equipment supplied with it.WarrantyIn the following warranty text, “the Company” shall mean:- BreezeCOM Inc., for products located in the USA.- BreezeCOM Ltd., for products located outside the USA.This BreezeNET product is warranted against defects in material and workmanship for a period of one year.During this warranty period the Company will, at its option, either repair or replace products that prove to bedefective.For warranty service or repair, the product must be returned to a service facility designated by the Company.Authorization to return products must be obtained prior to shipment. The buyer shall pay all shipping chargesto the Company and the Company shall pay shipping charges to return the product to the buyer.The Company warrants that the firmware designed by it for use with the unit will execute its programminginstructions when properly installed on the unit. The Company does not warrant that the operation of the unitor firmware will be uninterrupted or error-free.Limitation of WarrantyThe foregoing warranty shall not apply to defects resulting from improper or inadequate maintenance by thebuyer, buyer supplied interfacing, unauthorized modification or misuse, operation outside of theenvironmental specifications for the product, or improper site preparation or maintenance. No other warrantyis expressed or implied. The Company specifically disclaims the implied warranties of merchantability andfitness for any particular purpose.Electronic Emission NoticesThis 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 undesiredoperation.FCC Radio Frequency Interference StatementThis equipment has been tested and found to comply with the limits for a class A digital device, pursuant toPart 15 of the FCC rules. These limits are designed to provide reasonable protection against harmfulinterference when the equipment is operated in a commercial environment. This equipment generates, uses,and can radiate radio frequency energy and, if not installed and used in accordance with the instructionmanual, may cause harmful interference to radio communications. Operation of this equipment in aresidential area is likely to cause harmful interference in which case the user will be required to correct theinterference at his own expense.Information to UserAny changes or modifications of equipment not expressly approved by the manufacturer could void the user’sauthority to operate the equipment and the company’s warranty.
CONTACTING BREEZECOM TECHNICALSUPPORTShould you need assistance beyond the scope of this guide, please contactyour local BreezeCOM reseller or distributor. If they cannot solve yourproblem, feel free to contact the BreezeCOM Technical SupportDepatrment. The support representatives can assist you in solving anyproblems that cannot be solved by your reseller.When requesting support, please have the following items available:• Configuration of the system, including models of the BreezeCOMequipment used.• Antenna type and cable lengths.• Site information such as possible radio path problems (like trees,machines, and buildings).• Distance between devices.• Configuration, statistic counters, and error messages as seen on themonitor.• Description of problems encountered.To contact BreezeCOM Technical Support, refer to the Technical Supportpage of the BreezeCOM website: www.breezecom.com
Table of ContentsBreezeNET PRO.11 Series iUser’s GuideTABLE OF CONTENTS1. Introduction To The BreezeNET PRO.11 Series.......................................1-11.1. How to Use This Guide..........................................................................1-11.2. BreezeNET PRO.11 Series Features ......................................................1-21.3. BreezeNET PRO.11 Series Product Line ...............................................1-31.3.1. Access Point...............................................................................1-41.3.2. Single Station Adapter................................................................1-51.3.3. Four Port Station Adapter...........................................................1-61.3.4. Workgroup Bridge......................................................................1-81.3.5. PC Card......................................................................................1-91.3.6. Extended Range Access Point and Bridge.................................1-101.4. BreezeNET PRO.11 Functional Description ........................................1-112. Basic Installation ........................................................................................2-12.1. Basic Installation Checklist....................................................................2-12.2. Check the Package List..........................................................................2-12.3. Position the Unit....................................................................................2-22.3.1. Additional Considerations When Positioning the Access Point...2-32.4. Connect the Unit to the Power Supply....................................................2-32.5. Connect the Unit to the Ethernet Port.....................................................2-42.6. Check Unit Functionality using LED indicators.....................................2-52.6.1. Station (SA-10, SA-40) and Bridge (WB-10) LEDs....................2-52.6.2. Access Point LEDs.....................................................................2-62.6.3. Verifying the Ethernet Connection .............................................2-63. Device Setup and Management..................................................................3-13.1. Accessing and Using Local Terminal Management................................3-13.2. Configuration Screens............................................................................3-23.3. Main Menu............................................................................................3-33.4. System Configuration Menu ..................................................................3-43.4.1. Station Status .............................................................................3-43.4.2. IP and SNMP Parameters ...........................................................3-53.4.3. Wireless LAN (WLAN) Parameters ...........................................3-63.4.4. Bridging...................................................................................3-103.4.5. Station Control .........................................................................3-113.5. Advanced Settings Menu .....................................................................3-123.5.1. Performance .............................................................................3-133.5.2. Radio........................................................................................3-133.5.3. Rate..........................................................................................3-133.5.4. Maintenance.............................................................................3-14
Table of ContentsBreezeNET PRO.11 Series ii User’s Guide3.6. Site Survey Menu ................................................................................3-143.6.1. System Counters.......................................................................3-153.6.2. Survey Software.......................................................................3-183.6.3. Using the Site Survey Software ................................................3-193.6.4. Using the Rx Packets per Frequency Histogram........................3-223.7. Access Control Menu...........................................................................3-234. SA-PCR PRO.11 PC Card Installation, Setup, and Management ...........4-14.1. Installing the SA-PCR Driver, and Applications ....................................4-14.1.1. Check Package Contents ............................................................4-14.1.2. Before You Begin.......................................................................4-24.1.3. Installing SA-PCR Drivers .........................................................4-24.1.4. Checking the LED Indicators .....................................................4-94.1.5. Installing the Applications..........................................................4-94.1.6. Initial Configuration...................................................................4-94.1.7. Troubleshooting Tips................................................................4-104.1.8. Uninstalling SA-PCR Drivers and Applications........................4-114.2. Using the SA-PCR Configuration Application .....................................4-124.2.1. Accessing the Application ........................................................4-124.2.2. Main Window ..........................................................................4-124.2.3. Resetting the PC Card ..............................................................4-124.2.4. Station Status Tab.....................................................................4-134.2.5. WLAN Parameters Tab ............................................................4-144.2.6. Station Control Tab ..................................................................4-164.2.7. Access Rights Tab....................................................................4-174.2.8. Power Management Tab...........................................................4-194.2.9. Maintenance Tab......................................................................4-204.2.10. Radio Tab.................................................................................4-214.2.11. Performance Tab ......................................................................4-224.3. Using the SA-PCR Site Survey Application.........................................4-234.3.1. Accessing the SA-PCR Site Survey Application.......................4-244.3.2. SA-PCR Site Survey Main Window .........................................4-244.3.3. Performing a Site Survey with the SA-PCR..............................4-275. Planning and Installing  Wireless LANs....................................................5-15.1. System Configurations...........................................................................5-15.1.1. Single Cell Configuration...........................................................5-25.1.2. Overlapping Cell Configuration..................................................5-65.1.3. Multicell Configuration ..............................................................5-85.1.4. Multi-hop Configuration (Relay) ..............................................5-105.2. Indoor Installation considerations ........................................................5-12
Table of ContentsBreezeNET PRO.11 Series iii User’s Guide5.2.1. Site Selection Factors...............................................................5-125.2.2. Antennas for Indoor applications..............................................5-145.2.3. Construction Materials .............................................................5-155.2.4. Cell Size...................................................................................5-155.3. Outdoor Installation Considerations.....................................................5-165.3.1. Site Selection Factors...............................................................5-165.3.2. Rooftop Installation..................................................................5-185.3.3. Antennas for Outdoor Applications ..........................................5-185.3.4. Antenna Seal ............................................................................5-205.3.5. Cell Size...................................................................................5-205.3.6. Link Distance...........................................................................5-215.3.7. Using Outdoor Range Tables....................................................5-215.3.8. FCC Outdoor Range Tables (USA) ..........................................5-225.3.9. ETSI Outdoor Range Tables (Europe and Rest-of-World) –D Models .................................................................................5-235.3.10. ETSI Outdoor Range Tables (Europe and Rest-of-World) –DE Models...............................................................................5-245.3.11. Non-Regulated Outdoor Range Tables – D Models ..................5-265.3.12. Extending the range using the TPA-24 and LNA-10.................5-275.4. Available Antennas and Antenna Kits..................................................5-315.5. Precautions ..........................................................................................5-325.5.1. Professional Installers Only ......................................................5-325.5.2. Transmit Antenna Gain.............................................................5-325.5.3. Spurious Radio Frequency Emissions.......................................5-335.5.4. Lightning Protection.................................................................5-335.5.5. Rain Proofing...........................................................................5-346. Accessory Installation.................................................................................6-16.1. TPA 24 Transmit Power Amplifier (Booster).........................................6-16.1.1. Installing the TPA 24 .................................................................6-26.2. LNA 10 Low Noise Receive Amplifier..................................................6-36.2.1. Installing the LNA 10.................................................................6-36.3. RFS 122 Radio Frequency Splitter.........................................................6-56.3.1. Installing the RFS 122................................................................6-56.4. AL 1 Lightning Arrestor........................................................................6-57. Upgrade Procedure.....................................................................................7-18. System Troubleshooting.............................................................................8-18.1. Troubleshooting Guide ..........................................................................8-18.2. Checking Counters ................................................................................8-38.2.1. WLAN Counters ........................................................................8-3
Table of ContentsBreezeNET PRO.11 Series iv User’s Guide8.2.2. Ethernet Counters.......................................................................8-39. Appendix 9-19.1. Supported MIBs and Traps ....................................................................9-19.1.1. Supported MIBs .........................................................................9-19.1.2. Supported Traps .........................................................................9-29.2. Technical Specifications ........................................................................9-39.2.1. Specifications for BreezeNET PRO.11 Units..............................9-39.2.2. Specifications for TPA 24 Transmit Power Amplifier.................9-69.2.3. Specifications for LNA 10 Low Noise Receive Amplifier ..........9-79.2.4. Specifications for RFS 122 Radio Frequency Splitter .................9-89.2.5. Specifications for AL 1 Lightning Arrestor.................................9-89.3. Wireless LAN Concepts ........................................................................9-99.4. Radio Signal Propagation.....................................................................9-159.4.1. Introduction..............................................................................9-159.4.2. RF Terms and Definitions.........................................................9-159.5. IEEE 802.11 Technical Tutorial...........................................................9-229.5.1. Architecture Components.........................................................9-229.5.2. IEEE 802.11 Layers Description...............................................9-239.5.3. The MAC Layer .......................................................................9-249.5.4. How Does a Station Join an Existing Cell (BSS)?.....................9-309.5.5. Roaming...................................................................................9-309.5.6. Keeping Synchronization..........................................................9-319.5.7. Security....................................................................................9-319.5.8. Power Saving ...........................................................................9-329.5.9. Frame Types.............................................................................9-339.5.10. Frame Formats .........................................................................9-339.5.11. Most Common Frame Formats .................................................9-389.5.12. Point Coordination Function (PCF) ..........................................9-409.5.13. Ad-hoc Networks .....................................................................9-40
Introduction To The BreezeNET PRO.11 SeriesBreezeNET PRO.11 Series 1-1User’s Guide1. INTRODUCTION TO THE BREEZENETPRO.11 SERIESThis chapter explains how to use this guide, presents the members of theBreezeNET PRO.11 Series, describes the benefits of BreezeNET PRO.11Wireless LANs, and lists the product specifications.1.1. How to Use This GuideThis User’s Guide contains instructions for overall planning and setting upyour wireless LAN, and provides details of how to install each unit, andhow to install antennas and accessories.This guide contains the following chapters:• Chapter 1 Introduction – Explains how to use this guide and presentsthe members of the BreezeNET PRO.11 Series.• Chapter 2 Basic Installation – Details how to install most BreezeNETPRO.11 Series units.• Chapter 3 Device Setup and Management – Describes how to use thelocal terminal to setup, configure, and manage BreezeNET PRO.11 Seriesunits.• Chapter 4 SA-PCR PRO.11 PC Card Installation, Setup, andManagement – Describes how to install the SA-PCR Card, and how tosetup and manage the Card using the SA-PCR Configuration andSA-PCR Site Survey Windows applications.• Chapter 5 Planning and Installing Wireless LANs – Providesguidelines and restrictions regarding antenna selection and installation,and includes outdoor antenna range tables.• Chapter 6 Accessory Installation – Introduces some of the accessoriesavailable for specific installations, and describes how to install them.• Chapter 7 Upgrade Procedure – Explains how to perform futureupgrades for BreezeNET PRO.11 Series units using a TFTP application.
Introduction To The BreezeNET PRO.11 SeriesBreezeNET PRO.11 Series 1-2User’s Guide• Chapter 8 System Troubleshooting – Contains a troubleshooting guidethat provides answers to some of the more common problems which mayoccur when installing and using BreezeNET PRO.11 Series products.• Chapter 9 Appendix – This appendix lists MIBs and traps supported byBreezeNET PRO.11 Series products, lists product and attachmentspecifications, provides an overview of the concepts related to wirelessLANs, discusses the concepts and applications of radio signalpropagation relevant to wireless LANs, and introduces the new 802.11standard.1.2. BreezeNET PRO.11 Series FeaturesFollowing is a partial list of the features in the BreezeNET PRO.11 Series:• IEEE 802.11 Compliant – All BreezeNET PRO.11 Series units are fullycompliant 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 Pointfor all products in the series.• Increased Throughput – Up to 2 Mbps data throughput; the best figurein the market!• Translation Bridging – Support for both translation and transparentbridging as defined in the IEEE 802.1.h and RFC 1042 standards.• Seamless Roaming – Network connection is maintained while roamingbetween overlapping coverage areas. Transmission and reception can becontinued while moving at high speeds with no data packet loss orduplication.• Load Sharing – Traffic is equally distributed among all Access Pointsin the area.• Redundancy – In co-located cell environments, upon failure of anAccess Point, stations will switch to other available Access Points.• LED Display – Power, Network Activity, and WLAN Load or SignalQuality LEDs indicate the current status of the unit.• Upgrading – Simple, quick, and free software upgrades via TFTP.
Introduction To The BreezeNET PRO.11 SeriesBreezeNET PRO.11 Series 1-3User’s Guide• Future-proof Investment – All “infrastructure” items in the PRO.11Series line offer Flash updates.• SA-PCR Card – The SA-PCR PRO.11 PC Card is extremely compactand does not extend beyond your PC. It comes with two retractableantennas, or 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 – the highest rate on the market! • Configuration Application – This user-friendly application helpsyou quickly setup stations containing SA-PCR Card. You can savethe configuration to a file and import the file to other stations for fastinstallation. • Site Survey Application – This user-friendly application records thesignal strength received by the SA-PCR Card at different locations,giving a clear image of existing coverage. The gathered dataindicates whether to add, remove, or move Access Points.1.3. BreezeNET PRO.11 Series Product LineThe BreezeNET PRO.11 Series product line consists of:Product Name Available Types Antenna TypeAccess Point AP-10 PRO.11AP-10D PRO.11 InternalExternalSingle Station Adapter SA-10 PRO.11SA-10D PRO.11 InternalExternalFour Port Station Adapter SA-40 PRO.11SA-40D PRO.11 InternalExternalWorkgroup Bridge WB-10 PRO.11WB-10D PRO.11 InternalExternalPCMCIA PC CardStation Adapter Card SA-PCR PRO.11SA-PCD PRO.11 InternalExternalExtended Range Access Point AP-10DE PRO.Plus ExternalExtended Range Bridge WB-10DE PRO.Plus ExternalNote: 1. The WB-10DE and AP-10DE are not compatible with the BreezeNETPRO.11 series.2. Units in the BreezeNET PRO.11 series are not compatible with units inthe BreezeNET PRO series.
Introduction To The BreezeNET PRO.11 SeriesBreezeNET PRO.11 Series 1-4User’s Guide1.3.1. Access PointThe Access Point is fully compliant with the IEEE 802.11 wireless LANstandard.The BreezeNET Access Point is a wireless hub that provides access forwireless workstations into wired Ethernet LANs. It also contains thewireless coordinating function that enables workstations equipped with aStation Adapter (Station Adapter, Bridge, and SA-PCR) to communicatewith one another inside the cell coverage area (even if they are not in directline of sight) via the Access Point. Any two wireless stations in twodifferent cells can communicate through their Access Points.Figure 1.1: AP-10 PRO.11 with TwoBuilt-In Omni-Directional AntennasMobile workstations, such as laptops and hand-held devices, can roambetween Access Points that belong to the same Extended Service Set (ESS).In an Extended Service Set, all Access Points have the same ESSID. Whenthe access points are set up so that their coverage areas overlap, users canroam seamlessly from cell to cell. This means that there is no interruption ofnetwork connection when moving from one coverage area to the otherthrough the overlap and is completely transparent to the user and theapplications. The Station Adapters decide when a mobile user becomesdisassociated from one access point and associated with another. Thisprocess is fully transparent, requires no user intervention and involves noloss of data packets.Position multiple access points in locations where heavy network traffic isexpected to create a multicell and increase the aggregate throughputcapacity in areas where it is needed most. The system implements a Load
Introduction To The BreezeNET PRO.11 SeriesBreezeNET PRO.11 Series 1-5User’s GuideBalancing algorithm to divide the stations equally between the available co-located Access Points.The BreezeNET Access Point contains an embedded SNMP agent enablingeffective management by BreezeVIEW or any standard SNMP managementstation. Software upgrades can be downloaded by TFTP protocol via thewired LAN or wireless LAN.The Access Point is available in two models:• AP-10 PRO.11 with two integrated omni-directional antennas.• AP-10D PRO.11 for use with external high-gain antenna(s).1.3.2. Single Station AdapterThe BreezeNET Single Station Adapter is a wireless LAN station adapterthat converts any device equipped with an Ethernet interface into a wirelessLAN station. The Single Station Adapter is transparent to the device’shardware, software, and network operating system. This enables plug-and-play installation.Figure 1.2:  SA-10 PRO.11 with TwoIntegrated Omni-Directional AntennasThe Single Station Adapter enables its workstation to communicate withany other wireless stations in the same cell coverage area, and to access allnetwork resources such as file servers, wired stations, printers and shared
Introduction To The BreezeNET PRO.11 SeriesBreezeNET PRO.11 Series 1-6User’s Guidedatabases via the BreezeNET Access Point. Any two wireless stations in twodifferent cells can communicate through their Access Points.Workstations that can be connected to the wireless LAN include PCs, X-Terminals, Digital, SUN, HP, IBM, and Apple computers, and any otherdevice that supports Ethernet. The unit is transparent to the workgroupdevices’ hardware, software, and network operating system.The Single Station Adapter contains an embedded SNMP agent enablingeffective management. Software upgrades are downloaded by TFTP via theEthernet port or via the Wireless LAN and Access Point.Network connection is maintained while roaming between overlappingcoverage areas. Transmission and reception can be continued while movingat high speed with no data packet loss or duplication.The Single Station Adapter is available in two models:• SA-10 PRO.11 with two integrated 2dbi omni-directional antennas.• SA-10D PRO.11 for use with external antenna(s).1.3.3. Four Port Station AdapterThe BreezeNET Four-Port Workgroup Adapter is a wireless LAN adapterthat connects a workgroup of up to four Ethernet-equipped workstations tothe wireless LAN. The Four Port Station Adapter is transparent to theworkgroup devices’ hardware and software, allowing plug-and-playinstallation.Figure 1.3:  SA-40 PRO.11 with TwoIntegrated Omni-Directional Antennas
Introduction To The BreezeNET PRO.11 SeriesBreezeNET PRO.11 Series 1-7User’s GuideThe Four Port Station Adapter enables connected workstations tocommunicate 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 BreezeNET Access Point. The FourPort Station Adapter also allows highly efficient and fast wiredcommunication among the four connected workstations.Workstations that can be connected to the wireless LAN include PCs, X-Terminals, Digital, SUN, HP, IBM, and Apple computers, and any otherdevice that supports Ethernet. The unit is transparent to the workgroupdevices’ hardware, software, and network operating system.The BreezeNET Four Port Station Adapter contains an embedded SNMPagent and software downloading capabilities which allow it to be effectivelymanaged. Software upgrades are downloaded by TFTP protocol via theEthernet ports or via the Wireless LAN and Access Point.Network connection is maintained while roaming between overlappingcoverage areas. Transmission and reception can be continued while movingat high speed with no data packet loss or duplication.The Four Port Station Adapter is available in two models:• SA-40 PRO.11 with two integrated omni-directional antennas.• SA-40D PRO.11 for use with external antenna(s).
Introduction To The BreezeNET PRO.11 SeriesBreezeNET PRO.11 Series 1-8User’s Guide1.3.4. Workgroup BridgeThe BreezeNET Workgroup Bridge is a high-speed, wide-range wirelessLAN bridge that provides connectivity to remote Ethernet networks.Figure 1.4:  WB-10D PRO.11 with TwoExternal Antenna Connector PortsThe Workgroup Bridge communicates with the BreezeNET Access Points ofthe remote LANs effectively creating an extended wireless networkspanning sites situated up to 6 miles apart (in Europe this range is limited byETSI regulations to 2.5 Km.). In this way a central Ethernet LAN may beconnected with one or more branch office LANs.In addition, an island consisting of a Workgroup Bridge together with anAccess Point can work as a relay. Transmissions from the central LAN andfrom the remote LAN are relayed via the island located between them. Thisconfiguration effectively doubles bridge range.Workstations that can be connected to the wireless LAN include PCs, X-Terminals, Digital, SUN, HP, IBM, and Apple computers, and any otherdevice that supports Ethernet. The unit is transparent to the workgroupdevices’ hardware, software, and network operating system.The BreezeNET Workgroup Bridge contains an embedded SNMP agent andsoftware downloading capabilities enabling effective management. Softwareupgrades are downloaded using TFTP protocol via the Ethernet ports or viathe wireless LAN and Access Point.
Introduction To The BreezeNET PRO.11 SeriesBreezeNET PRO.11 Series 1-9User’s GuideThe Workgroup Bridge is available in two models:• WB-10 PRO.11 with two integrated 2dbi omni-directional antennas.• WB-10D PRO.11 with two external antenna connector ports.1.3.5. PC CardThe PC Card gives the portable computer user continuous connectivity andcomplete mobility, allowing seamless roaming throughout the wireless LANcampus.Figure 1.5:  The SA-PCR PRO.11 PC CardThe BreezeNET PC Card converts any portable computer (notebook, lap-top,pen-based, hand-held etc.)containing a PCMCIA Release 2.1Type II slot into a wireless LANworkstation.The PC Card can communicatewith any other wireless station inits cell coverage area, and canaccess all network resources suchas file servers, other wiredstations, printers and shareddatabases via the BreezeNETAccess Point.Network connection is maintainedwhile roaming betweenoverlapping cell coverage areas.
Introduction To The BreezeNET PRO.11 SeriesBreezeNET PRO.11 Series 1-10 User’s GuideTransmission and reception can be continued while moving at high speedwith no data packet loss or duplication.The PC Card is available in two models:• SA-PCR PRO.11 with two integrated omni-directional retractableantennas.• SA-PCD PRO.11 with two external antenna connector ports.1.3.6. Extended Range Access Point and BridgeNote: This product complies with European ETSI 300-328 and should only be usedin countries which implement this standard.The BreezeNET WB-10DE is a high-speed, wide-range wireless LANbridge that provides connectivity to remote Ethernet networks.The WB-10DE communicates with the BreezeNET AP-10DE Access Pointsof the remote LANs effectively creating an extended wireless networkspanning sites situated up to 5 Km apart. In this way a central Ethernet LANmay be connected with one or more branch office LANs.The WB-10DE and AP-10DE products comply with European ETSIstandard 300-328. They should not be used in countries where FCCstandards are applicable.The WB-10DE and AP-10DE can be used as a point-to-point as well as apoint-to-multipoint solution.Note: The WB-10DE and AP-10DE are not compatible with the BreezeNETPRO.11 Series. The SA-10 PRO.11, SA-PCR PRO.11, SA-40 PRO.11, AP-10PRO.11 and WB-10 PRO.11 units cannot communicate with the AP-10DEor the WB-10DE.The BreezeNET AP-10DE and WB-10 DE contain an embedded SNMPagent and software downloading capabilities enabling effectivemanagement. Software upgrades are downloaded using TFTP protocol viathe Ethernet ports or via the wireless LAN and Access Point.The BreezeNET DE Access Point and Bridge are available for use withexternal antenna connector ports as seen in Figure 1.4.
Introduction To The BreezeNET PRO.11 SeriesBreezeNET PRO.11 Series 1-11 User’s Guide1.4. BreezeNET PRO.11 Functional DescriptionBreezeNET PRO.11 units add wireless functionality to existing EthernetLANs.1.4.1. Quick Review of EthernetStandard Ethernet LAN stations are wired to a common bus. When one ofthe stations sends a message, it assigns a destination address to the messageand sends the message on the bus. All stations on the bus “hear” themessage, but only the station with the proper address processes the message.1.4.2. Startup ProcedureWhen wireless units (other than AP-10) start up, they scan the frequenciesfor an AP-10. If an active AP-10 is in range, the units synchronize with it.The addresses associated with the units are registered in the AP-10 (theregistration process is different for each unit type). From then on, the unitscan send and receive messages to and from the wired LAN.1.4.3. AP-10 Access PointThe AP-10 Access Point is connected to a wired Ethernet LAN, and it keepsa list of known stations on its wireless side. When an AP-10 “hears” amessage that is destined for a wireless station, the AP-10 forwards themessage wirelessly to the station. If the message has a destination addressthat the AP-10 does not recognize, the AP-10 ignores the message.The AP-10 is constantly “listening” for wireless messages as well. When theAP-10 “hears” a wireless message destined for another wireless unit, itrelays the message directly to the wireless unit without forwarding themessage to the wired LAN. When the AP-10 “hears” a wireless messagewhose destination it does not recognize (since it does not keep a list ofknown stations on its wired side), it forwards the message to the wiredLAN. Messages cannot be sent directly between wireless stations without anAP-10 to relay the message.1.4.4. SA-10 Station AdapterThe SA-10 station adapter is connected to a station’s network card. Whenthe station sends a message, the SA-10 wirelessly forwards it to the AP-10.
