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Regulartory addendum | Users Manual | 14.19 KiB | February 03 2000 / May 05 2000 | |||
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manual | Users Manual | 1.47 MiB | February 03 2000 / May 05 2000 | |||
1 | Internal Photos | December 04 2000 / May 05 2000 | ||||||
1 | Operational Description | December 04 2000 / May 05 2000 | ||||||
1 | Cover Letter(s) | January 03 2000 / May 05 2000 | ||||||
1 | Cover Letter(s) | January 03 2000 / May 05 2000 | ||||||
1 | Test Report | January 03 2000 / May 05 2000 | ||||||
1 | RF Exposure Info | December 04 2000 / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | RF Exposure Info | March 05 2000 / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | Attestation Statements | January 03 2000 / May 05 2000 | ||||||
1 | External Photos | January 03 2000 / May 05 2000 | ||||||
1 | Internal Photos | February 03 2000 / May 05 2000 | ||||||
1 | Test Report | / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | Parts List/Tune Up Info | January 03 2000 / May 05 2000 | ||||||
1 | Test Report | February 03 2000 / May 05 2000 | ||||||
1 | ID Label/Location Info | January 03 2000 / May 05 2000 |
1 | Regulartory addendum | Users Manual | 14.19 KiB | February 03 2000 / May 05 2000 |
The following regulatory information will be added to the final version of the Users manual. Regulatory Addendum Radio Frequency Interference Requirements This device has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the Federal Communications Rules and Regulation. These limits are designed to provide reasonable protection against harmful interference 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 instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. However, there is no guarantee that interference will not occur in a particular installation. If the equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try and correct the interference by one of the following measures:
Re-orient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. This device complies with FCC Part 15. Operation is subject to the following two conditions: (1) this device may not cause harmful interference and (2) this device must accept any interference received, including interference that may cause undesired operation. Radio Frequency Interference Requirements- Canada This device complies with RSS 210 of Industry & Science Canada. Operation is subject to the following two conditions: (1) this device may not cause harmful interference and
(2) this device must accept any interference received, including interference that may cause undesired operation. This Class A digital apparatus meets the requirements of the Industry Canada Standard ICES-003. Cet appareil numerique de la Classe A est conforme a la norme NMB-003 du Canada. CE Marking and European Union Compliance Products intended for sale within the European Union are marked with the CE Mark which indicates compliance to applicable Directives and European Normes (EN), as follows, Amendments to these Directives or ENs are included:
Applicable Directives Electromagnetic Compatibility Directive 89/336/EEC Low Voltage Directive 73/23/EEC Applicable Standards EN 55022-Limits and Methods of Measurement of Radio Interference Characteristics of Information technology Equipment EN 55024:1998; Information technology equipment-Immunity characteristics-Limits and methods of measurement. IEC 1000-4-2(1995-01)-Electromagnetic Compatibility (EMC) Part 4: Testing and measurement techniques-Section 2: Electrostatic Discharge immunity test. IEC 1000-4-3(1995-03)-Electromagnetic Compatibility (EMC) Part 4: Testing and measurement techniques-Section 3: Radiated, radio-frequency electromagnetic field immunity test. IEC 1000-4-4(1995-01)-Electromagnetic Compatibility (EMC) Part 4: Testing and measurement techniques-Section 4: Electrical Fast transient /burst immunity test. EN 60 950+Amd1 + Amd @-Safety of Information Technology Equipment Including Electrical Business Equipment EN 60 825-1 (EN 60 825)- Safety of Devices Containing Lasers Laser Devices Symbol products using lasers comply with US 21 CFR1040.10, Subchapter J and IEC 825/EN 60 825 (or IEC 825-1/EN 60 825-1, depending on the date of manufacture). The laser classification is marked on one of the labels on the product. Class 1 Laser devices are not considered hazardous when used for their intended purpose. The following statement is required to comply with US and international regulations:
Caution: Use of controls, adjustments or performance of procedures other than those specified herein may result in hazardous laser light exposure. Class 2 laser scanners use a low power visible light diode. As with any very bright light source such as the sun, the user should avoid staring directly into the light beam. Momentary exposure to a Class 2 laser is not known to be harmful. RF Devices Symbols RF products are designed to be compliant with the rules and regulations in the locations into which they are sold and will be labeled as required. The majority of Symbols RF devices are type approved and do not require the user to obtain license or authorization before using the equipment. Any changes or modifications to Symbol Technologies equipment not expressly approved by Symbol Technologies could void the users authority to operate the equipment.
1 | manual | Users Manual | 1.47 MiB | February 03 2000 / May 05 2000 |
Technical Support You can find the most recent software and user documentation for all WaveLAN products on our internet site. Software and Documentation World Wide Web FTP Server http://www.wavelan.com ftp://ftp.wavelan.com/pub If you encounter problems when installing or using this product, or would like information about our other WaveLAN products, please contact your local Authorized WaveLAN Reseller or regional Lucent Technologies Sales Office. You can find their address and phone numbers on the WaveLAN website. In case no local or regional support is available, you can reach us at the addresses or telephone numbers listed below. WaveLAN Regional Support U.S.A / Canada Caribbean/ Latin America Europe/ Middle-East/ Africa Asia/ Pacific WaveLAN Global Support U.S.A / Canada Caribbean/ Latin America usasupport@wavelan.com calasupport@wavelan.com emeasupport@wavelan.com apasupport@wavelan.com Voice:
+1 800 WAVELAN-3 When contacting WaveLAN Support, please complete the WaveLAN Problem Report form and include it with your email or fax. The form
(report.txt) is available on the WaveLAN Software CD-ROM, and on the WaveLAN Support pages of the WaveLAN website. WaveLAN/IEEE Turbo 11 Mb PC Card i Information to the User Wireless Interoperability The IEEE 802.11 WaveLAN products are designed to be inter-operable with any wireless LAN product that is based on Direct Sequence Spread Spectrum (DSSS) radio technology, and is compliant to the IEEE 802.11 Standard on Wireless LANs
(Revision B), as defined and approved by the Institute of Electrical and Electronics Engineers. WaveLAN and your Health WaveLAN, like other radio devices, emits radio frequency electromagnetic energy. The level of energy emitted by WaveLAN devices however is far much less than the electromagnetic energy emitted by wireless devices like for example mobile phones. Because WaveLAN operates within the guidelines found in radio frequency safety standards and recommendations, Lucent Technologies believes WaveLAN is safe for use by consumers. These standards and recommendations reflect the consensus of the scientific community and result from deliberations of panels and committees of scientists who continually review and interpret the extensive research literature. In some situations or environments, the use of WaveLAN may be restricted by the proprietor of the building or responsible representatives of the organization. These situations may for example include:
Using the WaveLAN equipment on board of airplanes, or In any other environment where the risk of interference to other devices or services is perceived or identified as harmful. If you are uncertain of the policy that applies on the use of wireless devices in a specific organization or environment (e.g. airports), you are encouraged to ask for authorization to use the WaveLAN device prior to turning on the equipment. ii WaveLAN/IEEE Turbo 11 Mb PC Card Regulatory Information The IEEE 802.11 WaveLAN PC Card must be installed and used in strict accordance with the manufacturers instructions. This device complies with the following radio frequency and safety standards. Canada - Industry Canada (IC) This device complies with RSS 210 of Industry Canada. Europe - EU Declaration of Conformity This device complies with the specifications listed below, following the provisions of the EMC Directive 89/336/EEC:
ETS 300-826 General EMC requirements for Radio equipment. ETS 300-328 Technical requirements for Radio equipment. USA - Federal Communications Commission (FCC) This device complies with Part 15 of FCC Rules. Operation of the devices in a WaveLAN System is subject to the following two conditions:
This device may not cause harmful interference. This device must accept any interference that may cause undesired operation. Exposure to Radio Frequency Radiation. Exposure to Radio Frequency Radiation. The radiated output power of the IEEE 802.11 WaveLAN PC Card is far below the FCC radio frequency exposure limits. Nevertheless, the WaveLAN PC Card shall be used in such a manner that the potential for human contact during normal operation is minimized. When using this device in combination with WaveLAN Outdoor Antenna products, a certain separation distance between antenna and nearby persons has to be kept to ensure RF exposure compliance. Refer to the Regulatory Statements as identified in the documentation that comes with those products for additional information. WaveLAN/IEEE Turbo 11 Mb PC Card iii Regulatory Information Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy. If not installed and used in accordance with the instructions, it may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try and correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna. Connect the equipment to an outlet on a circuit different from that to which the Increase the distance between the equipment and the receiver. receiver is connected. Consult the dealer or an experienced radio/TV technician for help. Lucent Technologies is not responsible for any radio or television interference caused by unauthorized modification of the devices included with this IEEE 802.11 WaveLAN Kit, or the substitution or attachment of connecting cables and equipment other than specified by Lucent Technologies. The correction of interference caused by such unauthorized modification, substitution or attachment will be the responsibility of the user. For country-specific approvals, please consult the flyer Radio Certification Information that was inserted into this kit. iv WaveLAN/IEEE Turbo 11 Mb PC Card Table of Contents Technical Support Information to the User Regulatory Information Table of Contents 1 About WaveLAN/IEEE Kit Contents WaveLAN Network Scenarios Its Easy n WaveLAN PC Card Features n WaveLAN PC Card Types n Can I Upgrade WaveLAN Cards?
About the Software CD-ROM Optionally Available n WaveLAN IEEE Adapter Cards n External Antennas Connecting to a Network n Connect to Any IEEE 802.11 LAN n Connect to a Specific IEEE 802.11 LAN 2 Hardware Installation Installing your WaveLAN Kit n Preparation n Card Removal and Re-insertion i ii iii i 1-1 1-1 1-2 1-4 1-5 1-6 1-9 1-10 1-13 1-13 1-13 1-17 1-18 1-19 2-1 2-1 2-1 2-2 WaveLAN/IEEE Turbo 11 Mb PC Card i Table of Contents Table of Contents 3 Installation for Windows Introduction n Before You Start the Installation n What You Need to Know Getting Started in Windows 95/98 n Starting Installation Getting Started in Windows NT n Starting Installation Installing the Miniport Driver n Network Installation Setting the WaveLAN Parameters n Which Parameters Do You Need?
n Basic WaveLAN Parameters n WaveLAN Encryption Parameters Finishing the WaveLAN Installation n After Restarting Your Computer Working with WaveLAN & Windows n View Other WaveLAN Stations n Selecting the Networking Protocol n Verifying the Current Protocol Setting n Display or Modify WaveLAN Parameters 4 Advanced WaveLAN Parameters Introduction MAC Address AP Density Transmit Rate n n The Auto Transmit Rate Select Mechanism The User-defined Transmit Rate ii WaveLAN/IEEE Turbo 11 Mb PC Card 3-1 3-1 3-1 3-2 3-3 3-3 3-5 3-6 3-9 3-12 3-13 3-13 3-14 3-18 3-20 3-20 3-21 3-21 3-22 3-23 3-24 4-1 4-1 4-2 4-3 4-4 4-4 4-5 Table of Contents Medium Reservation Power Management n Enable Power Management:
5 Monitoring WaveLAN Performance About WaveMANAGER/CLIENT Installing WaveMANAGER/CLIENT Running WaveMANAGER/CLIENT n Monitoring Options n What to Monitor n Choosing your WaveMANAGER Tool WaveLAN Status/Function Window WaveLAN Link Test n Testing Radio Communications Quality Testing Data Throughput Efficiency n WaveLAN Card Diagnostics Advanced User Options n Basic Mode versus Enhanced Mode n Logging Measurement Data 6 WaveLAN Security Options Introduction n Closing the Infrastructure n Wireless Access Control n Wireless Data Encryption 4-8 4-13 4-14 5-1 5-1 5-2 5-3 5-3 5-4 5-6 5-7 5-8 5-9 5-10 5-13 5-14 5-14 5-15 6-1 6-1 6-2 6-3 6-4 WaveLAN/IEEE Turbo 11 Mb PC Card iii Table of Contents Table of Contents A Card Specifications Physical Specifications Networking Characteristics Radio Characteristics n Supported Frequency Sub-bands WaveLAN PC Card Types n About Previously Purchased Cards n Can I Upgrade WaveLAN Cards?
B Troubleshooting LED Activity Windows Operating Systems n Generic Problems n Hardware Conflict Upgrading the WaveLAN Miniport Driver n Removing the WaveLAN Miniport Driver MS-DOS Systems n Error Messages n Can Not Connect To The Network C Installing in Windows CE Introduction Installing the WaveLAN Driver n n Using WaveLAN with Windows CE n Modifying Configuration Parameters A-1 A-1 A-2 A-3 A-7 A-9 A-9 A-12 B-1 B-1 B-4 B-4 B-6 B-14 B-20 B-23 B-23 B-23 C-1 C-1 C-2 C-4 C-5 iv WaveLAN/IEEE Turbo 11 Mb PC Card Table of Contents D Installation for MS-DOS Intel 82365 PCIC Installation Overview Introduction n What You Need to Know n Driver Types n Copy the WaveLAN Software Setup the WaveCAD Program n Card & Socket Services n Install the Network Client Software Setup the WaveLAN Parameters n DOS ODI Driver Configuration n Packet Driver Configuration Finishing Installation Advanced Options n Dual Card Configuration n Start-up Menu Configuration E Installing in Apple Macintosh Introduction Installing the WaveLAN Driver Installing Networking Protocols n n Enabling your WaveLAN Card Using WaveLAN with PowerBooks n Basic Parameters n Advanced Parameters n Monitoring Wireless Performance n Modifying Configuration Parameters D-1 D-1 D-1 D-1 D-2 D-3 D-4 D-4 D-5 D-9 D-10 D-10 D-19 D-25 D-27 D-27 D-27 E-1 E-1 E-2 E-2 E-3 E-5 E-6 E-7 E-9 E-9 WaveLAN/IEEE Turbo 11 Mb PC Card v Table of Contents Table of Contents Removing the WaveLAN Driver Index W Warranty Repair Card About Warranty and Repair Limited Warranty List of Figures List of Tables Index E-10 IX-1 Warranty-1 Warranty-1 Warranty-2 LOF-1 LOT-1 IX-1 vi WaveLAN/IEEE Turbo 11 Mb PC Card About WaveLAN/IEEE Contents Kit Contents WaveLAN Network Scenarios Its Easy WaveLAN PC Card Features WaveLAN PC Card Types n Silver Label Cards n Gold Label Cards n About Using Different Card Types n About the Fixed Wireless PC Card Can I Upgrade WaveLAN Cards?
About the Software CD-ROM Optionally Available WaveLAN IEEE Adapter Cards External Antennas n WaveLAN Range Extender Antenna n WaveLAN Vehicle-Mount Antenna Connecting to a Network Connect to Any IEEE 802.11 LAN Connect to a Specific IEEE 802.11 LAN 1 1-1 1-2 1-4 1-5 1-6 1-6 1-7 1-7 1-8 1-9 1-10 1-13 1-13 1-13 1-14 1-15 1-17 1-18 1-19 About WaveLAN/IEEE Kit Contents 1 1 The WaveLAN/IEEE Turbo 11 Mb PC Card kit includes the following items as pictured in Figure 1-1:
a. A WaveLAN/IEEE Turbo 11 Mb PC Card. b. The Quick Installation Guide (this document). c. WaveLAN Software CD-ROM. Figure 1-1 WaveLAN IEEE 802.11 Kit Contents The printed Quick Installation Guide is an abstract of the electronic Installation Guide included on the WaveLAN Software CD-ROM. For detailed information you may wish to consult the electronic version that is available in Adobes Acrobat Portable Document File (*.pdf) format. WaveLAN/IEEE Turbo 11 Mb PC Card 1-1 About WaveLAN/IEEE WaveLAN Network Scenarios WaveLAN Network Scenarios 1 This WaveLAN/IEEE Turbo 11 Mb PC Card Kit enables you to:
n Connect your computer to an ad-hoc workgroup of wireless computing devices, or n Connect your computer to a Local Area Network (LAN) Infrastructure that includes Lucent Technologies WavePOINT-
II access points, or other IEEE 802.11 compliant Local Area Network (LAN) systems n Expand the capabilities of your WavePOINT-II access points, to support wireless devices that have been equipped with IEEE 802.11 adapter cards. Figure 1-2 Ad-hoc Wireless Workgroup The ad-hoc workgroup configuration enables you to quickly set up a small wireless workgroup, where the workgroup participants can exchange files using features like Files and Printer Sharing as supported by Microsoft Networking. You can use this type of wireless peer-to-peer networks on the road, or in Small Office Home Office (SOHO) environments. As long as the station are within range of one another, this is the easiest and least expensive way to set up a wireless network. 1-2 WaveLAN/IEEE Turbo 11 Mb PC Card About WaveLAN/IEEE WaveLAN Network Scenarios Figure 1-3 Stand Alone Wireless LAN Local Area Network (LAN) Infrastructures may either be:
n Stand-alone wireless LANs as pictured in Figure 1-3. n Wireless network infrastructures connected to an existing Ethernet network as pictured in Figure 1-4 on page 1-4. n Wireless network infrastructures that may include previously marketed WaveLAN products such as:
Standard WaveLAN IEEE 802.11 PC Cards WaveLAN/IEEE Turbo PC Cards Previous generation WaveLAN Legacy cards. WaveLAN/IEEE Turbo 11 Mb PC Card 1-3 About WaveLAN/IEEE WaveLAN Network Scenarios Figure 1-4 LAN Infrastructure Its Easy 1 The WaveLAN PC Card functions like any standard wired Ethernet card, but WaveLAN does not need any wires!
Where an Ethernet card requires a cable connection to a hub and/
or patch panel, the cable physically ties you down to the location of the wired connection. WaveLAN allows you to connect your computer to a Local Area Network (LAN) system from anywhere within the wireless coverage area. Expanding or re-designing your network is easy:
Add or relocate WavePOINT-II access points, power-up your (new) WaveLAN computers, and youre done!
Unlike Ethernet, WaveLAN will enable you to roam throughout the network while remaining connected to the LAN. 1-4 WaveLAN/IEEE Turbo 11 Mb PC Card About WaveLAN/IEEE WaveLAN PC Card Features WaveLAN PC Card Features 1 The WaveLAN/IEEE Turbo 11 Mb PC Card is a standard PC Card that fits into any PC Card Type II slot. The WaveLAN/IEEE Turbo 11 Mb PC Card has two LED indicators and two integrated antennas. Optionally you can use the WaveLAN/IEEE Turbo 11 Mb PC Card in combination with an external antenna (see page 1-13). Figure 1-5 The WaveLAN/IEEE Turbo 11 Mb PC Card Integrated Antennas a. b. Transmit/ Receive LED n Off - No wireless activity n Blinking - Sensing/transmitting wireless data c. Power ON/OFF LED n Solid Green - standard operational mode n Blinking Green - Power Management mode d. Connector for optional External Antenna (see page 1-13). For a more detailed overview of the LED activity, please consult Table B-1 on page B-2 of Appendix B. WaveLAN/IEEE Turbo 11 Mb PC Card 1-5 About WaveLAN/IEEE WaveLAN PC Card Features WaveLAN PC Card Types 1 The WaveLAN/IEEE Turbo 11 Mb PC Card is a wireless network adapter card that complies with the IEEE 802.11 standard on wireless LANs Rev. B. This card that supports data rates up to 11 Mbit/s is available in two variants:
n WaveLAN/IEEE Turbo 11 Mb Silver Label, and n WaveLAN/IEEE Turbo 11 Mb Gold Label Both types of WaveLAN/IEEE Turbo 11 Mb PC Cards are:
n Fully compatible with any other wireless LAN system based on Direct Sequence Spread Spectrum (DSSS) radio technology that complies with the IEEE 802.11 standard on wireless LANs (Revision B). n Backwards compatible with any other previously released model of the WaveLAN/IEEE product family. Silver Label Cards 1 The WaveLAN/IEEE Turbo 11 Mb Silver PC Cards supports the following wireless LAN features:
n Automatic Transmit Rate Select mechanism in the range of
"High, Medium, Standard and Low". Frequency Channel Selection (2.4 GHz). n n Roaming over multiple channels. n Power Management. n Wired Equivalent Privacy (WEP) data encryption, based on the 64 bit RC4 encryption algorithm as defined in the IEEE 802.11 standard on wireless LANs. These features are described in more detail in Chapter 4 Advanced WaveLAN Parameters 1-6 WaveLAN/IEEE Turbo 11 Mb PC Card About WaveLAN/IEEE WaveLAN PC Card Features Gold Label Cards 1 The WaveLAN/IEEE Turbo 11 Mb Gold PC Cards supports the same functionality as the WaveLAN/IEEE Turbo 11 Mb Silver cards. The Gold card however provides an enhanced type of data encryption, based on the 128 bit RC4 algorithm. NOTE:
The WaveLAN/IEEE Turbo 11 Mb Gold PC Card may not be marketed in all parts of the world, subject to national legislation or local regulations. For availability in your country, please consult your local Lucent Technologies Sales Office. About Using Different Card Types 1 When using WaveLAN/IEEE Turbo 11 Mb PC Cards in networks that include different types and/or versions of WaveLAN/IEEE products carefully read the items listed below. Different Transmit Rates When using different types of WaveLAN/IEEE PC Cards, your WaveLAN cards will always revert to higest compatible transmit rate as supported by both cards. 1 For example your 11 Mb PC Card will switch to the Standard Transmit Rate (2 Mbit/s) when communicating with a wireless device that has been equipped with:
A Standard IEEE PC Cards (identified by either a white, Bronze or Silver label). WaveLAN/IEEE Turbo PC Cards (identified by a Bronze or Silver label that does not include the designator "11 Mb).1 WaveLAN/IEEE Turbo 11 Mb PC Card 1-7 About WaveLAN/IEEE WaveLAN PC Card Features Different Types of Data Encryption When using the encryption feature, please note that encrypted messages can only be deciphered by cards that will also have encryption enabled and are using an identical encryption key. 1 When using the WaveLAN/IEEE Turbo 11 Mb Gold PC Card in combination with Silver cards, your Gold card should be configured with a WEP compatible (64-bit) encryption key. Are you upgrading to 11 Mb/s PC Cards?