Introduction To The BreezeNET PRO.11 SeriesBreezeNET PRO.11 Series 1-12 User’s GuideAnd when the AP-10 receives a message destined for the station, itwirelessly forwards the message to the SA-10.The first time the station sends a message, the station’s address is registeredin the AP-10. The AP-10 keeps only the first address for each SA-10, so theSA-10 will not work properly if connected to more than one station.1.4.5. SA-40 Station AdapterThe SA-40 station adapter has four connectors for up to four stations andworks just like the SA-10. As each station connected to the SA-40 sends itsfirst message, each address is registered in the AP-10. The AP-10 keepsonly up to four addresses for each SA-40, so the SA-40 will not workproperly if connected to more than four stations.1.4.6. WB-10 Wireless BridgeAs opposed to the SA-10 and SA-40 that connect directly to stations, theWB-10 wireless bridge connects to a wired Ethernet LAN (Hub). When astation on the WB-10’s LAN sends a message that is not destined for a localstation, the WB-10 wirelessly forwards the message to the AP-10. Andwhen the AP-10 receives a message destined for a station on the WB-10sLAN, the AP-10 wirelessly forwards it to the WB-10. In this way, theWB-10 and AP-10 work together like a standard network bridge.The first time each station on the WB-10’s LAN sends a message, thestation’s address is registered in the WB-10 and the AP-10. The WB-10 andAP-10 can hold all the addresses necessary to support an entire LANconnected to a WB-10.1.4.7. SA-PCR Station AdapterThe SA-PCR station adapter is inserted into the station’s PCMCIA slot andworks just like the SA-10. As opposed to the SA-10 and SA-40 stationadapters that connect to the station’s network card, the SA-PCR is thestation’s network card. The SA-10 and SA-40 can be used with stations ofany operating system as long as the station sends legal Ethernet messages,but the SA-PCR requires a driver that is compatible with the station’soperating system.
Basic InstallationBreezeNET PRO.11 Series 2-1User’s Guide2. BASIC INSTALLATIONThis chapter describes how to physically install most BreezeNET PRO.11Series units. Installation for the SA-PCR PRO.11 PC Card Adapter isdescribed in Chapter 4.The BreezeNET PRO.11 Series is a plug-and-play solution, and the unitsbegin to function when the following basic installation is complete.However, you can adapt the system to your particular needs using the localterminal (see Chapter 3).For a description of various overall system configurations, refer toChapter 5.2.1. Basic Installation ChecklistStandard installation involves the following steps:• Check the Package 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 Package ListWhen you first open the package, verify that the unit is complete with thefollowing components:• The unit, complete with two omni-directional antennas or RF connectorsfor use with external antennas (“D” models).• Quick Installation Guide/Card.• 5V DC power supply transformer.• Mounting bracket for wall or ceiling installations and torque key forantenna connectors (supplied with "D" models).
Basic InstallationBreezeNET PRO.11 Series 2-2User’s GuideThe AP-10 PRO.11 and AP-10DE Access Points come with the followingadditional components:• The BreezeNET PRO.11 Series User’s Guide.• A monitor connector cable for connecting the units to a monitor in orderto perform Local Terminal Management functions (see section 3.1).• Proprietary MIB disk for performing remote unit configuration andmonitoring via SNMP (see section 9.1.1).Open the packaging carefully and make sure that none of the items listedabove are missing. Do not discard packaging materials. If, for any reason,the unit is returned, it must be shipped in its original package.2.3. Position the UnitBreezeNET PRO.11 wireless LAN products are robust, trouble-free units,designed to operate efficiently under a wide range of conditions. Thefollowing guidelines are provided to help you position the units to ensureoptimum coverage and operation of the wireless LAN.Metal FurniturePosition the units clear of metal furniture and away from moving objectssuch as metal fans or doors.Microwave OvensFor best performance, position the units clear of radiation sources that emitin the 2.4 GHz frequency band, such as microwave ovens.AntennasFor models with integrated antennas, make sure the antennas are extendedupward vertically in relation to the floor. For models with external antennas,connect the external antennas and RF cable. For information about externalantenna installation, refer to section 5.3 Outdoor InstallationConsiderations.Heat SourcesKeep the units well away from sources of heat, such as radiators, air-conditioners, etc.
Basic InstallationBreezeNET PRO.11 Series 2-3User’s Guide2.3.1. Additional Considerations When Positioning theAccess PointWhen positioning the AP-10 PRO.11 and AP-10DE Access Points, take intoaccount the following additional considerations.HeightInstall the Access Point at least 1.5m above the floor, clear of any highoffice partitions or tall pieces of furniture in the coverage area. The AccessPoint can be placed on a high shelf, or can be attached to the ceiling or awall using a mounting bracket.Central LocationInstall 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 containingmetal components. We recommend that you install the Access Points on thecorridor ceilings. The radio waves propagated by the BreezeNET PRO.11LAN are reflected along the metal partitions and enter the offices throughthe doors or glass sections.2.4. Connect the Unit to the Power SupplyThe unit operates on a power input of 5V DC, (1200mA , 1500mA peak)supplied by the power transformer included with the unit.• Plug the output jack of the power transformer into the DC input socketon the unit. This socket may be located on the rear or side panel of theunit.• Connect the supplied power transformer to a power outlet -110/ 220VAC.
Basic InstallationBreezeNET PRO.11 Series 2-4User’s Guide2.5. Connect the Unit to the Ethernet Port• Connect one end of a an Ethernet 10BaseT cable (not supplied) to theRJ-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 an SA-10 or SA-40 to a PC, use a straight cable. • When connecting an AP-10 or WB-10 to a LAN, use a straightcable. • When connecting an AP-10 or WB-10 to a PC, use a crossed cable. • When connecting an AP-10 to a WB-10, use a crossed cable.
Basic InstallationBreezeNET PRO.11 Series 2-5User’s Guide2.6. Check Unit Functionality using LED indicatorsCheck the unit functionality by using the LEDs on the front panel. Thefollowing tables describe the front panel LEDs for Stations (SA-10, SA-40)and Bridges (WB-10), and for Access Points.2.6.1. Station (SA-10, SA-40) and Bridge (WB-10) LEDsName Description FunctionalityPWR power supply On – After successful power upOff – Power offWLNK WLAN Link On – Unit is synchronized or associated with an APOff – Unit is not synchronized or associated with an APETHR Ethernet activity On – Reception on Ethernet portOff – No reception on Ethernet portQLT Quality of receptionvery low quality reception ornot synchronized with Access Pointless than -81 dBmlow quality reception(usually enabling 1 Mbps traffic)from -81 to -77 dBmmedium quality reception(usually enabling 2 Mbps traffic)from -77 to -65 dBmhigh quality reception(usually enabling 3 Mbps traffic)greater than -65 dBm
Basic InstallationBreezeNET PRO.11 Series 2-6User’s Guide2.6.2. Access Point LEDsName Description FunctionalityPWR power supply On – After successful power upOff – Power offINFR radio interference Off – No interferenceBlinking – Interference PresentETHR Ethernet activity On – Reception of data from Ethernet LAN that is forwarded toWLAN (in reject unknown mode)Off – No reception of data from Ethernet LAN that is forwardedto WLANLOAD WLAN loadNumber of associated stationsno stations1-8 stations9-16 stations17 or more stations2.6.3. Verifying the Ethernet ConnectionOnce you have connected the unit to an Ethernet outlet, verify that theETHR LED on the front panel is blinking. The ETHR LED should blinkwhenever the unit receives LAN traffic.At the other end of the Ethernet link, verify that the LINK indicator is ON.For APs the LINK indicator is located on the attached hub port, and forStation Adapters the LINK indicator is located on the NIC.
Device Setup and ManagementBreezeNET PRO.11 Series 3-1User’s Guide3. DEVICE SETUP AND MANAGEMENTThis chapter explains how to access the local terminal program, and how touse the terminal program to setup, configure, and manage most BreezeNETPRO.11 Series units. Setup, configuration and management for the SA-PCRPRO.11 PC Card Adapter is described in Chapter 4.The BreezeNET PRO.11 Series is a plug-and-play solution and operatesimmediately after physical installation without any user intervention.However, you can adapt the system to your particular needs using the localterminal. In addition, all products in the series contain an SNMP agent andare configurable remotely via the network.Note: Reset the unit after making configuration changes so that the changes willtake effect.3.1. Accessing and Using Local TerminalManagement⇒⇒   To access Local Terminal Management:1. Use the Monitor cable (supplied with the Access Point) to connectthe MON jack on the rear panel of the unit to the COM port of yourASCII ANSI terminal or PC.2. Run a terminal emulation program (such as HyperTerminal™).3. Set up communication parameters to the following: • Baud Rate: 9600 • Data Bits: 8 • Stop Bits: 1 • Parity: None • Flow Control: XON/XOFF • Connector: Connected COM port.4. Press Enter. The main menu appears.
Device Setup and ManagementBreezeNET PRO.11 Series 3-2User’s Guide⇒⇒   To use Local Terminal Management:1. Press an option number to open/activate the option. You may needto 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 ScreensListed below are the menus, sub-menus, and parameters/options in theterminal program that the Installer can edit. Default values are listed whereapplicable.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.Menu Sub-Menu Parameter/Option Default Values1. SystemConfig-uration1.1 StationStatus • Unit Mode• Unit H/W Address• Unit WLAN Addr (SA-10/40, WB-10 Only)• Station Status (SA-10 Only)• AP Address  (SA-10/40 Only)• Current Number of Associations (AP Only)• Number of Associations Since Last Reset• Cur. Number of Authentications (AP Only)• Max Number Authentications (AP Only)1.2 IP andSNMPParameters1.2.1 IP Address1.2.2 Subnet Mask1.2.3 Default Gateway Address1.2.4 SNMP Traps1.2.5 Display Current Values Enabled1.3 WirelessLAN(WLAN)Parameters1.3.1 Hopping Sequence  (AP Only)1.3.2 Hopping Set  (AP Only)1.3.3 ESSID1.3.4 Maximum Data Rate1.3.5 Transmit Diversity1.3.6 Mobility1.3.7 Load Sharing1.3.8 Long Range1.3.9 Preferred AP (SA-10/40, WB-10 Only)1.3.A Display Current Values1 (FCC standard)2 (FCC standard)ESSID13MbpsUse 2 Antennas*StationaryDisabled**DisabledNot Set1.4 Bridging 1.4.1 LAN-WLAN Bridge Mode  (AP Only)1.4.2 Intelligent Bridging Period  (AP Only)1.4.3 IP Filtering1.4.4 Tunneling1.4.5 Broadcast Relaying1.4.6 Unicast RelayingReject Unknown15 secDisabledBothEnabledEnabled
Device Setup and ManagementBreezeNET PRO.11 Series 3-3User’s Guide1.5 StationControl 1.5.1 Reset Unit1.5.2 Set Factory Defaults2. AdvancedSettings 2.3 Performance 2.3.1 Dwell Time  (AP Only) 128 msec2.4 Radio 2.4.4 Auto Calibration Enabled3. SiteSurvey 3.1 SystemCounters 3.1.1 Display Counters3.1.2 Reset Counters3.2 SurveySoftware 3.2.1 Operation Mode3.2.2 Data Type3.3.3 Data Rate3.3.4 Antenna3.3.5 Power Level3.3.6 Number of Packets to Tx3.3.7 Time Between Packets3.3.8 Packet Length3.3.9 Display Rx Packets per Frequency3.3.D Display Actual Configuration3.3.L Load Default Configuration3.3.S Start Statistics3.3.Q Stop Statistics3.3.N Neighboring AP’s4. AccessControl 4.1 Change Access Rights4.2 Change Installer Password4.3 Show Current Access Right* Option 1.3.5 Transmit Diversity has the default value Use #2 for the SA-40 unit only.** Option 1.3.7 Load Sharing has the default value Enabled for the AP-10unit only.3.3. Main MenuBreezeNET PRO.11 Series (SA-10)Version:  4.211Date: 25 Jun 1998 15:46:24BreezeNET Monitor =================1 – System Configuration2 – Advanced Settings3 - Site Survey4 - Access ControlSelect option >Figure 3.1: Main MenuPRO.11 Series Unit Model (SA-10, SA-40, WB-10, AP-10)SoftwareVersion
Device Setup and ManagementBreezeNET PRO.11 Series 3-4User’s Guide3.4. System Configuration MenuBreezeNET PRO.11 Series (SA-10)Version:  4.211Date: 25 Jun 1998 15:46:24System Configuration menu=========================1 - Station Status2 - IP and SNMP Parameters3 - Wireless LAN Parameters4 – Security5 - Bridging6 - Station ControlSelect option >Figure 3.2: System Configuration Menu3.4.1. Station StatusStation Status is a read-only sub-menu that displays the current values of thefollowing parameters:• Unit Mode – Identifies the unit’s function. For example, if the unit is anAccess Point, “AP” appears in this field. If the unit is a Station Adapter(SA-10, SA-40) or a QB-10, "SA" appears in this field.• Unit H/W Address – Displays the unit’s unique IEEE MAC address.• Unit WLAN Address (SA or WB) – The address by which the unitassociates. For the SA-10, this is the address of the PC. For the SA-40and WB-10, this is the address of the hardware. This field does notappear when the unit is an AP.• Station Status (SA or WB) – Current status of the station. There arethree options: • Scanning - The station is searching for an AP with which toassociate. • Sync Waiting for Address - The station is synchronized with an APbut has not yet learned its WLAN MAC address (this option is
Device Setup and ManagementBreezeNET PRO.11 Series 3-5User’s Guiderelevant only to the SA-10). The AP does not forward packets to thestation when it is in this mode. • Associated - The station is associated with an AP and has adoptedthe attached PC MAC address (for SA-10) or uses the unit’s H/Waddress (SA-40 and WB-10), and is receiving packets from the LAN.• AP Address (Station Only) – Address of the AP with which the unit iscurrently associated.• Current Number of Associations (AP Only) – Total number of stationscurrently associated with this AP.• Number of Associations Since Last Reset – For stations, this indicatesthe total number of associations and disassociations with various APs.This is usually an indication of roaming. When the unit is an AP, thisfield indicates how many station are currently associated with thisparticular AP.• Current Number of Authentications (AP Only) – Total number ofstations currently authenticated with this AP. A station may beconcurrently authenticated with several APs, but is associated with onlyone AP at a time.• Maximum Number of Authentications (AP Only) – Maximum numberof stations that were authenticated with this AP at one time.3.4.2. IP and SNMP ParametersAll BreezeNET PRO.11 units contain IP Host software. This software isused for testing the unit for SNMP management functions and fordownloading 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 – Whether this unit sends SNMP traps. If enabled, whenan event occurs, a trap is sent to the defined host address (see section9.1.2 for a list of traps). You can configure the host address to which thetraps are sent through SNMP management.
Device Setup and ManagementBreezeNET PRO.11 Series 3-6User’s Guide• Display Current Values – Displays information concerning the currentstatus of all IP-related items.3.4.3. Wireless LAN (WLAN) ParametersThe WLAN Parameters Menu contains the following options:• Hopping Sequence (AP Only) – Hopping sequence of the unit.A hopping sequence is a pre-defined series of channels (frequencies) thatare used in a specific, pseudo-random order as defined in the sequence.The unit “hops” from frequency to frequency according to the selectedsequence. When more than one AP is co-located in the same area (evenif they are not part of the same network) it is recommended to assign adifferent hopping sequence to each AP.Hopping sequences are grouped in three hopping sets. The hopping setselected in the Hopping Set screen (see next parameter) determineswhich hopping sequences are available in this screen. When setting upmultiple APs in the same site, always choose hopping sequences fromthe same hopping set. This reduces the possibility of collisions on theWLAN.This parameter is set only in AP-10 PRO.11 Access Point. It is notaccessible from any other BreezeNET PRO.11 unit. All other stationslearn it from the Access Point during the association process. Differentco-located WLAN segments should use different hopping sequences.• Hopping Set (AP Only) – Hopping set (between 1 and 3) of the unit.Hopping sequences are grouped in several hopping sets. The hopping setselected in this screen determines which hopping sequences are availablein the Hopping Sequence screen (see previous parameter). Always usethe same hopping set per site.Following is the list of hopping sequences and sets for each country.The default value for all countries except Japan is: Hopping Sequence=1,Hopping Set=2.For Japan, the default value is Hopping Sequence=6, Hopping Set=1.
Device Setup and ManagementBreezeNET PRO.11 Series 3-7User’s GuideAustraliaset 1 = 0, 3, 6, 9, 12, 15, 18, 21, 24, 27, 30, 33, 36, 39, 42, 45, 48, 51, 54,57set 2 = 1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31, 34, 37, 40, 43, 46, 49, 52,55, 58set 3 = 2, 5, 8, 11, 14, 17, 20, 23, 26, 29, 32, 35, 38, 41, 44, 47, 50, 53,56, 59Canadaset 1 = 0, 3, 6, 9, 12, 15, 18, 21, 24, 27set 2 = 1, 4, 7, 10, 13, 16, 19, 22, 25, 28set 3 = 2, 5, 8, 11, 14, 17, 20, 23, 26, 29EthAirNet (1.144)set 1 = 0, 3, 6, 9, 12, 15, 18, 21set 2 = 1, 4, 7, 10, 13, 16, 19, 22set 3 = 2, 5, 8, 11, 14, 17, 20Europe DDset 1 = 1, 2, 3, 4, 5, 6, 7, 8, 9, 10set 2 = 1, 2, 3, 4, 5, 6, 7, 8, 9, 10set 3 = 1, 2, 3, 4, 5, 6, 7, 8, 9, 10Europe ETSIset 1 = 0, 3, 6, 9, 12, 15, 18, 21set 2 = 1, 4, 7, 10, 13, 16, 19, 22set 3 = 2, 5, 8, 11, 14, 17, 20Franceset 1 = 0, 3, 6, 9, 12, 15, 18, 21, 24, 27, 30set 2 = 1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31set 3 = 2, 5, 8, 11, 14, 17, 20, 23, 26, 29, 32Israelset 1 = 0, 3, 6, 9, 12, 15, 18, 21, 24, 27, 30set 2 = 1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31set 3 = 2, 5, 8, 11, 14, 17, 20, 23, 26, 29, 32
Device Setup and ManagementBreezeNET PRO.11 Series 3-8User’s GuideJapanset 1 = 6, 9,12,15set 2 = 7,10,13,16set 3 = 8,11,14,17Koreaset 1 = 6, 9,12,15set 2 = 7,10,13,16set 3 = 8,11,14,17Netherlandsset 1 = 0, 3, 6, 9, 12set 2 = 1, 4, 7, 10, 13set 3 = 2, 5, 8, 11, 14Spainset 1 = 0, 3, 6, 9, 12, 15, 18, 21, 24set 2 = 1, 4, 7, 10, 13, 16, 19, 22, 25set 3 = 2, 5, 8, 11, 14, 17, 20, 23, 26US FCC and Europe ETSIset 1 = 0, 3, 6, 9, 12, 15, 18, 21, 24, 27, 30, 33, 36, 39, 42, 45, 48, 51, 54,57, 60, 63, 66, 69, 72, 75set 2 = 1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31, 34, 37, 40, 43, 46, 49, 52,55, 58, 61, 64, 67, 70, 73, 76set 3 = 2, 5, 8, 11, 14, 17, 20, 23, 26, 29, 32, 35, 38, 41, 44, 47, 50, 53,56, 59, 62, 65, 68, 71, 74, 77Site Proprietaryset 1 = 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22set 2 = 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22set 3 = 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22• ESSID – ESSID of the unit (up to 32 printable ASCII characters). TheESSID is a string used to identify a WLAN. This ID prevents theunintentional merging of two co-located WLANs. A station can only
Device Setup and ManagementBreezeNET PRO.11 Series 3-9User’s Guideassociate with an AP that has the same ESSID. Use different ESSIDs tosegment the WLAN network and add security.Note: The ESSID is case-sensitive.• Maximum Data Rate – Maximum data rate of the unit. BreezeNETPRO.11 units operate at 1 Mbps, 2 Mbps or 3 Mbps. The unit adaptivelyselects the highest possible rate for transmission. Under certainconditions (compatibility reasons or for range/speed trade-off) you maydecide to limit the use of higher rates.• Transmit Diversity – Which antennas are used for transmission. Duringreception, a BreezeNET PRO.11 unit dynamically selects the antennawhere reception is optimal. In contrast, before transmission the unitselects the antenna from which it will transmit. It usually uses theantenna last used for successful transmission. In models with externalantennas, sometimes only a single antenna is used. In this case, TransmitDiversity should be configured to transmit only from that single antenna.Similarly, models using a booster or an LNA use only a single antennafor transmission.• Mobility – BreezeNET PRO.11 stations optimize their roamingalgorithms according to the mobility mode parameter. For example, astationary station is more tolerant of bad propagation conditions. Itassumes that this is a temporary situation and is not caused by the stationchanging position. Initiating a roaming procedure in such a case wouldbe counter-productive. In general, Wireless stations can be used in oneof three mobility modes: • Mobile – High Mobility. For stations that may move at speeds ofover 30 km per hour. • Portable – Medium Mobility. For stations that may move at speedsof over 10 km per hour, but not over 30 km per hour. • Stationary – Low Mobility. For stations that will not move at speedsof over 10 km per hour. Stationary is the default value, and in almostall cases this is the best choice.• Load Sharing – Whether load sharing is enabled for the unit. Wheninstalling a Wireless LAN network in a high-traffic environment, youcan increase the aggregate throughput by installing multiple APs tocreate co-located cells. When load sharing is enabled, the wireless
Device Setup and ManagementBreezeNET PRO.11 Series 3-10 User’s Guidestations distribute themselves evenly among the APs to best divide thetraffic between the APs.• Long Range – Whether long range communication is enabled for theunit. Enable long range only when units are more than 20 km apart.When long range is enabled, a unit that has transmitted will allow moretime for an ACK to be received from the other unit. It is notrecommended to enable long range for links under 20 km. Achievinglong range communication depends on RF conditions and configuration.Enabling the Long Range parameter has no effect on the achievablerange.• Preferred AP – AP MAC (Ethernet) address of the preferred AP. Youcan configure a station to prefer a specific AP unit. When the stationpowers up, it will associate with the preferred AP even if the signal fromthat AP is lower than the signal from other APs. The station will roam toanother AP only if it stops receiving beacons from the preferred AP.• Display Current Values – This read-only status screen displays currentWLAN parameters. Press any key to return to the WLAN ParametersMenu.3.4.4. BridgingThe Bridging Menu contains the following options:• LAN to WLAN Bridging Mode (AP Only) – The options are: • Reject Unknown – Type 0 to allow transmission of packets only tostations that the AP knows to exist in the Wireless LAN (behind theWireless Bridge). • Forward Unknown – Type 1 to allow transmission of all packetsexcept those sent to stations that the AP recognizes as being on itswired Ethernet side. When connecting very large networks, it isrecommended to set this parameter to forward unknown.• Intelligent Bridging Period (AP Only) – Intelligent bridging enablessmooth roaming of WB-10 units. When intelligent bridging is enabled,the AP goes into a special bridging mode for a fixed amount of timewhenever a wireless bridge (WB) roams into its area. This mode causesthe AP to forward packets destined for the stations behind the WB-10even though they are known or were learned from the wired side (exceptthat no learning of the wired LAN will take place). Afterwards, the AP
Device Setup and ManagementBreezeNET PRO.11 Series 3-11 User’s Guidewill switch back to Reject Unknown bridging mode. This procedureprevents packets destined for stations behind the bridge from gettinglost. The value of this parameter is the length of time in seconds that theAP will remain in special mode.• IP Filtering – Whether IP filtering is enabled for the unit. Enable IPFiltering to filter out any other protocol (such as IPX) if you want thatonly IP traffic will pass through the WLAN.• Tunneling – Whether the unit performs tunneling. Enable Appletalktunneling if the network contains a mix of Ethertalk1 (ET1) andEthertalk2 (ET2) stations to ensure smooth communications. Enable IPXtunneling if IPX protocol is running over your network. Be sure to set allunits to the same tunneling setting.• Broadcast Relaying (AP Only) – Whether the unit performs broadcastrelaying. When Broadcast Relaying is enabled, Broadcast packetsoriginating in WLAN devices are transmitted by the AP back to theWLAN devices, as well as to the LAN. If it is disabled, these packets aresent only to the local wired LAN and are not sent back to the WLAN.Disable Broadcast Relaying only if you know that all Broadcastmessages from the WLAN will be destined to the wired LAN.• Unicast Relaying – Whether the unit performs Unicast relaying. WhenUnicast Relaying is enabled, Unicast packets originating in WLANdevices can be transmitted back to the WLAN devices. If this parameteris disabled, these packets are not sent to the WLAN even if they areintended for devices on the WLAN. Disable Unicast Relaying only ifyou know that all Unicast messages from the WLAN will be destined tothe local wired LAN.3.4.5. Station ControlThe Station Control Menu contains the following options:• Reset Unit – Resets the BreezeNET PRO.11 unit and applies anychanges made to the system parameters.• Set Factory Defaults –When this option is implemented, systemparameters revert back to the original factory default settings. There aretwo options: • Full – All parameters revert to defaults except for Japan Call Sign (ifapplicable).
Device Setup and ManagementBreezeNET PRO.11 Series 3-12 User’s Guide • Partial – All parameters revert except for Japan Call Sign (ifapplicable), IP Address, Subnet Mask, Default Gateway, HoppingSequence, Hopping Set, ESSID, Transmit Diversity, Long Range,Preferred AP, IP Filtering, Hopping Standard, Power Level, AutoCalibration.3.5. Advanced Settings MenuBreezeNET PRO.11 Series (SA-10)Version:  4.211Date: 25 Jun 1998 15:46:24Advanced menu================1 - Compatibility2 - Roaming3 - Performance4 - Radio5 - Rate6 - AP Redundancy Support7 - MaintenanceSelect option >Figure 3.3: Advanced Settings MenuModification of most of the parameters that can be accessed from this menuis limited to Certified BreezeCOM Engineers only. The Installer has accessto modify the following parameter of the Performance menu:• Dwell Time (AP Only) – The time spent on a radio channel beforehopping to the next channel in the sequence.The Installer also has access to modify the following parameter of theRadio menu:• Auto Calibration – When the unit is started, it performs an internal self-test. Part of this test is automatic calibration of the DC Offset anddeviation pattern. Auto Calibration is not supported in the “DE” models,and it therefore must be disabled for “DE” units.The following sections describe the important parameters and relevantinformation in the Advanced Settings menu that can be viewed, but notmodified, the the Installer.
Device Setup and ManagementBreezeNET PRO.11 Series 3-13 User’s Guide3.5.1. PerformanceThe Performance menu contains parameters regarding unit performance:• RTS Threshold – Minimum packet size to require an RTS. For packetssmaller than this threshold, an RTS is not sent and the packet istransmitted directly to the WLAN.3.5.2. RadioThe Radio menu contains the following major parameters:• Hopping Standard – The Hopping Standard is a set of rules regardingthe radio transmission standard allowed in each country. Units will worktogether only if set to the same hopping standard. Use this parameter toset the unit’s hopping standard to that of the relevant country.• Power level – Output power level at which the unit is transmitting.There are two possibilities, Low (4dBm) or High (17 dBm) at theantenna connector.3.5.3. RateThe Rate menu contains the following relevant counters:• Rate Counters – The number of frames transmitted in each data-ratesince the last time the unit was reset. The Reset Counters option willreset these counters also. In APs, the counters for all associated stationsare displayed, indicated by their MAC address. In stations, only thestations’ rate counters are displayed with no indication of address. Therate counters show the rate the packet was transmitted for the first time,not including retransmissions. The Ret counter shows the number offrames that had to be retransmitted, and does not count the number ofretransmissions that actually accrued.Checking rate counters is the best way to determine which data rate isoptimal for the unit. It is recommended to restrict the Maximum DataRate (refer to section 3.4.3) for each unit according to these counters.
Device Setup and ManagementBreezeNET PRO.11 Series 3-14 User’s Guide3.5.4. MaintenanceThe Maintenance menu contains the following major parameters andinformation:• Display Alarm Log – The last four error messages that the unitdisplayed since the last Factory Defaults reset. The Alarm log storesevents in four levels of error notifications: MSG (Message), WRN(Warning), ERR (Error), and FTL (Fatal).You can control message severity as follows: in the main menu, press Y-Testing, press 2-System Info and System Parameters, and press 4-EventsStorage. Use the 1-Event Storage Policy runtime value option to set thepolicy until the next reset. Use the 2-Event Storage Policy Nv ram valueoption to set the constant policy for the Alarm Log.• Japan Call Sign – The Japan Call Sign is part of the Japanese standard,defined according to local regulations. The Japanese Ministry ofCommunications supplies an activation code for the units; this code isset in the factory for each unit.3.6. Site Survey MenuBreezeNET PRO.11 Series (SA-10)Version:  4.211Date: 25 Jun 1998 15:46:24Site Survey menu================1 - System Counters2 - Survey SoftwareSelect option >Figure 3.4: Site Survey MenuThe Site Survey Menu gives access to the sub-menus necessary to perform aSite Survey that helps you position your units and align their antennas, aswell as perform troubleshooting.
Device Setup and ManagementBreezeNET PRO.11 Series 3-15 User’s GuideThe following sections first describe the sub-menus in the Site Surveymenu, and then explain step-by-step how to perform a Site Survey. The SiteSurvey menu contains two sub-menus:• System Counters• Survey Software3.6.1. System CountersThe System counters are a simple yet very efficient tool to monitor, interpretand analyze the Wireless LAN performance.  The counters contain statisticsconcerning Wireless and Ethernet frames. The submenu contains thefollowing options:• Display Counters – Choose this option to display the current value ofthe Ethernet and Wireless counters.• Reset Counters  - Choose this option to reset all the counters. Afterchoosing this option you will be requested to type 1 for confirmation or0 to cancel the reset.Ethernet CountersEthernet counters display statistics about the unit’s Ethernet port activity.The unit receives Ethernet frames from its UTP port and forwards them toits internal bridge, which decides whether or not to transmit them to theWireless LAN. The units have a smart hardware filter mechanism whichfilters most of the frames on the LAN, and hardware filtered frames are notcounted.On the other side, frames which where received from the wireless LAN andsome frames generated by the unit (answers to SNMP queries and pingswhich reached to the unit via the UTP port), will be transmitted to the UTPport.Available Counters:• Total Received frames – The total number of frames received from theUTP port. This counter includes both bad and good frames.• Received Bad Frames – The number of frames with errors receivedfrom the UTP port. High values (more than just a few) indicate aproblem in the UTP connection such as a bad UTP cable or hub port.
Device Setup and ManagementBreezeNET PRO.11 Series 3-16 User’s Guide• Received good frames – The number of  good frames (i.e. frames withno errors) received from the UTP port.• Forwarded to the bridge – The number of received frames that wereforwarded to the unit’s internal bridge. This counter should be equal tothe number of good frames unless the internal bridge is overloaded.• Missed Frames – Frames that the unit recognized but failed to read dueto internal bridge overload. This counter should equal zero unless theinternal bridge is overloaded.• Transmitted to Ethernet – The number of frames transmitted by theunit to the UTP port. These mainly include frames that have beenreceived from the Wireless side, but also includes frames generated bythe unit itself.Wireless LAN CountersWireless counters display statistics about the unit’s Wireless LAN activity.Transmission to the wireless media includes data frames received from theUTP ports, as well as self generated control and management frames. Whena data frame is transmitted, the unit will wait for an acknowledge from thereceiving side. If an acknowledge is not received, the unit will retransmit theframe until it gets an acknowledge (there are no retransmissions for controlframes). If the unit has retransmitted a frame for the maximum number ofretransmissions (refer to section 3.5.1) it will stop re-transmitting the frameand drop this frame.Available Counters:• Total Transmitted Frames – The number of frames transmitted to thewireless media. The count includes the first transmission of data frames(without retransmissions), and  also the number of control andmanagement  frames.Notice that an AP continuously transmits a control frame called beaconin every frequency to which it hops, in order to publish its existence andkeep its associated stations synchronized. Thus, the total transmittedframes counter will get high values even if the AP-10 is not connected toan active LAN.• Total Transmitted Frames (Bridge) - The total number of data framestransmitted to the wireless media (i.e. frames that were received form the
Device Setup and ManagementBreezeNET PRO.11 Series 3-17 User’s GuideUTP port and forwarded to the internal bridge which decided to transmitthem to the wireless media).• Total Transmitted Data Frames – This counter is similar to the abovebut counts only data frames. In most BreezeNET PRO.11 units, thenumber of total transmitted frames and total transmitted frames (bridge)are identical. In the case of the AP, due to the inclusion of beaconframes, this number will be higher than that for Total transmitted frames.• Frames Dropped (too many retries) – The number of frames whichwere dropped since they were retransmitted for the maximum number ofallowed retransmissions and weren’t acknowledged.• Total Transmitted Fragments – The total number of transmittedframes. The count includes data, control and management frames andalso the number of retransmissions of data frames (for example, if thesame data frame is retransmitted ten times, the count will increase tentimes).• Total Retransmitted Fragments – The total number of retransmissionsof data frames (for example, if the same data frame is retransmitted tentimes then the count will increase ten times). In a point-to-pointapplication, this counter should relatively correspond to the number ofbad 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 fragmenthas not been transmitted because the dwell time has elapsed.• Internally Discarded – The number of frames that the AP discarded dueto a buffer overflow. Frame discard will occur mainly when the wirelessconditions are bad and the unit is busy re-transmitting frames anddoesn’t have time for handling new frames.• Power Saving Aged – The AP buffers frames for stations in a powersaving sleep mode. This counter counts the number of frames droppedby the AP because a station did not wake up for a long time.• Power Saving Free Entries – Number of free buffers (one frame each)available for power save management. These buffers hold messages forstations that only periodically make contact with the AP due to powerconsiderations.
Device Setup and ManagementBreezeNET PRO.11 Series 3-18 User’s Guide• Total Received Frames - The number of frames received from thewireless media. The count includes data and control frames (includingbeacons received from AP’s).• Total Received Data Frames – The number of data frames receivedfrom the wireless media.• Total Received Fragments – The total number of frames received,including data, control and duplicate data frames (see duplicates anddwell timeouts parameter below).• Bad Fragments Received – The number of frames received from theWLAN with errors. In a point-to-point application, this counter shouldrelatively correspond to the number of retransmitted fragments on theother side.• Duplicates and Dwell timeouts – When a unit receives a frame it sendsan acknowledge for it. If the acknowledge is lost, than it receives asecond copy of the same frame, since the other side thinks this framewas not received. Although duplicate frames are counted, only the firstcopy of the frame is forwarded to the UTP port.3.6.2. Survey SoftwareThe Survey Software sub-menu enables you to align antennas and to assessthe radio signal quality of a point-to-point link. The sub-menu includes thefollowing options:• Operation Mode – When running a Site Survey, set the units on eitherside 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). Option 0(Idle mode) is not active at present.• Data Type – Data is transmitted in the form of pseudo-random data.This is the default. Option 1 (Null Packets) is for use with SA-PCRCards and is a future option. Do not change this setting.• Data Rate – Rate at which the unit is transmitting. Do not make anychanges to this setting.• Antenna – State of the antennas as configured in Transmit Diversity(see section 3.4.3). Do not make any changes to this setting.
Device Setup and ManagementBreezeNET PRO.11 Series 3-19 User’s Guide• Power Level – Level of power at which the unit is operating. There aretwo possibilities, Low or High. In this case, the unit is operating at ahigh power level. Do not make any changes to this setting.• Number of Packets to Tx – Number of data packets transmitted. Do notmake any changes to this setting.• Time Between Packets – Time between data packets measured in 100millisecond units. Do not make any changes to this setting.• Packet Length – Length of each data packet measured in bytes. Do notmake any changes to this setting.• Display Rx Packets per Frequency – Histogram of the number offrames received on each channel. This graph is explained fully in section3.6.4 Using the Rx Packets per Frequency Histogram.• Display Actual Configuration – Default parameters to be used in theSite Survey procedure.• Load Default Configuration – If any changes were made for anyreason to any of the previous parameters, select this option to cancelthese changes and return to the original default parameters.• Start Statistics – Press S and then press any digit to start Site Survey.• Stop Statistics – Press Q and then press any key to stop update of SiteSurvey statistics.3.6.3. Using the Site Survey Software⇒⇒ To use the Site Survey Software:1. Roughly align the antennas on either side of the link before startingthe Site Survey procedure.2. Verify that the Ethernet cables are disconnected from both units.3. Press 1 to go to the Operation mode screen. Set the units on eitherside 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).Option 0 (Idle mode) is not active at present.4. Make no changes in the following sub-menus:
Device Setup and ManagementBreezeNET PRO.11 Series 3-20 User’s Guide • Data Type • Data Rate • Antenna • Power Level • Number of Packets to Transmit • Time Between Packets • Packet Length • Frequency Hopping menuThese sub-menus reflect the defaults already set in the unit and neednot be changed in order to carry out the survey.5. Start the survey by selecting option (S) in the Survey Softwaremenu in both units. When performing a site survey from a stationto an AP (transmitting from the station to the AP), always beginwith the station (select option (S) on the station).6. On the transmit side, a screen appears displaying a table with thenumber of packets and the frequency at which each packet wastransmitted (refer to Figure 3.5). This list is updated continuously.Select option (Q) to stop sending packets.BreezeNET PRO.11 Series (SA-10)Version:  4.211Date: 25 Jun 1998 15:46:24# Tx Packets Channel     0      37     1      10     2       7     3      30     4      28     5      44     6      35     7      12     8      48     9      76    10      42Hit any key to return >Figure 3.5:Transmit Statistics
Device Setup and ManagementBreezeNET PRO.11 Series 3-21 User’s Guide7. On the receive side of the link, the screen displays a table showingthe packet number received, the frequency at which each packetwas transmitted, the Received Signal Strength Indicator (RSSI) foreach antenna and the antenna that was selected for reception (referto Figure 3.6). Use only the RSSI reading from the selectedantenna.BreezeNET PRO.11 Series (SA-10)Version:  4.211Date: 25 Jun 1998 15:46:24# Pack Len_Ant Idle_q Brker_q Data_q RSSI1 RSSI2 Bit_Err BER(M) Frq60 400    1      5    16392    45     155   138    0      0     7461 400    1     14    16392    39     155   139    0      0     6462 400    2     14    16392    34     153   154    0      0     3263 400    1     55    16392    48     154   153    0      0     2564 400    2     95    16392    44     154   155    0      0     2965 400    1      8    16392    52     155   151    0      0     3466 400    1      7    16392    50     154   152    0      0     21Hit any key to return >Figure 3.6:Receive Statistics8. The RSSI is given in arbitrary units. Use the following graph(Figure 3.7) to correlate RSSI to dBm.RSSI  Vs. dBmRSSI  Vs. dBm5060708090100110120130-30 -40 -45 -50 -55 -60 -65 -70 -75 -78 -81 -83 -85RF Level [dbm]RF Level [dbm]RSSI ValueRSSI ValueFigure 3.7:RSSI to dBm Graph9. Re-align the antennas until the maximum received signal strengthis attained. As you align the antennas, you will see that the RSSI(received signal strength indicator) continually increases until it
Device Setup and ManagementBreezeNET PRO.11 Series 3-22 User’s Guidereaches a certain level after which the RSSI begins to decrease.This is the maximum attainable RSSI level indicating optimumreceive antenna alignment.10. Switch the functions of either side of the link (set the transmit unitto receive and the receive unit to transmit) and repeat the procedureto check the link from the opposite direction.3.6.4. Using the Rx Packets per Frequency HistogramUse the Display Rx Packets per Frequency option to see a histogram of thenumber of frames received on each channel.BreezeNET PRO.11 Series (SA-10)Version:  4.211Date: 25 Jun 1998 15:46:24Max = 187Min = 112                                                                           #     #                      #            #   #                             # #   #              ####    ###          # # #  #   # ##  #  ## # #  ##    # #   ## ##  #   ## ######## ######   # ######## # ### ##  #  ## # #  ## # ######### ## ######################################################### #####################################################################################^         ^         ^         ^         ^         ^         ^         ^2       +10       +20       +30       +40       +50       +60       +70Hit any key to return >Figure 3.8:Display Rx Packets per FrequencyEach point of the histogram line corresponds to a frequency. The basefrequency appears at the far left, and gradations are marked in steps of tenalong the line. A hash represents each packet received on a given frequency(#). The Max and Min values indicate the highest and lowest number offrames received across all frequencies. This graph is very useful for trackinginterference. Frequencies with low numbers of packets received probablyhave more interference than other frequencies.
Device Setup and ManagementBreezeNET PRO.11 Series 3-23 User’s Guide3.7. Access Control MenuAccess Control functions enable the System Administrator or Installer tolimit access to Local Terminal Maintenance setup and configuration menus.BreezeNET PRO.11 Series (SA-10)Version:  4.211Date: 25 Jun 1998 15:46:24Access Control menu===================1 - Change Access Rights2 - Change Installer PasswordS - Show Current Access RightSelect option > 1Figure 3.9: Access Control MenuThe Access Control menu includes the following options:• Change Access Rights – This screen determines the level of accessrights to the BreezeNET PRO.11 unit’s setup and configuration menus.When the unit is first installed, the default setting is option (1), Installerand the default password is “user”: • User – The Local Terminal Management menus are read-only for auser who does not possess the correct password. The ESSID andsecurity parameters are hidden by asterisks (*) at this level. • Installer – The installer has access to configure all requiredparameters in the system configuration menu, as well as some of theadvanced settings. Access is password-protected. Afterconfiguration, the installer should change access rights to option (0),User. The installer can also change the installer password (see nextparameter). • Technician – Only an Certified BreezeCOM Engineer possessing thecorrect password can select this option to configure all theparameters and settings.• Change Installer Password – Type in the new password according tothe directions on screen. This screen changes the installer password toprevent unauthorized persons from making any changes in system
Device Setup and ManagementBreezeNET PRO.11 Series 3-24 User’s Guideconfiguration and setup. The password is limited to eight printableASCII characters. This option is not available at User level.• Show Current Access Right – This read-only screen presents thecurrent access right configuration. Important: If you change the Installer password do not forget it, or you will beunable to change the unit's access rights.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-1User’s Guide4. SA-PCR PRO.11 PC CARD INSTALLATION,SETUP, AND MANAGEMENTThe SA-PCR Card brings wireless connectivity to laptops and hand-helddevices. The latest version of the Card looks and functions very differentlyfrom the previous version.This chapter describes how to install the SA-PCR Card, and how to setupand manage the Card using the SA-PCR Configuration and SA-PCR SiteSurvey Windows applications.4.1. Installing the SA-PCR Driver, and ApplicationsThe following sections describe in detail:• Checking the SA-PCR Package Contents.• What to do before you install the SA-PCR.• Installation Troubleshooting.• Using the LED indicators to verify proper operation.• Installing the SA-PCR applications.• Uninstalling the SA-PCR drivers and applications.4.1.1. Check Package ContentsThe SA-PCR PRO.11 package should contain:• SA-PCR PRO.11 PC Card.• Drivers diskette and applications diskette.• Quick Installation and Operation Guide.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-2User’s Guide4.1.2. Before You BeginBefore installing, do the following:• Verify that the AP unit with which the SA-PCR unit will work is anAP-10 PRO.11. The SA-PCR PRO.11 will work only with an AP-10PRO.11 unit.• It is advisable to turn on the AP before installing the SA-PCR, therebyenabling you to use the SA-PCR LEDs to check the status of the SA-PCR when installation is complete. See section 4.1.4 for explanation ofthe LEDs.• Uninstall any previous versions of the drivers or applications (refer tosection 4.1.8). You can check the version of the current installation byviewing the Maintenance tab of the Configuration application.• When installing on Windows 95/98, verify that you have the WindowsCD with you, or that the Windows CAB files are installed on your localhard disk in a directory whose name does not exceed 8 letters. When theCAB files are on the disk, they are usually found inC:\Windows\Options\Cabs.• When installing on Windows NT, verify that you have the Windows NTCD with you, or that the Windows NT distribution files are installed onyour local hard disk. During installation, enter the path of thedistribution files whenever a message appears asking for them.4.1.3. Installing SA-PCR DriversThe procedure for installing the SA-PCR drivers depends on your operatingsystem:• For Windows 95, refer to section 4.1.3.1.• For Windows 98, refer to section 4.1.3.2.• For Windows NT, refer to section 4.1.3.3.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-3User’s Guide4.1.3.1 Installation for Windows 95• Check which version of Windows 95 is running on your machine asfollows:1. Go to the Windows 95 desktop, right-click the My Computer icon,and select Properties. The System Properties window opens.Figure 4.1: System Properties Window – Windows 95B2. Go to the General tab and look under the System heading. If thephrase 4.00.950b appears, then you are using Windows 95B,otherwise it is Windows 95A.3. In case of Windows 95A, continue with section 4.1.3.1.1. In case ofWindows 95B, continue with section 4.1.3.1.2.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-4User’s Guide 4.1.3.1.1 Installation for Windows 95A⇒⇒   To install on Windows 95A, do the following:1. Insert the SA-PCR slot in the PCMCIA slot on your computer.Windows 95 detects the unit and displays the New HardwareFound window.Figure 4.2: New Hardware Found Window2. Select the Driver from disk provided by hardware manufactureroption and press OK.3. When prompted for the location of the driver, insert theBreezeCOM drivers diskette and type A:\ and press OK. Thenecessary files are copied from the diskette.4. When the Please insert disk labeled Windows 95 CD-ROMappears, insert the Windows 95 CD and press OK. If theWindows 95 CAB files are located on your local hard disk, you canpoint to that location (usually found at\Windows\Options\Cabs).5. If this is the first time a network card has been installed on thismachine, a network setup window may appear. It is not necessaryto fill out this window for the purposes of this installation.6. Restart the computer.7. Continue with section 4.1.4.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-5User’s Guide 4.1.3.1.2 Installation for Windows 95B⇒⇒   To install on Windows 95B, do the following:1. Insert the SA-PCR slot in the PCMCIA slot on your computer.Windows 95 detects the unit, briefly displays the New HardwareFound window, and then displays the Update Device DriverWizard window.2. Insert the BreezeCOM drivers diskette and press Next. WhenWindows 95 notifies it has found the driver, press Finish.3. If the Windows 95 CAB files are not found automatically, themessage 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 thePlease insert disk labeled Windows 95 CD-ROM appears, pressOK, enter the path of the Windows 95 CAB files, and press OK.Installation is now complete.6. Restart the computer.7. Continue with section 4.1.4.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-6User’s Guide4.1.3.2 Installation for Windows 98⇒ To install on Windows 98, do the following:1. Insert the SA-PCR slot in the PCMCIA slot on your computer.Windows detects the unit and displays the New Hardware Foundwindow.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 BreezeCOM drivers diskette, select the Floppy diskdrives option, and press Next.5. The installation wizard notifies you that the driver for theBreezeCOM PCMCIA Wireless LAN Adapter has been located.Press Next.6. A window appears notifying you that the driver for theBreezeCOM Wireless LAN Adapter has been installed. PressFinish.7. Restart the computer.8. Continue with section 4.1.4.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-7User’s Guide4.1.3.3 Installation for Windows NT⇒⇒   To install on Windows NT, do the following:1. Press the Windows Start button, select Settings, and then selectControl Panel. Double-click on the Network icon.2. If the message The Windows NT Networking is not installed. Doyou want to install it now?, continue with step 2a. If this messagedoes not appear, continue with step 2b.a. Press Yes and choose Wired to the network. When a list ofsupported network adapters appears, press Have Disk.b. Go to the Adapters tab, press Add, and then press Have Disk.3. Insert the BreezeCOM drivers diskette, enter the location of thediskette (such as a:\) and press OK.4. From the list choose BreezeNET Wireless LAN PC Card and pressOK. The SA-PCR LAN Adapter Properties window appears.Figure 4.3: SA-PCR LAN Adapter Properties Window5. The default settings are memory range D0000h to D3FFFh,IRQ 11. In the following steps we will verify that these defaultsettings are acceptable for your machine.Note: If the SA-PCR Configuration application is already installed, you canaccess it directly by pressing Advanced.6. Press the Windows Start button and select Run. Type WINMSDand press OK. The Windows NT Diagnostics window appears.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-8User’s GuideFigure 4.4: Windows NT Diagnostics Window7. Press IRQ and verify that IRQ 11 is not taken. If it is, find an IRQthat is not taken. For example, in the illustration IRQ 2 is not taken.8. Press Memory and verify that memory from D0000h to D3FFFh isnot taken. If it is, find another free memory location, such asE0000h.9. Return to the SA-PCR LAN Adapter Properties window (refer toFigure 4.3). If the default values for Memory Address and Interruptare acceptable, press OK. Otherwise, enter new values and pressOK.10. Press Close to close each installation window.11. If configuration windows for other network components (such asProtocol) appear, fill them in according to the instructions of yournetwork administrator.12. Restart Windows NT.13. Continue with section 4.1.4.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-9User’s Guide4.1.4. Checking the LED IndicatorsVerify proper operation of the SA-PCR using the LED indicators:Color Description MeaningYellow Link  Status Blink – ScanningSolid –AssociatedGreen Data Traffic Blink – According to trafficThe LED indicators are useful only if there is an activated AP in the area.4.1.5. Installing the ApplicationsIf the SA-PCR applications have been previously installed, uninstall thembefore reinstalling (refer to section 4.1.8).⇒ To install the SA-PCR applications:1. Insert the BreezeCOM application diskette.2. Press the Windows Start button and select Run. Type A:\setup andpress OK.3. In the Choose the Destination Location window, choose a locationfor the installation, and press Next.4. When the Setup Complete window appears, press Finish. Icons forthe applications are added to the Windows Programs menu, and aSA-PCR Configuration icon is added in the Control Panel.4.1.6. Initial ConfigurationIf your wireless network uses a non-default ESSID, enter the proper ESSIDas follows:1. Start the SA-PCR Configuration application.Press the Windows Start button, select Program, selectBreezeCOM, and then select Configuration.2. Edit the ESSID parameter.Go to the WLAN Paramters tab and enter the ESSID that matchesthe AP unit.3. Restart the computer.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-10 User’s Guide4.1.7. Troubleshooting TipsThis section provides hints regarding troubleshooting installation:• Check for conflicting resources – Press the Windows Start button,select Settings, and then select Control Panel. Double-click on theNetwork icon and go to the Adapters tab. An exclamation point next tothe WLAN card indicates a conflict with another driver or device.Figure 4.5: Network Window• Check autoexec.bat and config.sys – Look for device driversor lines containing device or call commands in the autoexec.bat orthe config.sys files.• Try to resolve resource conflicts by editing Windows parameters –Go to the Windows desktop, right-click the My Computer icon, andselect Properties. Go to the Device Manager tab, select NetworkAdapters, press Properties, and go to the Resources tab. Edit theMemory Range and Interrupt parameters.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-11 User’s Guide• Reinstall – After disabling conflicting resources, reinstall the SA-PCR.4.1.8. Uninstalling SA-PCR Drivers and ApplicationsThis section describes how to uninstall the SA-PCR drivers, and theSA-PCR applications.⇒⇒   To uninstall SA-PCR drivers:If your operating system is Windows 95, you must first do the following:1. Press the Windows Start button, select Settings, and then SelectControl Panel. Double click on the PC Card icon, selectBreezeCOM Wireless LAN PC Card and press Stop. Close allactive applications. Continue below.If your operating system is Windows 98 or NT, start here.1. Press the Windows Start button, select Settings, and then selectControl Panel. Double click on the Network icon, go to theConfiguration tab, select BreezeCOM Wireless LAN Adapter, andpress Remove.2. When asked to restart the computer, press No.3. Insert the BreezeCOM Drivers diskette. Press the Windows Startbutton, select Run, and type a:\DrvClean.4. When notified that the SA-PCR driver has been deleted, pressSetup.5. Restart the computer.⇒⇒   To uninstall SA-PCR applications:1. Press the Windows Start button, select Settings, and then selectControl Panel. Double click on the Add/Remove Programs icon,select BreezeCOM PCMCIA Applications and press Add/Remove.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-12 User’s Guide4.2. Using the SA-PCR Configuration ApplicationThis section describes how to use the SA-PCR Configuration application toconfigure and manage your SA-PCR Card.4.2.1. Accessing the ApplicationOpen the SA-PCR Configuration application as follows:• Press the Start button, select Programs, select the BreezeCOMApplication program group and choose Configuration.The SA-PCR Configuration main window opens.4.2.2. Main WindowThe SA-PCR Configuration main window contains four tabs described inthe following sections. In addition, the main window contains the followingbuttons:• OK – Implements any changes you made and closes the window.• Undo – Causes the window to display currently active values. This isuseful if you started changing values and you want to start again fromthe current values.• Cancel – Closes the window without implementing any changes youmade.• Apply – Implements any changes you made but leaves the windowopen.4.2.3. Resetting the PC Card⇒⇒   To reset the Card, close the Configuration and Site Survey applicationsand then do one of the following:• Restart the computer, or• Stop the PC card then eject and reinsert the Card, or
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-13 User’s Guide• Stop and refresh the driver as follows: • Right-click the My Computer icon on the desktop, chooseProperties, and go to the Device Manager tab. • Select Network Adapters, select BreezeCOM WLAN Adapter,and press Refresh.4.2.4. Station Status TabThe Station Status tab of the SA-PCR Configuration application displaysbasic information about the Card and its drivers and shows current Cardstatus.Figure 4.6:Station Status TabThe Station Status tab contains the following parameters:• Firmware Version – Displays the version of unit’s current firmware(internally installed software). The first two numbers of the firmwareand driver versions should be identical. The remaining numbers (if any)indicate the minor version. The final letter indicates the hardwareversion.• Driver Version – Displays the version of unit’s current driver.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-14 User’s Guide• MAC Address – Displays the unit’s unique IEEE MAC address.• AP Address – The MAC address of the AP with which the unit iscurrently associated.• Station Status – Current status of the unit. There are three options: • Scanning - The unit is searching for an AP with which to associate. • Associated – The unit is associated with an AP and has adopted theattached PC MAC address.• Network Type – This value of this parameter should be infrastructure.Note: Parameter changes take effect only after reset (refer to section 4.2.3,Resetting the PC Card).4.2.5. WLAN Parameters TabThe WLAN Parameters tab of the SA-PCR Configuration application letsyou view and edit basic Wireless LAN parameters of the Card.Figure 4.7:WLAN Parameters Tab
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-15 User’s GuideThe WLAN Parameters tab contains the following parameters:• ESSID – An ASCII string of up to 32 characters used to identify aWLAN that prevents the unintentional merging of two co-locatedWLANs. It is essential that the ESSID is set to the same value in allstations and Access Points in the extended WLAN.Note: The ESSID is case-sensitive.• Maximum Data Rate – By default, the unit adaptively  selects thehighest possible rate for transmission. Under certain conditions (forrange/speed trade-off) you may decide not to use the higher rates.Possible values are 1, 2, or 3 Mbps.• Transmit Diversity – By default, the unit dynamically selects theantenna where reception and transmission is optimal. If your model hasan external antenna and uses only a single antenna, set TransmitDiversity to transmit only from that single antenna. Antenna number oneis 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 byinstalling multiple APs to create co-located cells. Enable Load Sharingto cause your stations to equally divide their traffic between the availableAPs.Note: Parameter changes take effect only after reset (refer to section 4.2.3,Resetting the PC Card).