Transmissions at higher data rates, may not travel as far as communications at Standard or Low Tranmit rate. 1 When you consider upgrading your wireless network to WaveLAN/
IEEE Turbo 11 Mb PC Cards, you may need to perform a site survey again to verify that the entire coverage area allows for data transmissions at the highest transmit rates. You can use the WaveMANAGER/CLIENT IEEE tool described in Chapter 5 of this Quick Installation Guide to perform such a site survey. About the Fixed Wireless PC Card 1 This card is a special WaveLAN PC Card for outdoor antenna installations that is marketed in Europe and Japan only. It is typically used in combination with WavePOINT-II access points and/or the WaveLAN Vehicle-Mount Antenna to connect a wireless LAN device to an outdoor antenna installation (see Chapter 1of ). 1 The High and Medium Transmit rates, supported by these cards, are not compatible with the high-speed rates as deifned by the IEEE 802.11 standard Revision B. 1-8 WaveLAN/IEEE Turbo 11 Mb PC Card About WaveLAN/IEEE WaveLAN PC Card Features The Fixed Wireless PC Card can be recognized from the distinct red color of the extended part of the PC Card. It supports the same networking capabilities as the other WaveLAN cards, but has different radio specifications, to comply with radio regulations for outdoor antenna installations as defined by the European Telecommunications Standards Institute (ETSI). For more details about this card, please consult Appendix A Card Specifications and/or the WaveLAN Outdoor Antenna Installation Guide that can be downloaded from the WaveLAN website. Can I Upgrade WaveLAN Cards?
1 To enhance (wireless) performance of your WaveLAN/IEEE cards, updates are made available via the WaveLAN website at regular intervals. Updates typically enhance existing features supported by the specific waveLAN/IEEE PC Card, or resolve minor bugs. You can not use the updates to "upgrade" a WaveLAN/IEEE Silver card to a WaveLAN/IEEE Turbo 11 Mb Gold PC Card. Updates for WaveLAN/IEEE PC Cards are managed via a dedicated tool, called the WaveLAN Station Update tool (WSU). This tool will update the embedded software of the card (also referred to as the Station Firmware). Whenever an update becomes available, you will be able to download the latest WSU tool from the WaveLAN website. You are advised to visit the WaveLAN website at regular intervals to check if newer versions are available for your product. WaveLAN/IEEE Turbo 11 Mb PC Card 1-9 About WaveLAN/IEEE About the Software CD-ROM About the Software CD-ROM 1 The WaveLAN software CD-ROM contains both software and documentation for all WaveLAN products that support roaming functionality in indoor environments. If you wish to install WaveLAN driver software, turn to Chapter 2 Hardware Installation and follow the instructions as described for installing your WaveLAN/IEEE Turbo 11 Mb PC Card. If you would like to explore the contents of the CD-ROM, the contents map as pictured in Figure 1-6 on page 1-11, may help you find the items you are looking for:
n WaveLAN User Guides and other reference documents are located in the folder docs. n Software for WaveLAN client stations and/or infrastructure products, such as the WavePOINT-II access points, are located in the folder software. Both the docs and software folder have been divided into dedicated subfolders, related to the type of WaveLAN device. For example:
n n The folder "software\adapter\pc_card" contains all the software avaialble for your WaveLAN/IEEE PC Card. The folder software\bridge\accesspt contains the software &
tools for the WavePOINT-II Access Point. NOTE:
Prior to copying or installing the software, you are advised to read the Software License Agreement "license.txt", located in the root folder of the CD-ROM. By installing, copying or using the WaveLAN software, you are consenting to be bound by this agreement. If you do not agree to all of the terms of the Software License Agreement, do not download, copy or install the WaveLAN software. 1-10 WaveLAN/IEEE Turbo 11 Mb PC Card About WaveLAN/IEEE About the Software CD-ROM Figure 1-6 Contents of the Software CD-ROM NOTE:
It is the policy of Lucent Technologies to improve products as new technology, components, software and firmware become available. Before you proceed with the installation of this product, we recommend you to consult the WaveLAN website to:
n Verify if newer versions of the software that was shipped with your product are available. n Download and install the latest software with your purchased product. You can download the latest software and documentation from the WaveLAN website at: http://www.wavelan.com. WaveLAN/IEEE Turbo 11 Mb PC Card 1-11 About WaveLAN/IEEE About the Software CD-ROM Looking again at Figure 1-6 on page 1-11 you will see that the CD-
ROM also includes a folder named xtras. This folder contains additional tools, that may help you install and manage your WaveLAN Network. n n The folder Acrobat includes a copy of the Adobe Acrobat Reader , required to view and/or print the WaveLAN user documentation included on this CD-ROM. The folder CopyFile includes a set of batch files that allow you to quickly create or copy sets of driver software to:
a floppy diskette hard-disk drive, and/or a network drive. These files can not be executed independently, but will be started automatically if you run the file CopyFile.bat that is located in the root of the CD-ROM. NOTE:
The Adobe Acrobat Reader is owned by and licensed from Adobe Systems Incorporated. This software is provided as is. Lucent makes no warranty or representation, express or implied, relating to the completeness, reliability, effectiveness, accuracy, performance, or operation of the Adobe software, or as to its suitability, merchantability or fitness for a particular purpose or against infringement of intellectual property rights of any party. For more information about Adobe Acrobat software, please consult the Adobe Website at:
Http:\\www.adobe.com\acrobat 1-12 WaveLAN/IEEE Turbo 11 Mb PC Card About WaveLAN/IEEE Optionally Available Optionally Available 1 WaveLAN IEEE Adapter Cards 1 The Lucent Technologies WaveLAN IEEE solution has been based upon a single wireless PC Card that can be used in a variety of computing systems. Optionally available are the following adapters for computer systems that do not have a PC Card slot:
n WaveLAN/ISA an ISA to PC Card-bus adapter card. n WaveLAN/PCI a PCI to PC Card-bus adapter card. n WaveLAN/EC (Ethernet Converter) A dedicated WaveLAN device that can be used to connect a computer with a standard 10Base-T interface to your WaveLAN network n WaveLAN/EC-S (Ethernet & Serial Converter) A dedicated WaveLAN device that can be used to connect a computer with a standard 10Base-T or serial interface to your WaveLAN network. External Antennas 1 The WaveLAN IEEE 802.11 PC Card has been provided with two integrated antennas (see Figure 1-5), which perform best in an open environment with as few obstacles as possible. Optionally available are the following types of external antennas:
n WaveLAN Range Extender Antenna. n WaveLAN Vehicle-Mount Antenna. WaveLAN/IEEE Turbo 11 Mb PC Card 1-13 About WaveLAN/IEEE Optionally Available These antennas have a Lucent Technologies proprietary connector, that allows you to connect the card directly to the socket on the extended side of the your WaveLAN IEEE 802.11 PC Card
(pictured in Figure 1-5 on page 1-5). WaveLAN Range Extender Antenna 1 Use the WaveLAN Range Extender Antenna to ensure optimal transmission and receiving quality for situations in which the integrated antennas are shielded, for example when:
n n The WaveLAN PC Card is close to metal surfaces. The WaveLAN PC Card is inserted into a WavePOINT-II device or computer that is installed in a hidden location, e.g. under a desk or inside a cabinet. n Objects like thick stacks of books shield the antenna. In most situations the WaveLAN Range Extender Antenna may provide a performance increase of up to 50%. Figure 1-7 Range Extender Antenna You can connect the Range Extender Antenna to the WaveLAN PC Card by inserting the connector into the socket on the 1-14 WaveLAN/IEEE Turbo 11 Mb PC Card About WaveLAN/IEEE Optionally Available extended side of the PC Card. To protect the socket from dust, it is shielded with a little cap, that should be removed prior to connecting the antenna. The WaveLAN Range Extender Antenna has a mounting bracket and a base for perfect vertical positioning that allows you to put the antenna on top of on your desktop computer, a table or filing cabinet, or to hang it on the wall, or ceiling etc.
CAUTION:
Many computer monitors today support a degauss option, that can either be enabled manually by the user, but is often also enabled automatically whenever you turn on the monitor. The electromagnetic discharge that may occur when degaussing the monitor may cause damage to the WaveLAN equipment. To avoid damage to your sensitive WaveLAN equipment, do not place the Range Extender Antenna on top of, or too close to, your monitor. WaveLAN Vehicle-Mount Antenna 1 The WaveLAN Vehicle-Mount Antenna enables you to connect vehicles with an on-board terminal to your LAN infrastructure. The ruggedized design of this antenna allows you to mount it on vehicles (for example fork-lift trucks) that need continuous access to networked data, whether inside or outside of the building. WaveLAN/IEEE Turbo 11 Mb PC Card 1-15 About WaveLAN/IEEE Optionally Available Figure 1-8 Vehicle Mount Omni-Directional Antenna You can connect the Vehicle Mount Antenna to the WaveLAN PC Card using the special 2.5 m WaveLAN IEEE Mobile Vehicle Solution cable assembly. 1-16 WaveLAN/IEEE Turbo 11 Mb PC Card About WaveLAN/IEEE Connecting to a Network Connecting to a Network 1 You can use your WaveLAN/IEEE Turbo 11 Mb PC Card to connect to Local Area Network (LAN) systems that include Lucent Technologies WavePOINT-II access points. The WavePOINT-II access point is a transparent bridge between:
n WaveLAN stations that have been equipped with IEEE 802.11 compliant PC Cards. n WaveLAN stations that have been equipped with previous generation WaveLAN cards such as WaveLAN/PCMCIA and WaveLAN/ISA. n Ethernet stations that are connected to the WavePOINT-II device via a 10Base-T or 10Base2 backbone. To allow communication between your WaveLAN IEEE 802.11 station and the Infrastructure, the access point must be equipped with an IEEE 802.11 compliant WaveLAN card. WaveLAN IEEE 802.11 networks are identified by a unique WaveLAN Network Name. All WavePOINT-II units that belong to the same WaveLAN Infrastructure will share the same WaveLAN Network Name. You can configure your WaveLAN/IEEE Turbo 11 Mb PC Card to:
n n n Connect to Any IEEE 802.11 LAN Connect to a Specific IEEE 802.11 LAN, or Create a Stand-Alone IEEE 802.11 LAN (also referred to as
"ad-hoc mode"). WaveLAN/IEEE Turbo 11 Mb PC Card 1-17 About WaveLAN/IEEE Connecting to a Network Connect to Any IEEE 802.11 LAN 1 This configuration setting is recommended when you intend to use your computer in various networking environments. When you start up your computer, your WaveLAN IEEE 802.11 station will attempt to establish a radio connection with the first IEEE 802.11 compliant network system that provides a good quality for radio communications. In situations where multiple IEEE 802.11 compliant systems are operational in the vicinity of the location where you powered-up your computer, the WaveLAN card will connect automatically to the network that provides the best level of communications. Once your WaveLAN card finds an IEEE 802.11 compliant access point, it will automatically:
n Retrieve the radio channel required to connect to this access point. n Establish the radio connection to the WavePOINT-II access point that provides the best communications quality When moving your computer to another location within the network environment, i.e. out of range of the current access point, the WaveLAN roaming functionality will automatically connect your computer to other access points that belong to the same network. This will allow continuous network connectivity as long as your WaveLAN computer remains within range of one or more access points that belong to the same network infrastructure. NOTE:
Once your computer connects to ANY IEEE 802.11 network system, it will remain attached to this network until you restart your computer again. During run-time it will not switch dynamically between systems identified by different WaveLAN Network Names. 1-18 WaveLAN/IEEE Turbo 11 Mb PC Card About WaveLAN/IEEE Connecting to a Network Connect to a Specific IEEE 802.11 LAN 1 When you would like to connect to a specific IEEE 802.11 network system, you are advised to configure your station to connect only to the IEEE 802.11 network that is identified by the same WaveLAN Network Name. When your WaveLAN card finds the network with the matching WaveLAN Network Name, it will automatically:
n Retrieve the radio channel required to connect to the specific network. n Establish the radio connection to the WavePOINT-II access point that provides the best communications quality. When moving your computer to another location within the network infrastructure, i.e. out of range of the current access point, the WaveLAN roaming functionality will automatically connect your computer to other access points that belong to the same network. This will allow continuous network connectivity as long as your WaveLAN computer remains within range of one or more access points that belong to the same network infrastructure. NOTE:
We recommend that you use the Connect to a Specific IEEE 802.11 LAN option when multiple IEEE 802.11 networks are operational within the same networking environment, or in neighboring buildings. This will prevent your computer from unintentionally connecting to a different IEEE 802.11 system. WaveLAN/IEEE Turbo 11 Mb PC Card 1-19 Hardware Installation Contents Installing your WaveLAN Kit Preparation Card Removal and Re-insertion n Plug & Play Compatible Systems n Systems That Do Not Support Plug & Play 2 2-1 2-1 2-2 2-3 2-4 Hardware Installation 2 Installing your WaveLAN Kit 2 This chapter describes how to install your WaveLAN/IEEE Turbo 11 Mb PC Card into the PC Card slot of your computer. NOTE:
If you intend to use the WaveLAN IEEE 802.11 PC Card in a WavePOINT-II access point, or WaveLAN/EC device, please refer to the User Documentation that was shipped with the device, or that is available for download from the WaveLAN website at http://www.wavelan.com. Preparation 2 Unpack your WaveLAN PC Card kit and verify that all items are present, as described in Kit Contents on page 1-1. If any of the items described appear to be damaged or missing, please contact your supplier. Insert the WaveLAN/IEEE Turbo 11 Mb PC Card into the PC Card slot of your computer as pictured in Figure 2-1 on page 2-2. WaveLAN/IEEE Turbo 11 Mb PC Card 2-1 Hardware Installation Installing your WaveLAN Kit Figure 2-1 Inserting the PC Card into Your Computer Card Removal and Re-insertion 2 WaveLAN adapter cards can be installed on various operating systems, that may show different behavior when installing your using your WaveLAN card:
n Plug & Play Compatible Systems n Systems That Do Not Support Plug & Play Depending on the type of operating system installed on your computer, you can remove and re-insert your WaveLAN PC Card whenever you like. This feature, also referred to as Hot Swapping for PC Cards is supported by operating systems as described under Plug & Play Compatible Systems below. For systems that do not support Plug & Play you are advised to follow the procedure as described under Systems That Do Not Support Plug & Play on page 2-4. 2-2 WaveLAN/IEEE Turbo 11 Mb PC Card Hardware Installation Installing your WaveLAN Kit Plug & Play Compatible Systems 2 Plug & Play for WaveLAN PC Cards is supported by the following operating systems:
n MS-Windows 95, Windows 98 and Windows 2000 (formerly known as Windows NT v5.0) n Windows CE (version 2.0/2.11 and higher) n Apple/Macintosh PowerBook systems. When re-inserting the WaveLAN PC Card into your computer, these operating systems will automatically:
1. Recognize the card 2. 3. Attempt to restore the network connection.
(Re-)load the driver and activate card operation When removing the card, these operating systems will:
1. Disable the WaveLAN driver and 2. Disconnect power to the PC Card slot.
CAUTION:
When removing the WaveLAN card you will lose your connection to the network. Certain network operating systems however may not allow you to restore the network logon automatically. In that case you may need to restart your computer to rerun the network login procedure to restore the network connection. You are advised to always disable the PC Card prior to removing the card from the PC Card slot. This will allow the Windows operating system to log off from the network server, disable the driver properly and disconnect power to the PC Card slot. WaveLAN/IEEE Turbo 11 Mb PC Card 2-3 Hardware Installation Installing your WaveLAN Kit For example to stop using the WaveLAN PC Card in Ms-Windows environments, proceed as follows:
1. Click the Start button on the Windows Taskbar. 2. Click on Settings and then Control Panel item. 3. On the Control Panel double-click the PC Card icon to open the PC Card (PCMCIA) properties window. 4. Select the PC Card socket that contains your WaveLAN/IEEE Turbo 11 Mb PC Card and click the Stop button. 5. Wait for the operating system to acknowledge that the device has been disabled and then remove the PC Card form the PC Card slot. NOTE:
A shortcut to disable the PC Card is clicking once on the PC Card icon on the right side of the Windows Task bar, and select the option "Stop WaveLAM/IEEE PC Card". Double-clicking the PC Card icon, will open the PC Card properties windows. Systems That Do Not Support Plug & Play 2 Although Windows 95/98 and Windows NT version 4.0 are similar in appearance, only Windows 95 and Windows 98 support true Plug & Play. When your computer runs one of the operating systems listed below, neither Plug & Play support nor Hot Swapping are available for your WaveLAN/IEEE Turbo 11 Mb PC Card:
n Windows NT version 3.51 n Windows NT version 4.0 n MS-DOS 2-4 WaveLAN/IEEE Turbo 11 Mb PC Card Hardware Installation Installing your WaveLAN Kit To remove your WaveLAN/IEEE Turbo 11 Mb PC Card from these systems, you are advised to:
1. Power off your computer 2. Remove the WaveLAN PC Card from the PC Card slot 3.
(optional) Restart the computer to proceed working with your computer without the WaveLAN PC Card. To (re-)insert the WaveLAN PC Card:
1. Power off your computer 2. 3.
(Re-)insert the WaveLAN PC Card into the PC Card slot
(optional) Restart the computer to proceed working with your computer and the WaveLAN PC Card. For more information about the differences between the referenced Microsoft operating systems read the section What You Need to Know on page 3-2. WaveLAN/IEEE Turbo 11 Mb PC Card 2-5 Installation for Windows Contents Introduction Before You Start the Installation What You Need to Know Getting Started in Windows 95/98 Starting Installation Getting Started in Windows NT Starting Installation n Enabling PCMCIA Services n Enabling Network Support Installing the Miniport Driver Network Installation Setting the WaveLAN Parameters Which Parameters Do You Need?
Basic WaveLAN Parameters n WaveLAN Network Name n Station Name n Connecting to an Ad-hoc Network WaveLAN Encryption Parameters 3 3-1 3-1 3-2 3-3 3-3 3-5 3-6 3-6 3-7 3-9 3-12 3-13 3-13 3-14 3-14 3-16 3-17 3-18 Finishing the WaveLAN Installation After Restarting Your Computer Working with WaveLAN & Windows Infrastructure Networks View Other WaveLAN Stations Selecting the Networking Protocol n n Ad-hoc Workgroup Networks Verifying the Current Protocol Setting Display or Modify WaveLAN Parameters 3-20 3-20 3-21 3-21 3-22 3-22 3-22 3-23 3-24 Installation for Windows Introduction 3 3 This chapter describes the installation of the WaveLAN Miniport Driver for Microsoft Windows 95, 98 & NT v.4.0. Before You Start the Installation 3 To install and begin using your WaveLAN IEEE 802.11 PC Card, you will need to install the following items:
The WaveLAN IEEE 802.11 Miniport Driver. n n Network (client) Operating Software and Protocols.
(optionally) The WaveMANAGER/CLIENT IEEE program. n The Network client software is included with the Windows operating system software. Before you start the installation, you are advised to keep the Windows CD-ROM or software diskettes close at hand. If your computer came with a factory-installed Windows operating system, these files will be stored on your computers hard disk, in the form of *.cab files. NOTE:
If you are upgrading from an earlier version of the WaveLAN Miniport driver, please read the section Upgrading the WaveLAN Miniport Driver in Appendix B . WaveLAN/IEEE Turbo 11 Mb PC Card 3-1 Installation for Windows Introduction What You Need to Know 3 Installing a WaveLAN IEEE 802.11 PC Card requires the same level of expertise that you would need to install any other type of standard Ethernet network adapter card. It is assumed that you have a working knowledge of standard Windows 95, 98 or NT operations and of installing network adapter cards. Although similar in appearance, Windows 95, Windows 98 and Windows NT operating systems show different behavior when installing or operating new hardware on your computer. The major differences between the operating systems are:
n n Plug & Play support User Profiles Thats why, you will find different Getting Started instructions for each of the Microsoft operating systems described in this chapter:
n n Getting Started in Windows 95/98 on page 3-3 Getting Started in Windows NT on page 3-5 The actual setting of the WaveLAN parameters is the same for both type of systems (described on page 3-13). 3-2 WaveLAN/IEEE Turbo 11 Mb PC Card Installation for Windows Getting Started in Windows 95/98 Getting Started in Windows 95/98 3 Windows 95 and Windows 98 operating systems support Plug &
Play for PC Cards. Once you insert the WaveLAN card into your computer, these operating systems will automatically:
n Detect the card, and enable the WaveLAN Miniport Driver, or n Prompt you to install the driver, when the operating system cannot find the required driver. This would typically occur when inserting the WaveLAN IEEE 802.11 PC Card into your computer for the very first time. Once the WaveLAN Miniport Driver is installed, you can remove and re-insert the card whenever you like. This is also referred to as Hot Swapping (see also Card Removal and Re-insertion on page 2-2). The user profiles in Windows 95 and Windows 98 operating systems are primarily used to customize the visual appearance of your Windows desktop and user-defined preferences. These profiles do not have any impact on the installation of your WaveLAN card. Starting Installation 3 To install the WaveLAN IEEE 802.11 PC Card on a computer running either Windows 95 or Windows 98, proceed as follows:
1. 2. Insert the WaveLAN Software CD-ROM in your computer. Insert the WaveLAN/IEEE Turbo 11 Mb PC Card into your computer. 3. Power up your computer. Because both Windows 95 and Windows 98 support Plug & Play, the operating system functionality will automatically detect your WaveLAN IEEE 802.11 PC Card. WaveLAN/IEEE Turbo 11 Mb PC Card 3-3 Installation for Windows Getting Started in Windows 95/98 Once the operating system has identified the WaveLAN IEEE 802.11 PC Card, a message will be displayed identifying that the WaveLAN drivers are being installed. Turn to Installing the Miniport Driver on page 3-9 to continue the installation of your WaveLAN IEEE 802.11 PC Card. NOTE:
In some occasions Windows 95/98 operating systems may not detect the new hardware. This may be the case in situations where:
n The laptop computer into which you wish to install the WaveLAN card is a brand-new out-of-the-box computer, where the Windows 95/98 operating system was already factory-installed. n A previous installation of the WaveLAN adapter card was aborted before it was finished. When any of these situations applies, please consult Appendix B <$paratext> for more information. 3-4 WaveLAN/IEEE Turbo 11 Mb PC Card Installation for Windows Getting Started in Windows NT Getting Started in Windows NT 3 Unlike Windows 95/98, Windows NT operating systems (v3.51 and v4.0) do not support Plug & Play and Hot Swapping of PC Cards:
n n In order to start the driver installation for your WaveLAN IEEE 802.11 PC Card, you will need to introduce the card to the operating system. To swap PC cards, Windows NT machines typically require you to restart the computer in order to recognize the card and load the drivers. Like Windows 95/98 systems, the Windows NT operating system also identifies user profiles. On Windows NT systems, however, user profiles (accounts) are associated with dedicated levels of authority (privileges) like the ones listed below:
n Users - are allowed to change the visual appearance of the Windows NT desktop and user-defined preferences. n Power Users - can create User Accounts or User Groups. n Administrators - can manage and control the overall configuration of the workstation. NOTE:
To install (or uninstall) the WaveLAN IEEE 802.11 PC Card in a Windows NT environment, you will need to login as the Administrator, or ensure that your login profile provides the same level of privileges. The privilege settings for each user (account) are set in the Microsoft Windows NT User Manager program. Please consult the documentation that was shipped with your Microsoft Windows NT operating system or station for more information. WaveLAN/IEEE Turbo 11 Mb PC Card 3-5 Installation for Windows Getting Started in Windows NT Starting Installation 3 To install the WaveLAN IEEE 802.11 PC Card on a computer running Windows NT (version 3.51 or 4.0), proceed as follows:
Insert the WaveLAN IEEE 802.11 PC Card into your computer. 1. 2. Power up your computer. 3. Enable PCMCIA Services 4. Enabling Network Support for your (client) station. NOTE:
To be able to perform the steps as described on the following pages, you will need the privileges of the Windows NT station administrator. From the Start menu, use the option Log Off xxxxx to close all windows and log on as Administrator. Secondly, you will need to verify that the computer system has at least NT Service pack v4.0 installed (check the blue start-up screen of Microsoft Windows NT). If the computer on which you plan to install the WaveLAN PC Card is running with Service Pack v3.0 or lower, you will need to download Service Pack v4.0 from the Microsoft website (http://www.microsoft.com) and install the Service Pack prior to installing the WaveLAN PC Card. Enabling PCMCIA Services 3 To allow the Windows NT operating system to detect PC Cards in the computers PC Card slot , you must enable the PC Card Socket controller, identified as the PCMCIA device. 1. Click the Start button, then select Settings and then click Control Panel. 2. Double-click the Devices icon. 3. Scroll down the list of devices and select the item PCMCIA. 3-6 WaveLAN/IEEE Turbo 11 Mb PC Card Installation for Windows Getting Started in Windows NT Figure 3-1 Enable the PCMCIA service for Windows NT 4. Click the button Startup on the right side of the Devices window, and set the Startup type for the item PCMCIA to Boot. 5. Click OK to confirm and return to the Devices window. 6. Click Close to return to the Control Panel. Enabling Network Support 3 To introduce your WaveLAN network adapter card to the Windows NT operating system, you will need to enable Network support for your WaveLAN station. 1. From the Windows NT Taskbar, click the 2. Click on Settings, then Control Panel. 3. In the Control Panel window, double-click the Network icon to open the Network Settings window. button. n n If no network has been installed yet, you will be prompted to install it now. Click Yes to install Windows NT Networking, and follow the instructions as they appear on your screen. If networking support was already installed, you will see a window with multiple tabs. Select the tab Adapters, and click the Add button. WaveLAN/IEEE Turbo 11 Mb PC Card 3-7 Installation for Windows Getting Started in Windows NT Windows NT Networking Setup will determine the type of network adapter card that you will use to connect to the network. 4. When prompted to select a driver, proceed with Installing the Miniport Driver on page 3-9. 3-8 WaveLAN/IEEE Turbo 11 Mb PC Card Installation for Windows Installing the Miniport Driver Installing the Miniport Driver 3 If your Windows operating system automatically detected your hardware, it will prompt you to select a driver from a list, or install the driver from a Disk provided by Hardware Manufacturer. Some Windows operating systems may prompt you to select the type of network adapter first, to select the appropriate driver (see Figure 3-2). Figure 3-2 Select WaveLAN Adapter Type This is usually the case when:
n Your computer came with a factory-installed version of Windows 95 (usually referred to as Windows 95 OSR2). n Your computer runs the Windows NT operating system
(version 3.51 or 4.0), and you performed the steps as described in Getting Started in Windows NT on page 3-5. NOTE:
To make sure you install the latest available driver, always select the Disk provided by Hardware Manufacturer or WaveLAN/IEEE Turbo 11 Mb PC Card 3-9 Installation for Windows Installing the Miniport Driver the Have Disk option, to install the driver from the WaveLAN Software CD-ROM that came with your WaveLAN card. Alternatively, you can use the Browse option to navigate to the directory where you stored the set of files that you downloaded from the WaveLAN website. As Windows operating systems differ slightly (see What You Need to Know on page 3-2), some of the screens pictured in this chapter may look different from the actual display on your screen. However, the parameter settings for your WaveLAN IEEE 802.11 PC Card will be similar for all Windows operating systems. 1. In the Select Network Adapter window, click the Have Disk button. 2. Ensure that the WaveLAN Software CD-ROM has been button to inserted into your computer, and click the proceed. When you downloaded the latest driver files from the WaveLAN website:
n Use the Browse option on Windows 95/98 systems, to navigate to the harddisk drive and folder where you saved the driver files. n Windows NT systems will not allow you to browse for a harddisk folder as an alternative to a floppy disk. For such systems you will need to extract the downloaded files first, and copy the extracted files to a diskette. Windows will start copying files from your Windows installation disks or CD-ROM and the WaveLAN Software CD-ROM. If the system prompts you to identify the location of files (see Figure 3-3 on page 3-11), enter the correct drive and directory, and click the button to proceed. 3. 3-10 WaveLAN/IEEE Turbo 11 Mb PC Card Installation for Windows Installing the Miniport Driver Figure 3-3 Identify the Location of Files n For Windows system files (typically *.dll) this is usually the Windows CD-ROM. e.g. d:\cd-rom. n When your computer came with the Windows operating system factory-installed, point to the directory that contains the Windows setup files (*.cab): e.g. c:\windows\options\cabs n When the system prompts you to identify the WaveLAN Driver files (typically file names starting with the characters wv*.*), specify the drive and directory that contains your WaveLAN software:
If installing from the WaveLAN CD-ROM d:\software\adapter\pc_card\drivers\windows where d represents the drive letter of your CD-ROM. if installing files that you downloaded from the internet point to the floppy disk drive or directory where you saved the downloaded files. When you had a network adapter installed on your computer before, most of these files are already available on your hard disk drive. If you do not have the Windows CD-ROM available, you may try replacing the proposed path in the Copy files from dialog box with:
c:\windows\system or c:\windows\
WaveLAN/IEEE Turbo 11 Mb PC Card 3-11 Installation for Windows Installing the Miniport Driver Network Installation 3 If this is the very first time that Networking support is installed onto your computer, the Windows operating system will prompt you to enter a computer and workgroup name. These names will be used to identify your computer on the Microsoft Network Neighborhood. Figure 3-4 Windows Network Identification Properties 1. Click the button to display the window as pictured in 2. 3. 4. Figure 3-4. In the Computer Name field, enter a unique name for your computer. In the Workgroup field, enter the name of your workgroup.
(Optional) Provide a description of the computer in the Computer Description field. For more information about setting your Windows Network Properties, consult your Windows documentation or the Windows on-line help information. 3-12 WaveLAN/IEEE Turbo 11 Mb PC Card Installation for Windows Setting the WaveLAN Parameters Setting the WaveLAN Parameters 3 When you confirm the Windows Network Identification parameters, Windows will open the parameter window for your WaveLAN adapter as pictured in Figure 3-5. On computers running the Windows NT operating system, you will see additional tab labeled Adapter, that enables you to verify and/or modify the factory-set values for the I/O Port address of your WaveLAN Adapter, and its IRQ value1. 1. Enter the values that you wrote down when running the Windows NT Diagnostics as described on page B-7. 2. Click the Continue button, to display the parameter window for your WaveLAN adapter. The WaveLAN Properties window enables you to specify the WaveLAN specific parameters, required to connect your computer to the WaveLAN IEEE 802.11 network system. Which Parameters Do You Need?
3 When connecting your station to an IEEE 802.11 wireless network infrastructure, you will only need to set the following parameters:
n WaveLAN Network Name n Station Name In this Quick Installation Guide these parameters are described as the Basic WaveLAN Parameters. Looking at the WaveLAN Parameter window, you will also see a set of Advanced WaveLAN Parameters, and Power 1 For computers running the Windows 95 or Windows 98 operating system, you do not need to set these parameters. On these systems, the allocation of these device settings is controlled via the Plug & Play mechanism. WaveLAN/IEEE Turbo 11 Mb PC Card 3-13 Installation for Windows Setting the WaveLAN Parameters Management, which are described in the on-line help file of the driver and in Chapter 4 . You are advised to leave these to their default settings, unless there are special situations, for example, upon advice of a WaveLAN IEEE 802.11 expert. NOTE:
Always consult your LAN Administrator for the parameter settings that apply to your network environment. Basic WaveLAN Parameters 3 The Basic WaveLAN Parameters are the minimum set of parameters that should be set to get your WaveLAN IEEE 802.11 network up and running. These parameters include:
n WaveLAN Network Name n Station Name WaveLAN Network Name 3 When you wish to connect your computer to an IEEE 802.11 Infrastructure as pictured in Figure 1-3 on page 1-3 and Figure 1-4 on page 1-4, you have two options:
n n Connecting to Any Network as described on page 3-15, or Connecting to a Specific Network as described on page 3-16. The WaveLAN Network Name will determine to how your WaveLAN station will behave when powered up in an IEEE 802.11 Infrastructure. If you are unfamiliar with the two types mentioned above, please consult the section Connecting to a Network in Chapter , on page 1-17. 3-14 WaveLAN/IEEE Turbo 11 Mb PC Card Installation for Windows Setting the WaveLAN Parameters Figure 3-5 Setup WaveLAN Parameters Connecting to Any Network To connect to any IEEE 802.11 network in the vicinity of your WaveLAN computer, you can leave WaveLAN Network Name field blank, or enter the name ANY (all characters in upper-case). 3 When your WaveLAN Network name is set to ANY, your computer will attempt to establish a radio connection with any IEEE 802.11 network that provides good communications quality. You may wish to use the ANY option when:
n You operate your computer in multiple network environments, that are identified by different WaveLAN Network Names. n You do not know the WaveLAN Network Name of the network to which you would like to connect your computer. WaveLAN/IEEE Turbo 11 Mb PC Card 3-15 Installation for Windows Setting the WaveLAN Parameters Connecting to a Specific Network If you would like to connect to one specific WaveLAN Network only, enter the WaveLAN Network Name that applies to your network, for example: MY_WAVELAN_NETWORK. 3 This is the WaveLAN Network Name that the LAN Administrator programmed into the WavePOINT-II access points. Consult your LAN Administrator for the value that applies to your network. Setting up a New IEEE 802.11 Infrastructure?
When setting up a new IEEE 802.11 network, you may enter a WaveLAN Network Name of your choice. This name should also be programmed into other WaveLAN stations, and (if applicable) the WavePOINT-II access points. 3 The WaveLAN Network Name can be any alphanumeric string in the range of a to z, A to Z and 0 to 9. This string which can contain from 1 to 32 characters is case-sensitive. Example: MY_WAVELAN_NETWORK Station Name 3 The Station Name is a name that will be used to identify your WaveLAN station in the WaveLAN diagnostic tools described in Chapter 4. n When your computer runs the Windows 95 or Windows 98 operating system, enter a string of alphanumeric characters in the range of a-z, A-Z and 0-9 with a maximum of 32 characters. You are advised to use the same name as the one you entered in the Computer Name field in your Windows Network Neighborhood Properties (see Figure 3-4 on page 3-12). 3-16 WaveLAN/IEEE Turbo 11 Mb PC Card Installation for Windows Setting the WaveLAN Parameters n When your computer runs the Windows NT operating system, the Station Name field is not available. On these systems, the diagnostic tools will use the Computer Name value from the Identification tab. Connecting to an Ad-hoc Network 3 In case you do not wish to connect to a network infrastructure, but prefer to setup a small wireless workgroup as pictured in Figure 1-2 on page 1-2, you can enable the Ad-hoc Demo Mode tick box. In Ad-hoc Demo Mode, your computer will:
n n n Ignore the WaveLAN Network Name Ignore WavePOINT-II access points Fix the radio to operate at its factory-set default channel. This means that your WaveLAN IEEE station can communicate with any other WaveLAN IEEE station within its range, provided that these stations have been equipped with cards that have a matching default radio frequency (see Table A-6 on page A-8). WaveLAN/IEEE Turbo 11 Mb PC Card 3-17 Installation for Windows Setting the WaveLAN Parameters WaveLAN Encryption Parameters 3 The encryption tab enables you to define the encryption keys that your WaveLAN/IEEE Turbo 11 Mb PC Card should use to:
n Decrypt wireless messages received via its wireless interface. n Encrypt data that will be transmitted via the wireless interface.
CAUTION:
The encryption feature only works with WaveLAN IEEE Silver and Gold Label PC Cards. If the PC Card in your computer is an an older type WaveLAN/IEEE PC Card which does not support encryption (typically (identified by a Bronze or White Label ), do not enable encryption. Doing so may prevent the card from normal operation. Figure 3-6 Setup WaveLAN Encryption Parameters 3-18 WaveLAN/IEEE Turbo 11 Mb PC Card Installation for Windows Setting the WaveLAN Parameters You can identify up to 4 different key values to decrypt wireless data, and select one of these keys to encrypt wireless data transmissions. Subject to the type of WaveLAN PC Card, the key value of your choice may either be:
n n 5 alphanumeric characters in the range of a-z, A-Z and 0-
9 for Silver cards. 16 alphanumeric characters in the range of a-z, A-Z and 0-
9 for Gold cards. The alphabetical characters you select are case-sensitive. Example: Secu1 for silver cards, or Security Key1234 for Gold cards. Alternatively, you may select to enter a hexadecimal string, preceded by the characters 0xvalues, being either:
n n
10 digit hexadecimal values in the range of A-F and 0-9 for Silver cards. 32 digit hexadecimal values in the range of A-F and 0-9 for Gold cards. Example: 0xABCD1234FE for Silver cards, or 0x1234567890ABCDEF0987654321FEDCBA for Gold cards CAUTION:
To allow encrypted data communications, you must set the same encryption key values on all stations and/or access points. Carefully write down the values you enter here, and keep this note in a secure place. The values you enter on the encryption tab, will only be visible the first-time you enter the keys. After closing this tab, all key values will be displayed as xxxxxxxxxxx every time the tab is displayed again. WaveLAN/IEEE Turbo 11 Mb PC Card 3-19 Installation for Windows Finishing the WaveLAN Installation Finishing the WaveLAN Installation 3 When you have finished Setting the WaveLAN Parameters, click the button to proceed with the installation process. Windows will finish building the driver configuration database and copy some files from your CD-ROM or diskette to your computers hard disk. If the Windows operating system prompts you to identify the location of the Windows files, specify the drive and directory of the Windows Installation CD-ROM or diskettes (see also page 3-11). When Windows has finished the copying of files, it will prompt you to restart your computer. 1. Remove the WaveLAN software diskette from drive A:\
2. Click the button to restart your computer. Figure 3-7 Finished Setting up the Hardware After Restarting Your Computer 3 After you have restarted your computer, the Windows operating system should detect the WaveLAN IEEE 802.11 PC Card (you can hear the two-tone sound of the PC Card Socket Controller). Windows will load the WaveLAN IEEE 802.11 Miniport driver and will open with a dialog box that enables you to enter a user name and password. The password you enter here will be the one used to log into the Windows Network Neighborhood. 3-20 WaveLAN/IEEE Turbo 11 Mb PC Card Installation for Windows Working with WaveLAN & Windows Working with WaveLAN & Windows 3 View Other WaveLAN Stations 3 When multiple WaveLAN stations are up-and-running in your wireless network, you can use the procedure described below to display the other computers:
1. Start Windows Explorer. 2. Scroll down the list of files and folders to look for the item Network Neighborhood. 3. Double-click the Network Neighborhood item to display all stations in your Microsoft Networking Group. 4. To display other workgroups in the network environment, 5. double-click the Entire Network icon. If there is a second network operating system running in your network environment (for example a Novell NetWare network), the Entire Network window, will also display available servers running under the second network operating system. If you click on these servers, you may be asked to enter your user name and password that apply to the other network operating system If you cannot find other (WaveLAN) networked computers, verify whether or not the other WaveLAN computers are:
n Powered up and logged on to the network. n Configured to operate with an identical:
Networking Protocol. WaveLAN Network Name To verify the radio connection with other stations, you can also run the Monitoring Options as described in Chapter 5 . WaveLAN/IEEE Turbo 11 Mb PC Card 3-21 Installation for Windows Working with WaveLAN & Windows Selecting the Networking Protocol 3 Upon initial installation, your Windows operating system will typically install a basic set of networking protocols. You may need to check whether the network installation process:
n Truly added the protocols required to communicate with other computers in your network environment. n Configured the appropriate protocol settings to allow communication within your networking environment. Infrastructure Networks 3 When connecting your station to a network infrastructure, you will usually need additional networking protocols, according to the network operating system used within your LAN environment. The most common protocols are:
n IPX/SPX compatible protocols when your networking environment is using the Novell NetWare network operating system. n NetBEUI when you would like to use file and printer sharing, as supported by Microsoft Networking for Windows Workgroups. TCP/IP when you would like to connect your computer to a network that uses IP addressing, and/or you would like to connect to the internet. n These networking protocols can operate simultaneously with any other networking protocol. Ad-hoc Workgroup Networks 3 When connecting your station to an ad-hoc wireless workgroup, you will also need a networking protocol that will allow your station to participate in peer-to-peer networking. 3-22 WaveLAN/IEEE Turbo 11 Mb PC Card Installation for Windows Working with WaveLAN & Windows The most common protocols are:
n n NetBEUI when you would like to use file and printer sharing, as supported by Microsoft Networking for Windows Workgroups. TCP/IP when you would like to use local webserver capabilities that allow participants to surf (designated areas of) one-anothers disk-drives using an Internet Browser. When using the TCP/IP protocol, each workgroup participant must be identified by a unique IP Address value. Consult your Microsoft documentation for more information about protocols and peer-to-peer networking. Verifying the Current Protocol Setting 3 To verify whether your station has been configured for the correct type of network and networking protocols:
button from the Windows Taskbar. 1. Click the 2. Click on Settings, then Control Panel. 3. 4. Verify that the list of network components includes the In the Control Panel, double-click the Network icon. following items:
n Client for Microsoft Networks.
(optional) Client for NetWare Networks. n If the item of your choice is already available, click the button to exit this configuration screen and skip to the next step. If the items you require are missing, click the Add button and select Add Client to add the client software of the networking software that you would like to install. WaveLAN/IEEE Turbo 11 Mb PC Card 3-23 Installation for Windows Working with WaveLAN & Windows 5. When the proper Client software is installed, but you do not see the required protocols, click the Add button, and follow the instructions of the Windows operating system as they appear on your screen. Consult your LAN Administrator for more help or information about configuring the IPX/SPX and/or TCP/IP properties. Display or Modify WaveLAN Parameters 3 If you would like to view or modify WaveLAN parameters, for example because you would like to connect to another network or type of network, proceed as follows:
button from the Windows Taskbar. 1. Click the 2. Click on Settings, and then on Control Panel. 3. Double-click the Network icon. 4. In the Network Properties Window, select the WaveLAN IEEE 802.11 PC Card Adapter and click the Properties button.