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-16 User’s Guide4.2.6. Station Control TabThe Station Control tab of the SA-PCR Configuration application allowsyou to return the Card to default configuration values, and export/importconfiguration files.Figure 4.8:Station Control TabThe Station Control tab contains the Default button which returns allparameters to factory default values.To ease configuration of several units, you can configure one unit and thensave the configuration as a file (with a .BRZ extension). You can laterimport the configuration file to other units.• Import – Imports a configuration file to this unit, and overwrites allprevious settings.• Export – Exports the current configuration of this unit to a file.Note: Parameter changes take effect only after reset (refer to section 4.2.3,Resetting the PC Card).
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-17 User’s Guide4.2.7. Access Rights TabThe Access Rights tab of the SA-PCR Configuration application lets youlogin to the Card as User, Installer, or Technician, and lets you change thepassword.Figure 4.9:Access Rights TabThe Access Rights tab displays the current mode (User, Installer, orTechnician) in the Present Mode box. This mode determines the extent ofaccess to system parameters. Users can view some of the window tabs, butcannot modify parameters. Installers can view all of the tabs and can modifysome of the values. Technician access rights are reserved for CertifiedBreezeCOM Technicians.When the Configuration application opens, it will begin at the same modethat was active when it closed. If security is an issue, change the accessmode to User before you close the application. The first time the applicationis 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.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-18 User’s Guide⇒⇒ To change the Access Rights mode:1. Select the radio button next to the desired mode.2. Type in the password. No password is necessary to lower theaccess right level.3. Press Set mode. The name of the new mode appears in the PresentMode box.⇒⇒ To change the password for Installer Access Rights mode:1. Look at the Present Mode box to verify that you are in Installermode.2. Press Change Password.3. In the Change Password dialog box, type in the new passwordtwice and press OK.The password has changed.Important: If you change the Installer password do not forget it, or you will beunable to change the unit's access rights.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-19 User’s Guide4.2.8. Power Management TabNote: The Power Management tab is not yet implemented.The Power Management tab of the SA-PCR Configuration applicationallows you to enable/disable power management mode, and to fine tune thepower management mode parameters.This tab is not visible when in User login mode. When in Installer loginmode, you can see the parameters. When in Technician login mode, can editthe parameters.Figure 4.10:Power Management TabThe Power Management tab contains the following parameters:• Power Management Mode – Powersave mode enables WLAN units(such as laptops or hand-held devices) to conserve battery power. Toenable this feature you must also enable power saving for the AP.When power management mode is enabled, the unit “sleeps” most of thetime, and “wakes up” occasionally to transmit to the AP. The IntervalSettings parameters affect the power management algorithm:
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-20 User’s Guide• Transmit Time Interval (msec) – At what intervals the unit “wakesup”.• Transmit Duration (msec) – How long the unit remains “awake”.• Scanning Attempts – How many times the “awake” unit cycles throughthe frequencies, before “going back to sleep”.4.2.9. Maintenance TabThe Maintenance tab of the SA-PCR Configuration application allows youto cause the unit to verify firmware/driver compatibility, and set how theunit handles 802.3 packets.This tab is not visible when in User login mode. When in Installer loginmode, you can see the parameters. When in Technician login mode, can editthe parameters.Figure 4.11:Maintenance TabThe Maintenance tab contains the following parameters:• Firmware Version Check – Whether the unit checks compatibility ofcurrent firmware version to current drivers, and what to do if they are
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-21 User’s Guideincompatible. Detailed information about the versions appears at thebottom of the window.• Transmission Mode – This parameter cannot be modified by theInstaller.• Versions – Windows drivers are divided into three files: Brzcom.vxd,Brzwlanw.sys, and Brzwlan.inf. The version number of all these filesmust be identical. control information of these files is displayed.The Configuration application file is called BrzConfig.exe. The first twonumbers of the application version must match the first two numbers ofthe drivers.4.2.10. Radio TabThe Radio tab of the SA-PCR Configuration application allows you to setthe power level of the unit and choose a hopping standard.This tab is not visible when in User login mode. When in Installer loginmode, you can see the parameters. When in Technician login mode, can editthe parameters.Figure 4.12:Radio Tab
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-22 User’s GuideThe Radio tab contains the following parameters:• Power Level – Level of power at which the unit is operating. There aretwo possibilities, Low or High.• Hopping Standard – The Hopping Standard is a set of rules regardingthe radio transmission standard allowed in each country. Units will worktogether only if set to the same hopping standard. Use this parameter toset the unit’s hopping standard to that of the relevant country.4.2.11. Performance TabThe Performance tab of the SA-PCR Configuration application allows youto fine-tune performance and roaming parameters.This tab is not visible when in User login mode. When in Installer loginmode, you can see the parameters. When in Technician login mode, can editthe parameters. Only major parameters are described below.Figure 4.13:Performance TabThe 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
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-23 User’s Guidenot sent and the packet is transmitted directly to the WLAN. If yourwireless network has more than 7 stations (all SA-PCRs, or a mix of SA-PCRs and SA-10/40s), set the RTS Threshold to 1600.4.3. Using the SA-PCR Site Survey ApplicationThis section describes how to use the SA-PCR Site Survey application tomanage your SA-PCR Card. The Site Survey application keeps youinformed of the signal strength your unit is receiving.You can run a Site Survey to compare reception at various locations. This isextremely useful when first setting up the wireless LAN, since you caneasily determine where reception is good or bad, and where many AccessPoints overlap.The following sections describe how to access the Site Survey application,how to read the main Site Survey window, and how to perform a sitesurvey.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-24 User’s Guide4.3.1. Accessing the SA-PCR Site Survey ApplicationOpen the SA-PCR Site Survey application as follows:• Press the Start button, select Programs, select the BreezeCOMApplication program group and choose Site Survey.The SA-PCR Configuration main window opens.Figure 4.14:SA-PCR Site Survey4.3.2. SA-PCR Site Survey Main WindowThe Site Survey main window contains the following sections:• Associated AP – This section, located at the top of the window, displaysvarious parameters regarding the Access Point with which the unit iscurrently associated. • Alias – The alias you have assigned to the AP that the SA-PCR iscurrently associated with. To assign aliases to AP units, press theAlias button. If no alias has been assigned to the AP, this fielddisplays “no alias”. • AP Address – The IEEE MAC address of the AP.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-25 User’s Guide • Signal Strength – The strength of the signal from the AP in dBm.The table below maps the signal strength indicators to dBm ranges:Signal Poor Fair Good Very GooddBm less than -74 -74 to -69 -68 to -61 greater than -61 • Signal Bar – The signal bar is a graphical representation of the signalstrength. The longer the bar, the stronger the signal. As signalstrength drops, the bar changes from green, to yellow, to red• Neighbor APs – This section, located at the bottom of the window,displays nearby APs (up to 4)from which the station is receiving asignal. For each AP, the following parameters are displayed: • Alias – The alias you have assigned to the AP. To assign aliases toAP units, press the Alias button. If no alias has been assigned to theAP, this field displays “no alias”. • AP Address – The IEEE MAC address of the AP. • Signal – A miniature signal bar indicating the current signal strengthfrom the AP. When you hold the cursor over the line, the exact valueappears.• Buttons – The following buttons appear on the right side of the SiteSurvey window. Several of the buttons are used in the course ofperforming a Site Survey as described in section 4.3.3: • Record – Records the signal strength of the current location in theSurvey Log, as well as all neighboring APs. In the Record window,you can add the name of the location and a remark. You can view theSurvey Log by pressing Survey Log. • Alias – Lets you assign alias names to APs. In the Alias window,enter the AP address and the desired alias. For convenience, you candrag and drop the address of the associated AP from the mainwindow into the Alias window. For neighbor APs, you should useCtrl-C to copy the AP Address from the main window. • Print – Opens a Site Survey report showing the information in theSurvey Log, including neighbor APs. You can print the file bypressing the Printer button, or save the file by pressing the Diskettebutton. You can save the file as text, or as a QRP file viewable usingthis application.
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-26 User’s Guide • Survey Log – Opens the Survey Log at the bottom of the mainwindow. The Survey Log displays the information recorded usingthe Record button. Press Clear Log to clear the Survey Log. PressDelete Last to delete the last recorded reading.Figure 4.15:Survey Log • Iconize – Closes the Site Survey window and opens the ConnectionQuality Graph that indicates current signal strength of the associatedAP at a glance. The Graph can be moved anywhere on the screen,and will always appear on top of other applications. Hold the cursorover the X to see the signal strength in units. Press the X to close theGraph and open the Site Survey window.Figure 4.16:Connection Quality Graph
SA-PCR PRO.11 PC Card Installation, Setup, and ManagementBreezeNET PRO.11 Series 4-27 User’s Guide4.3.3. Performing a Site Survey with the SA-PCRYou can run a Site Survey to compare reception at various locations. This isextremely useful when first setting up the wireless LAN, since you caneasily determine where reception is good or bad, and where many AccessPoints overlap.⇒⇒ To run a Site Survey:1. Open the Site Survey application.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, andpress OK. The signal details of the current location appear in theSurvey Log at the bottom of the window.5. Repeat steps 2 and 3 with other locations. The recorded readingsshould give you a good idea of where reception is good or bad, andwhere many APs overlap unnecessarily.6. When you are done recording, press Print. A site survey reportappears containing information about each recorded locationincluding signal strength of associated AP and of neighbor APs.You can print the file by pressing the Print button, or save the fileby pressing the Diskette button. You can save the file as text, or asa QRP file viewable using this application only.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-1User’s Guide5. PLANNING AND INSTALLINGWIRELESS LANSAll products in the BreezeNET PRO.11 Series are available in severalmodels: standard, “D”, and “DE”. The standard model is equipped with twointegrated 2 dBi omni-directional antennas and is suitable for indoor, short-to-medium range installations. The “D” and “DE” models are equipped withtwo customized female connectors for use with a range of external antennas.This chapter describes various possible system configurations, lists points toconsider when performing indoor and outdoor installations, presentsguidelines and restrictions regarding external antenna installation, and alsodescribes some antennas that work well with BreezeNET PRO.11 units.5.1. System ConfigurationsThis chapter describes various wireless LAN configurations, and how to setthem up:• Single Cell Configuration – The wireless LAN consists of an AccessPoint and the wireless workstations associated with it.• Overlapping Cell Configuration – The wireless LAN consists of twoor more adjacent Access Points whose coverage slightly overlaps.• Multicell Configuration – The wireless LAN consists of several AccessPoints installed in the same location. This creates a common coveragearea that increases aggregate throughput.• Multi-Hop Configuration – The wireless LAN contains AP-WB pairsthat extend the range of the wireless LAN.Many wireless LANs contain several of these configurations at differentpoints in system. The Single Cell configurations is the most basic, and theother configurations build upon it.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-2User’s Guide5.1.1. Single Cell ConfigurationA basic BreezeNET cell consists of an Access Point and the wirelessworkstations associated with it. You can convert most workstations (PCs,X-Terminals, Apple, Digital, SUN, HP, IBM and others) that are equippedwith an Ethernet network interface card (NIC) to wireless workstationssimply by connecting a BreezeNET SA-10 PRO.11 Station Adapter. You canconvert most laptop computers with a PCMCIA slot into a wireless mobilestation by using the SA-PCR PRO.11 PCMCIA Card.There are three types of Single Cell Configuration:• Point-to-Point• Point-to-Multipoint• Mobile ApplicationsEach type is explained in the following sections.5.1.1.1 Point-to-PointPoint-to-Point installations (refer to Figure 5.1) require directional antennasat 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.Refer to the range tables (section 5.3.7) to determine the best combination ofantennas for your application.5.1.1.2 Point-to-MultipointPoint-to-Multipoint applications consist of one or more APs at the centralsite and several remote stations and bridges (SA-10, SA-40, WB-10). In thiscase, use an Omni-6 antenna with the Access Point because of its 360°radiation pattern. Ιn the United States, the Omni-7.2 antenna (which also hasa 360° radiation pattern but has a wider range) can also be used. The
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-3User’s GuideOmni-7.2 antenna comes with a 20ft. low loss cable and a mast mountbracket for rooftop installations.The remote units should use directional antennas aimed in the direction ofthe AP’s antenna(s).5.1.1.3 Mobile ApplicationsIn mobile applications, station orientation changes continuously. In order tomaintain connectivity throughout the entire coverage area, most mobileapplications require omni-directional antennas for both Access Points andwireless stations. In a motor vehicle, for example, you can install an SA-10in the cabin, and mount the antennas (in most cases an Omni-6) on the roof.5.1.1.4 Extending the LAN with WLAN BridgingThe figures below demonstrate how the WB-10 can be used to extend aregular network with a wireless link.Figure 5.1:  Connecting Remote Offices to Main Office Network
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-4User’s GuideThe WB-10 PRO.11 also enables connectivity between a wireless LAN andindividual workstations or workgroups located outside the LAN. TheWB-10 PRO.11 enables these wireless stations in its coverage area tocommunicate with the wireless LAN and gain access to all of the networkresources such as file servers, printers and shared databases.Figure 5.2:  Wireless Bridging Between Two or More Wireless LAN Segments5.1.1.5 Setting Up a Single BreezeNET Cell⇒⇒ To set up a single BreezeNET cell:1. Install the Access Point (refer to section 2, Basic Installation). Besure to position the Access Point as high as possible.Note:  It is not necessary at this point to connect the Access Point to an Ethernetbackbone, since Access Points continuously transmit signals (beaconframes) whether they are connected to an Ethernet backbone or not.2. Install a Station Adapter or SA-PCR Card (refer to section 2, BasicInstallation).3. Check the LED indicators of the front panel of the Station Adapter,or the Site Survey application of the SA-PCR Card to check signalstrength.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-5User’s Guide4. Make any necessary adjustments, for example: • Adjust the antennas • Adjust the location of the Station Adapter • Adjust the location of the Access Point5. Proceed to setup the other workstations.Figure 5.3: Single Cell Configuration
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-6User’s Guide5.1.2. Overlapping Cell ConfigurationWhen 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:• Any workstation situated in the overlapping area can associate andcommunicate with either Access Point #1 or Access Point #2.• Any workstation can move seamlessly through the overlapping coverageareas without losing its network connection. This attribute is calledSeamless Roaming.Figure 5.4: Three Overlapping Cells⇒⇒ To set up overlapping BreezeNET cells:1. Install an Access Point (refer to section 2, Basic Installation). Besure to position the Access Point as high as possible.2. Install the second Access Point so that the two are positioned closertogether than the prescribed distance (refer to section 5.2.4).3. To allow roaming, configure all Access Points and stations adaptersto the same ESSID.4. To improve collocation and performance, configure all AccessPoints to different hopping sequences of the same hopping set.5. Install a Station Adapter or SA-PCR Card on a workstation.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-7User’s Guide6. Position the wireless workstation approximately the same distancefrom the two Access Points.7. Temporarily disconnect the first Access Point from the powersupply. Verify radio signal reception from the first Access Point.View the LED indicators of the front panel of the Station Adapter,or the Site Survey application of the SA-PCR Card, to check signalstrength of the first Access Point.8. Disconnect the second Access Point from the power supply and re-connect the first Access Point. View the LED indicators of the frontpanel of the Station Adapter, or the Site Survey application of theSA-PCR Card, to check signal strength of the second Access Point.7. If necessary, adjust the distance between the Access Points so thecoverage areas overlap.8. Continue setting up overlapping cells until the required area iscovered.Note:  It is not necessary at this point to connect the Access Points to an Ethernetbackbone, since Access Points continuously transmit signals (beaconframes) whether they are connected to an Ethernet backbone or not.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-8User’s Guide5.1.3. Multicell ConfigurationAreas congested by many users and a heavy traffic load may require amulticell structure. In a multicell structure, several Access Points areinstalled in the same location. Each Access Point has the same coveragearea, thereby creating a common coverage area that increases aggregatethroughput. Any workstation in the overlapping area can associate andcommunicate with any Access Point covering that area.⇒⇒ To set up a BreezeNET multicell:1. Calculate the number of Access Points needed as follows: Multiplythe number of active users by the required throughput per user, anddivide the result by 1.5Mbps (net throughput supported bycollocated Access Points). Consider the example of 5 activestations, each requiring 0.5 Mbps throughput. The calculation is(5*.5)/1.5=1.6. Two Access Points should be used. This method isaccurate only for the first few Access Points.The aggregate throughput of the common coverage area is equal tothe number of co-located Access Points multiplied by thethroughput of each individual Access Point, minus a certain amountof degradation caused by the interference among the differentAccess Points.2. Install several Access Points in the same location a few metersfrom each other so they cover the same area. Be sure to position theAccess Points as high as possible.3. To allow roaming and redundancy, configure all Access Points andstations adapters to the same ESSID.4. To improve collocation and performance, configure all AccessPoints to different hopping sequences of the same hopping set.5. Install Station Adapters or SA-PCR Cards on workstations.6. Make sure that the Load Sharing option is activated. Stations willautomatically associate with an Access Point that is less loaded andprovides better signal quality.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-9User’s GuideNote:  It is not necessary at this point to connect the Access Points to an Ethernetbackbone, since Access Points continuously transmit signals (beaconframes) whether they are connected to an Ethernet backbone or not.Figure 5.5: Multicell Configuration
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-10 User’s Guide5.1.4. Multi-hop Configuration (Relay)When you want to connect two sites between which a line-of-sight does notexist, an AP-WB pair can be positioned at a third location where line-of-sight exists with each of the original locations. This third location then actsas a relay point.In areas where a wired LAN backbone is not available, another AP can beadded to the AP-WB relay to distribute a wireless backbone. In this way, therange of a wireless system can be extended.System configuration is as follows:⇒⇒ To set up a BreezeNET multi-hop cell:1. Install an AP at the main office (refer to section 2, BasicInstallation).2. Install a WB at the remote site (refer to section 2, BasicInstallation).3. Install an AP-WB pair in a high location that has a clear line ofsight to both the main office and the remote site. Many AP-WBpairs can form a chain.4. When an AP and WB communicate over the wireless LAN, setthem both to the same ESSID. For example, set the AP of the mainoffice and the WB of the first AP-WB relay pair to the sameESSID. Also, set the AP of the last AP-WB relay and the WB ofthe remote site to the same ESSID; this ESSID should be differentfrom the first ESSID.Another option is to use one ESSID, and to set the Preferred APparameter of each WB to its paired AP (refer to section 3.4.3). Thisoption allows stations to roam between the sites.5. As usual, make sure that the hopping sequence of the Access Pointsare different.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-11 User’s GuideFigure 5.6: Multihop Configuration6. If desired, an additional AP may be added at the main office andremote site, and between each AP-WB pair to provide wirelessLANs at those points (see illustration).Figure 5.7: Advanced Multihop Configuration7. Install Station Adapters or SA-PCR Cards on workstations (refer tosection 2, Basic Installation).