(Optional) Change the parameters you would like to modify, and click the the button to confirm your changes, or button to ignore your modifications. n n 5. 3-24 WaveLAN/IEEE Turbo 11 Mb PC Card Advanced WaveLAN Parameters Contents Introduction MAC Address AP Density Transmit Rate The Auto Transmit Rate Select Mechanism The User-defined Transmit Rate Medium Reservation n About the Hidden Station Problem n About the Medium Reservation Mechanism Power Management Enable Power Management:
n Maximum Sleep Duration n Receive All Multicasts 4 4-1 4-2 4-3 4-4 4-4 4-5 4-8 4-8 4-11 4-13 4-14 4-15 4-15 Advanced WaveLAN Parameters Introduction 4 4 In most network environments you will not need to change the settings of the Advanced Parameters, as their default settings will prove most efficient for normal network communications. Figure 4-1 Advanced WaveLAN Parameters In special situations however, for example upon advice of an IEEE 802.11 WaveLAN expert, you may wish to change the defaults of the parameters described in this chapter. To display the parameters, follow the instructions as described under Display or Modify WaveLAN Parameters on page 3-24. WaveLAN IEEE 802.11 PC Card Users Guide 4-1 Advanced WaveLAN Parameters MAC Address MAC Address 4 All WaveLAN IEEE 802.11 PC Cards have a unique Universal MAC Address that is used to identify your computer on the network. n For most network operating systems, you will not need to change this parameter, i.e. you can leave this field blank. n When your network system uses a Local MAC Addressing scheme, you may need to assign a Local MAC Address value to the WaveLAN IEEE 802.11 PC Card of your computer. Valid address values are 12-digit, hexadecimal values, where the 2nd digit must be either 2, 6, A, or E. Consult your LAN Administrator to find out whether your network requires Local MAC Addresses, and (if applicable) to obtain a unique Local MAC Address value. NOTE:
The Access Control security feature for WavePOINT-II access points (described on page 6-3) does not work in systems that use Local MAC Addressing. If you would like to use Access Control, you must disable Local MAC Addressing. If you do not wish to assign a Local MAC Address, you should leave the MAC Address field blank, or enter the value 0 (zero). 4-2 WaveLAN IEEE 802.11 PC Card Users Guide Advanced WaveLAN Parameters AP Density AP Density 4 The Access Point Density parameter controls the roaming sensitivity of your wireless station. This parameter should be set according to match:
n n The density of the WavePOINT-II access points that have been installed throughout the wireless network area, and The setting of this parameter in the configuration of the access points. Figure 4-2 Access Point Density Parameter Consult your LAN Administrator for the appropriate values that apply to your network. Valid values are:
Low (default) n n Medium n High
CAUTION:
Using non-matching values may seriously affect wireless performance of your wireless station. WaveLAN IEEE 802.11 PC Card Users Guide 4-3 Advanced WaveLAN Parameters Transmit Rate Transmit Rate 4 The actual data transmission speed of your WaveLAN device is subject to the following criteria:
n n n The type of WaveLAN IEEE cards at both ends of the wireless link, being:
n n The card inserted into your computer, and The card inserted into the WavePOINT-II or, the peer-to-peer partner in an Ad-hoc network. The communications quality of the wireless link. The user-defined preference for the data Transmit Rate. NOTE:
Transmissions at high data rates do not cover the same distances as wireless data transmitted at Standard or Low data rates (see Table A-4 on page A-5). When upgrading from standard WaveLAN cards to Turbo cards, you may need to perform a site survey again to verify that the entire coverage area allows for data transmissions at the highest transmit rates. The Auto Transmit Rate Select Mechanism 4 In most networking scenarios, you will see that the factory-set default High will prove the most efficient. Whenever your card communicates via the wireless medium it will:
n Sense the maximum transmit rate as supported by both communication partners, and switch to that Transmit Rate. n Determine if the communication quality allows for communicating at this data rate. 4-4 WaveLAN IEEE 802.11 PC Card Users Guide Advanced WaveLAN Parameters Transmit Rate Transmissions at lower data speeds are usually more reliable. Therefore when the communications quality drops beneath a certain level, the WaveLAN cards will automatically switch to a lower data rate. When the communications quality improves again, both WaveLAN cards will gradually increase the data rate again, until they have reached the highest available Transmit Rate as supported by both cards. The User-defined Transmit Rate 4 If you wish to balance speed versus reliability, you can also select a user-defined preference from the following four options:
n High (default) n Medium n Standard n Low Figure 4-3 WaveLAN Transmit Rate WaveLAN IEEE 802.11 PC Card Users Guide 4-5 Advanced WaveLAN Parameters Transmit Rate Optionally, you can select to disable the Auto-Transmit Rate Select mechanism, by fixing the Transmit Rate to the selected user-
defined preference. You are advised however to do so only in special circumstances, typically upon advice of a WaveLAN IEEE expert or WaveLAN Technical Support representative. n Use the default High with Auto-Transmit Rate Select rate
(i.e. the Fixed tick box is cleared) to in regular networking environments. This setting will allow your WaveLAN card to operate at the maximum data rate as supported by the hardware:
Ethernet equivalent speed for WaveLAN IEEE Turbo cards. IEEE 802.11 Standard speed for regular WaveLAN IEEE 802.11 cards. n Use High - Fixed data rate only in networking environments where:
You are certain that all wireless devices can communicate at the highest Transmit Rate, and Where performance appears to slow down as a result of many retransmissions, even though the wireless coverage provides an Excellent Radio Connection. This situation may occur in exceptional cases where for example Microwave ovens in the WaveLAN Signal path interfere with WaveLAN data communication. n Use Standard in Ad-hoc wireless workgroups, where the wireless peers in the workgroup have been equipped with standard WaveLAN IEEE adapters, that do not support the Medium and High data rates. n Use Low - Fixed only in networking environments where range of the wireless connection is more important than speed. This setting will instruct your WaveLAN adapter to conserve resources by not attempting to (re-)transmit data at higher data rates. 4-6 WaveLAN IEEE 802.11 PC Card Users Guide Advanced WaveLAN Parameters Transmit Rate NOTE:
The actual transmit rates High and Medium are only supported by WaveLAN IEEE 802.11 Turbo cards. Regular WaveLAN IEEE 802.11 adapter cards that do not support these transmit rates, will interpret the settings High and Medium in the same way as the setting Standard. WaveLAN IEEE 802.11 PC Card Users Guide 4-7 Advanced WaveLAN Parameters Medium Reservation Medium Reservation 4 It is normal behavior for WaveLAN stations to defer transmissions automatically when they sense that another WaveLAN device is using the wireless medium. This behavior also referred to as the Carrier Sense Multiple Access/Collision Avoidance protocol (CSMA/CA) will avoid that wireless messages would collide in situations where two or more stations would start transmissions at the same time. The Medium Reservation mechanism enables you to improve wireless performance in network environments where the CSMA/
CA protocol would fail due to the hidden station problem as pictured in Figure 4-4 on page 4-9. Medium Reservation may provide a solution for networks where:
n The density of WaveLAN stations and WavePOINT-II access points is very low. n You witness poor network performance due to excessive frame collisions at the WavePOINT-II access points. About the Hidden Station Problem 4 A hidden station is a situation in which two stations are within range of the same WavePOINT-II, but are not within range of each other. Figure 4-4 on page 4-9 illustrates an example of the Hidden Station problem. Both Station A and Station B are within range of the WavePOINT-II access point however, Station B cannot hear Station A, therefore Station A is a hidden station for Station B. 4-8 WaveLAN IEEE 802.11 PC Card Users Guide Advanced WaveLAN Parameters Medium Reservation Figure 4-4 The Hidden Station Problem When Station B starts to communicate with the WavePOINT-II access point, it might not notice that Station A is already using the wireless medium. When Station A and Station B send messages at the same time, they might collide when arriving simultaneously at the WavePOINT-II access point. The collision will most certainly result in a loss of messages for both stations. In situations as pictured Figure 4-4, Medium Reservation may provide a solution to prevent message collisions by handing over transmission control to the WavePOINT-II access point. Troubleshooting a Hidden Station problem usually provides the best results when it is performed on the suspected WaveLAN Client stations that suffer from errors as a result of the hidden station problem. When configuring the WaveLAN card parameters (in the PC Card properties window) you can set the Medium Reservation parameter to either:
n n Hidden Station, or Off WaveLAN IEEE 802.11 PC Card Users Guide 4-9 Advanced WaveLAN Parameters Medium Reservation Figure 4-5 Medium Reservation Parameters You can enable Medium Reservation on individual stations, i.e. the setting of this parameter does not have to be the same for all WaveLAN devices in your network. Figure 4-6 Medium Reservation Request to Send 4-10 WaveLAN IEEE 802.11 PC Card Users Guide Advanced WaveLAN Parameters Medium Reservation About the Medium Reservation Mechanism 4 When you enable Medium Reservation on a suspect hidden station, this WaveLAN station and its WavePOINT-II access point will use a Request to Send/Clear to Send protocol (RTS/CTS). n The station will send an RTS to the WavePOINT-II device, that will include information about the length of the frame that the station would like to transmit (see Figure 4-6). n Upon receipt, the WavePOINT-II device will respond with a CTS message to all stations within its range to:
Notify all other stations to defer transmissions for the time-
frame of the requested transmission. Confirm the requestor station that the WavePOINT-II has checked the medium for availability, and has reserved it for the time-frame of the requested transmission. The CTS process is Figure 4-7 on page 4-11. Figure 4-7 Medium Reservation Clear to Send WaveLAN IEEE 802.11 PC Card Users Guide 4-11 Advanced WaveLAN Parameters Medium Reservation NOTE:
In most networking environments it is very unlikely that you will need to enable Medium Reservation on the WavePOINT-II to prevent collisions. Since all stations connected to a WavePOINT-II device are typically within range of the WavePOINT-II device they should be able to sense whenever the WavePOINT-II is using the medium to transmit messages via the wireless medium. Enabling Medium Reservation on the WavePOINT-II would require the WavePOINT-II to ask for a CTS for every message that it wishes to forward to stations within its range, even if it is forwarding traffic between stations that belong to the same wireless cell. This might cause redundant network overhead that could negatively affect the throughput performance instead of providing a remedy. 4-12 WaveLAN IEEE 802.11 PC Card Users Guide Advanced WaveLAN Parameters Power Management Power Management 4 The Power Management option on your WaveLAN IEEE 802.11 PC Card is designed to conserve battery life of your portable computing device. When Power Management is enabled, your WaveLAN card will go into sleep mode, to minimize power consumption. While in sleep mode, all network traffic addressed to your station will be buffered in the WavePOINT-II unit. At regular intervals, your WaveLAN card will wake up to verify whether there is information buffered at the WavePOINT-II access point. n n If there is no traffic, your WaveLAN card will return to power-
saving sleep mode. If there is buffered traffic, the station will collect it and return to sleep mode. The Power Management feature is best suited for transaction-
based processing. In network environments characterized by heavy data traffic, enabling Power Management may affect throughput performance as perceived at the wireless station. NOTE:
Power Management requires dedicated support from the WavePOINT-II access points. Previously purchased/
installed WavePOINT-II access points may not yet support buffering of traffic for wireless clients in sleep mode. Before enabling Power Management on your WaveLAN computer, please consult your LAN Administrator to verify whether the WavePOINT-II access points have been upgraded to support this feature. WaveLAN IEEE 802.11 PC Card Users Guide 4-13 Advanced WaveLAN Parameters Power Management Enable Power Management:
4 1. Right click the Network Neighborhood icon, and select Properties. 2. Select the WaveLAN/IEEE PC Card, and click Properties. 3. Select the Power Management tab 4. Enable Card Power Management. Figure 4-8 WaveLAN Power Management Parameters When Power Management is enabled, the Power LED will flicker, as compared to a stable green Power LED for the WaveLAN IEEE 802.11 PC Card not utilizing the Power Management feature. To manage the power consumption of your WaveLAN card, you will use the following PC Card property settings:
n Maximum Sleep Duration n Receive All Multicasts 4-14 WaveLAN IEEE 802.11 PC Card Users Guide Advanced WaveLAN Parameters Power Management Maximum Sleep Duration 4 The Maximum Sleep Duration identifies the listen interval (in milliseconds) for WaveLAN cards in sleep mode. At the specified listen interval, the WaveLAN card will wake up and check to see if there is network traffic addressed to your station. The default setting is 100 milliseconds (ms). For notebook and desktop computers, we recommend that you do not change this value, since this may interfere with standard operation of your Network Operating System. Hand-held devices may consider higher values, but first check the user manual that came with the device. Receive All Multicasts 4 When multicast frames are sent to the WaveLAN card, the card will be prompted to wake up at regular intervals to receive all multicast frames from the network. The default and recommended setting of this parameter is enabled to receive all multicast frames. When using Power Management on a networked computer, we advise you not to disable the Receive All Multicast option, unless you are absolutely certain that neither the application, nor the higher layer protocols of the network system need multicast messages for proper communication (for example, in a single-
application, single-protocol system like a hand-held scanner).
CAUTION:
Disabling the Receive All Multicast option for networked computing devices in regular networking environments may affect the performance of your computer. Missing too many Multicast messages might result in losing your network connection. WaveLAN IEEE 802.11 PC Card Users Guide 4-15 Monitoring WaveLAN Performance Contents About WaveMANAGER/CLIENT Installing WaveMANAGER/CLIENT Running WaveMANAGER/CLIENT Monitoring Options What to Monitor n Communications Quality n Data Throughput Efficiency Choosing your WaveMANAGER Tool WaveLAN Status/Function Window WaveLAN Link Test Testing Radio Communications Quality Testing Data Throughput Efficiency n High, Medium, Standard & Low Data Rates n Sent, Received & Lost Messages n Link Test Options WaveLAN Card Diagnostics Advanced User Options Basic Mode versus Enhanced Mode 5 5-1 5-2 5-3 5-3 5-4 5-4 5-5 5-6 5-7 5-8 5-9 5-10 5-10 5-11 5-12 5-13 5-14 5-14 n Enabling/Disabling Enhanced Mode Logging Measurement Data n n Setting the Logging Options n Start or Stop Logging Logging Options 5-15 5-15 5-16 5-16 5-17 Monitoring WaveLAN Performance 5 About WaveMANAGER/CLIENT 5 The WaveMANAGER/CLIENT IEEE program is a diagnostic tool for WaveLAN wireless networks that you can use to:
n Verify the quality of wireless communications between your WaveLAN station and the WavePOINT-II access point. n Display information about the configuration settings of your WaveLAN station and the WavePOINT-II access point. n Perform a site verification to determine or optimize placement of your WaveLAN station and WavePOINT-II access points. The WaveMANAGER/CLIENT IEEE tool runs only on WaveLAN equipped computers that run one of the following operating systems:
n Windows 95 or Windows 98 n Windows NT (version 4.0 or higher) NOTE:
The WaveMANAGER/CLIENT IEEE tool shipped with your WaveLAN IEEE 802.11 adapter does not work with previous generation WaveLAN devices. To monitor networks that use WaveLAN/PCMCIA or WaveLAN/ISA, you are advised to install the WaveMANAGER/CLIENT that was shipped with those products. WaveLAN IEEE 802.11 PC Card Users Guide 5-1 Monitoring WaveLAN Performance Installing WaveMANAGER/CLIENT Installing WaveMANAGER/CLIENT 5 To install the WaveMANAGER/CLIENT IEEE software:
1. Insert the WaveLAN Software CD-ROM in the station that you have designated as the WaveMANAGER Station. If you downloaded the software from the web, please refer to the installation instructions found on the web. 2. Select Run from Windows 95, 98 or Windows NT Start menu. 3. Use the option Browse to navigate to the CD-ROM drive and folder that contains the installation files for your WaveMANAGER/CLIENT program:
This is typically: software\adapter\pc_card\tools\windows if you are installing form the WaveLAN Software CD-ROM 4. Select the file setup.exe and click OK to return to the Start menu. 5. Click OK again to start the installation program. If you had a previous version of the WaveMANAGER/CLIENT IEEE program installed, it will be overwritten. 6. Follow the instructions of the setup program that are displayed on the screen. The installation program will:
n Create a WaveMANAGER folder on your computers hard disk, typically:
c:\program files\wavelan\wavemanager\client ieee. n Copy the WaveMANAGER/CLIENT IEEE program with the associated on-line help files to this folder, and n Create an icon on the Programs menu. 5-2 WaveLAN IEEE 802.11 PC Card Users Guide Monitoring WaveLAN Performance Running WaveMANAGER/CLIENT Running WaveMANAGER/CLIENT 5 To start WaveMANAGER/CLIENT IEEE:
1. Click the button in the Windows Task bar. 2. Click on Programs and then select WaveLAN. 3. In the list of WaveLAN program files select WaveMANAGER CLIENT IEEE to start the diagnostic utility. The opening window of WaveMANAGER/CLIENT will give a general indication of the wireless connection from your WaveMANAGER/CLIENT station to the WaveLAN IEEE 802.11 Infrastructure. Looking at this window you will be able to:
n Determine whether your card is functioning properly. n Determine the WaveLAN Network to which your WaveLAN IEEE 802.11 PC Card has established a connection. n Assess the communications quality with the selected IEEE 802.11 network. Monitoring Options 5 WaveMANAGER/CLIENT offers you various options to investigate wireless performance of your IEEE 802.11 WaveLAN network:
n n n The WaveLAN Status/Function Window The WaveLAN Link Test The WaveLAN Card Diagnostics This chapter will provide a set of guidelines to determine which tool to use in your situation. For more detailed information about each of the diagnostic options and screens, you are advised to consult the on-line help file of the WaveMANAGER/CLIENT program. WaveLAN IEEE 802.11 PC Card Users Guide 5-3 Monitoring WaveLAN Performance Running WaveMANAGER/CLIENT To access context-sensitive help in the WaveMANAGER/CLIENT program file:
n Click the n Press the button on your screen, or F1 function key on your keyboard. What to Monitor 5 To analyze wireless performance of your IEEE 802.11 WaveLAN network there are two major diagnostic indicators:
n n The Communications Quality of the radio connection. The Data Throughput Efficiency of your wireless connection. Communications Quality 5 The radio communications quality is expressed in the Signal to Noise Ratio (SNR). When communications quality is good, in most situations the data throughput efficiency will be good as well. When the communications quality of the radio connection is poor, this is usually the result of:
n A poor WaveLAN Signal Level, for example when your wireless station and access points are too far apart, or n A high level of interference (Noise Level), usually caused by other (wireless) devices emitting radio signals in the same frequency band as your WaveLAN adapter card. To monitor the communications quality of your connection to the network, the Link Test tool in WaveMANAGER/CLIENT IEEE actively exchanges messages to test the quality of the link. If your computer is idle, you can see the Transmit/Receive LED flickering due to these test messages. (These are test messages only; no email or other files are sent as part of the Link Testing). 5-4 WaveLAN IEEE 802.11 PC Card Users Guide Monitoring WaveLAN Performance Running WaveMANAGER/CLIENT To quickly view the quality of your communication with the network, open the WaveMANAGER/CLIENT IEEE program, and you can quickly view the quality of the link in two different locations:
n On the opening WaveMANAGER/CLIENT window, there is a visual Green/Yellow/Red indicator along with a text description of the connection (Good, Adequate, Poor). n On the Windows Taskbar, an icon (in the shape of a dish antenna) will indicate whether the connection is Good (Green), Adequate (Yellow) or Poor (Red). When you minimize the WaveMANAGER/CLIENT IEEE program, you can still view the communications quality of your connection. You will notice a small icon next in the right corner of your Windows Taskbar. This icon will display either Green (Good connection), Yellow (adequate) or Red (poor) Data Throughput Efficiency 5 The Data Throughput Efficiency is largely determined by:
n n The communications quality of the radio connection The congestion of the medium A poor communications quality will most likely affect the data throughput efficiency. When communications quality is poor it is likely that messages may get lost. Losing some messages is not dramatic, as your WaveLAN network adapter will automatically retransmit lost data frames. Losing many frames however may result in longer network response times, as numerous retransmissions will require more time and bandwidth to maintain successful network communication, while contributing to the congestion of the medium. WaveLAN IEEE 802.11 PC Card Users Guide 5-5 Monitoring WaveLAN Performance Running WaveMANAGER/CLIENT When many wireless stations try to communicate simultaneously, the congestion of the medium might slow down network performance. The network performance may slow down because:
n WaveLAN stations defer data transmissions for one another to avoid frame collisions n WaveLAN stations need to retransmit frames repeatedly because initial transmissions failed, for example due to a frame collision. How to analyze Data Throughput Efficiency is described under WaveLAN Link Test on page 5-8. Choosing your WaveMANAGER Tool 5 To monitor performance of your WaveLAN adapter and your IEEE 802.11 network, you can select either one of the following WaveMANAGER/CLIENT options:
n The WaveLAN Status/Function Window when you are only interested in the general performance of your wireless connection. n When you are troubleshooting wireless performance, or when you would like to perform more thorough investigations select:
Link Test to investigate a specific connection or location in detail, or n n WaveLAN Card Diagnostics, when you suspect a failure of your card. 5-6 WaveLAN IEEE 802.11 PC Card Users Guide Monitoring WaveLAN Performance WaveLAN Status/Function Window WaveLAN Status/Function Window 5 The WaveMANAGER/CLIENT always opens with a general status window, that informs about whether your WaveLAN card managed to connect to an IEEE 802.11 network. This window will display:
n n n The name of the network to which you are currently connected. The communications quality of the radio connection between your station and the network. The Impact of the communications quality on your network communication. Figure 5-1 WaveMANAGER/CLIENT Status Window Optionally you can use one of the available buttons to:
n Click the Advice button to troubleshoot unexpected results. n Start the WaveLAN Link Test. n Use the Card Diagnostics option when the Status window indicates that the WaveLAN Card is not functioning properly. WaveLAN IEEE 802.11 PC Card Users Guide 5-7 Monitoring WaveLAN Performance WaveLAN Link Test WaveLAN Link Test 5 You can use the Link Test to investigate the specific link between a WaveLAN computer and its WavePOINT-II unit in your WaveLAN Infrastructure environment (see Figure 1-3 on page 1-3). The Link Test mode enables you to investigate:
n n The Communications Quality of the radio connection The Data Throughput Efficiency of the radio connection. When you run the Link Test mode while roaming throughout the network environment, you will notice that the Link Test Partner will change according to the WavePOINT-II devices that service the wireless areas that you pass. Figure 5-2 WaveMANAGER Link Test 5-8 WaveLAN IEEE 802.11 PC Card Users Guide Monitoring WaveLAN Performance WaveLAN Link Test Testing Radio Communications Quality 5 The primary indicator to monitor is the communications quality of the radio connection. This value is expressed in a Signal to Noise Ratio (SNR). The SNR indicator will change color in the range Green, Yellow and Red, according to communications quality result as identified below:
Color n Green Description Communication quality is Good. No intervention is required. n Yellow Communications quality is Adequate. n Red No intervention is required. Communications quality is Poor and requires user-
intervention (see Appendix B Troubleshooting) When the SNR is rated as Good or Adequate the performance of your WaveLAN station will be good as well. When SNR is rated Poor you may need to consider one of the options proposed by the WaveMANAGER/CLIENT tool. To access WaveMANAGER/CLIENT tips for troubleshooting click the Advice button. Advice may include:
n Optimizing antenna placement to increase the WaveLAN Signal Level, or n Eliminating sources of interference to decrease the Noise Level that affects the Signal to Noise Ratio (SNR). Use the indicators for Signal Level and Noise Level to determine the cause of reduced performance. The panels for Your Station and the Link Test Partner will help you to identify where you should start optimizing antenna placement or eliminating interference. WaveLAN IEEE 802.11 PC Card Users Guide 5-9 Monitoring WaveLAN Performance WaveLAN Link Test Testing Data Throughput Efficiency 5 The secondary indicator for wireless performance is the Data Throughput Efficiency of the radio connection. Data Throughput Efficiency is measured in:
n n High, Medium, Standard & Low Data Rates Sent, Received & Lost Messages High, Medium, Standard & Low Data Rates 5 WaveLAN/IEEE PC Cards use an automatic Transmit Rate Select mechanism to ensure reliable communications:
n When communicating with another wireless IEEE 802.11 compliant LAN device, both devices will automatically synchronize their data rate to the highest compatible transmit rate. n As data communications at lower speeds may travel larger distances that communications at high speed, the WaveLAN adapters will automatically switch to a lower data rate when one or both of the two link partners are moving away from one another. NOTE:
When running a network with multiple types of WaveLAN PC Cards, all communications between the different types of PC Cards will be at the Standard speed (see About Using Different Card Types on page 1-7). When running the WaveMANAGER/CLIENT Link Test, the diagnostic tallies will inform you at which speed the both Link test partners synchronized their data transmissions. 5-10 WaveLAN IEEE 802.11 PC Card Users Guide Monitoring WaveLAN Performance WaveLAN Link Test You can use these tallies to determine whether you might need to:
n Move wireless stations closer to the WavePOINT-II access point (or together when operating in an Ad-hoc Wireless Workgroup as pictured in Figure 1-2 on page 1-2). n Verify the type of card installed at both Link Test Partners, for example by displaying the information on the "Configuration Info tab. Sent, Received & Lost Messages 5 Messages Sent/Received/Lost, displayed on the left-bottom side of the Link Test window. When a data transmission fails, the WaveLAN card will automatically retransmit the data. When the number of Messages Lost is relatively high, this may indicate a problem that is either related to:
n A poor Signal to Noise Ratio (SNR), or Frame collisions, due to a congestion of the medium. n When SNR is low and the number of Messages Lost is high, the problem is most likely due to a poor Communications Quality, for example because your station and the Link Test Partner are too far apart, or because the connection suffers from a source of interference (Noise) that affects the quality of your communications. However when SNR is rated Good or Adequate but you still witness a relatively large number of lost messages, this might indicate:
n A very busy network, where many stations try to access the WaveLAN medium at the same time. n A microwave oven in the signal path is causing short bursts of interference. This noise might not be displayed by the Noise Level indicator, but still be forcing the WaveLAN stations to retransmit frames over and over again. WaveLAN IEEE 802.11 PC Card Users Guide 5-11 Monitoring WaveLAN Performance WaveLAN Link Test n Another station is suffering from a Poor communications quality, and consequently sending many retransmissions n Numerous frame collisions occur due to a hidden station problem. You are advised to run the WaveMANAGER/CLIENT Link Test from multiple stations to determine whether:
n n This problem is a local problem, i.e. for one station only, or This problem is experienced by all stations. When all stations suffer from poor Data Throughput Efficiency, despite a Good SNR value, investigate what is causing the heavy traffic load. Link Test Options 5 To investigate Link Test results in more detail, you can use one of the following options:
Freeze the display by clicking the Freeze button. n n Display Radio Communications Quality in a line-chart graphic, n by selecting the Link Test History window. Log measurement results to a disk file (see Advanced User Options on page 5-14). 5-12 WaveLAN IEEE 802.11 PC Card Users Guide Monitoring WaveLAN Performance WaveLAN Card Diagnostics WaveLAN Card Diagnostics 5 The Card Diagnostics enables you to:
n Run a Card Test. n Display a set of communication statistics. n Display the configuration settings of your card
(Enhanced Mode only, see Advanced User Options). You will need to run the Card Test only in situations where the Status window (as pictured in Figure 5-1 on page 5-7) reports a card failure, or when you suspect a configuration mismatch.