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-12 User’s Guide5.2. Indoor Installation considerationsThis chapter describes various considerations to take into account whenplanning an indoor installation including site selection, antenna diversity,antenna polarization, construction materials, and cell size.Figure 5.8: BreezeNET LAN in a typical office environment5.2.1. Site Selection FactorsBreezeNET PRO.11 wireless LAN products are robust, trouble-free units,designed to operate efficiently under a wide range of conditions. Thefollowing guidelines are provided to help you position the units to ensureoptimum coverage and operation of the wireless LAN.Metal FurniturePosition the units clear of metal furniture and away from moving objectssuch as metal fans or doors.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-13 User’s GuideMicrowave OvensFor best performance, position the units clear of radiation sources that emitin the 2.4 GHz frequency band, such as microwave ovens.AntennasMake sure the antennas are extended upward vertically in relation to thefloor. For models with external antennas, connect the external antennas andRF cable.Heat SourcesKeep the units well away from sources of heat, such as radiators, air-conditioners, etc.5.2.1.1 Site Selection for Access PointsWhen positioning Access Points, take into account the following additionalconsiderations.HeightInstall the Access Point at least 1.5m above the floor, clear of any highoffice partitions or tall pieces of furniture in the coverage area. The AccessPoint can be placed on a high shelf, or can be attached to the ceiling or awall using a mounting bracket.Central LocationInstall 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 containingmetal components. We recommend that you install the Access Points on thecorridor ceilings. The radio waves propagated by the BreezeNET PRO.11LAN are reflected along the metal partitions and enter the offices throughthe doors or glass sections.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-14 User’s Guide5.2.2. Antennas for Indoor applicationsFor most indoor applications, the best choice is the standard unit equippedwith its integrated 2dBi antennas. The units are small, easy to install andcover a large area.In some installations, it is required to install the unit and antenna separately.In such instances, use the AP-10D with the omni-6 antenna kit (6dbi omni-directional antenna with 3 meter RG-58 cable). In the USA (FCC regulated)and in non-regulated countries, the omni-6 comes with a shorter antennacable, extending the coverage area.The Uni-8.5 is also useful in indoor applications. It is very small and easilywall-mounted, but its radiation pattern is limited (75°).BreezeCOM recommends that, for indoor applications, you use twoantennas per unit to utilize the diversity gain of the system.5.2.2.1 Antenna DiversityIn applications where no multipath propagation is expected, a single antennais sufficient to ensure good performance levels. However, in cases wheremultipath propagation exists, BreezeCOM recommends that two antennasbe used. This takes advantage of space diversity capabilities. By using twoantennas per unit, the system can select the best antenna on a per-packetbasis (every several milliseconds).Multipath propagation is to be expected when there are potential reflectorsbetween the main and remote sites. These reflectors may be buildings ormoving objects such as airplanes and motor vehicles. If this is the case, theradio signal does not travel in a straight line, but is reflected or deflected offof the object, creating multiple propagation paths.When installing a single antenna, modify the transmit diversity option toeither antenna 1 or antenna 2, according to the antenna being used (refer tosection 3.4.3).5.2.2.2  Antenna PolarizationAntenna polarization must be the same at either end of the link. In mostapplications, the preferred orientation is vertical polarization. Above-groundpropagation of the signal is better when it is polarized vertically. To verifyantenna polarization, refer to the assembly instructions supplied with theantenna set.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-15 User’s Guide5.2.3. Construction MaterialsA cell’s coverage area is affected by the construction materials of the walls,partitions, ceilings, floors and the furnishings of the cell. Due to theirintrinsic nature, these materials may cause radio signal loss:• Metal objects reflect radio signals. They do not let the signals passthrough.• Wood, glass, plastic and brick reflect part of the radio signals and allowpart of the radio signals to pass through.• Water and objects with a high moisture content absorb a large part of theradio signals.Use the following table as a guidline to predict the effects of differentmaterials.Table 5.1: Signal Loss ChartObstruction Additional Loss(dB)Effective Range Approx. RangeOpen Space 0dB 100% 1000ft. (300m)Window (non-metallic tint) 3dB 70% 700ft. (215m)Window (metallic tint) 5-8dB 50% 500ft. (150m)Light Wall (dry wall) 5-8dB 50% 500ft. (150m)Medium Wall (wood) 10dB 30% 300ft. (100m)Heavy Wall (solid core 6”) 15-20dB 15% 150ft. (50m)Very Heavy Wall (solid core 12”) 20-25dB 10% 100ft. (30m)Floor/Ceiling (solid core) 15-20dB 15% 150ft. (50m)Floor/Ceiling (heavy solid core) 20-25dB 10% 100ft. (30m)Note:  Take stairwells and elevator shafts into consideration when positioningAccess Points. There is no way to quantify the loss associated with theseobstructions, however they do have an effect on the signal.5.2.4. Cell SizeCell size is determined by the maximum possible distance between theAccess Point and the Station Adapter. This distance varies according to thebuilding floor plan and the nature of that environment. There are severalgeneral categories:
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-16 User’s GuideOpen Indoor AreasOpen office areas with no partitioning and no obstacles between the AccessPoint and the BreezeNET workstation.The suggested maximum distance between Access Point and workstation:Standard AP-10 PRO.11: .............................200m (600 ft.)Semi-Open Indoor AreasOpen-plan offices partitioned into individual workspaces, factory floorareas, warehouses, etc.The suggested maximum distance between Access Point and workstation:Standard AP-10 PRO.11 ..............................100m (300 ft.)Closed Indoor AreasA floor divided into individual offices by concrete, masonry or sheet-rockwalls. A house is also a closed indoor area.The suggested maximum distance between Access Point and workstation:Standard AP-10 PRO.11 ..............................50m (150 ft.)5.3. Outdoor Installation ConsiderationsThis chapter describes various considerations to take into account whenplanning an outdoor installation including site selection, antenna alignment,antenna diversity, antenna polarization, antenna seal, and cell size.5.3.1. Site Selection FactorsWhen selecting a location for external antennas, remember to take intoconsideration the following guidelines:• Minimum distance between sites• Maximum height above the ground• Maximum line of sight clearance• Maximum separation between antennas (diversity option)
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-17 User’s GuidePath of Clearest PropagationA propagation path is the path that signals traverse between the antennas ofany two bridges. The “line” between two antenna sites is an imaginarystraight line which may be drawn between the two antennas. Any obstaclesin the path of the “line” degrade the propagation path. The best propagationpath is, therefore, a clear line of sight with good clearance between the“line” and any physical obstacle.Physical ObstaclesAny physical object in the path between two bridges can cause signalattenuation. Common obstructions are buildings and trees. If a bridge’santenna is installed indoors, the walls and/or windows between the two sitesare physical obstructions. If the antenna is positioned outdoors, anybuildings or other physical structure such as trees, mountains or othernatural geographic features higher than the antenna and situated in the pathbetween the two sites can constitute obstructions.Install indoor antennas as close as possible to a window (or wall if awindow is not accessible) facing the required direction. Avoid metalobstacles such as metal window frames or metal film anti-glare windows inthe transmission path. Install outdoor antennas high enough to avoid anyobstacles which may block the signal.Minimal Path LossPath loss is determined mainly by several factors:• Distance between sitesPath loss is lower and system performance better when distancesbetween sites are shorter.• ClearancePath loss is minimized when there exists a clear line of sight. Thenumber, location, size, and makeup of obstacles determine theircontribution to path loss.• Antenna heightPath loss is lower when antennas are positioned higher. Antenna heightis the distance from the imaginary line connecting the antennas at thetwo sites to “ground” level. “Ground” level in an open area is the actualground. In dense urban areas, “ground” level is the average height of thebuildings between the antenna sites.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-18 User’s Guide5.3.2. Rooftop InstallationWarning: Rooftop antenna installations are extremely dangerous! Incorrectinstallation may result in death, serious injury and/or damage. Suchinstallations should be performed by professional antenna installersonly!Rooftop installations offer several advantages:• Increased antenna range.• Less obstacles in path.• Improved performance due to greater height.• Reduced multipath problems.5.3.3. Antennas for Outdoor ApplicationsThe BreezeNET PRO.11 Series can be used in point-to-point or point-to-multipoint configurations.5.3.3.1 Point-to-PointA point-to-point link is based on the use of one Access Point with externalantennas (AP-10D or AP-10DE) and one adapter (SA-10/40D, WB-10D orWB-10DE). The AP and the WB must be equipped with one or twodirectional antennas. The necessary antenna gain depends on the requiredrange and performance.5.3.3.2 Point-to-MultipointSetting up a point-to-multipoint link requires the use of an AP-10Dequipped with omni-directional antennas and a remote WB-10D (or SA-10/40D) equipped with high-gain directional antennas.5.3.3.3  Antenna AlignmentLow gain antennas do not require alignment due to their very wide radiationpattern. High gain antennas have a narrow beamwidth necessitating analignment procedure in order to optimize the link.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-19 User’s GuideCheck antenna alignment by using the LED indicators on the front panel ofwhichever adapter is used in the link (WB-10D or SA-10/40D). These LEDindicators provide indication of reception quality.⇒⇒ To perform antenna alignment: 1. Assemble antennas according to the assembly instructions includedwith the antenna set. 2. Mount the antennas as high as possible. 3. Connect the coaxial cable to the AP at the main site. 4. Connect the coaxial cable to the WB (or SA) at the remote site. 5. Power on the AP and the WB (or SA). 6. Synchronize the units by aligning the antennas manually until theWLNK indicator LED on the front panel of the wireless Bridgeand/or Station Adapter illuminates. 7. Align antennas at the main and remote sites until maximum signalquality is obtained. (Check QLT LEDs on the front panel of theStation Adapter and the wireless Bridge.)If the received signal quality is lower than expected for this antenna/rangecombination, change antenna height and verify RF cables connections.5.3.3.4  Antenna DiversityIn applications where no multipath propagation is expected, a single antennais sufficient to ensure good performance levels. However, in cases wheremultipath propagation exists, BreezeCOM recommends that two antennasbe used. This takes advantage of space diversity capabilities. By using twoantennas per unit, the system can select the best antenna on a per-packetbasis (every several milliseconds).Multipath propagation is to be expected when there are potential reflectorsbetween the main and remote sites. These reflectors may be buildings ormoving objects such as airplanes and motor vehicles. If this is the case, theradio signal does not travel in a straight line, but is reflected or deflected offof the object, creating multiple propagation paths.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-20 User’s GuideWhen installing a single antenna, modify the transmit diversity option toeither antenna 1 or antenna 2, according to the antenna being used (refer tosection 3.4.3).5.3.3.5  Antenna PolarizationAntenna polarization must be the same at either end of the link. In mostapplications, the preferred orientation is vertical polarization. Above-groundpropagation of the signal is better when it is polarized vertically. To verifyantenna polarization, refer to the assembly instructions supplied with theantenna set.5.3.4. Antenna SealWhen using outdoor antennas, you must seal the antenna connectors againstrain. Otherwise the antennas are not suitable for use in outdoor installations.5.3.5. Cell SizeCell size is determined by the maximum possible distance between theAccess Point and the Station Adapter, usually related to point-to-multipointinstallations using external antennas. For open outdoor areas with anunobstructed line of sight between the Access Point and the BreezeNETPRO.11 workstation, the suggested maximum distance between AccessPoint and workstation is:Standard AP-10 PRO.11 ..............................700m (2000 ft.)
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-21 User’s Guide5.3.6. Link DistanceLink distance is the maximum distance between the AP and the stationadapter, usually related to point-to-point installations using externalantennas. For open outdoor areas with an unobstructed line of sight betweenthe Access Point and the wireless bridge, the suggested maximum distanceis:AP-10D PRO.11 with external antennas.......up to 10Km (7 miles) in the USAup to 2.5Km in EuropeAP-10DE PRO.11 with external antennas.....up to 5Km in EuropeNote:  The maximum distance of 10Km/7 miles is achieved using 24 dBi antennas.The maximum distance of 2.5Km is achieved using 18 dBi antennas.For range tables, refer to section 5.3.7, Using Outdoor Range Tables.5.3.7. Using Outdoor Range TablesOutdoor installations must have a clear line-of-sight. Solid obstacles such asbuildings or hills prevent the establishment of a link. Partial obstacles suchas trees or traffic can reduce range. Extending coaxial cables can cause anincrease in assembly signal loss and a reduction in range.The ranges in the following tables are attained under good propagatingconditions when using the standard cables supplied in the antenna set.Actual ranges may vary due to specific multipath and interferenceconditions.For specific range guidelines and information about extending cables,consult your local dealer or BreezeCOM central offices.Ranges are subject to change without notice.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-22 User’s Guide5.3.8. FCC Outdoor Range Tables (USA)The following tables are compliant with FCC regulations.Table 5.2: BreezeNET USA/FCC Range Table - 1 MbpsAnt.typeOmni2 Omni-6 Omni-7 Uni-8.5 Uni-11 Uni-13 Uni-16 Uni-18 Uni-24Asmbgain2 dBi 5 dBi 6 dBi 6.5 dBi 9 dBi 11 dBi 14 dBi 15 dBi 19 dBiOmni-2 2 dBi 2500 ft 3800 ft 3900 ft 4000 ft 1.0 mi 1.2 mi 1.4 mi 1.5 mi 1.9 miOmni-6 5 dBi 3800 ft 4300 ft 4600 ft 4800 ft 1.2 mi 1.5 mi 1.7 mi 1.8 mi 2.2 miOmni-7 6 dBi 3900 ft 4600 ft 4800 ft 1.0 mi 1.3 mi 1.6 mi 1.8 mi 1.9 mi 2.3 miUni-8.5 6.5 dBi 4000 ft 4800 ft 1.0 mi 1.1 mi 1.4 mi 1.7 mi 1.9 mi 2.0 mi 2.4 miUni-11 9 dBi 1.0 mi 1.2 mi 1.3 mi 1.4 mi 1.7 mi 2.0 mi 2.3 mi 2.5 mi 2.9 miUni-13 11 dBi 1.2 mi 1.5 mi 1.6 mi 1.7 mi 2.0 mi 2.2 mi 2.6 mi 2.8 mi 3.2 miUni-16 14 dBi 1.4 mi 1.7 mi 1.8 mi 1.9 mi 2.3 mi 2.6 mi 3.1 mi 3.4 mi 3.7 miUni-18 15 dBi 1.5 mi 1.8 mi 1.9 mi 2.0 mi 2.5 mi 2.8 mi 3.4 mi 3.5 mi 4.0 miUni-24 19 dBi 1.9 mi 2.2 mi 2.3 mi 2.4 mi 2.9 mi 3.2 mi 3.7 mi 4.0 mi 6.0 miTable 5.3: BreezeNET USA/FCC Range Table - 2 MbpsAnt.typeOmni-2 Omni-6 Omni-7 Uni-8.5 Uni-11 Uni-13 Uni-16 Uni-18 Uni-24Asmbgain2 dBi 5 dBi 6 dBi 6.5 dBi 9 dBi 11 dBi 14 dBi 15 dBi 19 dBiOmni-2 2 dBi 1500 ft 2000 ft 2300 ft 2500 ft 0.6 mi 0.7 mi 0.8 mi 0.9 mi 1.1 miOmni-6 5 dBi 2000 ft 2400 ft 2600 ft 2800 ft 0.7 mi 0.9 mi 1.0 mi 1.1 mi 1.3 miOmni-7 6 dBi 2300 ft 2600 ft 2900 ft 3000 ft 0.8 mi 1.0 mi 1.2 mi 1.3 mi 1.4 miUni-8.5 6.5 dBi 2500 ft 2800 ft 3000 ft 0.6 mi 0.8 mi 1.0 mi 1.3 mi 1.3 mi 1.5 miUni-11 9 dBi 0.6 mi 0.7 mi 0.8 mi 0.8 mi 0.9 mi 1.1 mi 1.4 mi 1.5 mi 1.7 miUni-13 11 dBi 0.7 mi 0.9 mi 1.0 mi 1.0 mi 1.1 mi 1.2 mi 1.5 mi 1.7 mi 2.0 miUni-16 14 dBi 0.8 mi 1.0 mi 1.2 mi 1.3 mi 1.4 mi 1.5 mi 1.8 mi 2.0 mi 2.6 miUni-18 15 dBi 0.9 mi 1.1 mi 1.3 mi 1.3 mi 1.5 mi 1.7 mi 2.0 mi 2.2 mi 2.8 miUni-24 19 dBi 1.1 mi 1.3 mi 1.4 mi 1.5 mi 1.7 mi 2.0 mi 2.6 mi 2.8 mi 3.5 mi
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-23 User’s GuideTable 5.4: BreezeNET USA/FCC Range Table - 3 MbpsAnt.typeOmni-2 Omni-6 Omni-7 Uni-8.5 Uni-11 Uni-13 Uni-16 Uni-18 Uni-24Asmbgain2 dBi 5 dBi 6 dBi 6.5 dBi 9 dBi 11 dBi 14 dBi 15 dBi 19 dBiOmni-2 2 dBi 500 ft 750 ft 800 ft 850 ft 1200 ft 1600 ft 0.4 mi 0.5 mi 0.6 miOmni-6 5 dBi 750 ft 900 ft 1000 ft 1100 ft 1600 ft 2000 ft 0.5 mi 0.6 mi 0.7 miOmni-7 6 dBi 800 ft 1000 ft 1000 ft 1200 ft 1700 ft 2100 ft 0.6 mi 0.7 mi 0.8 miUni-8.5 6.5 dBi 850 ft 1100 ft 1200 ft 1400 ft 2200 ft 0.5 mi 0.7 mi 0.7 mi 0.9 miUni-11 9 dBi 1200 ft 1600 ft 1700 ft 2200 ft 0.5 mi 0.6 mi 0.8 mi 0.9 mi 1.0 miUni-13 11 dBi 1600 ft 2000 ft 2100 ft 0.5 mi 0.6 mi 0.7 mi 0.9 mi 1.0 mi 1.2 miUni-16 14 dBi 0.4 mi 0.5 mi 0.6 mi 0.7 mi 0.8 mi 0.9 mi 1 mi 1.1 mi 1.4 miUni-18 15 dBi 0.5 mi 0.6 mi 0.7 mi 0.7 mi 0.9 mi 1.0 mi 1.1 mi 1.2 mi 1.5 miUni-24 19 dBi 0.6 mi 0.7 mi 0.8 mi 0.9 mi 1.0 mi 1.2 mi 1.4 mi 1.5 mi 2 miNote: The use of an LNA can improve the range by 30%-40%. To achieve this it isnecessary to install an LNA on both sides of the link (in each site). An LNAwill NOT enlarge the link if it is installed only on one side of the link. Whenusing an LNA you must use two antennas - one for TX and one for RX.5.3.9. ETSI Outdoor Range Tables (Europe and Rest-of-World) – D ModelsIn order to comply with ETSI regulations, 20dBm (100mW) EIRP unitsusing antenna kits indicated as low must be configured to the low powersetting (4 dBm).Using an 18dbi antenna and lowering the output power of the unit complieswith ETSI regulations and improves reception. Installing this antenna atboth ends of the link increases the total range. Installing this antenna at oneend of the link does not increase the range, but it does increase thethroughput of traffic received at the end with the 18 dbi antenna.The following tables are compliant with ETSI regulations.Table 5.5: BreezeNET Europe and ROW Range Table – D ModelsData Rate = 1Mbps, Sen=-81dBmAntenna Kit Omni-2 Omni-6 Uni-8.5 Uni-18/20 (Low) Uni-18/15 (Low) Uni-18/10 (Low)Omni-2 710m 790m 750m 670m 730m 790mOmni-6 790m 890m 840m 750m 820m 890mUni-8.5 750m 840m 790m 710m 770m 840mUni-18/20 670m 750m 710m 1,910m 2,020m 2,130mUni-18/15 730m 820m 770m 2,020m 2,130m 2,250mUni-18/10 790m 890m 840m 2,130m 2,250m 2,370m
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-24 User’s GuideTable 5.6: BreezeNET Europe and ROW Range Table – D ModelsData Rate = 2Mbps, Sen=-75dBmAntenna Kit Omni-2 Omni-6 Uni-8.5 Uni-18/20 (Low) Uni-18/15 (Low) Uni-18/10 (Low)Omni-2 350m 400m 380m 330m 370m 400mOmni-6 400m 450m 420m 380m 410m 450mUni-8.5 380m 420m 400m 350m 390m 420mUni-18/20 330m 380m 350m 1,240m 1,310m 1,380mUni-18/15 370m 410m 390m 1,310m 1,380m 1,460mUni-18/10 400m 450m 420m 1,380m 1,460m 1,540mTable 5.7: BreezeNET Europe and ROW Range Table – D ModelsData Rate = 3Mbps, Sen=-67dBmAntenna Kit Omni-2 Omni-6 Uni-8.5 Uni-18/20 (Low) Uni-18/15 (Low) Uni-18/10 (Low)Omni-2 140m 160m 150m 130m 150m 160mOmni-6 160m 180m 170m 150m 160m 180mUni-8.5 150m 170m 160m 140m 150m 170mUni-18/20 130m 150m 140m 560m 610m 670mUni-18/15 150m 160m 150m 610m 670m 730mUni-18/10 160m 180m 170m 670m 730m 790mNote:  All antennas above 8.5 (i.e. 12, 18, and 24), require a filter to be ETSI-compliant.5.3.10. ETSI Outdoor Range Tables (Europe and Rest-of-World) – DE ModelsThe following tables are compliant with ETSI regulations.Table 5.8: BreezeNET Europe and ROW Range Table – DE ModelsData Rate = 1Mbps, Sen=-85dBmAntenna Kit Uni-24/20 Uni-24/15 Uni-24/10Uni-24/20 3,920m 4,140m 4,370mUni-24/15 4,140m 4,370m 4,610mUni-24/10 4,370m 4,610m 4,870m
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-25 User’s GuideTable 5.9: BreezeNET Europe and ROW Range Table – DE ModelsData Rate = 2Mbps, Sen=-79dBmAntenna Kit Uni-24/20 Uni-24/15 Uni-24/10Uni-24/20 2,550m 2,690m 2,840mUni-24/15 2,690m 2,840m 3,000mUni-24/10 2,840m 3,000m 3,160mTable 5.10: BreezeNET Europe and ROW Range Table – DE ModelsData Rate = 3Mbps, Sen=-71dBmAntenna Kit Uni-24/20 Uni-24/15 Uni-24/10Uni-24/20 1,430m 1,510m 1,600mUni-24/15 1,510m 1,600m 1,680mUni-24/10 1,600m 1,680m 1,780mNote:  All antennas above 8.5 (i.e. 12, 18, and 24), require a filter to be ETSI-compliant.Note: The use of an LNA can improve the range by 30%-40%. To achieve this it isnecessary to install an LNA on both sides of the link (in each site). An LNAwill NOT enlarge the link if it is installed only on one side of the link. Whenusing an LNA you must use two antennas - one for TX and one for RX.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-26 User’s Guide5.3.11. Non-Regulated Outdoor Range Tables – D ModelsTable 5.11: BreezeNET Non-Regulation Range Table – D ModelsData Rate = 1Mbps, Sen=-81dBmAntenna Kits Omni-2 Omni-6 Uni-8.5 Uni-18/20 Uni-18/15 Uni-18/10 Uni-24/20 Uni-24/15 Uni-24/10Omni-2 710m 790m 750m 1,980m 2,090m 2,210m 3,050m 3,220m 3,400mOmni-6 790m 890m 840m 2,130m 2,250m 2,370m 3,280m 3,460m 3,650mUni-8.5 750m 840m 790m 2,050m 2,170m 2,290m 3,160m 3,340m 3,520mUni-18/20 1,980m 2,130m 2,050m 4,870m 5,140m 5,420m 7,500m 7,910m 8,350mUni-18/15 2,090m 2,250m 2,170m 5,140m 5,420m 5,730m 7,910m 8,350m 8,820mUni-18/10 2,210m 2,370m 2,290m 5,420m 5,730m 6,040m 8,350m 8,820m 9,310mUni-24/20 3,050m 3,280m 3,160m 7,500m 7,910m 8,350m 11,550m 12,190m 12,860mUni-24/15 3,220m 3,460m 3,340m 7,910m 8,350m 8,820m 12,190m 12,860m 13,580mUni-24/10 3,400m 3,650m 3,520m 8,350m 8,820m 9,310m 12,860m 13,580m 14,330mTable 5.12: BreezeNET Non-Regulation Range Table – D ModelsData Rate = 2Mbps, Sen=-75dBmAntenna Kits Omni-2 Omni-6 Uni-8.5 Uni-18/20 Uni-18/15 Uni-18/10 Uni-24/20 Uni-24/15 Uni-24/10Omni-2 350m 400m 380m 1,290m 1,360m 1,430m 1,980m 2,090m 2,210mOmni-6 400m 450m 420m 1,380m 1,460m 1,540m 2,130m 2,250m 2,370mUni-8.5 380m 420m 400m 1,330m 1,410m 1,490m 2,050m 2,170m 2,290mUni-18/20 1,290m 1,380m 1,330m 3,160m 3,340m 3,520m 4,870m 5,140m 5,420mUni-18/15 1,360m 1,460m 1,410m 3,340m 3,520m 3,720m 5,140m 5,420m 5,730mUni-18/10 1,430m 1,540m 1,490m 3,520m 3,720m 3,920m 5,420m 5,730m 6,040mUni-24/20 1,980m 2,130m 2,050m 4,870m 5,140m 5,420m 7,500m 7,910m 8,350mUni-24/15 2,090m 2,250m 2,170m 5,140m 5,420m 5,730m 7,910m 8,350m 8,820mUni-24/10 2,210m 2,370m 2,290m 5,420m 5,730m 6,040m 8,350m 8,820m 9,310mTable 5.13: BreezeNET Non-Regulation Range Table – D ModelsData Rate = 3Mbps, Sen=-67dBmAntenna Kits Omni-2 Omni-6 Uni-8.5 Uni-18/20 Uni-18/15 Uni-18/10 Uni-24/20 Uni-24/15 Uni-24/10Omni-2 140m 160m 150m 600m 650m 710m 1,110m 1,180m 1,240mOmni-6 160m 180m 170m 670m 730m 790m 1,200m 1,260m 1,330mUni-8.5 150m 170m 160m 630m 690m 750m 1,150m 1,220m 1,290mUni-18/20 600m 670m 630m 1,780m 1,880m 1,980m 2,740m 2,890m 3,050mUni-18/15 650m 730m 690m 1,880m 1,980m 2,090m 2,890m 3,050m 3,220mUni-18/10 710m 790m 750m 1,980m 2,090m 2,210m 3,050m 3,220m 3,400mUni-24/20 1,110m 1,200m 1,150m 2,740m 2,890m 3,050m 4,220m 4,450m 4,700mUni-24/15 1,180m 1,260m 1,220m 2,890m 3,050m 3,220m 4,450m 4,700m 4,960mUni-24/10 1,240m 1,330m 1,290m 3,050m 3,220m 3,400m 4,700m 4,960m 5,230m
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-27 User’s Guide5.3.12. Extending the range using the TPA-24 and LNA-10The following tables show examples of how outdoor ranges of D-modelunits can be extended using the TPA-24 and LNA-10 devices.In the range tables below, the note LNA means that the LNA 10 Low NoiseReceive Amplifier is used (see section 6.2). The note TPA means that theTPA 24 Transmit Power Amplifier is used (see section 6.1). When the LNAor TPA are used, one of the unit’s antennas should be permanently set totransmit and the other to receive. In this case, Antenna Diversity is notapplicable. The use of an LNA or a Booster (TPA 24) will only enlarge therange if they are installed on both sides of the link.The identification of “TX kit” and “RX kit” is for reference purposes only.They do not have any other meaning than for arranging the table to show theeffects of the LNA and Booster (TPA 24).For ranges over 30 km, it is recommended to consult BreezeCOM technicalsupport or your local dealer.Important: In the following tables, “Omni-6/10” refers to an Omni 6dbiantenna with a 10 Meter Heliax cable.