CAUTION:
Running the Card Test may temporarily disrupt the communication of your computer with the network. In exceptional cases you may lose your network connection. When this is the case, restart the computer to restore your network connection. When contacting WaveLAN Technical Support, the Card Test results may help the support representative determine the cause of a malfunctioning device. WaveLAN IEEE 802.11 PC Card Users Guide 5-13 Monitoring WaveLAN Performance Advanced User Options Advanced User Options 5 Basic Mode versus Enhanced Mode 5 The default configuration of your WaveMANAGER/CLIENT program will provide all the diagnostic information that you would need to perform standard diagnostic routines:
n Verify if the card is functioning properly. n Verify if your WaveLAN station is within range of the IEEE 802.11 network. n Determine or optimize placement of WavePOINT-II access points. This configuration setting also enables you to perform basic troubleshooting routines such as n Optimizing antenna placement. n Detecting the occurrence of in-band interference (noise). When you are an experienced user of WaveLAN IEEE 802.11 products, you may be interested in using the Enhance Mode of WaveMANAGER/CLIENT IEEE. The Enhanced Mode option is typically used by skilled LAN Administrators or Network Installation Technicians in situations where you are troubleshooting a problem related to WaveLAN networking. This mode will enable you to:
n Display the Configuration Settings of your WaveMANAGER/
CLIENT station and the WavePOINT-II access point. n Display the tallies of standard communication statistics, such as Unicast/Multicast Frames, Fragments or the number of deferred Transmissions or Communication Errors. n Display the Communication Protocol settings. n Save measurement data to a log file as described in Logging Measurement Data on page 5-15. 5-14 WaveLAN IEEE 802.11 PC Card Users Guide Monitoring WaveLAN Performance Advanced User Options Enabling/Disabling Enhanced Mode 5 1. Start the WaveMANAGER/CLIENT program. 2. Open the Status/Functions window (pictured in Figure 5-1 on page 5-7) 3. Click the Options button. 4. Select or clear the Enhanced Mode check box. 5. Click OK to confirm and return to the WaveMANAGER/
CLIENT program. NOTE:
Optionally, you can also place a check-mark in the Skip Initial Screen box, when you would like to open the WaveMANAGER/CLIENT IEEE program directly to the Status/Function screen. Logging Measurement Data 5 The WaveMANAGER/CLIENT enables you to save measurement results of your Link Test session to a log file. You can use this log file for example to:
n Evaluate the results at a later stage. n Compare the results with previous measurements. n Send the measurement results to your WaveLAN Support representative when troubleshooting a specific problem. Comparison of measurement data with previous measurements may help you investigate the performance of your wireless LAN over a period of time, for example to analyze the consequences of relocated network equipment. WaveMANAGER/CLIENT log files are saved in Comma Separated Value (CSV) file format. You can read these files with any ASCII editor, or import the data into any standard spreadsheet or database application. WaveLAN IEEE 802.11 PC Card Users Guide 5-15 Monitoring WaveLAN Performance Advanced User Options Logging Options 5 To enable logging option, you must set the WaveMANAGER/
CLIENT to Enhanced Mode as described in Enabling/Disabling Enhanced Mode on page 5-15. Once the WaveMANAGER/CLIENT runs in Enhanced Mode, you can set the log option to store measurement data manually, or automatically at regular intervals. n Use manual when you would like to save measurement data at specific locations and moments, e.g. when you are investigating a particular source of interference. n Use automatic when you would like to collect measurement data on network performance over a longer period of time. This may be useful if you wish to analyze recurring events or variation in values. Automatic logging is typically used when the WaveMANAGER/
CLIENT station is running a Link Test at a particular location. Setting the Logging Options 5 To set the logging options, click the Log Settings tab in Link Test window. In both modes, the measurement data will be saved in the file entered in the Path and file name field. Each time new data is saved, this information is added to the existing file. If you wish to save the data in a new file, use this field to enter a new file name. 5-16 WaveLAN IEEE 802.11 PC Card Users Guide Monitoring WaveLAN Performance Advanced User Options Figure 5-3 Logging Setup Dialog Box Start or Stop Logging 5 When you have set the Logging Options, the WaveMANAGER/
CLIENT will create a button on the lower-right side of the diagnostic window. Depending on your choice of logging option, this button will read:
n n Log Once for the manual log option, or Start for the automatic log option. If you selected the manual option, click the Log Once button each time you wish to save measurement data. For the automatic option, click the Start button. Click this button again to stop the logging function. To change the logging option, proceed as described in Setting the Logging Options on page 5-16. WaveLAN IEEE 802.11 PC Card Users Guide 5-17 Monitoring WaveLAN Performance Advanced User Options 5-18 WaveLAN IEEE 802.11 PC Card Users Guide WaveLAN Security Options Contents Introduction Closing the Infrastructure Wireless Access Control Wireless Data Encryption 6 6-1 6-2 6-3 6-4 WaveLAN Security Options Introduction 6 6 Wireless network systems that comply to the IEEE 802.11 standard for wireless LANs, allow computing devices to attempt to establish a wireless (radio) connection to the network, as easy as possible. Such a wireless connection however, only refers to a physical connection to the LAN, similar to a cable that is pulled between an Ethernet station and a hub, or patch panel. The physical connection will not provide access to networking data or services, which would typically require a station to:
n Have the appropriate network operating system software installed. Log on to the network, using a login name and password. n Besides standard security measures as supported by most of todays network operating systems, the WaveLAN IEEE 802.11 system allows you to implement a number of additional security options, that can help to prevent unauthorized access to your network, and network data. WaveLAN IEEE 802.11 PC Card Users Guide 6-1 WaveLAN Security Options Introduction Examples of such additional WaveLAN security measures are:
n n n Closing the Infrastructure described on page 6-2. Wireless Access Control described on page 6-3. Wireless Data Encryption described on page 6-4. For more detailed information on operating system security measures, please refer to the documentation that came with the network operating system, or consult the reseller of your LAN software.l Closing the Infrastructure 6 The IEEE 802.11 standard on wireless LANs was designed to allow mobile computing devices to establish a (radio) connection to a Local Area Network (LAN) as easy as possible. This means that mobile users that do not know the correct WaveLAN Network Name can use the value ANY, or use an empty string for the network name to establish a radio connection with the nearest access point. Although such a physical connection does not provide access to network data without the appropriate username and password, in some occasions, you may wish to restrict access to the network resources in a more stringent way. Lucent Technologies WavePOINT-II access points, allow you to close the wireless infrastructure via a special setting of the access point(s). Doing so, the WavePOINT-II devices will:
n n Ignore radio association request from users that have configured their WaveLAN IEEE device to use the value ANY Ignore radio association request from users that use a non-
Lucent WaveLAN adapter. 6-2 WaveLAN IEEE 802.11 PC Card Users Guide WaveLAN Security Options Introduction This means that the WavePOINT-II will only allow WaveLAN IEEE stations that have been configured with the correct WaveLAN Network Name to establish a radio connection. NOTE:
The Closed option is not fully compliant with the IEEE 802.11 Standard for Wireless LANs. For more information please consult the WaveMANAGER IEEE Users Guide that was shipped with your WavePOINT-II access point(s), or download the latest copy from the WaveLAN website. Wireless Access Control 6 When your IEEE 802.11 compliant infrastructure includes WavePOINT-
II access points, you are advised to use the WaveLAN Access Control feature of your WavePOINT-II access points to restrict wireless access to the network to authorized stations only. Authorized stations are listed by the MAC Address of their WaveLAN card in an Access Control Table. The MAC Address of your WaveLAN Card is printed on a label on the backside of your WaveLAN PC Card. To enable the Access Control feature, the LAN Administrator must:
1. Determine which WaveLAN cards will be authorized to communicate with the WavePOINT-II access points. WaveLAN IEEE 802.11 PC Card Users Guide 6-3 WaveLAN Security Options Introduction 2. Enter the MAC Address of these cards into an Access Control Table file. 3. Load the Access Control Table file into all WavePOINT-II access points that belong to the network infrastructure. With the Access Control file loaded, the WavePOINT-II access points will:
n Only forward wireless data to/from Authorized Stations that n are identified in the Access Control table file, and Ignore all request to forward data from/to stations that use a WaveLAN card of which the MAC Address is not listed in the Access Control table file. Consult your LAN Administrator to verify whether your network infrastructure uses the WavePOINT-II Access Control feature. If this is the case, the LAN Administrator should add the MAC Address of your card to the Access Control Table. The MAC Address of your WaveLAN card is printed on a label on the back-side of your WaveLAN card. Wireless Data Encryption 6 If you would like to add an extra security layer to your wireless communication, you can optionally install a WaveLAN IEEE 802.11 system that supports wireless data encryption. Two types of WaveLAN PC Cards allow you to build such a system:
n WaveLAN/IEEE Silver Label Cards (described on page 1-6). n WaveLAN/IEEE Gold Label Cards (described on page 1-7). To install such a system, all devices in your wireless network, must be equipped with WaveLAN/IEEE PC Cards that support encryption. 6-4 WaveLAN IEEE 802.11 PC Card Users Guide WaveLAN Security Options Introduction n Silver cards support the IEEE compliant "Wired Equivalent Privacy (WEP) data encryption, based upon the 64 bit RC4 encryption algorithm. n Gold cards support an enhanced type of data encryption, based upon the 128 bit RC4 algorithm. When enabling encryption, the WaveLAN interface of your wireless stations and/or WavePOINT-II Access Points, will encrypt all data that will be transmitted via the wireless intrerface. n The encryption feature allows you to define up to four encryption keys to decypher messages received via the wireless interface. n You can select one of these four keys to encrypt the wireless data tranmissions. If you plan to use data encryption within your network, all stations and access points must be:
n Equipped with a WaveLAN PC Card that supports encryption. n Configured with a matchinng set of encryption keys. The option to specify up to four decryption keys allows you to refresh the key values at regular intervals (for example starting at the access points) without the necessity to update all station at the same time. For information about setting encryption key parameters, please consult the section WaveLAN Encryption Parameters on page 3-18 as described in Chapter 3. NOTE:
Early models of the WaveLAN/IEEE Silver PC Cards,
(typically shipped prior to July 1999), may need an update of the card firmware to v4.08 or higher, to enable the encryption feature. This update for Silver Cards, is managed via a dedicated "WaveLAN Station Update" tool
(WSU version 4.08 or higher) that can be downloaded from the WaveLAN website. WaveLAN IEEE 802.11 PC Card Users Guide 6-5 Card Specifications Contents Physical Specifications Networking Characteristics Radio Characteristics Supported Frequency Sub-bands WaveLAN PC Card Types About Previously Purchased Cards n Standard IEEE 802.11 PC Cards n About the IEEE 802.11 Turbo Card n About the Fixed wireless PC Card Can I Upgrade WaveLAN Cards?
A A-1 A-2 A-3 A-7 A-9 A-9 1-9 1-11 1-11 1-12 Card Specifications A Physical Specifications A Table A-1 Physical Specifications Form Factor PC Card Type-II Extended Color1 n Black for WaveLAN/IEEE Turbo 11 Mb PC Cards
(both Gold and Silver Label) n Red for IEEE Fixed Wireless PC Cards
(LxWxH) 117.8 x 53.95 x 8.7 mm 45 gram (PC Card) Dimensions Weight Temperature & Humidity Operation Transit Storage 1 0 to 55 C2
-20 to 70 C
-10 to 60 C maximum humidity 95%
15 to 95% (no condensation allowed) 10 to 90% (no condensation allowed) Color of the extended antenna is related to the Radio Characteristics described on page A-3 Although the card may still operate in the range of -20 to 70 C, operation outside the range of 0 to 55 C may no longer be according to specifications. 2 Table A-2 Power Characteristics Doze Mode Receive Mode Transmit Mode Power Supply 10 mA 180 mA 280 mA 5 V WaveLAN/IEEE Turbo 11 Mb PC Card A-1 Card Specifications Networking Characteristics Networking Characteristics A Table A-3 Networking Characteristics Compatibility Network Operating System Host Operating System Media Access Protocol Data Rate IEEE 802.11 Standard for Wireless LANS (DSSS) n Novell Client 3.x & 4.x n Microsoft Windows Networking Microsoft Windows 95/98 and Windows NT:
n NDIS Miniport Driver MS-DOS & Microsoft Windows 3.x:
n DOS ODI Driver n Packet Driver Windows CE n Windows CE v.2.0 & 2.11 Apple Macintosh Operating Systems:
n Apple PowerBook G3 CSMA/CA (Collision Avoidance) with Acknowledgment (ACK) n High n Medium n Standard n Low The cards use an automatic Transmit Rate Select mechanism. Optionally the user can choose the fix the transmit rate at a specific speed. 11 Mb/s 5.5 Mb/s 2 Mb/s 1 Mb/s A-2 WaveLAN/IEEE Turbo 11 Mb PC Card Card Specifications Radio Characteristics Radio Characteristics A Radio Characteristics of WaveLAN adapter cards may vary according to:
n n The country where the product was purchased. The type of product that was purchased. Wireless communication is often subject to local radio regulations. Although WaveLAN wireless networking products have been designed for operation in the license-free 2.4 GHz band, local radio regulations may impose a number of limitations to the use of wireless communication equipment. To comply with such regulations, WaveLAN IEEE 802.11 cards are marketed with dedicated channel-sets with a number of factory-
programmed channels identified by the following acronyms:
n n ETS for countries that adhere to the regulations as defined by the European Telecommunications Standards Institute (ETSI). FCC for countries that adhere to the regulations as defined by the US Federal Communications Commission (FCC). FR for France, and JP for Japan. n n The acronym of the channel-set supported by your card is printed on a label on the back-side of your WaveLAN IEEE 802.11 card
(see Table A-6 on page A-8 for a detailed list of channels). If you plan to install and use WaveLAN adapter cards to connect a WavePOINT-II or other computing device to an outdoor antenna installation, additional regulations may apply. WaveLAN/IEEE Turbo 11 Mb PC Card A-3 Card Specifications Radio Characteristics To comply with such regulations Lucent Technologies offers two types of WaveLAN adapter cards:
n n In countries that adhere to the FCC regulations, you can use the standard black-colored WaveLAN IEEE 802.11 card. In countries that adhere to the ETSI regulations, including France and Japan, you must select the card-type based upon the antenna that will be used:
n You can use the black-colored WaveLAN IEEE 802.11 card when connecting the device to standard Lucent omni-
directional antennas. n You must use the red-colored IEEE Fixed Wireless PC Card when connecting the device to the standard Lucent 14 dBi directional antenna for outdoor use. When you ordered a WaveACCESS LINK WP-II kit1 for outdoor antenna installations, your kit includes the correct card type that complies with the regulations that apply in your country.
WARNING:
At all times, it will be the responsibility of the end-user to ensure that an outdoor antenna installation complies with local radio regulations. The end-user must verify that:
n The antenna installer is aware of these regulations. n The correct type of WaveLAN card is used to connect the host device to the outdoor antenna installation. Lucent Technologies and its resellers or distributors are not liable for any damage or violation of government regulations that may arise from failing to comply with these guidelines. 1 Formerly identified as the WaveLAN IEEE PTP Kit A-4 WaveLAN/IEEE Turbo 11 Mb PC Card i R a d o C h a r a c t e r i s t i c s C a r d S p e c i f i c a t i o n s A
5 Table A-4 Radio Characteristics R-F Frequency Band Number of selectable sub-channels Modulation Technique 2.4 GHz (2400-2500 MHz) North America (FCC) Europe (ETS) France (FR) Japan (JP) Other Countries:
11 13 4 1 n FCC 11 n ETS 13 Direct Sequence Spread Spectrum n CCK for High & Medium Transmit Rate n DQPSK for Standard Transmit Rate n DBPSK for Low Transmit Rate 11-chip Barker Sequence Better than 10-5 15 dBm W a v e L A N
I E E E T u r b o 1 1 M b P C C a r d Spreading Bit Error Rate (BER) Nominal Output Power Range (100 bytes User Data) /
Transmit Rate Open Office Environment 160 m (525 ft.) Semi-Open Office Environment 50 m (165 ft.) Closed Office 25 m (80 ft.) Receiver Sensitivity
-83 dBm Delay Spread (at FER of <1%) 65 ns High Speed 11 Mb/s Medium Speed Standard Speed Low Speed 5.5 Mb/s 270 m (885 ft.) 70 m (230 ft.) 35 m (115 ft.)
-87 dBm 225 ns 2 Mb/s 1 Mb/s 400 m (1300 ft.) 90 m (300 ft.) 40 m (130 ft.)
-91 dBm 400 ns 550 m (1750 ft.) 115 m (375 ft.) 50 m (165 ft.)
-94 dBm 500 ns Card Specifications Radio Characteristics The range of the wireless signal is related to the Transmit Rate of the wireless communication. Communications at lower Transmit range may travel larger distances. NOTE:
The range values listed in Table A-4 on page A-5 are typical distances as measured at the Lucent Technologies WaveLAN laboratories. These values may provide a rule of thumb and may vary according to the actual radio conditions at the location where the WaveLAN product will be installed. n The range of your wireless devices can be affected when the antennas are placed near metal surfaces and solid high-density materials. n Range is also impacted due to obstacles in the signal path of the radio that may either absorb or reflect the radio signal. Table A-4 lists the typical ranges when used indoors in office environments that can be described as follows:
n n n In Open Office environments, antennas can see each other, i.e. there are no physical obstructions between them. In Semi-open Office environments, work space is divided by shoulder-height, hollow wall elements; antennas are at desktop level. In Closed Office environments, work space is separated by floor-to-ceiling brick walls. If you intend using the WaveLAN PC Card as part of an outdoor antenna installation, the range of the outdoor antenna installations will be related to:
n Type of outdoor antennas connected to the WaveLAN card. Length of antenna cables. n n Clearance of the radio signal path. A-6 WaveLAN/IEEE Turbo 11 Mb PC Card Card Specifications Radio Characteristics For more information please consult the WaveLAN IEEE Outdoor Antenna Installation Guide Table A-5 WaveLAN Fixed Wireless PC Card R-F Frequency Band Number of selectable sub-channels:
Modulation Technique:
Spreading Bit Error Rate (BER) Nominal Output Power:
Range 13 4 1 13 2.4 GHz (2400-2500 MHz) Europe (ETS) France (FR) Japan (JP) Other Countries (ETS)1 Direct Sequence Spread Spectrum n CCK for High & Medium Transmit Rate n DQPSK for Standard Transmit Rate n DBPSK for Low Transmit Rate 11-chip Barker Sequence Better than 10-5 8 dBm Consult the WaveLAN IEEE Outdoor Antenna Installation Guide2 1 2 The Fixed Wireless PC Card is not available in FCC regulated countries. This card is designed for outdoor antenna installations in countries that adhere to radio regulations as defined by the ETSI. Supported Frequency Sub-bands A Subject to the radio regulations that apply in your country, your WaveLAN card may support a different set of 2.4 GHz channels
(see Table A-6). Consult your Authorized WaveLAN Reseller or Lucent Technologies Sales office for information about the radio regulations that apply in your country. WaveLAN/IEEE Turbo 11 Mb PC Card A-7 Card Specifications Radio Characteristics Table A-6 WaveLAN IEEE 802.11 Channels Sets Frequency Range Channel ID 1 2 3 4 5 6 7 8 9 10 11 12 13 14 2400-2500 MHz FCC 2412 2417 2422 2427 2432 2437 2442 2447 2452 2457 2462
ETSI 2412 2417 2422 2427 2432 2437 2442 2447 2452 2457 2462 2467 2472
France
2457 2462 2467 2472
Japan
2484 When installing WaveLAN adapter cards the channel configuration is managed as follows:
n n For wireless clients that operate in a WaveLAN IEEE 802.11 Infrastructure, the WaveLAN card will automatically start operation at the channel identified the WavePOINT-II access points. When roaming between different access points the station can dynamically switch to another channel if required. For WaveLAN cards installed into wireless clients that operate in a Ad-hoc Demo Mode, the WaveLAN card will use the factory-set default channel (printed in bold). n When inserted into a WavePOINT-II access point, the WaveLAN card will use the factory-set default channel (printed in bold), unless the LAN Administrator selected a different channel when configuring the WavePOINT-II device. A-8 WaveLAN/IEEE Turbo 11 Mb PC Card Troubleshooting B Contents LED Activity Windows Operating Systems Generic Problems n Windows does not detect my new card n Enabling the PC Card Controller n Station Cannot Connect to the Network Hardware Conflict n Running Windows NT Diagnostics n Despite NT Diagnostics, still facing problems n PC Card Conflict Upgrading the WaveLAN Miniport Driver n Upgrading the driver for Windows 98 n Upgrading the driver for Windows NT n Upgrading the driver for Windows 95 Removing the WaveLAN Miniport Driver n Deleting the WaveLAN Driver Files MS-DOS Systems Error Messages n No PACKET.INI found Can Not Connect To The Network B-1 B-4 B-4 B-4 2-4 B-5 B-6 B-7 B-11 B-12 B-14 B-15 B-17 B-18 B-20 B-21 B-23 B-23 B-23 B-23 Troubleshooting LED Activity B B If you encounter difficulty using and/or installing your WaveLAN product, the error may be related to various causes:
n Out-of range situation, which prevents the WaveLAN PC Card from establishing a wireless connection with the network. n Configuration mismatch, which prevents the WaveLAN PC Card from establishing a wireless connection with the (correct) network. n Absence of, or conflict of the WaveLAN Driver. n A problem or conflict with the PC Card slot which prevents the PC Card from powering on. n A conflict of the WaveLAN hardware with another device. The starting point to troubleshoot problems with your WaveLAN card is looking at the LED activity of the WaveLAN PC Card. Table B-1 on page B-2 provides an overview of the various modes of operation and the associated LED activity. Table B-1 also includes a number of troubleshooting hints, if required, that may help you solve the problem. WaveLAN/IEEE Turbo 11 Mb PC Card B-1 Troubleshooting LED Activity Table B-1 LED Activity Table Power LED Transmit Description/Action Receive LED Blinking Continuous Green Off Flicker Flicker Both LEDs blink once every 10 seconds Standard operational mode. n Card is powered on. n Sensing/transmitting wireless data. n Card is powered on. n No wireless activity. No action is required. Power Management mode:
n Card is powered on, but set to power saving mode, to conserve battery life. n Flashes indicates that the card wakes up at regular intervals to verify if there is wireless data addressed to your computer. WaveLAN card works fine, but did not yet succeed establishing a wireless connection with the wireless Infrastructure. Actions:
n Contact the LAN Administrator to verify the WaveLAN Network Name assigned to the wireless infrastructure. n Contact the LAN Administrator to verify the correct value(s) of the encryption keys. n Contact the LAN Administrator to verify whether the network infrastructure has been closed (see page 6-2). n Change the configuration of your WaveLAN PC Card to enter the correct WaveLAN Network Name n If there are no WavePOINT-II devices available, change the configuration of your WaveLAN PC Card to run in Ad-hoc Demo mode. B-2 WaveLAN/IEEE Turbo 11 Mb PC Card Troubleshooting LED Activity Table B-1 LED Activity TableContinued Power LED Transmit Description/Action Off Receive LED Off Card is not powered on, so it can not transmit/receive data. The cause may either be:
n No Driver loaded/installed n Card - Driver mismatch which prevented the driver from loading n Device conflict which prevented the driver from loading Actions:
n Verify if a driver has been installed, if not install the driver. n Verify the device settings of the PC Card to determine the occurrence of a conflict with another device. If so, change the settings of either your WaveLAN or the conflicting device to resolve the problem. n Verify the versions of the driver, and the embedded software in the WaveLAN card
(also referred to as Station firmware). n Consult the WaveLAN website to see if newer versions are available and if so, upgrade both the embedded software and driver to the latest available version. WaveLAN/IEEE Turbo 11 Mb PC Card B-3 Troubleshooting Windows Operating Systems Windows Operating Systems B Generic Problems Windows does not detect my new card B B n Windows NT operating systems v3.51 and v4.0 do not support n Plug & Play. On such systems, you will need to manually introduce the card to your operating system as described in Chapter 3 under Getting Started in Windows NT on page 3-5
. In some occasions, Windows 95 and/or Windows 98 do not detect a new card either. This may be the case in one of the following situations:
n The laptop computer into which you wish to install the WaveLAN card is a brand-new out-of-the-box computer, where the Windows 95/98 operating system was already factory-installed (see Enabling the PC Card Controller on page B-4). n A previous installation of the WaveLAN adapter card was aborted before it was finished. Enabling the PC Card Controller 2 Today, most brand-new out-of-the-box laptop computers come with the Windows 95/98 operating system factory-installed. On some of these computers, a number of options like PC Card &
Socket Services have been disabled by default to save on disk and memory space. In order to use such options you must first finalize the Windows 95/98 installation in order to enable such options. If a Windows 95/98 computer does not detect your WaveLAN PC Card, proceed as described below, to enable the PC Card socket interface, or to verify that it has been enabled, proceed as follows:
B-4 WaveLAN/IEEE Turbo 11 Mb PC Card Troubleshooting Windows Operating Systems button on the Windows Taskbar. 1. Click the 2. Click on Settings, then Control Panel. 3. In the Control Panel window, double-click the PC Card icon to open the PC Card Properties window (see Figure B-1). Figure B-1 Enabling the PC Card Controller 4. In the PC Card Properties window, double-click one of the PC Card Sockets. If the PC Card socket interface was not yet enabled, the Windows operating system will display a message that it is finalizing the PC Card Socket installation. 5. Click the button to confirm and close the PC Card Properties window. Station Cannot Connect to the Network B This situation may occur in any of the following situations:
Incorrect WaveLAN Network Name n n No driver loaded WaveLAN/IEEE Turbo 11 Mb PC Card B-5 Troubleshooting Windows Operating Systems n Closed System (see Closing the Infrastructure on page 6-2). n Station not authorized to access network (see Wireless Access Control on page 6-3). n Card defect n Hardware Conflict on page B-6 Hardware Conflict B When installing adapter cards or peripheral devices on a computer you may occasionally run into hardware conflict that may:
n n prevent your WaveLAN card from working properly, or disturb operation of other devices after the installation of the WaveLAN drivers. Such problems are most of the times caused when multiple devices installed onto your computer are using identical values for I/O Base Address and/or Interrupt Request (IRQ). The factory-set values of your WaveLAN cardhave been set to use the following defaults:
Table B-2 Default Strappings of the WaveLAN Hardware Device Resource Default Value WaveLAN IEEE 802.11 PC Card1 I/O Port IRQ 0400-0437 10 1 For older driver versions the default I/O Base Address value is 0300 B-6 WaveLAN/IEEE Turbo 11 Mb PC Card Troubleshooting Windows Operating Systems Unlike the Windows 95 or Windows 98 operating systems, Windows NT is not able to check automatically whether the proposed values are already used by another device. To avoid or troubleshoot hardware conflicts with another device, you are advised to use the Windows NT Diagnostic program, to determine whether the default I/O port and IRQ for your WaveLAN card are available, and if not to select an alternative value. NOTE:
Sometimes it may be pretty difficult to determine where a device conflict is locared. As a rule of thumb, you can use the following troubleshooting hint:
n n When the conflict is related to an conflcitng I/O Base setting, in most cases the WaveLAN card will not work at all: i.e. you will not see any LED activity. If the problem is related to a conflicting IRQ value, LEDs may flicker, but you can notconnect to the network. In a number of cases you may be able to verify that the card succeeded in establishing a radio connection with a WavePOINT-II device, but fails to really connecting to the network operating system. Running Windows NT Diagnostics B When installing the WaveLAN card, the Windows NT operating system will prompt you to confirm or modify the factory-set device values for your WaveLAN card:
Starting Windows NT Diagnostics B 1. Click the button on the Windows NT Taskbar. 2. Click on Programs, and then Administrative Tools. WaveLAN/IEEE Turbo 11 Mb PC Card B-7 Troubleshooting Windows Operating Systems 3. From the list of Administrative Tools, click the item Windows NT Diagnostics. Verifying IRQ Settings B To display the IRQ values that are already in use by other devices installed on your computer:
1. Click the Resources tab on the Windows NT Diagnostics screen. This will display the screen pictured in Figure B-2. Figure B-2 Verifying IRQ Availability 2. Click the IRQ button to display the Interrupt Request (IRQ) vectors currently in use by other devices in your computer. The default IRQ value for WaveLAN IEEE 802.11 PC Cards is 10. Is the value 10 already listed?
n If No, you can use the WaveLAN default. Write down IRQ 10 and proceed with the next step. B-8 WaveLAN/IEEE Turbo 11 Mb PC Card Troubleshooting Windows Operating Systems n If Yes, this means that another device is already using the IRQ, i.e. you will need to select another value for your WaveLAN IEEE 802.11 PC Card. 3. See whether one of the following values is available (i.e. not listed in the Windows NT Diagnostics window):
03, 04, 05, 07, 09, 10, 11, 12, 15. 4. Select one non-listed value and write it down before you proceed with Verifying I/O Port Settings. Verifying I/O Port Settings To display the values of I/O Ports that are already in use by other devices installed on your computer, proceed as follows:
B 1. On the Resources screen of the Windows NT Diagnostics program, click the button I/O Port. This will display the window pictured in Figure B-3. The default I/O Port value for WaveLAN IEEE 802.11 PC Cards is 04001. Is this appropriate value already listed for your version of the Miniport driver?
n n If No, you can use the WaveLAN default. Write down I/O Port 0400 and proceed with the next step. If Yes, this means that another device is already using this port address, i.e. you will need to select another value for your WaveLAN IEEE 802.11 PC Card. 1 This applies to WaveLAN/IEEE Miniport driver version 1.33 and higher. For earlier versions of this driver, the default I/O Base Address is 0300. If you are unsure about the version of the Miniport driver that is currently installed, use the WaveMANAGER/CLIENT IEEE tool. Use the option Diagnose Card to display the Version Info tab which will list the version numbers of the cards hardware, embedded software and driver. For the latest WaveLAN Miniport driver, consult the WaveLAN website at:
http://www.wavelan.com. WaveLAN/IEEE Turbo 11 Mb PC Card B-9 Troubleshooting Windows Operating Systems Figure B-3 Verifying I/O Port Availability If the default WaveLAN I/O Port has already been assigned to another device, select an alternative I/O Port value from the range listed below:
0200
0280
0300*
0380
0400**
0440 0480 04C0 0500 0540 0580 05C0 0600 0640 0680 06C0 0700 0740 0780 07C0
* For driver versions 1.32 or earlier, the default was 0300.
** For version 1.33 or higher, the default setting is 0400. 2. Verify that the alternative value is available (i.e. not listed in the Windows NT Diagnostics window). B-10 WaveLAN/IEEE Turbo 11 Mb PC Card Troubleshooting Windows Operating Systems 3. Write down the alternative I/O Port value and close the Windows NT Diagnostics Program. Having finished these steps, you should now have a note that identifies the following (alternative) values:
n IRQ value I/O Port Address n You can use these values to install the WaveLAN Miniport Driver as described later in this chapter. Despite NT Diagnostics, still facing problemsB The Windows NT Diagnostics program is not bullet-proof. Occasionally you may run into a hardware conflicts despite the fact that the Windows NT Diagnostics program displayed resources as being available to your WaveLAN card. This may be the case when your computer has one or more devices and/or peripherals installed which claimed an I/O Base Address and/or IRQ value without notifying the Windows NT operating system: Your Windows NT Diagnostics program will not be able to display these values, simply because it doesnt know. If this is the case, a value you perceived as being available to your WaveLAN card, had already claimed by a conflicting device resulting in:
n A WaveLAN card that does not work, and/or n A conflicting device that does not work properly. It will depend on your preferences and the configuration options supported by each of the conflicting devices to determine which device settings should be changed to allow flawless operation. In most situations the WaveLAN Miniport driver will prove most flexible to select alternative settings for I/O Base Address or IRQ WaveLAN/IEEE Turbo 11 Mb PC Card B-11 Troubleshooting Windows Operating Systems values. However since the conflicting device apparently did not communicate its System Resource claims to Windows NT, you may need to try multiple values before the problem will be resolved. n Consult the documentation that came with your computer and/
or the conflicting device to find out which values are used by the conflicting device that have not been listed in the Windows NT Diagnostics.
CAUTION:
To isolate the problem, you are advised to change only one parameter at a time. For example: first try to resolve a possible conflict with the I/O Base Address. If that does not work, try to resolve a possible IRQ conflict. PC Card Conflict B When your WaveLAN PC Card installation has completed successfully, but it does not become operational, it is possible that there is an I/O Port conflict. The Windows Resource Manager may not have been able to detect the conflict, allowing the installation to complete successfully, but not allowing the PC Card to operate properly because another device has been assigned the specified port. The default I/O Base address used by your WaveLAN IEEE 802.11 PC Card is 0400 (when using Miniport driver version 1.33 or higher) and 0300 (when using Miniport version 1.32 or earlier). You are advised to try different I/O Port values, as described in Verifying I/O Port Settings on page B-9. B-12 WaveLAN/IEEE Turbo 11 Mb PC Card Troubleshooting Windows Operating Systems Table B-3 Default Configuration Settings Description Station Name Connect to Network Type WaveLAN Network Name MAC Address AP Density Transmit Rate Medium Reservation Card Power Management n Receive All Multicasts n Maximum Sleep Duration Encryption Default Value
(none) IEEE 802.11 Infrastructure n Connect via access points n Ad-hoc Demo disabled
(none)
(none: use Universal MAC Address)1 Low Density High - Auto Rate Select OFF OFF Enabled 100 OFF 1 The Universal MAC Address of your WaveLAN card is printed on a label on the backside of the card. WaveLAN/IEEE Turbo 11 Mb PC Card B-13 Troubleshooting Upgrading the WaveLAN Miniport Driver Upgrading the WaveLAN Miniport Driver B Upgrading the WaveLAN Miniport Driver installed may be required in one of the following situations:
n You would like to use new features that have become available for your WaveLAN IEEE 802.11 PC Card. n You installed a newer version of the WaveMANAGER/CLIENT IEEE tool. n Your WaveMANAGER/CLIENT IEEE Card Diagnostics reported a Driver/Firmware mismatch.
CAUTION:
Upgrading the WaveLAN Miniport Driver should only be done by a skilled LAN Administrator or support engineer that has a working knowledge of the Microsoft Windows 95, 98 and/or the Windows NT operating system. The procedure to upgrade device drivers differs between the various Windows operating systems:
n Windows 98 and Windows NT systems feature an update driver function that allows you to easily replace the current driver with a more recent version. n Windows 95 systems usually require you to first to completely remove the driver from your computer, prior to installing the latest driver. This is described on page B-18. B-14 WaveLAN/IEEE Turbo 11 Mb PC Card Troubleshooting Upgrading the WaveLAN Miniport Driver Upgrading the driver for Windows 98 B 1. On the Windows Taskbar, click the Start button. 2. Click on Settings, and then click Control Panel. 3. 4. In the Control PaneI window, double-click the System icon. In the System Properties window, select Device Manager tab. Figure B-4 The Windows 98 Device Manager 5. 6. In the top section of the Device Manager tab, select the option View devices by type as pictured in Figure B-4 on page B-15. In the list of computer devices, double-click Network Adapters. 7. Select the item WaveLAN/IEEE PC Card and click the 8. Properties button. In the WaveLAN/IEEE PC Card Properties window, select the Driver tab to display the window pictured in Figure B-5. WaveLAN/IEEE Turbo 11 Mb PC Card B-15 Troubleshooting Upgrading the WaveLAN Miniport Driver Figure B-5 Windows 98 Update Driver Window n n To display information about the currently installed driver, click the Driver File Details button. To upgrade your current driver to a newer version click the Update Driver button and follow the instructions as displayed on your screen. 9. Restart your computer to finish the driver upgrade procedure and to have the new driver loaded by the operating system. 10. (Optional) Upgrade the WaveMANAGER/CLIENT program. NOTE:
The procedure described above may look familiar to users of computers that run Windows 95 operating systems which are identified as OSR2 versions. Although such systems may also show an Update Driver button, thorough testing in the Lucent Technologies WaveLAN labs have proven that this procedure does not work for the Windows 95 systems (the operating system will NOT replace the current driver). For Windows 95 systems, proceed as described on page B-18. B-16 WaveLAN/IEEE Turbo 11 Mb PC Card Troubleshooting Upgrading the WaveLAN Miniport Driver Upgrading the driver for Windows NT B 1. On the Windows Taskbar, click the Start button. 2. Click on Settings, then click Control Panel. 3. 4. Select the Adapters tab to display the window as pictured in In the Control PaneI, double-click Network Neighborhood. Figure B-6 on page B-17 5. Select the IEEE WaveLAN Adapter and click Update. 6. Follow the instructions as they appear on your screen. Figure B-6 Update Driver in Windows NT WaveLAN/IEEE Turbo 11 Mb PC Card B-17 Troubleshooting Upgrading the WaveLAN Miniport Driver Upgrading the driver for Windows 95 B To upgrade the WaveLAN Miniport driver on a Windows 95 system, you will typically need to perform the following three steps:
1. Remove the current WaveLAN Miniport Driver. 2.
(Optional) Physically delete the driver file from your hard disk.
(Re-)install the latest WaveLAN Miniport Driver. 3. Step 2 is optional, subject to the type of driver you have currently installed:
n When the interface of your current driver looks as displayed in Figure B-7 on page B-18, you must delete the driver files from the hard-disk, prior to installing the new drivers. n When the interface of your current driver looks as pictured in Figure B-8 on page B-19, you may, but do not need to delete the driver files from the hard-disk. Figure B-7 Interface of early WaveLAN Drivers B-18 WaveLAN/IEEE Turbo 11 Mb PC Card Troubleshooting Upgrading the WaveLAN Miniport Driver Why delete the old driver? The Plug & Play support of Windows 95 operating systems associates a specific driver with specific hardware. When you select the option Remove Driver from the Network (Neighborhood) Control Panel, the operating system will only disable the driver, but will not delete the driver from your harddisk (see also What You Need to Know on page 3-2). When trying to upgrade a driver, the Windows operating system will recognize your WaveLAN card as a piece of hardware that had been installed before and will attempt to re-install the old driver: i.e. when the operating system finds the appropriate driver files on your hard disk, it will not bother copying the files from the diskette with the new drivers. Figure B-8 Setup WaveLAN Parameters WaveLAN/IEEE Turbo 11 Mb PC Card B-19 Troubleshooting Upgrading the WaveLAN Miniport Driver Removing the WaveLAN Miniport Driver B 1. Close all applications that are currently open 2. On the Windows Taskbar, click the Start button. 3. Click on Settings, then click Control Panel. 4. 5. Select the IEEE WaveLAN Adapter and click the Remove In the Control PaneI window, double-click the Network icon. button. The Windows operating system will disable the Miniport driver and update the driver configuration files. It will not delete the driver from your computers harddisk. This means that when you would re-insert the WaveLAN card, your Windows operating system will attempt to activate the same driver files again (see also What You Need to Know on page 3-2). 6. When prompted to Restart your computer select:
n Yes, if you dont mind that the driver and configuration files reside on your hard disk (the restart will finish your procedure to disable the driver). n No, if you would like to physically remove the drivers from your hard disk (typically required to upgrade the driver on a Windows 95, 98 operating system). Proceed as described under Deleting the WaveLAN Driver Files on page B-21 to delete the driver and its information and configuration files from your harddisk. B-20 WaveLAN/IEEE Turbo 11 Mb PC Card Troubleshooting Upgrading the WaveLAN Miniport Driver Deleting the WaveLAN Driver Files B The procedure to physically remove the WaveLAN Miniport Driver files from your harddisk is similar for all Windows operating systems.