Table 5.14: TPA-24 and LNA-10 Extension Range Table. Data Rate = 1Mbps, Sen=-81dBmTX kit Omni-6/10 Omni-6/10 Omni-6(TPA)Omni-6(TPA)Uni-18/10 Uni-18/10 Uni-18/10(TPA)Uni-18/10(TPA)Uni-24/10 Uni-24/10 Uni-24/10(TPA)Uni-24/10(TPA)TX EIRP 21 21 30 30 33 33 42 42 39 39 48 48RX kit Omni-6/10 Omni-6(LNA 10)Omni-6/10Omni-6(LNA)Uni-18/10 Uni-18/10(LNA)Uni-18/10 Uni-18/10(LNA)Uni-24/10 Uni-24/10(LNA)Uni-24/10 Uni-24/10(LNA)Transmit and ReceiveAntenna Kitsfor Side ATransmit andReceive Antenna Kitsfor Side B RX Gain 48.35 48.35 16 20.35 16 20.35 22 26.35 22 26.35TX kit EIRP RX kit RXGainOmni-6/10 21 Omni-6/10 41,070m 1,070m 1,070m 1,470m 2,550m 2,550m 2,550m 3,480m 3,920m 3,920m 3,920m 5,370mOmni-6/10 21 Omni-6 (LNA) 8.35 1,070m 1,470m 1,070m 1,470m 2,550m 3,480m 2,550m 3,480m 3,920m 5,370m 3,920m 5,370mOmni-6 (TPA) 30 Omni-6/10 41,070m 1,070m 2,050m 2,050m 2,550m 2,550m 4,870m 4,870m 3,920m 3,920m 7,500m 7,500mOmni-6 (TPA) 30 Omni-6 (LNA) 8.35 1,470m 1,470m 2,050m 2,810m 3,480m 3,480m 4,870m 6,660m 5,370m 5,370m 7,500m 10,260mUni-18/10 33 Uni-18/10 16 2,550m 2,550m 2,550m 3,480m 6,040m 6,040m 6,040m 8,260m 9,310m 9,310m 9,310m 12,730mUni-18/10 33 Uni-18/10(LNA)20.35 2,550m 3,480m 2,550m 3,480m 6,040m 8,260m 6,040m 8,260m 9,310m 12,730m 9,310m 12,730mUni-18/10(TPA)42 Uni-18/10 16 2,550m 2,550m 4,870m 4,870m 6,040m 6,040m 11,550m 11,550m 9,310m 9,310m 17,780m 17,780mUni-18/10(TPA)42 Uni-18/10(LNA)20.35 3,480m 3,480m 4,870m 6,660m 8,260m 8,260m 11,550m 15,790m 12,730m 12,730m 17,780m 24,320mUni-24/10 39 Uni-24/10 22 3,920m 3,920m 3,920m 5,370m 9,310m 9,310m 9,310m 12,730m 14,330m 14,330m 14,330m 19,600mUni-24/10 39 Uni-24/10(LNA)26.35 3,920m 5,370m 3,920m 5,370m 9,310m 12,730m 9,310m 12,730m 14,330m 19,600m 14,330m 19,600mUni-24/10(TPA)48 Uni-24/10 22 3,920m 3,920m 7,500m 7,500m 9,310m 9,310m 17,780m 17,780m 14,330m 14,330m 27,380m 27,380mUni-24/10(TPA)48 Uni-24/10(LNA)26.35 5,370m 5,370m 7,500m 10,260 12,730m 12,730m 17,780m 24,320m 19,600m 19,600m 27,380m 37,450m
Table 5.15: TPA-24 and LNA-10 Extension Range Table. Data Rate = 2Mbps, Sen=-75dBmTX kit Omni-6/10 Omni-6/10 Omni-6(TPA)Omni-6(TPA)Uni-18/10 Uni-18/10 Uni-18/10(TPA)Uni-18/10(TPA)Uni-24/10 Uni-24/10 Uni-24/10(TPA)Uni-24/10(TPA)TX EIRP 21 21 30 30 33 33 42 42 39 39 48 48RX kit Omni-6/10 Omni-6(LNA 10)Omni-6/10Omni-6(LNA)Uni-18/10 Uni-18/10(LNA)Uni-18/10 Uni-18/10(LNA)Uni-24/10 Uni-24/10(LNA)Uni-24/10 Uni-24/10(LNA)Transmit and ReceiveAntenna Kitsfor Side ATransmit andReceive Antenna Kitsfor Side B RX Gain 48.35 48.35 16 20.35 16 20.35 22 26.35 22 26.35TX kit EIRP RX kit RXGainOmni-6/10 21 Omni-6/10 4560m 560m 560m 930m 1,650m 1,650m 1,650m 2,260m 2,550m 2,550m 2,550m 3,480mOmni-6/10 21 Omni-6 (LNA) 8.35 560m 930m 560m 930m 1,650m 2,260m 1,650m 2,260m 2,550m 3,480m 2,550m 3,480mOmni-6 (TPA) 30 Omni-6/10 4560m 560m 1,330m 1,330m 1,650m 1,650m 3,160m 3,160m 2,550m 2,550m 4,870m 4,870mOmni-6 (TPA) 30 Omni-6 (LNA) 8.35 930m 930m 1,330m 1,820m 2,260m 2,260m 3,160m 4,320m 3,480m 3,480m 4,870m 6,660mUni-18/10 33 Uni-18/10 16 1,650m 1,650m 1,650m 2,260m 3,920m 3,920m 3,920m 5,370m 6,040m 6,040m 6,040m 8,260mUni-18/10 33 Uni-18/10(LNA)20.35 1,650m 2,260m 1,650m 2,260m 3,920m 5,370m 3,920m 5,370m 6,040m 8,260m 6,040m 8,260mUni-18/10(TPA)42 Uni-18/10 16 1,650m 1,650m 3,160m 3,160m 3,920m 3,920m 7,500m 7,500m 6,040m 6,040m 11,550m 11,550mUni-18/10(TPA)42 Uni-18/10(LNA)20.35 2,260m 2,260m 3,160m 4,320m 5,370m 5,370m 7,500m 10,260m 8,260m 8,260m 11,550m 15,790mUni-24/10 39 Uni-24/10 22 2,550m 2,550m 2,550m 3,480m 6,040m 6,040m 6,040m 8,260m 9,310m 9,310m 9,310m 12,730mUni-24/10 39 Uni-24/10(LNA)26.35 2,550m 3,480m 2,550m 3,480m 6,040m 8,260m 6,040m 8,260m 9,310m 12,730m 9,310m 12,730mUni-24/10(TPA)48 Uni-24/10 22 2,550m 2,550m 4,870m 4,870m 6,040m 6,040m 11,550m 11,550m 9,310m 9,310m 17,780m 17,780mUni-24/10(TPA)48 Uni-24/10(LNA)26.35 3,480m 3,480m 4,870m 6,660m 8,260m 8,260m 11,550m 15,790m 12,730m 12,730m 17,780m 24,320m
Table 5.16: TPA-24 and LNA-10 Extension Range Table. Data Rate = 3Mbps, Sen=-67dBmTX kit Omni-6/10 Omni-6/10 Omni-6(TPA)Omni-6(TPA)Uni-18/10 Uni-18/10 Uni-18/10(TPA)Uni-18/10(TPA)Uni-24/10 Uni-24/10 Uni-24/10(TPA)Uni-24/10(TPA)TX EIRP 21 21 30 30 33 33 42 42 39 39 48 48RX kit Omni-6/10 Omni-6(LNA 10)Omni-6/10Omni-6(LNA)Uni-18/10 Uni-18/10(LNA)Uni-18/10 Uni-18/10(LNA)Uni-24/10 Uni-24/10(LNA)Uni-24/10 Uni-24/10(LNA)Transmit and ReceiveAntenna Kitsfor Side ATransmit andReceive Antenna Kitsfor Side B RX Gain 48.35 48.35 16 20.35 16 20.35 22 26.35 22 26.35TX kit EIRP RX kit RXGainOmni-6/10 21 Omni-6/10 4220m 220m 220m 370m 890m 890m 890m 1,270m 1,430m 1,430m 1,430m 1,960mOmni-6/10 21 Omni-6 (LNA) 8.35 220m 370m 220m 370m 890m 1,270m 890m 1,270m 1,430m 1,960m 1,430m 1,960mOmni-6 (TPA) 30 Omni-6/10 4220m 220m 630m 630m 890m 890m 1,780m 1,780m 1,430m 1,430m 2,740m 2,740mOmni-6 (TPA) 30 Omni-6 (LNA) 8.35 370m 370m 630m 1,030m 1,270m 1,270m 1,780m 2,430m 1,960m 1,960m 2,740m 3,740mUni-18/10 33 Uni-18/10 16 890m 890m 890m 1,270m 2,210m 2,210m 2,210m 3,020m 3,400m 3,400m 3,400m 4,650mUni-18/10 33 Uni-18/10(LNA)20.35 890m 1,270m 890m 1,270m 2,210m 3,020m 2,210m 3,020m 3,400m 4,650m 3,400m 4,650mUni-18/10(TPA)42 Uni-18/10 16 890m 890m 1,780m 1,780m 2,210m 2,210m 4,220m 4,220m 3,400m 3,400m 6,490m 6,490mUni-18/10(TPA)42 Uni-18/10(LNA)20.35 1,270m 1,270m 1,780m 2,430m 3,020m 3,020m 4,220m 5,770m 4,650m 4,650m 6,490m 8,880mUni-24/10 39 Uni-24/10 22 1,430m 1,430m 1,430m 1,960m 3,400m 3,400m 3,400m 4,650m 5,230m 5,230m 5,230m 7,160mUni-24/10 39 Uni-24/10(LNA)26.35 1,430m 1,960m 1,430m 1,960m 3,400m 4,650m 3,400m 4,650m 5,230m 7,160m 5,230m 7,160mUni-24/10(TPA)48 Uni-24/10 22 1,430m 1,430m 2,740m 2,740m 3,400m 3,400m 6,490m 6,490m 5,230m 5,230m 10,000m 10,000mUni-24/10(TPA)48 Uni-24/10(LNA)26.35 1,960m 1,960m 2,740m 3,740m 4,650m 4,650m 6,490m 8,880m 7,160m 7,160m 10,000m 13,680m
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-31 User’s Guide5.4. Available Antennas and Antenna KitsThis following table describes several transmit/receive antennas that workwell with BreezeNET PRO.11 units.Table 5.17: FCC Available Antennas (USA)Model Ant.GainCableLenKit Contains: Ideal for: Disper-sion.DimensionsH x W x DOMNI-2 2 dBi N/A 2 OMNI-2 AntennasProprietary SMAConverting “D”Models for useindoors360°H/60° V3"x.5"TubularOMNI-6 6 dBi 4-ft OMNI-6 AntennaMounting Hardware4-ft Cable AssemblyExtending indoorrange of accesspoints and stationadapters360°H/26° V13"x0.75"TubularOMNI-7.2 7.2 dBi 20-ft OMNI-7.2 AntennaMounting Hardware20-ft CableAssemblyEstablishing 360°coverage foroutdoor multipointlinks360°H/22° V16"x0.75"TubularUNI-8.5 8.5 dBi 8-ft UNI-8.5 AntennaMounting Hardware8-ft CableExtending indoorrange of accesspoints and/orstation adapters75°H/60° V4"x3.7"x1.2"UNI-8.5Ext 8.5 dBi 8-ft UNI-8.5 AntennaMounting Hardware8-ft Cable AssemblyShort rangeoutdoor multipointlinks75°H/60° V4"x3.7"x1.2"UNI-11P-75 11 dBi 30-ft UNI-11P-75Antenna MountingHardware 30-ftCable AssemblyISPs, schooldistricts, andcampus areanetworks requiringwide dispersionpatterns75°H/28° V11"x7.5"x3.5"UNI-13P 13 dBi 20-ft UNI-13P AntennaMounting Hardware20-ft CableAssemblyMedium rangeoutdoor multipointlinks46°H/28° V11"x7.5"x3.5"UNI-16P 16 dBi 30-ft UNI-16P AntennaMounting Hardware30-ft CableAssemblyMedium to longrange outdoormultipoint linksrequiring compactform factors28°H/28° V11"x11"x3.5"UNI-18 18 dBi 30-ft UNI-18 AntennaMounting Hardware30-ft CableAssemblyLong rangeoutdoor point-to-point andmultipoint links12°H/14° V16"x20"X15"UNI-24 24 dBi 50-ft UNI-24 AntennaMounting Hardware50-ft CableAssemblyLong rangeoutdoor point-to-point links6°H/10° V24"x36"x15"Table 5.18: ETSI Available Antennas (Europe and Rest-of-World)
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-32 User’s GuideModel Ant.GainCableLenKit Contains: Ideal for: Disper-sion.DimensionsH x W x DOMNI-2 2 dBi N/A 2 OMNI-2 AntennasProprietary SMAConverting “D”Models for useindoors360°H/60° V3"x.5"TubularOMNI-6 6 dBi 3m OMNI-6 Antenna90° Mount Bracket3m RG-58 CableExtending indoorrange of accesspoints and stationadapters360°H/26° V13"x0.75"TubularUNI-8.5 8.5 dBi 6m UNI-8.5 AntennaWall Mounting HW6m RG-58 CableExtending indoorrange of accesspoints and/orstation adapters75°H/60° V4"x3.7"x1.2"UNI-18/10UNI-18/15UNI-18/2018 dBi 10m15m20mUNI-18 AntennaU-bolt for poleHeliax CableLong rangeoutdoor point-to-point andmultipoint links12°H/14° V16"x20"X15"UNI-24/10UNI-24/15UNI-24 /2024 dBi 10m15m20mUNI-24 AntennaU-bolt for poleHeliax CableLong rangeoutdoor point-to-point links6°H/10° V24"x36"x15"5.5. Precautions5.5.1. Professional Installers OnlyCaution:  Detached antennas, whether installed indoors or out, should be installedONLY by experienced antenna installation professionals who arefamiliar with local building and safety codes and, wherever applicable,are licensed by the appropriate government regulatory authorities.Failure to do so may void the BreezeNET Product Warranty and mayexpose the end user to legal and financial liabilities. BreezeCOM and itsresellers or distributors are not liable for injury, damage or violation ofgovernment regulations associated with the installation of detachedantennas.5.5.2. Transmit Antenna GainRegulations regarding maximum antenna gains vary from country tocountry. It is the responsibility of the end user to operate within the limits ofthese regulations and to ensure that the professional installer is aware ofthese regulations, as well. The FCC in the United States and ETSI in Europelimit effective transit power to 36dBm (USA) and 20dBm (Europe). The
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-33 User’s Guidemaximum total assembly gain of antennas and cables in this case equals19dBi (USA) and 3dBi (Europe).Violation of government regulations exposes the end user to legal andfinancial liabilities. BreezeCOM and its resellers and distributors shall notbe liable for expense or damage incurred as a result of installations whichexceed local transmit gain limitations.5.5.3. Spurious Radio Frequency EmissionsThe regulations referred to in the previous section also specify maximum“out-of-band” radio frequency emissions. Install a filter as close as possibleto the BreezeNET PRO.11 “D” model unit connector.5.5.4. Lightning ProtectionLightning protection is designed to protect people, property and equipmentby providing a path to ground for the lightning’s energy. The lightningarrestor diverts the strike energy to ground through a deliberate andcontrolled path instead of allowing it to choose a random path. Lightningprotection for a building is more forgiving than protection of electronicdevices. A building can withstand up to 100,000 volts, but electronicequipment may be damaged by just a few volts.Lightning protection entails connecting an antenna discharge unit (alsocalled an arrestor) to each cable as close as possible to the point where itenters the building. It also entails proper grounding of the arrestors and ofthe antenna mast (if the antenna is connected to one).The lightning arrestor should be installed and grounded at the point wherethe cable enters the building. The arrestor is connected to the unit at one endand to the antenna at the other end.The professional installer you choose must be knowledgeable aboutlightning protection. The installer must install the lightning protector in away that maximizes lightning protection. BreezeCOM offers the followinghigh-quality lightning arrestor assembly:BreezeNET AL 1 Lightning Arrestor - Part No. 872905 5 ft (1.5m), “N”Male to “N” Female.
Planning and Installing Wireless LANsBreezeNET PRO.11 Series 5-34 User’s Guide5.5.5. Rain Proofing12, 18, and 24 dBi antennas must be sealed against rain at the point thecable enters the pole before they are suitable for external use.
Accessory InstallationBreezeNET PRO.11 Series 6-1User’s Guide6. ACCESSORY INSTALLATIONThis chapter introduces some of the accessories available for specificinstallations, and describes how to install them.6.1. TPA 24 Transmit Power Amplifier (Booster)The TPA 24 transmit power amplifier is used to amplify the transmit powerto a fixed output of 24 dBm (250 mW). The TPA 24 is especially usefulwhen long RF cable runs are required. In addition, the TPA 24 simplifiesantenna alignment by enabling the use of wider dispersion transmit antennas(12 dBi maximum). The TPA 24 is internally protected against lightningand voltage surge protection.There are two models:• The TPA 24 NL receives input power in the range of -10dBm to 0dBm.• The TPA 24 NH receives an input power of 0dBm to +10dBm. Bothmodels then amplify the input power to a fixed output level of 24dBm(250mW).The TPA is powered by 12VDC carried from the power inserter by the RFcable.Note: The TPA 24 is not available in the USA due to FCC regulations.When used in compliance with ETSI regulations, the TPA 24 can beconnected to cables and antennas resulting in a total transmitted power of20dBm (100 mW) EIRP.For technical specifications, refer to section 9.2.2 Specifications for TPA 24Transmit Power Amplifier.
Accessory InstallationBreezeNET PRO.11 Series 6-2User’s Guide6.1.1. Installing the TPA 24⇒⇒ To install the TPA 24:1.  Choose one of the TPA 24 models according to the power level atthe input of the booster. In general the NH model is used. Forinstallations with long cables (high attenuations), the NL modelshould be used.2. Choose one of the antenna connectors to be used for transmission.This connector is called the transmit antenna of the unit.3. Configure the BreezeNET PRO.11 unit via the Monitor to transmitthrough the transmit antenna using the Transmit Diversityparameter (see section 3.4.3).Figure 6.1:  TPA 24 Installation4. Connect the TPA 24 RF output directly to the transmit antenna.5. Attach the TPA 24 RF input to the Power Inserter with the RFcable. The Power Inserter must be installed indoors.
Accessory InstallationBreezeNET PRO.11 Series 6-3User’s Guide6. Connect the RF cable leading from the Power Inserter to thetransmit antenna on the BreezeNET PRO.11 unit.7. Plug the power cable leading from the Power Inserter into anyavailable 110/220V outlet. The power supply must be installedindoors.Note:  Installations exceeding regulations set by local authorities expose theinstaller and the user to potential legal and financial liabilities.8. For reception, use a separate antenna connected to the otherantenna connector of the BreezeNET unit.6.2. LNA 10 Low Noise Receive AmplifierThe LNA 10 is a high-performance, low-noise preamplifier designed toenhance fringe area reception and provide additional gain on the receiveantenna. Its exceptionally small size and light weight enables it to bedirectly mounted on the antenna by means of the female RF IN connector.Power is obtained through an RG-59 coaxial cable connected to the powersupply. The LNA 10 is internally protected against lightning and voltagesurge protection.The Power Supply (PS) and Power Inserter are supplied with the LNA 10.The RG-59 coaxial cable with F-type connector is not supplied and must bepurchased separately.For technical specifications, refer to Specifications for LNA 10 Low NoiseReceive Amplifier in the appendices.6.2.1. Installing the LNA 10Before installing the LNA 10, the following steps must be taken:1. Choose one of the antenna connectors to be used for reception. Thisconnector is called the receive antenna of the unit. The otherconnector is called the transmit antenna of the unit.2. Configure the BreezeNET PRO.11 unit via the Monitor to transmitthrough the transmit antenna only using the Transmit Diversityparameter (see section 3.4.3). This prevents transmission fromgoing through the LNA 10.
Accessory InstallationBreezeNET PRO.11 Series 6-4User’s Guide3. Connect the LNA 10 RF input directly to the receive antenna, asclose as possible.4. Attach the LNA 10 RF output directly to the RF cable going downto the receive antenna connector on the BreezeNET PRO.11 unit.5. Connect the RG-59 coaxial cable which leads down to the PowerInserter to the “Signal and Power out” connector on the LNA 10.6. Connect the Power Inserter to the power supply (both are indoorunits).7. For transmission, use a separate antenna connected to the otherantenna connector (transmit antenna) of the BreezeNET unit.Figure 6.2:  LNA 10 Connections Diagram
Accessory InstallationBreezeNET PRO.11 Series 6-5User’s Guide6.3. RFS 122 Radio Frequency SplitterThe RFS 122 Radio Frequency Splitter is used to split the RF signalgenerated by a transmitter into two signals. These signals are then sent totwo different and independent antennas. The RFS 122 enables radiotransmission using two directional antennas connected to the same port ofthe BreezeNET PRO.11 unit. Similarly, the splitter is used to combine tworeceiving antennas to one antenna connector.Before installing the RFS 122, configure the BreezeNET PRO.11 unit via theMonitor to transmit through Antenna 2 only using the Transmit Diversityparameter (see section 3.4.3), and connect the RFS 122 to antennaconnector 2.For technical specifications, refer to section 9.2.4, Specifications for RFS122 Radio Frequency Splitter.6.3.1. Installing the RFS 122The following diagram illustrates RFS-122 installation.Figure 6.3:  RFS-122 Connection Diagram6.4. AL 1 Lightning ArrestorThe AL 1 Lightning Arrestor is used to protect transmitters and receiversfrom transients originating from lightning or EMP.The AL 1 is gas tube-based and is not radioactive. The gas discharge tubecan sustain several transients if the time period between transients issufficient to allow the tube to cool down.
Accessory InstallationBreezeNET PRO.11 Series 6-6User’s GuideFor technical specifications, refer to section 9.2.5, Specifications for AL 1Lightning Arrestor.Figure 6.4:   AL-1 Connection Block DiagramOne of the female-type N connectors is mounted directly through a hole inthe shelter wall and held in place with a lockwasher and nut.
Upgrade ProcedureBreezeNET PRO.11 Series 7-1User’s Guide7. UPGRADE PROCEDUREFirmware upgrades to the unit's flash memory is done by a simple downloadprocedure using a TFTP application. Before beginning an upgrade, be sureyou have the correct files and latest instructions. Upgrade packages can beobtained at the BreezeCOM web site: www.breezecom.com.In general terms, upgrading includes the following steps:1. Set up an IP connection to the device. You can verify workingconnection 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 tablesbelow to determine the specific file to use, according to the unit’scurrent version. This causes the flash memory to be cleared. Do notreset the device now.4. Use TFTP to download the software file to the device. Use thetables below to determine the specific file to use, according to theunit’s current version.5. The unit resets itself and comes up with the new upgraded version.Table 7.1: Upgrade FilesSoftware Download File NameCurrent Versionof Unit Flash EraseFile Name AP-10 SA-10, SA-40, WB-103.2, 3.38, 3.42, 3.50 download eanaf eansf3.52, 4.204 erase eanafb eansfb3.62, 4.210, 4.211 fw-erase ap_fw sawb_fwThe current version and type of the unit determine the files used forupgrade.  For example, when upgrading an AP-10 from version 3.52 toversion 4.211, use the erase and eanafb files. When upgrading a SA-10from version 3.62 to version 4.211, use the fw-erase and sawb_fw files.
System TroubleshootingBreezeNET PRO.11 Series 8-1User’s Guide8. SYSTEM TROUBLESHOOTINGThe following troubleshooting guide provides answers to some of the morecommon problems which may occur when installing and using BreezeNETPRO.11 Series products. If problems not mentioned in this guide shouldarise, checking the Ethernet and WLAN counters may help (see section 8.2).If the problem persists, please feel free to contact your local distributor orthe BreezeCOM Technical Support Department.8.1. Troubleshooting GuideProblem and Indication Possible Cause Corrective ActionNo Power to Unit. PWR LED isoff.1. Power cord is not properlyconnected.2. Power supply is defective.1. Verify power cord is properly connected to theBreezeNET unit and to the power outlet.2. If this is not the cause, replace the power supply.Failure to establish wireless link.WLNK LED is off and unit resetsevery few minutes.1. Power supply to units may befaulty2. The units may not have thesame ESSID as the AP-10.1. Verify power to units (AP and SA/ WB).2. Verify that all units in the network have the same ESSIDas the AP (ESSID must be identical in all units in thenetwork):3. Verify wireless link:   •  Set AP and unit (SA or WB) side by side.   •  Power on each unit and see if a wireless link isestablished (even “D” models without their externalantennas should establish a link if placed side by side withthe AP).   •  If the units fail to associate, reset units to factorydefault values reset unit (see section 3.4.5). The unitsshould now establish a wireless link.Failure to establish wireless link(“D” models/external antennas)1. Power supply to units may befaulty.2. Cables may be improperlyconnected3. There may be some problemwith antenna installation.1. Verify power to units.2. Verify that all cables are connected securely.3. Refer to previous section and verify wireless linkbetween the units.4. Verify that the antenna(s) are properly installed (seerelevant section in this manual):   •  Check antenna alignment.   •  Verify that antenna polarization is the same at bothends.   •  Verify that the range matches specifications.   •  Verify line-of-sight/antenna alignment/antenna height.Wireless link established, butthere is no Ethernet activity (APand WB units).1. Ethernet hub port or UTPcable is faulty.2. Ethernet port in unit is faulty.1. Check that the LINK LED is on and solid at the hub port.If this is not the case, the port is inactive. Try another porton the hub or another UTP cable.2. Verify that Ethernet port in unit is working. Ping unit toverify Ethernet connection.3. Verify that you are using a cross-over UTP cable (pins 1
System TroubleshootingBreezeNET PRO.11 Series 8-2User’s GuideProblem and Indication Possible Cause Corrective Action& 3, 2 & 6) if connected directly to workstation, or astraight-through cable if connected to a hub.4. Check ETHR LED indicator in unit and Ethernetcounters in Monitor to verify Ethernet activity (see section3.6.1).Wireless link established, butthere is no Ethernet activity (SA-10 and SA-40 units).1. Ethernet port on NetworkInterface card is faulty.2. Ethernet port of unit is faulty.3. UTP cable is faulty.1. Verify that the LINK LED is lit and solid at the NIC port.If this is not the case, the port is inactive. Try usinganother UTP cable or another workstation.2. Ping the unit to check the Ethernet port. If you cannotping the unit, this may indicate failure of cable, Ethernetport of unit or Ethernet port of workstation’s NIC. ChangeUTP cable and retry. If you still cannot ping the unit,exchange units and try to ping the new unit using thesame NIC and cable.No network detected at StationAdapter (SA-10, SA-40)workstation.1. Workstation networking isimproperly configured.2. UTP cable connection is faulty.3. Failure to pass Ethernetpackets.1. Reset both Access Point and Station Adapter.   •  Re-establish network connection.   •  Verify proper workstation network configuration.2. Try to ping the remote network. Failure to detect thenetwork may indicate a failure to pass Ethernet packets.3. Verify UTP cable connection. Solid LINK LED inworkstation NIC indicates proper Ethernet connection.4. Check monitor messages for errors or other indicationsof problems.5. Check station counters to verify increase in Ethernetcounters which indicates Ethernet activity (see section3.6.1).High quality signal but throughputis poor.1. Too much interference ormultipath propagation.2. Ethernet port of the unit maybe faulty.1. Move the unit or the antennas out of the range ofinterference.  •  Check counters to see if more than 10% of totaltransmitted frames are retransmitted fragments (seesection 3.6.1).   •  Check if more than 10% of total received data framesare bad fragments (see section 3.6.1).2. Verify Ethernet port activity by checking Ethernetcounters (see section 3.6.1).Link signal quality low or not asgood as expected (indoorinstallation).1. Possible multipath or structuralinterference.Reposition the unit outside range of possible interference.   •  Check for heavy metal structures (e.g. elevators,racks, file cabinets) near unit.   •  Check counters for excessive retransmissions orreceived bad fragments.   •  Site may require higher gain antennas.   • site may require a multicell structure (multiple AP units)due to multipath/structural interference.Link signal quality low or not asgood as expected (outdoorinstallation).There may be a problem withcertain aspects of outdoorinstallation considerations (seerelevant section in this manual).Refer to section 5.3, Outdoor Installation Considerations:   •  Verify that there is a clear line-of-site.   •  Verify antenna height.   •  Verify antenna polarization.   •  Verify antenna alignment.   •  Check length of cable between antenna and unit (an
System TroubleshootingBreezeNET PRO.11 Series 8-3User’s GuideProblem and Indication Possible Cause Corrective Actionoverly long extension cable may adversely affectperformance).Unit associates with the wrongAccess Point.In a multicell structure withoverlapping cells, the units maynot associate with the closestAccess Point.For a unit to associate with a specific Access Point, assigna uniqueESSID to the Access Point and to all the units you want toinclude in that wireless network.Reduced performance in a multi-AP configuration.The APs in the same coveragearea have not been assignedunique hopping sequences.Assign a unique hopping sequence to each AP in thecoverage area. Each AP must have a unique hoppingsequence regardless of ESSID.Rx / Tx calibrationerror messages.Auto Calibration is enabled for a“DE” unit.Disable Auto Calibration for the unit (refer to section 3.5).8.2. Checking CountersChecking counters is also a good way to pinpoint any problems that mayoccur in the BreezeNET wireless LAN. Counters can be checked from themonitor. See section 3.6.1.8.2.1. WLAN CountersWhen checking WLAN counters, total retransmitted fragments should bebelow 10% of total transmitted (bridge) frames. If total retransmittedfragments are above 10%, this indicates errors in data transmission. Toomany retransmissions may be an indication of interference between thetransmitting and receiving units. Also, the ratio between Frames Dropped(too many retries) and Total Transmitted Frames (Bridge) should not exceed1:40 (2.5%)Received bad fragments should be no more than 10% of the total receiveddata frames. If more than 10% of the total received data frames are badfragments, this may indicate that there is a problem with the wireless link.Refer to the Troubleshooting guide (section 8) above for possible correctiveaction.8.2.2. Ethernet CountersWhen checking the Ethernet counters, received bad frames should be zero(0). If this is not the case, this may indicate a problem with the Ethernetconnection. Verify Ethernet port link at hub, workstation, and unit. Assign aunique IP address to the unit and ping.
AppendixBreezeNET PRO.11 Series 9-1User’s Guide9. APPENDIXThis appendix includes the following sections:• Supported MIBs and Traps – Lists MIBs and traps supported byBreezeNET PRO.11 Series products.• Technical Specifications – Lists product and attachment specifications.• Wireless LAN Concepts – Provides an overview of the concepts relatedto wireless LANs.• Radio Signal Propagation – Discusses the concepts and applications ofradio signal propagation relevant to wireless LANs.• IEEE 802.11 Technical Tutorial – Introduces the new 802.11 standard.9.1. Supported MIBs and TrapsThis chapter lists MIBs and traps supported by BreezeNET PRO.11 Seriesproducts.9.1.1. Supported MIBsAll products in the BreezeNET PRO.11 Series as well as the Extended RangeAccess Point (AP-10 DE) and Workgroup Bridge (WB-10 DE) contain anembedded SNMP (Simple Network Management Protocol) agent. Allfunctions can be accessed from the Management Information Base (MIB)using an SNMP application.BreezeNET PRO.11 Series agents support the following MIBs:• MIB-II (RFC1213)• BRIDGE-MIB (RFC1286)• BreezeCOM Private MIBThe BreezeCOM Private MIB can be viewed by opening the MIB file on theprovided diskette.
AppendixBreezeNET PRO.11 Series 9-2User’s Guide9.1.2. Supported TrapsThe following traps are implemented by BreezeNET PRO.11 units. AllBreezeNET PRO.11 units with enabled Trap Sending will send traps to thenetwork’s designated managers. The traps can be viewed and filtered usingSNMPc.To enable/disable Trap Sending for a device, use the IP and SNMPParameters menu (see section 3.4.2).The following table lists the traps implemented by BreezeCOM PRO.11units:Trap Variables DescriptionbrzAProamingIn brzTrapSTAMacAddr A station has roamed into this AP coverage area. The trapcontains the MAC address of the associated station.brzAPassociated brzTrapSTAMacAddr A new station is associated with this AP. The trap containsthe MAC address of the associated station.brzAPdisassociated brzTrapSTAMacAddr A station has disassociated itself from this AP. The trapcontains the MAC address of the associated station.brzAPaging brzTrapSTAMacAddr A station association was aged out and removed from thisAP. The trap contains the MAC address of the aged-outstation.brzAProamedout brzTrapSTAMacAddr A station has roamed out of this AP’s range. The trapcontains the MAC address of the station that roamed out.brzSTAassociated brzLastAPMacAddrbrzTrapAPMacbrzTrapLastRssiQualitybrzTrapRssiQualityA station has become associated with, or roamed to, a newAP. The trap contains the MAC address and average RSSIlevel of the new AP (TrapAPMac and TrapRssiQualityvariables). If the station has been roaming, the MACaddress of the old AP and the RSSI level prior to roamingare also provided (LastAPMacAddr and LastRssiQualityvariables). For an association, the second address appearsas all zeros.brzWlanStatus brzTrapTogglebrzTrapMacAddressThe wireless media condition has changed. An ON value issent when the wireless LAN quality for a station or AP dropsbelow the WLAN trap threshold. An OFF value is sent if thequality improves beyond the threshold. The current value ofwireless LAN quality is also sent.brzWlanStatusOfStation brzTrapTogglebrzTrapMacAddressThe quality of the wireless connection to the AP haschanged. An ON value is sent when the connection goeslower than the predetermined threshold. An OFF value issent when the quality improves above the threshold. ThebrzTrapMacAddress variable contains the MAC address ofthe applicable station.brzGeneral brzTrapIndexbrzTrapTextFor future use.
AppendixBreezeNET PRO.11 Series 9-3User’s Guide9.2. Technical Specifications9.2.1. Specifications for BreezeNET PRO.11 UnitsThe following table provides the technical specifications for all products inthe BreezeNET PRO.11 Series.Technical Specifications AP-10 PRO.11, SA-10/40 PRO.11,WB-10 PRO.11 SA-PCR PRO.11SA-PCD PRO.11Wired LAN interfaceCompliant with Ethernet / IEEE 802.3 CSMA/CD standard N/APhysical Interface 10BaseT PC Card type II /PCMCIA 2.1Network Operating Systems supported All Windows 95, 98, NT4Network protocols supported All NDISWireless LAN interfaceCompliant with IEEE 802.11 CSMA / CA Wireless LAN standardPhysical interface – two antennas Integrated or ExternalRadio SpecificationsType Frequency Hopping Spread Spectrum (FHSS)Frequency range 2.4 GHz – 2.4835 GHz (ISM band)(different ranges available for countries using other bands)Dwell time 32, 64, 128 msTransmitted power:     - integrated antennas Up to 100 mW (20dBm) EIRPD models:- High Power (at the connector): 17dBm (50mW)- Low Power (at the connector): 4dBm (25 mW)Transmitted power:     - external antennasDE models:At the connector: 0.01mW (-2dBm)N/ASensitivity             - @ 1 Mbps                             - @ 2 Mbps                             - @ 3 Mbps- 81 dBm- 75 dBm- 67 dBmModulation Multilevel GFSKDemodulation Technology DSP-based with adaptive equalizationAntenna Diversity Two antennas, selected for use on a packet basisFrequency Accuracy +/- 10 PPMApprovals of Compliance FCC part 15, ETS 300-328, UL, UL/C, TUV/GS, CE
AppendixBreezeNET PRO.11 Series 9-4User’s GuideTechnical Specifications AccessPointsAP-10 PRO.11StationAdaptersSA-10/40 PRO.11EthernetBridgesWB-10 PRO.11SA-PCR/SA-PCDAdaptersSA-PC PRO.11Configuration and ManagementConfiguration and Setup Via Local Monitor port (serial RS-232) Via ApplicationSNMP management                                  - SNMP agents                                  - Access viaMIB II, Bridge MIB, WLAN MIB, and private MIBWired LAN, Wireless LANN/ASite Survey Via Local Monitor port (serial RS-232)Via SNMPVia ApplicationFront Panel Display LED indicators - Power on- Wired LAN activity- Wireless LAN synchronization- Wireless LAN signal quality/Load- Link Status- Data TrafficS/W upgradeable Through TFTP download via PCSystem ConsiderationsRange (Access Point to Station) Depends on rate and antenna cable length/quality.(Accurate values must be calculated for specific installations. )Refer to section 5.3.7, Using Outdoor Range Tables.- Range - unobstructed with integrated                antennas2000 ft. (600m) 1500 ft. (450m)- Range - unobstructed with external                antennas (models D and DE)USA FCC - up to 6 milesEurope ETSI - up to 2.5 kmEurope ETSI (DE model only) - up to 5 kmNon-Regulated - 30 km and aboveN/A- Range - Office Environment Up to 500 ft. (150m)Maximum no. of APs per wired LAN UnlimitedMaximum no. of co-located (overlapping)cells (Access Points)15Data Rate            - over the air                            - nominal net                            - aggregate1, 2, or 3 MbpsUp to 2 MbpsOver 5 Mbps with overlapped cellsHigh Speed roaming up to 60 mph (90 kph)Load sharing support yes (with WIX)Dynamic rate selection based on radiomedium qualityYes
AppendixBreezeNET PRO.11 Series 9-5User’s GuideTechnical Specifications AccessPointsAP-10 PRO.11StationAdaptersSA-10/40 PRO.11EthernetBridgesWB-10 PRO.11SA-PCR/SA-PCDAdaptersSA-PC PRO.11ElectricalExternal Power Supply 100V - 250V, 50-60Hz, 0.5A via network PCInput Voltage 5Vdc 5VdcPower Consumption 1.5A (peak)1.2A (average)- XMT 365mA (peak)- RCV 280mA (peak)Dimensions (without antennasand power supply)5.1” x 3.4” x 1.35”(13cm x 8.6cm x 3cm)standard PCMCIAType IIWeight (without antennas andpower supply)0.9 lb. (0.4 kg.) 1.1 oz (32 gr.)EnvironmentalOperating Temperature 32° F - 105° F (0° C - 40° C)Operating Humidity 5% - 95% non-condensingNote: All specifications are subject to change without notice.
AppendixBreezeNET PRO.11 Series 9-6User’s Guide9.2.2. Specifications for TPA 24 Transmit Power AmplifierModels used with theBreezeNET PRO.11 Series• TPA 24 NL• TPA 24 NH Input Power • TPA 24 NL: -10dBm - 0dBm (Low input)• TPA 24 NH: 0dBm - +10dBm (High input)Output Power 24 dBm (250mW) (fixed output level)Input Impedance 50ΩOutput Impedance 50Ω (DC short)Operating Temperature -20° to 50°CPower Requirements 12V; 420 mA (Power Supply and Power Inserter are supplied with models TPA-24 NL and TPA-24 NH)Connectors • TPA 24: IN - N-type Male                OUT - N-type Female• Power Inserter: RF - N-type Male                            RF&DC - N-type FemaleDimensions 70mm x 150mm x 25mm (2.8”x 6”x 1”)Operating Environment • TPA 24 - For outdoor/indoor use• Power Supply - For indoor use• Power Inserter - For indoor useNote: All specifications are subject to change without notice.
AppendixBreezeNET PRO.11 Series 9-7User’s Guide9.2.3. Specifications for LNA 10 Low Noise ReceiveAmplifierGain 10dBNoise Figure 1.5dB Typ, 2dB Max.Response Flatness ± 1.5dBMax. RF Input Level -15dBmInput Impedance 50ΩOutput Impedance 50ΩConnectors • LNA-10: RF IN: N-type, female                RF OUT: N-type, male                Signal and Power IN: not in use                Signal and Power OUT: F-type, female• Power Inserter: To CONV - F-type, female                            To TV - F-type, femalePower Supply:Required VoltageRequired Current+12V to +28Vdc20mAOperating Temperature -20° C to +50° CDimensions 60mm x 35mm x 25mm(2.3”x 1.3”x 1”)Operating Environment LNA 10 - outdoor/indoorPower Supply - indoorPower inserter - indoorNote: All specifications are subject to change without notice.
AppendixBreezeNET PRO.11 Series 9-8User’s Guide9.2.4. Specifications for RFS 122 Radio FrequencySplitterInsertion Loss 3.8dB max.Isolation 19dB min.Power Rating 10 W max.Internal Load Dissipation 125 mW max.Input Impedance 50ΩOutput Impedance 50ΩConnectors • SUM: N-type, Male• PORTS: N-type, Female (on each port)Operating Temperature -20° C to +85° CDimensions 51mm x 51mm x 19mm (2” x 2” x  0.75”)Operating Environment Outdoor/IndoorNote: All specifications are subject to change without notice.9.2.5. Specifications for AL 1 Lightning ArrestorTurn on voltage 75VInsertion loss 0.3dB typicalDC path from input to output existingOperating Temperature -55° C to +70° CDimensions 67.5mm x 25mm x 25mm (2.7” x 1” x 1”)Connectors • Antenna Port: N-type, Female•  Equipment Port: N-type, FemaleOperating Environment Indoor/OutdoorGrounding One of the female-type N connectors is mounted directly through a hole in theshelter wall and held in place with a lockwasher and nut.Note: All specifications are subject to change without notice.
AppendixBreezeNET PRO.11 Series 9-9User’s Guide9.3. Wireless LAN ConceptsWireless LAN technology is becoming increasingly popular for a widevariety of applications. After evaluating the technology, users are convincedof its reliability, more than satisfied with its performance, and are ready touse it for large-scale and complex wireless networks.Originally designed for indoor office applications, today’s wireless LANscan be used for both indoor client-server and peer-to-peer networks as wellas for outdoor point-to-point and point-to-multipoint remote bridgingapplications.Wireless LANs are designed to be modular and very flexible. They can alsobe optimized for different environments. For example, point-to-pointoutdoor links are less susceptible to interference and can have higherperformance if designers increase the “dwell time” and disable the “collisionavoidance” and “fragmentation” mechanisms described later in this section.TopologyWired LAN TopologyTraditional LANs (Local Area Networks) link PCs and other computers toone another and to file servers, printers and other network equipment usingcables or optic fibers as the transmission medium.Figure 9.1: Wired LAN Topology
AppendixBreezeNET PRO.11 Series 9-10 User’s GuideWireless LAN TopologyWireless LANs allow workstations to communicate and to access thenetwork using radio propagation as the transmission medium. WirelessLANs can be connected to existing wired LANs as an extension, or canform the basis of a new network. While adaptable to both indoor andoutdoor environments, wireless LANs are especially suited to indoorlocations such as office buildings, manufacturing floors, hospitals anduniversities.The basic building block of the wireless LAN is the Cell. This is the area inwhich wireless communication takes place. The coverage area of a celldepends on the strength of the propagated radio signal and the type andconstruction of walls, partitions and other physical characteristics of theindoor environment. PC-based workstations, notebook and pen-basedcomputers can move freely in the cell.Figure 9.2: The Basic Wireless LAN Cell
AppendixBreezeNET PRO.11 Series 9-11 User’s GuideEach wireless LAN cell requires some communications and trafficmanagement. This is coordinated by an Access Point (AP) whichcommunicates with each wireless station in its coverage area. Stations alsocommunicate with each other via the AP, so communicating stations can behidden from one another. In this way, the AP functions as a relay, extendingthe range of the system.The AP also functions as a bridge between the wireless stations and thewired network and the other wireless cells. Connecting the AP to thebackbone or other wireless cells can be done by wire or by a separatewireless link, using wireless bridges. The range of the system can beextended by cascading several wireless links, one after the other.Figure 9.3: Wireless LAN Connectivity
AppendixBreezeNET PRO.11 Series 9-12 User’s GuideRoamingWhen any area in the building is within reception range of more than oneAccess Point, the cells’ coverage is said to overlap. Each wireless stationautomatically establishes the best possible connection with one of theAccess Points. Overlapping coverage areas are an important attribute of thewireless LAN setup, because this enables seamless roaming betweenoverlapping cells.Figure 9.4: Roaming Through Overlapping CellsRoaming allows mobile users with portable stations to move freely betweenoverlapping cells, constantly maintaining their network connection.Roaming is seamless: a work session can be maintained while moving fromone cell to another. Multiple Access Points can provide wireless coveragefor an entire building or campus. When the coverage area of two or moreAPs overlap, the stations in the overlapping area can establish the bestpossible connection with one of the APs, continuously searching for the bestAP. In order to minimize packet loss during switchover, the “old” and“new” APs communicate to coordinate the process.Load BalancingCongested areas with many users and heavy traffic load per unit may requirea multi-cell structure. In a multi-cell structure, several co-located APs“illuminate” the same area creating a common coverage area whichincreases aggregate throughput. Stations inside the common coverage areaautomatically associate with the AP that is less loaded and provides the bestsignal quality. The stations are equally divided between the APs in order to
AppendixBreezeNET PRO.11 Series 9-13 User’s Guideequally share the load between all APs. Efficiency is maximized because allAPs are working at the same low level load. Load balancing is also knownas load sharing.Figure 9.5: The Common Coverage Area of a Multi-cell StructureDynamic Rate SwitchingThe data rate of each station is automatically adjusted according to thereceived signal quality. Performance (throughput) is maximized byincreasing the data rate and decreasing re-transmissions. This is veryimportant for mobile applications where the signal quality fluctuatesrapidly, but less important for fixed outdoor installations where signalquality is stable.Media AccessWhen many users are located in the same area, performance becomes anissue. To address this issue, wireless LANs use the Carrier Sense MultipleAccess (CSMA) algorithm with a Collision Avoidance (CA) mechanism inwhich each unit senses the medium before it starts to transmit.
AppendixBreezeNET PRO.11 Series 9-14 User’s GuideIf the medium is free for several microseconds, the unit can transmit for alimited time. If the medium is busy, the unit will back off for a random timebefore it senses again. Since transmitting units compete for air time, theprotocol should ensure equal fairness between the stations.FragmentationFragmentation of packets into shorter fragments adds protocol overhead andreduces protocol efficiency when no errors are expected, but reduces thetime spent on re-transmissions if errors are likely to occur. Nofragmentation or longer fragment length adds overhead and reducesefficiency in case of errors and re-transmissions (multi-path).Collision AvoidanceTo avoid collisions with other incoming calls, each station transmits a shortRTS (Request To Send) frame before the data frame. The Access Pointsends back a CTS (Clear To Send) frame with permission to start the datatransmission. This frame includes the time that this station is going totransmit. This frame is received by all the stations in the cell, notifying themthat another unit will transmit during the following Xmsec, so they can nottransmit even if the medium seems to be free (the transmitting unit is out ofrange).ChannelizationUsing Frequency Hopping Spread Spectrum (FHSS), different hoppingsequences are assigned to different co-located cells. Hopping sequences aredesigned so different cells can work simultaneously using differentchannels.Since hopping sequences and hopping timing of different cells cannot besynchronized (according to FCC regulations), different cells might try to usethe same channel occasionally. Then, one cell uses the channel while theother cell backs off and waits for the next hop. In the case of a very noisyenvironment (multiples and interference), the system must hop quickly. Ifthe link is quiet and clean, it is better to hop slowly, reducing overhead andincreasing efficiency.
AppendixBreezeNET PRO.11 Series 9-15 User’s Guide9.4. Radio Signal Propagation9.4.1. IntroductionThis section explains and simplifies many of the terms relating to antennasand RF (Radio Frequency) used when dealing with an RF installationsystem.The following diagram depicts a typical radio system:Figure 9.6: A Typical Radio SystemA radio system transmits information to the transmitter. The information istransmitted through an antenna which converts the RF signal into anelectromagnetic wave. The transmission medium for electromagnetic wavepropagation is free space.The electromagnetic wave is intercepted by the receiving antenna whichconverts it back to an RF signal. Ideally, this RF signal is the same as thatoriginally generated by the transmitter. The original information is thendemodulated back to its original form.9.4.2. RF Terms and DefinitionsdBThe dB convention is an abbreviation for decibels. It is a mathematicalexpression showing the relationship between two values.
AppendixBreezeNET PRO.11 Series 9-16 User’s GuideRF Power LevelRF power level at either the transmitter output or the receiver input isexpressed in Watts. It can also be expressed in dBm. The relation betweendBm and Watts can be expressed as follows:PdBm = 10 x Log PmwFor example:  1 Watt = 1000 mW; PdBm = 10 x Log 1000 = 30 dBm100 mW; PdBm = 10 x Log 100 = 20 dBmFor link budget calculations, the dBm convention is more convenient thanthe Watts convention.AttenuationAttenuation (fading) of an RF signal is defined as follows:Figure 9.7: Attenuation of an RF signalPin is the incident power level at the attenuator inputPout is the output power level at the attenuator outputAttenuation is expressed in dB as follows:PdB = -10 x Log (Pout/Pin)For example:  If, due to attenuation, half the power is lost (Pout/Pin = 1/2),attenuation in dB is -10 x Log (1/2) = 3dBPath LossLoss of power of an RF signal travelling (propagating) through space. It isexpressed in dB. Path loss depends on:• The distance between transmitting and receiving antennas• Line of sight clearance between the receiving and transmitting antennas• Antenna height
AppendixBreezeNET PRO.11 Series 9-17 User’s GuideFree Space LossAttenuation of the electromagnetic wave while propagating through space.This attenuation is calculated using the following formula:Free space loss = 32.4 + 20xLog(FMhz) + 20xLog(RKm)F is the RF frequency expressed in Mhz.R is the distance between the transmitting and receiving antennas.At 2.4 Ghz, this formula is: 100+20xLog(RKm)Antenna CharacteristicsIsotropic AntennaA hypothetical, lossless antenna having equal radiation intensity in alldirections. Used as a zero dB gain reference in directivity calculation (gain).Antenna GainA measure of directivity. It is defined as the ratio of the radiation intensityin a given direction to the radiation intensity that would be obtained if thepower accepted by the antenna was radiated equally in all directions(isotropically). Antenna gain is expressed in dBi.Radiation PatternA graphical representation in either polar or rectangular coordinates of thespatial energy distribution of an antenna.Side LobesThe radiation lobes in any direction other than that of the main lobe.Omni-directional AntennaRadiates and receives equally in all directions in azimuth. The followingdiagram shows the radiation pattern of an omnidirectional antenna with itsside lobes in polar form.
AppendixBreezeNET PRO.11 Series 9-18 User’s GuideFigure 9.8: Side ViewFigure 9.9: Top ViewDirectional AntennaRadiates and receives most of the signal power in one direction. Thefollowing diagram shows the radiation pattern of a directional antenna withits side lobes in polar form:Figure 9.10: Radiation Pattern of Directional AntennaAntenna BeamwidthThe directiveness of a directional antenna. Defined as the angle between twohalf-power (-3 dB) points on either side of the main lobe of radiation.
AppendixBreezeNET PRO.11 Series 9-19 User’s GuideSystem CharacteristicsReceiver SensitivityThe minimum RF signal power level required at the input of a receiver forcertain performance (e.g. BER).EIRP (Effective Isotropic Radiated Power)The antenna transmitted power. Equal to the transmitted output powerminus cable loss plus the transmitting antenna gain.Pout   Output power of transmitted in dBmCt Transmitter cable attenuation in dBGt Transmitting antenna gain in dBiGr Receiving antenna gain in dBiPl Path loss in dBCr Receiver cable attenuation is dBSi Received power level at receiver input in dBmPs Receiver sensitivity is dBmSi = Pout - Ct + Gt - Pl + Gr - CrEIRP = Pout - Ct + GtExample:Link Parameters:Frequency: 2.4 GhzPout = 4 dBm (2.5 mW)Tx and Rx cable length (Ct and Cr) = 10 m. cable type RG214 (0.6 dB/meter)Tx and Rx antenna gain (Gt and Gr) = 18 dBiDistance between sites = 3 KmReceiver sensitivity (Ps) = -84 dBm
AppendixBreezeNET PRO.11 Series 9-20 User’s GuideLink Budget CalculationEIRP = Pout - Ct + Gt = 16 dBmPl = 32.4 + 20xLog(FMhz) + 20xLog(RKm) ≅ 110 dBSi = EIRP - Pl + Gr - Cr = -82 dBmIn conclusion, the received signal power is above the sensitivity threshold,so the link should work. The problem is that there is only a 2 dB differencebetween received signal power and sensitivity. Normally, a higher margin isdesirable due to fluctuation in received power as a result of signal fading.Signal FadingFading of the RF signal is caused by several factors:• MultipathThe transmitted signal arrives at the receiver from different directions, withdifferent path lengths, attenuation and delays. The summed signal at thereceiver may result in an attenuated signal.Figure 9.11: Multipath Reception• Bad Line of SightAn optical line of sight exists if an imaginary straight line can connectthe antennas on either side of the link.Radio wave clear line of sight exists if a certain area around the opticalline of sight (Fresnel zone) is clear of obstacles. A bad line of sight existsif the first Fresnel zone is obscured.• Link Budget Calculations• Weather conditions (Rain, wind, etc.)
AppendixBreezeNET PRO.11 Series 9-21 User’s GuideAt high rain intensity (150 mm/hr), the fading of an RF signal at 2.4 GHzmay reach a maximum of 0.02 dB/KmWind may cause fading due to antenna motion• InterferenceInterference may be caused by another system on the same frequencyrange, external noise, or some other co-located system.The Line of Sight ConceptAn optical line of sight exists if an imaginary straight line can be drawnconnecting the antennas on either side of the link.Clear Line of SightA clear line of sight exists when no physical objects obstruct viewing oneantenna from the location of the other antenna.A radio wave clear line of sight exists if a defined area around the opticalline of sight (Fresnel Zone) is clear of obstacles.Fresnel ZoneThe Fresnel zone is the area of a circle around the line of sight.The Fresnel Zone is defined as follows:Figure 9.12: Fresnel ZoneR = ½ √ (λxD)      R: radius of the first Fresnel zoneλ: wavelength
AppendixBreezeNET PRO.11 Series 9-22 User’s GuideD: distance between sitesFigure 9.13: Fresnel Zone Clear of ObstaclesWhen at least 80% of the first Fresnel Zone is clear of obstacles,propagation loss is equivalent to that of free space.9.5. IEEE 802.11 Technical TutorialThe purpose of this chapter is to give technical readers a basic overview ofthe new IEEE 802.11 Standard, enabling them to understand the basicconcepts, principles of operation, and the reasons behind some of thefeatures and/or components of the Standard.The document does not cover the entire Standard and does not provideenough information for the reader to implement an 802.11-compliant device(for this purpose the reader should refer to the Standard itself).9.5.1. Architecture ComponentsAn 802.11 LAN is based on a cellular architecture where the system issubdivided into cells. Each cell (called Basic Service Set, or BSS, in the802.11 nomenclature) is controlled by a Base Station (called Access Pointor, in short, AP).Although a wireless LAN may be formed by a single cell, with a singleAccess Point, (and as will be described later, it can also work without anAccess Point), most installations will be formed by several cells, where the
AppendixBreezeNET PRO.11 Series 9-23 User’s GuideAccess Points are connected through some kind of backbone (calledDistribution System or DS). This backbone is typically Ethernet but, insome cases, might be wireless itself.The whole interconnected wireless LAN, including the different cells, theirrespective Access Points and the Distribution System, is seen as a single 802network to the upper layers of the OSI model and is known in the Standardas the Extended Service Set (ESS).The following diagram shows a typical 802.11 LAN including thecomponents described above:Figure 9.14: Typical 802.11 LANThe standard also defines the concept of a Portal. A portal is a device thatinterconnects between an 802.11 and another 802 LAN. This concept is anabstract description of part of the functionality of a “translation bridge”.Even though the standard does not necessarily require it, typical installationswill have the AP and the Portal on a single physical entity. This is also thecase with BreezeCOM’s AP which provides both functions.9.5.2. IEEE 802.11 Layers DescriptionAs in any 802.x protocol, the 802.11 protocol covers the Media AccessControl Layer (MAC) and Physical Layer (PHY). The Standard currentlydefines a single MAC which interacts with three PHYs (all of them runningat 1 or 2 Mbit/s) as follows:
AppendixBreezeNET PRO.11 Series 9-24 User’s Guide• Frequency Hopping Spread Spectrum (FHSS) in the 2.4 GHz Band• Direct Sequence Spread Spectrum (DSSS) in the 2.4 GHz Band, and• InfraRed802.2802.11 MACData LinkLayerFH DS IR PHY LayerBeyond the standard functionality usually performed by MAC Layers, the802.11 MAC performs other functions that are typically related to upperlayer protocols, such as Fragmentation, Packet Retransmissions, andAcknowledges.9.5.3. The MAC LayerThe MAC Layer defines two different access methods, the DistributedCoordination Function and the Point Coordination Function:9.5.3.1 The Basic Access Method: CSMA/CAThe basic access mechanism, called the Distributed CoordinationFunction, is basically a Carrier Sense Multiple Access with CollisionAvoidance mechanism (known as CSMA/CA). CSMA protocols are well-known in the industry, the most popular being Ethernet, which is a CSMA/CD protocol (CD standing for Collision Detection).A CSMA protocol works as follows: A station desiring to transmit sensesthe medium. If the medium is busy (i.e. some other station is transmitting)then the station defers its transmission to a later time. If the medium seemsfree then the station is allowed to transmit.These kinds of protocols are very effective when the medium is not heavilyloaded since it allows stations to transmit with minimum delay. But there isalways a chance of two or more stations simultaneously sensing the mediumas being free and transmitting at the same time, causing a collision.These collision situations must be identified so the MAC layer canretransmit the packet itself, not by the upper layers, to avoid significantdelay. In the Ethernet case, a collision is recognized by the transmittingstations which listen while transmitting and go into a retransmission phasebased on an exponential random backoff algorithm.
AppendixBreezeNET PRO.11 Series 9-25 User’s GuideWhile these Collision Detection Mechanisms are a good idea on a wiredLAN, they cannot be used on a wireless LAN environment for two mainreasons: 1.  Implementing a Collision Detection Mechanism would require theimplementation of a Full-Duplex radio capable of transmitting andreceiving at the same time, an approach that would increase the pricesignificantly. 2.  In a wireless environment we cannot assume that all stations can heareach other (a basic assumption of the Collision Detection scheme), andthe fact that a station wants to transmit and senses the medium as freedoesn’t necessarily mean that the medium is free around the receiver’sarea.In order to overcome these problems, 802.11 uses a Collision Avoidance(CA) mechanism together with a Positive Acknowledge scheme, as follows: 1.  A station wanting to transmit senses the medium. If the medium is busythen it delays. If the medium is free for a specified time (called Distrib-uted Inter Frame Space (DIFS) in the standard), then the station isallowed to transmit. 2.  The receiving station checks the CRC of the received packet and sendsan acknowledgment packet (ACK). Receipt of the acknowledgment indi-cates to the transmitter that no collision occurred. If the sender does notreceive the acknowledgment, then it retransmits the fragment until iteither receives acknowledgment or is thrown away after a given numberof retransmissions.9.5.3.2 Virtual Carrier SenseIn order to reduce the probability of two stations colliding because theycannot hear each other, the standard defines a Virtual Carrier Sensemechanism:A station wanting to transmit a packet first transmits a short control packetcalled RTS (Request To Send), which includes the source, destination, andthe duration of the following transaction (i.e. the packet and the respectiveACK), the destination station responds (if the medium is free) with aresponse control Packet called CTS (Clear to Send), which includes thesame duration information.All stations receiving either the RTS or the CTS, set their Virtual CarrierSense indicator (called NAV, for Network Allocation Vector), for the
AppendixBreezeNET PRO.11 Series 9-26 User’s Guidegiven duration, and use this information together with the Physical CarrierSense when sensing the medium.This mechanism reduces the probability of a collision on the receiver areaby a station that is “hidden” from the transmitter to the short duration of theRTS transmission because the station hears the CTS and “reserves” themedium as busy until the end of the transmission. The duration informationon the RTS also protects the transmitter area from collisions during theACK (from stations that are out of range of the acknowledging station).It should also be noted that, due to the fact that the RTS and CTS are shortframes, the mechanism also reduces the overhead of collisions, since theseare recognized faster than if the whole packet was to be transmitted. (This istrue if the packet is significantly bigger than the RTS, so the standard allowsfor short packets to be transmitted without the RTS/CTS transmission. Thisis controlled per station by a parameter called RTS Threshold).The following diagrams show an exchange between stations A and B, andthe NAV setting of their neighbors:Figure 9.15: Transaction Between Stations A and BThe NAV State is combined with the physical carrier sense to indicate thebusy state of the medium.9.5.3.3 MAC Level AcknowledgmentsAs mentioned earlier in this document, the MAC layer performs CollisionDetection by expecting the reception of an acknowledge to any transmittedfragment (Packets that have more than one destination, such as Multicasts,are not acknowledged.)
AppendixBreezeNET PRO.11 Series 9-27 User’s Guide9.5.3.4 Fragmentation and ReassemblyTypical LAN protocols use packets several hundred bytes long (the longestEthernet packet could be up to 1518 bytes long).There are several reasons why it is preferable to use smaller packets in awireless LAN environment:• Due to the higher Bit Error Rate of a radio link, the probability of apacket getting corrupted increases with the packet size.• In case of packet corruption (either due to collision or noise), the smallerthe packet, the less overhead it causes to retransmit it.• On a Frequency Hopping system, the medium is interrupted periodicallyfor hopping (in our case every 20 milliseconds), so, the smaller thepacket, the smaller the chance that the transmission will be postponedafter dwell time.However, it doesn’t make sense to introduce a new LAN protocol thatcannot deal with packets 1518 bytes long which are used on Ethernet, so thecommittee decided to solve the problem by adding a simple fragmentation/reassembly mechanism at the MAC Layer.The mechanism is a simple Send-and-Wait algorithm, where thetransmitting station is not allowed to transmit a new fragment until one ofthe following happens: 1.  Receives an ACK for the said fragment, or 2.  Decides that the fragment was retransmitted too many times and dropsthe whole frame.It should be noted that the standard does allow the station to transmit to adifferent address between retransmissions of a given fragment. This isparticularly useful when an AP has several outstanding packets to differentdestinations and one of them does not respond.The following diagram shows a frame (MSDU) being divided to severalfragments (MPDUs):
AppendixBreezeNET PRO.11 Series 9-28 User’s GuideFigure 9.16: Frame Fragmentation9.5.3.5 Inter Frame SpacesThe Standard defines 4 types of Inter Frame Spaces, which are use toprovide different priorities:• SIFS - Short Inter Frame Space, separates transmissions belonging toa single dialog (e.g. Fragment-Ack), and is the minimum Inter FrameSpace. There is always at most one single station to transmit at any giventime, therefore giving it priority over all other stations.This value is a fixed value per PHY and is calculated in such a way thatthe transmitting station will be able to switch back to receive mode andbe capable of decoding the incoming packet. On the 802.11 FH PHY thisvalue is set to 28 microseconds• PIFS - Point Coordination IFS, is used by the Access Point (or PointCoordinator, as called in this case), to gain access to the medium beforeany other station. This value is SIFS plus a Slot Time (defined in the fol-lowing paragraph), i.e. 78 microseconds.• DIFS - Distributed IFS, is the Inter Frame Space used for a station will-ing to start a new transmission, which is calculated as PIFS plus one slottime, i.e. 128 microseconds.• EIFS - Extended IFS, which is a longer IFS used by a station that hasreceived a packet that it could not understand. This is needed to preventthe station (which could not understand the duration information for theVirtual Carrier Sense) from colliding with a future packet belonging tothe current dialog.
AppendixBreezeNET PRO.11 Series 9-29 User’s Guide9.5.3.6 Exponential Backoff AlgorithmBackoff is a well known method used to resolve contention betweendifferent stations wanting to access the medium. The method requires eachstation to choose a Random Number (n) between 0 and a given number, andwait for this number of Slots before accessing the medium, always checkingif a different station has accessed the medium before.The Slot Time is defined in such a way that a station will always be capableof determining if another station has accessed the medium at the beginningof the previous slot. This reduces collision probability by half.Exponential Backoff means that each time the station chooses a slot andhappens to collide, it will increase the maximum number for the randomselection exponentially.The 802.11 standard defines an Exponential Backoff Algorithm, that mustbe executed in the following cases:• When the station senses the medium before the first transmission of apacket, and the medium is busy• After each retransmission, and• After a successful transmissionThe only case when this mechanism is not used is when the station decidesto transmit a new packet and the medium has been free for more than DIFS.The following figure shows a schematic of the access mechanism:Figure 9.17:  Access Mechanism
AppendixBreezeNET PRO.11 Series 9-30 User’s Guide9.5.4. How Does a Station Join an Existing Cell (BSS)?When a station wants to access an existing BSS (either after power-up, sleepmode, or just entering the BSS area), the station needs to getsynchronization information from the Access Point (or from the otherstations when in ad-hoc mode, which will be discussed later).The station can get this information by one of two means: 1.  Passive Scanning: In this case the station just waits to receive a BeaconFrame from the AP, (the beacon frame is a frame sent out periodicallyby the AP containing synchronization information), or 2.  Active Scanning: In this case the station tries to locate an Access Pointby transmitting Probe Request Frames, and waits for Probe Responsefrom the AP.Both methods are valid. A method is chosen according to the powerconsumption/performance trade-off.9.5.4.1 The Authentication ProcessOnce the station has located an Access Point, and decides to join its BSS, itgoes through the Authentication Process. This is the interchange ofinformation between the AP and the station, where each side proves theknowledge of a given password.9.5.4.2 The Association ProcessOnce the station is authenticated, it then starts the Association Process,which is the exchange of information about the station and BSS capabilities,and which allows the DSS (the set of APs) to know about the currentposition of the station). A station is capable of transmitting and receivingdata frames only after the association process is completed.9.5.5. RoamingRoaming is the process of moving from one cell (or BSS) to another withoutlosing connection. This function is similar to the cellular phones’ handover,with two main differences: 1.  On a packet-based LAN system, the transition from cell to cell may beperformed between packet transmissions, as opposed to telephony wherethe transition may occur during a phone conversation, this makes theLAN roaming a little easier, but
AppendixBreezeNET PRO.11 Series 9-31 User’s Guide 2.  On a voice system, a temporary disconnection may not affect the conver-sation, while in a packet-based environment it significantly reduces per-formance because retransmission is then performed by the upper layerprotocols.The 802.11 standard does not define how roaming should be performed, butdefines the basic tools. These include active/passive scanning, and a re-association process, where a station which is roaming from one AccessPoint to another becomes associated with the new one1.9.5.6. Keeping SynchronizationStations need to keep synchronization, which is necessary for keepinghopping synchronized, and other functions like Power Saving. On aninfrastructure BSS, this is achieved by all the stations updating their clocksaccording to the AP’s clock, using the following mechanism:The AP periodically transmits frames called Beacon Frames. These framescontain the value of the AP’s clock at the moment of transmission (note thatthis is the moment when transmission actually occurs, and not when it is putin the queue for transmission. Since the Beacon Frame is transmitted usingCSMA rules, transmission may be delayed significantly).The receiving stations check the value of their clocks at the moment thesignal is received, and correct it to keep in synchronization with the AP’sclock. This prevents clock drifting which could cause loss of synch after afew hours of operation.9.5.7. SecuritySecurity is one of the first concerns that people have when deploying awireless LAN. The 802.11 committee has addressed the issue by providingwhat is called WEP (Wired Equivalent Privacy).Users are primarily concerned that an intruder should not be able to:• Access the Network resources by using similar wireless LAN equipment• Capture wireless LAN traffic (eavesdropping)                                               1The BreezeNET product line provides a patented enhanced roaming mechanism which allows stations toroam at speeds of 60 Km/h without losing or duplicating packets.
AppendixBreezeNET PRO.11 Series 9-32 User’s Guide9.5.7.1 Preventing Access to Network ResourcesThis is done by the use of an Authentication mechanism where a stationneeds to prove knowledge of the current key. This is very similar to WiredLAN privacy, in the sense that an intruder needs to enter the premises (byusing a physical key) in order to connect his workstation to the wired LAN.9.5.7.2 EavesdroppingEavesdropping is prevented by using the WEP algorithm which is a PseudoRandom Number Generator initialized by a shared secret key. This PRNGoutputs a key sequence of pseudo-random bits equal in length to the largestpossible packet which is combined with the outgoing/incoming packetproducing the packet transmitted in the air.The WEP is a simple algorithm based on RSA’s RC4 which has thefollowing properties:• Reasonably strong:Brute-force attack to this algorithm is difficult because every frame issent with an Initialization Vector which restarts the PRNG for eachframe.• Self Synchronizing:The algorithm re-synchronizes for each message. This is necessary inorder to work in a connection-less environment, where packets may getlost (as any LAN).9.5.8. Power SavingWireless LANs are typically related to mobile applications. In this type ofapplication, battery power is a scare resource. This is the reason why the802.11 standard directly addresses the issue of Power Saving and defines anentire mechanism which enables stations to go into sleep mode for longperiods of time without losing information.The main idea behind the Power Saving Mechanism is that the APmaintains a continually updated record of the stations currently working inPower Saving mode, and buffers the packets addressed to these stationsuntil either the stations specifically request the packets by sending a pollingrequest, or until they change their operation mode.As part of its Beacon Frames, the AP also periodically transmits informationabout which Power Saving Stations have frames buffered at the AP, so these
AppendixBreezeNET PRO.11 Series 9-33 User’s Guidestations wake up in order to receive the Beacon Frame. If there is anindication that there is a frame stored at the AP waiting for delivery, thenthe station stays awake and sends a Polling message to the AP to get theseframes.Multicasts and Broadcasts are stored by the AP, and transmitted at a pre-known time (each DTIM), when all Power Saving stations who wish toreceive this kind of frames are awake.9.5.9. Frame TypesThere are three main types of frames:• Data Frames: which are used for data transmission• Control Frames: which are used to control access to the medium (e.g.RTS, CTS, and ACK), and• Management Frames: which are frames that are transmitted in the samemanner as data frames to exchange management information, but are notforwarded to upper layers (e.g. beacon frames).Each frame type is subdivided into different Subtypes, according to itsspecific function.9.5.10.  Frame FormatsAll 802.11 frames are composed of the following components:Preamble PLCP Header MAC Data CRC9.5.10.1 PreambleThis is PHY dependent, and includes:• Synch: An 80-bit sequence of alternating zeros and ones, which is usedby the PHY circuitry to select the appropriate antenna (if diversity isused), and to reach steady-state frequency offset correction andsynchronization with the received packet timing.• SFD: A Start Frame delimiter which consists of the 16-bit binary pattern0000 1100 1011 1101, which is used to define frame timing.
AppendixBreezeNET PRO.11 Series 9-34 User’s Guide9.5.10.2 PLCP HeaderThe PLCP Header is always transmitted at 1 Mbit/s and contains Logicalinformation used by the PHY Layer to decode the frame. It consists of:• PLCP_PDU Length Word: which represents the number of bytes con-tained in the packet. This is useful for the PHY to correctly detect theend of packet.• PLCP Signaling Field: which currently contains only the rate informa-tion, encoded in 0.5 Mbps increments from 1 Mbit/s to 4.5 Mbit/s.• Header Error Check Field: Which is a 16 Bit CRC error detectionfield.9.5.10.3 MAC DataThe following figure shows the general MAC Frame Format. Part of thefields are only present in part of the frames as described later.Figure 9.18: MAC Frame FormatFrame Control FieldThe Frame Control field contains the following information:Figure 9.19: Frame Control Field
AppendixBreezeNET PRO.11 Series 9-35 User’s GuideProtocol VersionThis field consists of 2 bits which are invariant in size and placement acrossfollowing versions of the 802.11 Standard, and will be used to recognizepossible future versions. In the current version of the standard the value isfixed as 0.Type and SubtypeThese 6 bits define the Type and SubType of the frame as indicated in thefollowing table:Type Valueb3 b2Type Description Subtype Valueb7 b6 b5 b4Subtype Description00 Management 0000 Association Request00 Management 0001 Association Response00 Management 0010 Association Request00 Management 0011 Reassociation Response00 Management 0100 Probe Request00 Management 0101 Probe Response00 Management 0110-0111 Reserved00 Management 1000 Beacon00 Management 1001 ATIM00 Management 1010 Disassociation00 Management 1011 Authentication00 Management 1100 Deauthentication00 Management 1101-1111 Reserved01 Control 0000-0001 Reserved01 Control 1010 PS-Poll01 Control 1011 RTS01 Control 1100 CTS01 Control 1101 ACK01 Control 1110 CF End01 Control 1111CF End + CF-ACK10 Data 0000 Data10 Data 0001 Data + CF-Ack10 Data 0010 Data + CF-Poll10 Data 0011 Data + CF-ACK + CF-Poll10 Data 0100 Null Function (no data)10 Data 0101 CF-Ack (no data)10 Data 0110 CF-Poll (no data)10 Data 0111 CF-Ack + CF-Poll (no data)10 Data 1000-1111 Reserved10 Data 0000-1111 ReservedToDS
AppendixBreezeNET PRO.11 Series 9-36 User’s GuideThis bit is set to 1 when the frame is addressed to the AP for forwarding tothe Distribution System (including the case where the destination station isin the same BSS, and the AP is to relay the frame).The Bit is set to 0 in all other frames.FromDSThis bit is set to 1 when the frame is received from the Distribution System.More FragmentsThis bit is set to 1 when there are more fragments belonging to the sameframe following the current fragment.RetryThis bit indicates that this fragment is a retransmission of a previouslytransmitted fragment. This is used by the receiver station to recognizeduplicate transmissions of frames that may occur when an Acknowledgmentpacket is lost.Power ManagementThis bit indicates the Power Management mode that the station will be inafter the transmission of this frame. This is used by stations which arechanging state either from Power Save to Active or vice versa.More DataThis bit is used for Power Management as well as by the AP to indicate thatthere are more frames buffered for this station. The station may decide touse this information to continue polling or even changing to Active mode.WEPThis bit indicates that the frame body is encrypted according to the WEPalgorithmOrderThis bit indicates that this frame is being sent using the Strictly-Orderedservice class.2                                               2 The Strictly-Ordered Service Class is defined for users that cannot accept change of ordering between Uni-cast Frames and Multicast Frames (ordering of Unicast frames to a specific address is always maintained).
AppendixBreezeNET PRO.11 Series 9-37 User’s GuideDuration/IDThis field has two meanings depending on the frame type:• In Power-Save Poll messages this is the Station ID• In all other frames this is the duration value used for the NAVCalculation.Address FieldsA frame may contain up to 4 Addresses depending on the ToDS andFromDS bits defined in the Control Field, as follows:• Address-1 is always the Recipient Address (i.e. the BSS station that isthe immediate recipient of the packet). If ToDS is set, this is the APAddress; if ToDS is not set, then this is the address of the end-station.• Address-2 is always the Transmitter Address (i.e. the station which isphysically transmitting the packet). If FromDS is set, this is the APaddress; if it is not set, then it is the Station address.• Address-3 is in most cases the remaining, missing address. On a framewith FromDS set to 1, Address-3 is the original Source Address; if theframe has the ToDS set, then Address 3 is the destination Address.• Address-4 is used in special cases where a Wireless Distribution Systemis used, and the frame is being transmitted from one Access Point toanother. In such cases, both the ToDS and FromDS bits are set, so boththe original Destination and the original Source Addresses are missing.The following Table summarizes the usage of the different Addressesaccording to ToDS and FromDS bits setting:To DS FromDS Address1Address2Address3Address40 0 DA SA BSSID N/A0 1 DA BSSID SA N/A1 0 BSSID SA DA N/A1 1 RA TA DA SA                                                                                                                                The only known protocol that would need this service class is DEC’s LAT.
AppendixBreezeNET PRO.11 Series 9-38 User’s GuideSequence ControlThe Sequence Control Field is used to represent the order of differentfragments belonging to the same frame, and to recognize packetduplications. It consists of two subfields, Fragment Number and SequenceNumber, which define the frame and the number of the fragment in theframe.CRCThe CRC is a 32-bit field containing a 32-bit Cyclic Redundancy Check(CRC)9.5.11.  Most Common Frame Formats9.5.11.1 RTS Frame FormatThe RTS frame looks as follows:Figure 9.20: RTS Frame FormatThe RA of the RTS frame is the address of the STA on the wireless mediumthat is the intended immediate recipient of the next Data or Managementframe.The TA is the address of the STA transmitting the RTS frame.The Duration value is the time, in microseconds, required to transmit thenext Data or Management frame, plus one CTS frame, plus one ACK frame,plus three SIFS intervals.
AppendixBreezeNET PRO.11 Series 9-39 User’s Guide9.5.11.2 CTS Frame FormatThe CTS frame looks as follows:Figure 9.21: CTS FrameThe Receiver Address (RA) of the CTS frame is copied from theTransmitter Address (TA) field of the immediately previous RTS frame towhich the CTS is a response.The Duration value is the value obtained from the Duration field of theimmediately previous RTS frame, minus the time, in microseconds, requiredto transmit the CTS frame and its SIFS interval.9.5.11.3 ACK Frame FormatThe ACK frame looks as follows:Figure 9.22: ACK Frame FormatThe Receiver Address of the ACK frame is copied from the Address 2 fieldof the immediately previous frame.If the More Fragment bit was set to 0 in the Frame Control field of theprevious frame, the Duration value is set to 0, otherwise the Duration valueis obtained from the Duration field of the previous frame, minus the time, inmicroseconds, required to transmit the ACK frame and its SIFS interval.
AppendixBreezeNET PRO.11 Series 9-40 User’s Guide9.5.12.  Point Coordination Function (PCF)Beyond the basic Distributed Coordination Function, there is an optionalPoint Coordination Function, which may be used to implement time-bounded services, like voice or video transmission. This Point CoordinationFunction makes use of the higher priority that the Access Point may gain bythe use of a smaller Inter Frame Space (PIFS).By using this higher priority access, the Access Point issues polling requeststo the stations for data transmission, hence controlling medium access. Tostill enable regular stations to access the medium, there is a provision thatthe Access Point must leave enough time for Distributed Access in betweenthe PCF.9.5.13.  Ad-hoc NetworksIn certain circumstances, the users may wish to build up wireless LANnetworks without an infrastructure (more specifically without an AccessPoint). This may include file transfer between two notebook users,co-workers meeting outside the office, etc.The 802.11 Standard addresses this need by the definition of an “ad-hoc”mode of operation. In this case, there is no Access Point and part of itsfunctionality is performed by the end-user stations (such as BeaconGeneration, synchronization, etc.). Other AP functions are not supported(such as frame-relaying between two stations not in range, or PowerSaving).

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