CAUTION:
Prior to deleting the files from your harddisk, it is important to remove the drivers as described on page B-20. Failing to do so prevents the Windows operating system from cleaning the Windows Registry, which might lead to complications when you try to re-install the WaveLAN driver in the future. 1. Open the Windows Explorer. 2. 3. From the View tab, select Show all files and clear the In the Explorer menu, click on View and select Options check-box Hide MS-DOS file extensions. 4. Click the Apply button to return to the Explorer window. 5. Back in the Explorer, open the Windows System folder:
n n c:\windows\system for Windows 95 and 98 c:\winnt\system32\drivers for Windows NT systems 6. Delete the WaveLAN driver files listed below, as identified for your operating system:
n For Windows 95/98 delete the following files from the folder c:\windows\system:
wvlan41.sys wvlanuif.vxd If present (subject to the driver version you had previously installed) also delete the files:
wv41int.dll wvlan41.hlp wvlan41.cnt WaveLAN/IEEE Turbo 11 Mb PC Card B-21 Troubleshooting Upgrading the WaveLAN Miniport Driver n For Windows NT systems delete the files listed below from the folder c:\windows\system32:
wvlan41.dll wvlan41.hlp wvlan41.cnt From the folder c:\windows\system32\drivers delete:
wvlan41.sys 7. Next delete the inf files:
n n For Windows 95 open the folder c:\windows\inf and delete the file: wvlan41.inf For Windows 98 delete the file: Provider - Lucent Technologies WVLAN41 from the folder c:\windows\inf and/
or c:\windows\inf\other 8. Close the Windows Explorer and Restart your computer. When deleting the WaveLAN Miniport Driver files was part of an Upgrade Driver routine, you can now (re-)install the new WaveLAN Miniport Driver as described in Chapter 3 Installation for Windows. B-22 WaveLAN/IEEE Turbo 11 Mb PC Card Troubleshooting MS-DOS Systems MS-DOS Systems Error Messages No PACKET.INI found B B B The WaveLAN Packet Driver will display this error message in one of the following two situations:
n n The driver could not find the file PACKET.INI The file PACKET.INI contained invalid parameter values that prevented the driver from loading. Subject to the type of error, the driver may either load using the factory-set defaults or not load at all. You are advised to verify the path statement in the AUTOEXEC.BAT file. You may need to add a statement to your AUTOEXEC.BAT file that will make the directory that contains the WaveLAN Packet driver the active directory. When the PACKET.INI file is stored in the same directory as the WaveLAN Packet Driver, the driver should be able to automatically find the PACKET.INI file. Can Not Connect To The Network B The WaveLAN Netwrok Name is case-sensitive. When you entered this name, the value should have been placed between quotation marks e.g. "My WaveLAN Network". If you omitted the quotation marks, the driver will interpret the value as all upper-case e.g. MY WAVELAN NETWORK. If your access points have been configured with both lower- and uppre-case characters, the driver will not be able to establish a radio connection. WaveLAN/IEEE Turbo 11 Mb PC Card B-23 Troubleshooting MS-DOS Systems B-24 WaveLAN/IEEE Turbo 11 Mb PC Card Installing in Windows CE Contents Introduction Installing the WaveLAN Driver n What you Need n Running the Installation Program Using WaveLAN with Windows CE n Monitoring Wireless Performance Modifying Configuration Parameters C C-1 C-2 C-2 C-3 C-4 C-4 C-5 Installing in Windows CE Introduction C C Windows CE devices are most commonly used on hand-held computing devices also referred to as H/PC devices. Subject to the type and brand of the device, you will see that multiple versions of the Windows CE operating system exist today, where each CE device may also use a specific type of processor. The WaveLAN/IEEE drivers will only work with CE devices that:
n Run the MS-Windows CE operating system version 2.0 in combination with a MIPS, SH3 and X86 processor, or n Run the MS-Windows CE operating system version 2.111 in combination with a SH4, ARM or X86 processor. To determine whether your Windows CE device satisfies these requirements:
button on the Windows Taskbar. 1. Click the 2. Click on Settings, then Control Panel. 3. On the Control Panel, double-click the System icon to display the window pictured in Figure C-1. 1 v2.11 is sometimes also referred to as MS-Windows CE HPC PRO v3.0. WaveLAN IEEE 802.11 PC Card Users Guide C-1 Installing in Windows CE Introduction Figure C-1 Windows CE CPU Type Installing the WaveLAN Driver What you Need C C Windows CE devices are typically used in combination with desktop computers running Windows CE Services to transfer data between the desktop computer and the H/PC device. To use WaveLAN IEEE 802.11 in your Windows CE device, you will need to:
1. Run the WaveLAN installation file setup.exe for Windows CE to copy the Miniport driver and configuration files from the floppy disk to the synchronization folder for Windows CE services on your desktop computer, and 2. Use the Windows CE Services to transfer files to your H/PC device. The default location of the Windows CE synchronization folder is: C:\Program Files\Windows CE Services\wavelan Please refer to the Microsoft Handheld PC Companion booklet and the user documentation of your H/PC device for more information about installing the Windows CE Services. C-2 WaveLAN IEEE 802.11 PC Card Users Guide Installing in Windows CE Introduction Running the Installation Program C To install the WaveLAN drivers on your Windows CE device, simply do the following:
Insert the WaveLAN CD-ROM into the desktop computer. 1. 2. Browse to the CD-ROM folder that includes the Windows CE driver files. For example:
e:\software\adapter\pc_card\drivers\win_ce Where "e" represents the drive letter of your CD-ROM drive. 3. Double-click the "setup2xx.exe" file that matches the version of the Windows CE operating system on the handheld device:
n Use setup200.exe when your handheld device runs n Microsoft Windows CE version 2.0 Use setup211.exe when your handheld device runs Microsoft Windows CE version 2.11 n When finished, use the serial cable and/or docking station to connect your Windows CE device to the desktop computer. Once the computers have been connected, the Windows CE services will automatically copy the files and drivers from your desktop computer to the Windows CE device. NOTE:
If you encounter difficulty copying the WaveLAN driver files to your Windows CE device, please refer to the Microsoft Handheld PC Companion booklet and the user documentation of your H/PC device for more information about installing and/or troubleshooting the Windows CE Services. If you encounter difficulty establishing a network connection after you installed the WaveLAN drivers successfully, consult the readme.txt of the WaveLAN driver files for Windows CE for troubleshooting hints. WaveLAN IEEE 802.11 PC Card Users Guide C-3 Installing in Windows CE Introduction Using WaveLAN with Windows CE C When you insert the WaveLAN card into your Windows CE device, it will start operation with the following factory-set defaults:
n Connect to a Network Infrastructure n Use the WaveLAN Network Name ANY to connect to the first access point that provides a communications quality that is acceptable or better. On the Control Panel of your Windows CE device, you will also find a WaveLAN icon, to view or modify the WaveLAN parameters. Monitoring Wireless Performance C The WaveLAN software for Windows CE devices, does not include diagnostic tools. This is partially due to the memory limitations of Windows CE devices. However you can use other WaveLAN stations to monitor wireless communications between the other station and your Windows CE device. n n For Independent Network environments, you should start the WaveMANAGER/CLIENT IEEE program on a WaveLAN computer running either the Windows 95, 98 or Windows NT operating systems. The Link Test mode of this utility enables you to analyze the communications quality between the Initiator station and your Windows CE device (identified as the Remote Station). In Infrastructure Networks, consult the LAN Administrator to run the WaveMANAGER/AP tool. The Remote Link Test of this utility enables the LAN Administrator to analyze the communications quality between the WavePOINT-II (identified as the Initiator station) and your Windows CE device
(identified as the Remote Station). C-4 WaveLAN IEEE 802.11 PC Card Users Guide Installing in Windows CE Introduction Modifying Configuration Parameters C To view or modify the WaveLAN configuration parameters, open the Control Panel on your Windows CE device and double-click the WaveLAN icon. For more information about these parameters, please consult:
n n The WaveLAN help system for your Windows CE drivers by clicking the ? help icon, or The chapters about other Windows operating systems described earlier in this Users Guide. WaveLAN IEEE 802.11 PC Card Users Guide C-5 Installation for MS-DOS Contents Introduction What You Need to Know Driver Types Installation Overview Copy the WaveLAN Software Setup the WaveCAD Program Card & Socket Services Intel 82365 PCIC Install the Network Client Software Setup the WaveLAN Parameters DOS ODI Driver Configuration n About the NET.CFG File Packet Driver Configuration n Setup the WaveLAN Packet Driver Finishing Installation Advanced Options Dual Card Configuration Start-up Menu Configuration D D-1 D-1 D-1 D-2 D-3 D-4 D-4 D-5 D-9 D-10 D-10 D-17 D-19 D-19 D-25 D-27 D-27 D-27 Installation for MS-DOS Introduction D D What You Need to Know D Installing an IEEE 802.11 WaveLAN PC Card requires the same level of expertise that you would need to install any other type of standard Ethernet network adapter card. It is assumed that you have a working knowledge of MS-DOS operations and of installing network adapter cards and network client software. Driver Types D When your computer runs the MS-DOS operating system, or Microsoft Windows for Workgroups (usually referred to as Windows 3.x), you can use one of the following network drivers:
n WaveLAN DOS ODI Driver (WVLAN43.COM) n WaveLAN Packet Driver (WVLAN42.COM) To install these network drivers, you will also need a program called the WaveLAN Card Access Driver (WaveCAD). The WaveCAD software is included with the MS-DOS Driver software that was shipped with your IEEE 802.11 WaveLAN Card. The WaveCAD driver (wvlancad.sys) will enable you to access the WaveLAN IEEE 802.11 PC Card Users Guide D-1 Installation for MS-DOS Introduction WaveLAN Card via any PC Card slot that is controlled by an Intel 82365 PCIC or computers that support Card & Socket Services. Installation Overview D To install the IEEE 802.11 WaveLAN PC Card in an MS-DOS environment, you will need to:
1. Copy the WaveLAN software manually to the hard disk of your computer. 2. Setup the WaveCAD program. 3. Install the Network Client Software for your network operating system. 4. Setup the WaveLAN configuration parameters. 5. Restart the computer to verify that the WaveCAD executes successfully and the network driver is loaded. To setup the various configuration parameters, you may need to edit a number of system files. You can use any MS-DOS line editor to edit these files, for example the MS-DOS EDIT command. Example DOS commands:
c:\
edit config.sys D-2 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Copy the WaveLAN Software Copy the WaveLAN Software D The IEEE 802.11 WaveLAN PC Card disk includes a small batch file (CPY2HDSK.BAT). This file will:
n Create a new directory on your hard disk, and n Copy the IEEE 802.11 WaveLAN PC Card software to this new directory. To copy the WaveLAN software, proceed as follows:
1. Choose a name for the hard disk directory where you would like to store the WaveLAN software: e.g. c:\wavelan 2. Place the WaveLAN software diskette in drive A:
3. Make drive A: the current drive 4. Run the batch file CPY2HDSK.BAT with the chosen hard disk directory name as parameter. Example DOS commands:
a:\
cpy2hdsk c:\wavelan WaveLAN IEEE 802.11 PC Card Users Guide D-3 Installation for MS-DOS Setup the WaveCAD Program Setup the WaveCAD Program D To allow MS-DOS-based computers to identify the presence of a PC Card in the PC Card slot, the computer needs dedicated software that will enable it to do so. For your WaveLAN IEEE 802.11 card this can either be:
n Card & Socket services software as provided by various n software vendors, or The WaveLAN Card Access Driver (wlancad.sys), a Lucent Technologies proprietary driver, that was designed specifically for WaveLAN cards. The card software must be loaded before any other program
(network driver or utility) tries to access the WaveLAN card. In this section, we describe the proper WaveCAD installation procedure and settings for the following systems:
n Computers using Card & Socket Services n Intel 82365 PCIC based computers Card & Socket Services D To ensure the WaveCAD is always run at start-up time, you must edit the system file CONFIG.SYS to include a DEVICE statement that will identify the path and filename of the WaveCAD program. Example DOS commands:
c:\
edit c:\config.sys The format of the device line is as follows:
DEVICE = [path name]wvlancad.sys D-4 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Setup the WaveCAD Program When for example your device line looks as follows:
DEVICE = c:\wavelan\wavecad\wvlancad.sys With Card & Socket Services, you do not need to set any parameters (Memeory, IRQ, I/O Port) in the DEVICE statements. However, if you would like to overrride the default settings, follow the directions for Intel 82365 PCIC on page D-5, using Table D-1 on page D-7 to identify valid parameter values that can be included in the wvlancad.sys DEVICE statement. Intel 82365 PCIC D For Intel 82365 PCIC based computers, you must start the WaveLAN Card Access Driver (wvlancad.sys) before any other program (network driver or utility) can access the WaveLAN card. To ensure the WaveCAD is always run at start-up time, you must edit the system file CONFIG.SYS to include a DEVICE statement that will identify the:
n Path and file name of the wvlancad.sys program n Memory Address of the WaveLAN card I/O Port Address of the WaveLAN card Interrupt Request Line number (IRQ) of the WaveLAN card. n n Use Table D-1 on page D-7 to identify valid parameter values that can be included in the wvlancad.sys DEVICE statement. In order for your card to function properly, you will need to verify whether the values that you select to include in the DEVICE statement are not already used by another device that has been installed in your computer. Consult your LAN Administrator or a computer expert to determine an available Memory Address, I/O Port Address and IRQ value that you can use to install the WaveCAD driver. WaveLAN IEEE 802.11 PC Card Users Guide D-5 Installation for MS-DOS Setup the WaveCAD Program Alternatively you can use the Microsoft Diagnostics program
(MSD.EXE) to determine the available values. For more information about Microsoft diagnostics, please refer to the documentation that came with your MS-DOS operating system. You can use any MS-DOS line editor to edit the CONFIG.SYS file. The format of the device line is as follows:
DEVICE = [path name]wvlancad.sys /m=xxxx /b=xxxx /i=nn For example, if your device line looks as follows:
DEVICE = c:\wavelan\wavecad\wvlancad.sys /m=d100 /b=0340 /i=11 The WaveCAD will be programmed to use:
n Memory Address d100 - dFFF I/O Port Address 0340H and IRQ 11 n n D-6 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Setup the WaveCAD Program Table D-1 WaveCAD Configuration Parameter Values Parameter Description
<path>
Disk drive and directory containing WaveCAD program wavecad.sys (do not type brackets) Memory Address
/m=xxxx Valid Values
/b=xxxx I/O Port Address
/i=nn IRQ 4-digit hexadecimal value Valid range: C000 - EF00 in increments of 100 For example:
C000, C100, C200, or C300, etc. 4-digit hexadecimal value Valid range: 0300 - FFC0 in increments of 40 For example:
0300, 0340, 0380, 03C0 or FF00, FF40, FF80, or FFC0 1- or 2-digit decimal value Valid values:
3, 4, 5, 7, 9, 10, 11, 12, 14, or 15 NOTE:
When editing the CONFIG.SYS file, please note the following:
Remove any other PCMCIA-related DEVICE statement from the CONFIG.SYS file. When for example the CONFIG.SYS file includes DEVICE statements for Card Services or Socket Services you must remove these statements. You are advised to consult the documentation that came with your computer or other PCMCIA device to help you to identify these statements. WaveLAN IEEE 802.11 PC Card Users Guide D-7 Installation for MS-DOS Setup the WaveCAD Program When your computer has a memory manager program installed, for example EMM386.EXE, you must exclude the Memory Address space that you assigned to the WaveCAD program in the previous step (see page D-6). To exclude the Memory Space address, you must add an exclude parameter to DEVICE statement that activates the memory manager program. For example, if your computer uses the EMM386.EXE memory manager program, your DEVICE statement could look as follows:
DEVICE=c:\dos\emm386.exe noems x=d100-d1ff When your computer runs Microsoft Windows 3.x, you must also edit the Windows SYSTEM.INI to protect the Memory Address space that you assigned to the WaveCAD program in the previous step (see page D-6). You can use any ASCII text editor, such as Windows Notepad to edit the SYSTEM.INI file and add the following statement to the section 386Enh:
Example:
= [386Enh] ... EMMExclude=D100-D1FF D-8 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Install the Network Client Software Install the Network Client Software D To use the WaveLAN card in a network environment, you will need to install Network Client software. If you already had Network Client software installed, you are advised to remove this software, and run the Network Client installation program again. 1. Make the directory that contains the Network Client software the active directory. For example when installing the Network Client software from a floppy disk:
a. b. Make drive A: the active drive. Insert the disk into floppy drive A:, and 2. Proceed as described in the User documentation that came with the Network Client software to start the installation. 3. When prompted to select a driver use the option Other driver. Sometimes this option is referred to as updated or OEM driver, or driver provided by other vendor. 4. Remove the Network Client software disk from the floppy disk drive and insert the WaveLAN disk for MS-DOS environments. 5. Follow the instructions as they appear on your screen. WaveLAN IEEE 802.11 PC Card Users Guide D-9 Installation for MS-DOS Setup the WaveLAN Parameters Setup the WaveLAN Parameters D To connect your IEEE 802.11 WaveLAN PC Card to a WaveLAN network system, you must configure the WaveLAN parameters to match the values of the network. In LAN Infrastructure environments, these values should typically match the values as set for the WavePOINT-II access points. Consult your LAN Administrator for the values that apply in your network. This section describes how to set the parameters for the following IEEE 802.11 WaveLAN Drivers:
n WaveLAN DOS ODI Driver n WaveLAN Packet Driver DOS ODI Driver Configuration D When you are installing the Network Client software for Novell NetWare, the installation program will prompt you to enter the WaveLAN parameters, and save your parameter settings in the Novell network configuration file NET.CFG. If your Network Client Software did not prompt you to enter the parameters, or if you wish to modify the WaveLAN parameter settings you may need to edit the NET.CFG file manually, as described in About the NET.CFG File on page D-17. Table D-1 lists the various WaveLAN parameters with their value ranges and usage. NOTE:
Alphabetical character values are case-sensitive and should be entered between quotation marks . Values without quotes will be interpreted as UPPERCASE only. D-10 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Setup the WaveLAN Parameters Table D-2 WaveLAN DOS ODI Driver Parameters Parameter 1 Station Name 2 Network Type 2a WaveLAN Network Name Description Alphanumeric string with a maximum of 32 ASCII characters that will identify your computer on the network when using the WaveMANAGER/CLIENT diagnostics tool. Valid Values: any character in the range of A-Z, a-z and 0-9. Enter your value between quotes. Use this parameter to select the type of network to which you wish to connect your computer. Valid values: 1 or 3. n 1 will connect your computer to an anonymous Ad-hoc workgroup (BSS) n 3 Will connect your computer to an IEEE 802.11 Infrastructure (ESS) identified by parameter 2a WaveLAN Network Name. Alphanumeric string with a maximum of 32 ASCII characters that identifies the network to which you would like to connect your computer. This parameter is only used when you selected the Network Type Infrastructure. Valid Values: any character in the range of A-Z, a-z and 0-9 where:
n The value ANY enables your station to connect to any IEEE 802.11 compliant network (see also Closed System). n A user-defined name allows your station to connect to a specific network only. This value should match the value as set for the WavePOINT-II access points in your network. WaveLAN IEEE 802.11 PC Card Users Guide D-11 Installation for MS-DOS Setup the WaveLAN Parameters Table D-2 3 Transmit_Rate1 WaveLAN DOS ODI Driver ParametersContinued 4a Card Power Management 4b Maximum Sleep Duration Controls the data rate at which your WaveLAN card will transmit its data. Valid Values:
1. Fixed Low 2. Fixed Standard 3. Auto Select High-Medium-Standard-
Low (default). 4. Fixed Medium (Turbo cards only) 5. Fixed High (Turbo cards only) 6. Auto Select Standard-Low 7. Auto Select Medium-Standard-Low Enables/disables Power Management Valid Values:
n Y - Yes, enable Power Management n N - No, disable Power Management
(=default). When enabling Power Management you will also need to set the Maximum_Sleep_Duration, and Receive_All_Multicasts parameter. When you disable Power Managment, these two parameters will be disabled as well. This parameter specifies the maximum time the station is allowed to spend consecutively in DOZE state. Valid Values: any numerical value in the range of 1-65535 (default value is 100). This parameter determines the Listen Interval of the stations Power Management scheme. If 4a Card Power Management is disabled, this parameter will be ignored D-12 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Setup the WaveLAN Parameters Table D-2 WaveLAN DOS ODI Driver ParametersContinued 4b Receive All Multicasts 5 AP Density This parameter specifies whether the station must receive all multicast frames when in Power Management mode. Valid Values:
n Y - Yes, receive all Mulitcasts (= default) n N - No, do not receive all Multicast When this parameter is enabled, the WaveLAN station will wake up at regular intervals to receive the multicast frames. Although enabling this option may yield less optimal power savings, you are advised to leave this parameter enabled when using your computer in regular networking environments. If 4a Card Power Management is disabled, this parameter will be ignored. Parameter that controls the Roaming sensitivity of your computer (must be set according to the settings of the WavePOINT-II access points). Valid Values:
1. 2. Medium Density 3. High Density Low Density (default) WaveLAN IEEE 802.11 PC Card Users Guide D-13 Installation for MS-DOS Setup the WaveLAN Parameters Table D-2 WaveLAN DOS ODI Driver ParametersContinued 6 Medium Reservation 7 Node Address (MAC Address) Enables/disables the RTS/CTS Mechanism Valid Values:
n 2347 (default) Disables Medium Reservation n Numeric value in the range of 0-2346 Enables the RTS/CTS Mechanism, and sets the frame length threshold from which the station should start using the RTS/CTS Mechanism (recommended value is 500). See Medium Reservation on page 4-8 for more information. To be used only when your network system requires Local MAC Addressing. Valid Values:
n None to use the cards factory installed Universal MAC address (=default) n 12 hexadecimal digits that identify the user-defined Local MAC Address.2 The 2nd digit of the first digit-pair must be 2, 6, A, or E. D-14 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Setup the WaveLAN Parameters Table D-2 WaveLAN DOS ODI Driver ParametersContinued 8 Enable Encryption 8a WEP Key 1 Enables/disables WEP encryption. Valid values:
n Y - Yes, enable WEP encryption n N - No, do not enable WEP encryption
(=default). When this parameter is enabled, you can:
n Select up to four key for decrypting data received via the wireless interface. n Select one Transmit key (8e) for encryptiing data that will be transmitted via the wireless interface. This parameter should only be enabled when using WaveLAN IEEE Silver cards. If you decide to enable encryption, please note that all stations will be configured with identical WEP key values. Identifies one of the four keys that your waveLAN card can use to decrypt data received via its wireless interface. Valid values for Silver cards:
n 5-character ASCII key or 10-digit hexadecimal key. Valid values for Gold cards:
n 5-character ASCII key or 10-digit hexadecimal key. n 13-characterASCII key or 26-digit hexadecimal key. The key value is case-sensitive. Hexadecimal values must be preceded by 0x. All wireless clients and access points should be configured with identical key values. WaveLAN IEEE 802.11 PC Card Users Guide D-15 Installation for MS-DOS Setup the WaveLAN Parameters Table D-2 WaveLAN DOS ODI Driver ParametersContinued 8b WEP Key 2 8c WEP Key 3 8d WEP Key 4 8a WEP Transmit Key 9 Media Frame Type See 8a WEP Key 1 See 8a WEP Key 1 See 8a WEP Key 1 Use this parameter to select one of the identified WEP decription keys for encrypting data that will be transmitted via the wireless interface. Valid values:
n 1 - to use WEP Key 1 n 2 - to use WEP Key 2 n 3 - to use WEP Key 3 n 4 - to use WEP Key 4 Use this parameter to select the frametype that is used within the network to which you wish to connect the computer. Consult your LAN Administrator for the value that applies in your network. Valid values:
n Ethernet 802.2 (=default) n Ethernet 802.3 n Ethernet 802.II n Ethernet 802.SNAP 1 2 This parameter does not influence at which data rate the station will be able to receive data. I.E. When the transmit rate is locked to Fixed Low, the station may still receive messages that were transmitted at Standard speed. Note: The Access Control security feature of WavePOINT-II access points does not recognize Local MAC addresses. When the WavePOINT-II devices in your network infrastructure have been programmed to use this feature, leave this parameter Access Control D-16 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Setup the WaveLAN Parameters About the NET.CFG File D The WaveLAN configuration parameters for the DOS ODI driver are stored in a network configuration file called NET.CFG. A sample of the NET.CFG file is included on the IEEE 802.11 WaveLAN software diskette. If you installed the Novell Network Client software as described earlier in this chapter, this file was created automatically. You may skip this section and proceed with Finishing Installation on page D-25, unless you would like to modify the WaveLAN parameter settings or wish to learn more about the NET.CFG file. A NET.CFG file must always include a Link Driver statement that refers to the appropriate network driver, and a list of parameters and parameter values that apply to the referenced driver. For the IEEE 802.11 WaveLAN driver the NET.CFG file will look as follows:
LINK DRIVER WVLAN43
; BASIC PARAMETERS WAVELAN_NETWORK_NAME XXXXXXXX PORT_TYPE X STATION_NAMEXXXXXXXX
;ADVANCED PARAMETERS
;AP_DENSITYx
;TRANSMIT RATEX
;MEDIUM RESERVATIONXXXX
;NODE ADDRESS All lines that start with a semi-colon ( ; ) are informational comments to the user, i.e. the driver will ignore this information. The basic parameters that you should set are:
n WaveLAN Network Name n Station Name for your station n Port Type - to identify the type of network to which you wish to connect your computer. WaveLAN IEEE 802.11 PC Card Users Guide D-17 Installation for MS-DOS Setup the WaveLAN Parameters All other parameters are optional and should preferable only be used in special situations, typically upon advice of a WaveLAN IEEE 802.11 expert. Table D-2 on page D-11 lists the various WaveLAN parameters with their value ranges and usage. The WaveLAN parameter values for the WaveLAN DOS ODI driver are not case-sensitive:
the WaveLAN DOS ODI Driver will interpret all values as upper-
case values. When the installation program of your Network Client software did not prompt you to identify a driver or specify the WaveLAN parameters you may need to identify the proper location of the WaveLAN DOS ODI driver and the NET.CFG file. This will allow your Network Client software to find the correct driver. You are advised to copy the WaveLAN DOS ODI Driver and the NET.CFG file to the same directory that you selected to install the network operating system software. For example, when you selected the directory c:\network use the following copy commands:
c:\
cd\wavelan\drivers\dosodi copy wvlan43.com c:\network copy net.cfg c:\network 1. Edit the NET.CFG file to add the statement Link Driver WVLAN43. 2. Enter the WaveLAN parameter values on a new line, directly after the link driver statement. Consult your LAN Administrator for values that apply in your network environment. D-18 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Setup the WaveLAN Parameters NOTE:
When modifying the NET.CFG file ensure that all WaveLAN parameter lines will be indented. Use the key of your keyboard to create an indent at the beginning of each line that will contain a WaveLAN parameter. TAB 3. When finished, save the NET.CFG file and restart your computer. 4. Proceed with Finishing Installation on page D-25. Packet Driver Configuration D The installation of the WaveLAN Packet Driver is a procedure that requires you to edit a number of system files manually. To ensure that the WaveLAN Packet Driver is loaded at start-up, you will need to add a few command line statements to the AUTOEXEC.BAT file. These statements should include:
n A path to the directory that contains the Packet Driver. n A load driver statement. The WaveLAN parameters will be identified in a network configuration file called PACKET.INI. The WaveLAN Packet Driver and the PACKET.INI file must reside in the same directory on the hard disk of your computer. When you used the commands as identified Copy the WaveLAN Software on page D-3, this directory is typically c:\wavelan\drivers\packet. Setup the WaveLAN Packet Driver D 1. Edit the AUTOEXEC.BAT file of your computer to add the path and file name of the WaveLAN Packet Driver, and the load driver statement:
WaveLAN IEEE 802.11 PC Card Users Guide D-19 Installation for MS-DOS Setup the WaveLAN Parameters cd\wavelan\packet lh=wvlan42.com l 2. To set the WaveLAN parameters, edit the PACKET.INI file. The structure of the PACKET.INI file is as follows:
; BASIC PARAMETERS WAVELAN_NETWORK_NAME XXXXXXXX STATION_NAMEXXXXXXXX
;ADVANCED PARAMETERS
;AP_DENSITYx
;TRANSMIT RATEX
;MEDIUM RESERVATIONXXXX
;MAC ADDRESS All lines that start with a semi-colon ( ; ) are informational comments to the user, i.e. the driver will ignore the information. The basic parameters that you should set are:
n WaveLAN Network Name n Station Name for your station. All other parameters are optional and should preferably only be used in special situations, typically upon advice of a WaveLAN IEEE 802.11 expert. NOTE:
The string for a WaveLAN Network Name is case-
sensitive. If your network includes stations that also use the WaveLAN DOS ODI Driver, you are advised to select upper-case characters only (see also DOS ODI Driver Configuration on page D-10). 3. To set a parameter value, remove the semi-colon ( ; ) preceding the parameter name and enter a value within the range as specified in Table D-3 on page D-22. D-20 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Setup the WaveLAN Parameters At the end of the PACKET.INI file you will find an additional set of generic Packet Driver parameters that are not directly related to WaveLAN operation.
;DRIVER_CLASSX
;NOVELL_FLAGYES/NO
;PACKET_INTERRUPT0x XX 4. Consult your LAN Administrator to select the appropriate values that apply in your situation from the range as specified in Table D-4 on page D-24. 5. When finished, save the PACKET.INI file and restart your computer. 6. Proceed with Finishing Installation on page D-25. WaveLAN IEEE 802.11 PC Card Users Guide D-21 Installation for MS-DOS Setup the WaveLAN Parameters Table D-3 WaveLAN Packet Driver Parameter Values Parameter WaveLAN_Network_ Name Station_Name AP_Density Transmit_Rate1 Description Alphanumeric string with a maximum of 32 ASCII characters that identifies the network to which you would like to connect your computer. Valid Values: any character in the range of a-z and 0-9 (no spaces allowed) where:
n The value ANY enables your station to connect to any IEEE 802.11 network. n A user-defined name allows your station to connect to a specific network only. This value should matches the value as set for the WavePOINT-II access points in your network. Alphanumeric string with a maximum of 32 ASCII characters that will identify your computer on the network, e.g. when using the WaveMANAGER/
CLIENT diagnostics tool. Valid Values: any character in the range of a-z and 0-9 (no spaces allowed). Parameter that controls the Roaming sensitivity of your computer (must be set according to the settings of the WavePOINT-II access points). Valid Values:
1. 2. Medium Density 3. High Density Controls the data rate at which your WaveLAN card will transmit its data. Valid Values:
1. Fixed 1 Mbit/second 2. Fixed 2 Mbit/second 3. Auto Rate Select 2 Mbit/s -1 Mbit/s (default)
....continued on following page. Low Density (default) D-22 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Setup the WaveLAN Parameters MAC_Address To be used only when your network system requires Local MAC Addressing. Valid Values:
n None to use the cards factory installed Universal MAC address (=default) n 12 hexadecimal digits that identify the user-
defined Local MAC Address.2 The 2nd digit of the first digit-pair must be 2, 6, A, or E. Medium_Reservation Enables/disables the RTS/CTS Mechanism Valid Values:
n 2347 (default) Disables Medium Reservation n Numeric value in the range of 0-2346 Enables the RTS/CTS Mechanism, and sets the frame length threshold from which the station should start using the RTS/CTS Mechanism
(recommended value is 500). See Medium Reservation on page 4-8 for more information. 1 2 This parameter does not influence at which data rate the station will be able to receive data. I.E. When the transmit rate is locked to 1 Mbit/s, the station may still receive messages that were transmitted at 2 Mbit/second. Note: The Access Control security feature of WavePOINT-II access points does not recognize Local MAC addresses. When the WavePOINT-II devices in your network infrastructure have been programmed to use this feature, leave this parameter blank. For more information about each of the WaveLAN parameters:
n Consult the description for the WaveLAN parameters as described in Setting the WaveLAN Parameters on page 3-13. WaveLAN IEEE 802.11 PC Card Users Guide D-23 Installation for MS-DOS Setup the WaveLAN Parameters n Alternatively type the following command lines at the MS-DOS prompt to display help for the WaveLAN Packet Driver. cd\wavelan\drivers\packet wvlan42.com h Table D-4 Packet Driver Specific Parameters Driver_Class Novell_Flag A specific Packet Driver parameter that controls the frame format. Valid Values:
1. DIX Ethernet (v2.0) frame format (Default) 11. Enables support the Novell IPX 802.3 frame format. Valid Values:
Y. Convert all 802.3 type packets to 8137 type IEEE 802.3 with 802.2 headers frame format. packets. N. No, do not use the NovellFlag (=default) Packet_Interrupt This parameter identifies the software interrupt number that the Packet Driver should use. Valid Values (hexadecimal):
n 0x60 (default) n 0x70 Enter the value without the 0x prefix. D-24 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Finishing Installation Finishing Installation D To finish the installation insert your IEEE 802.11 WaveLAN PC Card and restart your computer. Carefully read the messages that appear on your screen, to verify that:
The WaveCAD program executes correctly, and n n Your computer loads the correct driver parameter settings of your IEEE 802.11 WaveLAN PC Card. Correct execution of the WaveCAD program is confirmed with the message (example):
WaveLAN/IEEE Card Access Driver, Variant X, Version XX.XX Memory: xxxx, I/O Base: xxxx, IRQ xx Card Access Driver Installed Where:
n n XX.XX identifies the version of the WaveLAN Driver xx or xxx identifies the values that you entered upon installation of the WaveCAD software as described in Intel 82365 PCIC on page D-5 A successful load of the WaveLAN Driver is confirmed with either one of the following messages:
Example WaveLAN DOS ODI Driver:
WaveLAN/IEEE DOS ODI Driver Variant X, v0.0x (yymmdd) Desired SSID = AAAAAAAAAA Driver loaded successfully IRQ xx, Port xxxx, Node Address = xxxxxxxxxxxx L Max Frame 1514 bytes, Line Speed 2 Mbps, Bus ID 3 Board 1, Frame ETHERNET_802.2, LSB Mode Where:
n AAAAAAAAA identifies the WaveLAN Network Name that you entered in the NET.CFG file, WaveLAN IEEE 802.11 PC Card Users Guide D-25 Installation for MS-DOS Finishing Installation n xx or xxx identifies the values that you entered upon installation as described in Intel 82365 PCIC on page D-5 Example WaveLAN Packet Driver:
WaveLAN/IEEE Packet Driver, Variant X, Version X.XX Novell Flag NOT set IO Base=xxxx IRQ=xx MAC Address=xxxxxxxxxxxx Packet Interrupt=0xXX Where:
n Version X.XX identifies the version of the WaveLAN n Packet Driver xx or xxx identifies the values that you entered upon installation of the WaveCAD software as described in Intel 82365 PCIC on page D-5 n Packet Interrupt 0xXX identifies the value you specified in the PACKET.INI file. D-26 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Advanced Options Advanced Options D Dual Card Configuration D When you intend to use multiple WaveLAN PC Cards in a single computing device, for example a wireless server, the CONFIG.SYS file should contain a DEVICE statement with unique parameter values for each card. Example:
DEVICE = c:\wavelan\wavecad\wavecad.sys /m=d100 /b=0340 /i=11 DEVICE = c:\wavelan\wavecad\wavecad.sys /m=e300 /b=04C0 /i=14 Start-up Menu Configuration D If you intend to use your computer in combination with multiple PC Cards, an MS-DOS Start-up Menu may provide a useful solution in one or more of the following situations:
n You are using your computer in combination with another PC Card that requires Card & Socket Services, or n You would like to use your computer with either your WaveLAN card or an Ethernet adapter card. The Start-up Menu will enable you to setup your computer to prompt the computer user to select a specific configuration. Subject to the selected menu option, the computer will automatically load the drivers and programs required for each specific option. The Start-up Menu is a standard MS-DOS feature that is described in the Microsoft MS-DOS Users Guide. WaveLAN IEEE 802.11 PC Card Users Guide D-27 Installation for MS-DOS Advanced Options NOTE:
When using Multiple Boot options to swap WaveLAN with Ethernet adapters and vice versa, you will need to install the Network Client software twice, selecting separate directories for each of the Network Client configurations. The start-up Menu should identify which Network Configuration file will be loaded for each item subject to the selected menu-item. Failing to do so could lead to a situation where the Network Client install programs would simply overwrite the configuration settings of the card you installed first. Example of a Start-up Menu Configuration This section includes samples of the system files CONFIG.SYS and AUTOEXEC.BAT that enable you to setup a Start-up Menu. The names and values printed do not necessarily correspond with the actual path and file names or parameter values that apply in your situation. D CONFIG.SYS File
[MENU]
menuitem=WaveLAN menuitem=CSSS
[COMMON]
DEVICE=c:\dos\himem.sys D D-28 WaveLAN IEEE 802.11 PC Card Users Guide Installation for MS-DOS Advanced Options DEVICE=c:\dos\emm386.exe noems x=xxxx-xxxx1 DEVICE=c:\dos\setver.exe
[WaveLAN]
REM This menu item will enable WaveLAN Card Access Driver DEVICE = c:\wavelan\wavecad\wvlancad.sys /m=xxxx /b=xxxx /i=xx2
[CSSS]
REM This menu item will enable Card and Socket Services DEVICE=c:\csss\socksvce.exe3 DEVICE=c:\csss\cardsvce.exe
[COMMON]
DEVICE=c:\windows\ifshlp.sys AUTOEXEC.BAT File D SET TEMP=c:\temp PROMPT $P$g SET DIRCMD=/O/P GOTO %config%
:WaveLAN REM This section contains WaveLAN related commands PATH c:\dos;\c:\wavelan;c:\network\wavelan4;c:\windows c:\network\wavelan\startnet goto end
:CSSS REM This section contains Card and Socket Services related commands PATH c:\dos;\c:\wavelan;c:\network\ethernet\5;c:\windows 1 2 3 4 5 See page D-19 See Intel 82365 PCIC on page D-5 The program path and file names should match the actual path and file names of your Card Services and Socket Services (CS&SS) software. Path to the NET.CFG file that contains the parameter values for your WaveLAN card. Path to the second NET.CFG file that contains the parameter values for an Ethernet card. WaveLAN IEEE 802.11 PC Card Users Guide D-29 Installation for MS-DOS Advanced Options c:\network\ethernet\startnet goto end
:end LH c:\windows\smartdrv.exe LH c:\dos\doskey.com LH c:\mouse\mouse.com LH c:\windows\odi.hlp c:\windows\net start win For more information about MS-DOS Start-up Menus, please consult the user documentation that came with your computer or MS-DOS software. D-30 WaveLAN IEEE 802.11 PC Card Users Guide Installing in Apple Macintosh Contents Introduction Installing the WaveLAN Driver Installing Networking Protocols Enabling your WaveLAN Card Using WaveLAN with PowerBooks Type of Network Basic Parameters n n WaveLAN Network Name Advanced Parameters Monitoring Wireless Performance Modifying Configuration Parameters Removing the WaveLAN Driver E E-1 E-2 E-2 E-3 E-5 E-6 E-6 E-7 E-7 E-9 E-9 E-10 Installing in Apple Macintosh Introduction E E To connect your Apple PowerBook to a wireless network, you will need to:
1. 2. Install the WaveLAN card software Install one or more networking protocols to allow your WaveLAN computer to communicate with other wireless and/
or wired computers on the network. 3. Power up the computer with the WaveLAN card. 4. Configure the networking protocols of your MAC operating system to select the WaveLAN interface for network communication. NOTE:
Before you proceed, please note the following:
n When upgrading from previous driver versions, always remove previously installed WaveLAN drivers as described on page E-10. n When installing a new driver, always do so without the card inserted into the computer. n New WaveLAN drivers must be installed prior to inserting the card!
WaveLAN IEEE 802.11 PC Card Users Guide E-1 Installing in Apple Macintosh Installing the WaveLAN Driver Installing the WaveLAN Driver E 1. Insert the WaveLAN diskette for the MAC operating system into your Apple PowerBook. 2. Double-click the diskette icon on the desktop of your computer, to display the contents of this WaveLAN diskette. 3. Now double-click the file called WaveLAN Installer to start the installation program. In the welcome window click the button Continue to proceed. 4. 5. From the list of options select Easy Install. If you have any applications open during the WaveLAN installation process, you will be prompted to close these applications. n Click No to abort installation, or n Click Continue to proceed and have the MAC operating system close all the open applications. 6. Follow the instructions as they appear on your screen and restart your computer. NOTE:
Now that you have installed the WaveLAN driver, you will need to add a networking protocol to allow communication with other networking devices. Installing Networking Protocols E Subject to the type of networking environment, you should install one or more of the following protocols:
n AppleTalk, most commonly used to connect a number of Apple workstations to a networking environment identified as the Applezone TCP/IP to connect to larger network infrastructures, and/or allow connections to the internet via the network. n E-2 WaveLAN IEEE 802.11 PC Card Users Guide Installing in Apple Macintosh Installing the WaveLAN Driver Optionally you can install and enable both networking protocols. For more information about installing protocols, please consult the balloon help and Users Manual that came with your Apple PowerBook. To finish the installation of the WaveLAN drivers and networking protocols, please restart your Apple PowerBook computer. Enabling your WaveLAN Card E Insert the WaveLAN PC Card into your computer. Once your computer has restarted, you will see the WaveLAN/IEEE icon appear on the desktop of your Apple PowerBook. NOTE:
If this icon is not displayed, verify if the PC Card is properly inserted into the PC Card slot of your Apple PowerBook. To enable your WaveLAN connection, you will need to configure the AppleTalk protocol to use the WaveLAN card for its network communication. 1. Double-click the WaveLAN/IEEE icon to launch the AppleTalk 2. installation. In the top side of the AppleTalk window, open the pull-down list of the item Connect via:
3. Select the item WaveLAN/IEEE as pictured in Figure E-1. WaveLAN IEEE 802.11 PC Card Users Guide E-3 Installing in Apple Macintosh Installing the WaveLAN Driver Figure E-1 Setting the AppleTalk Parameters 4. Use the button on the top right side of the window to confirm your changes and close the window again. E-4 WaveLAN IEEE 802.11 PC Card Users Guide Installing in Apple Macintosh Using WaveLAN with PowerBooks Using WaveLAN with PowerBooks E When you insert the WaveLAN card into your Apple PowerBook computer, it will start operation with the following factory-set defaults:
n Connect to a Network Infrastructure. n Use the WaveLAN Network Name ANY to connect to the first access point that provides a communications quality that is acceptable or better. To view or modify the WaveLAN parameters, open the WaveLAN Setup window that is listed under the Apple Menu, as an item in the Control Panels (see Figure E-2 below). Figure E-2 Setup WaveLAN Parameters WaveLAN IEEE 802.11 PC Card Users Guide E-5 Installing in Apple Macintosh Using WaveLAN with PowerBooks Basic Parameters E For standard operation of your WaveLAN IEEE PC Card, you will only need to set the following parameters, characterized as the Basic Parameters:
n n Type of network to which you wish to connect your WaveLAN computer. The WaveLAN Network Name of the network. Type of Network E IEEE 802.11 compliant LANs identify two types of networks:
n IEEE 802.11 Infrastructures - Wireless networks that include
(WavePOINT-II) access points to allow the wireless stations to connect to other wired or wireless stations, and provide seamless wireless connectivity to roaming mobile stations. n Ad-hoc wireless workgroups - small stand-alone workgroups of wireless computers, which do not include access point devices. To connect to an infrastructure network, clear the Enable Demo Mode tick box and enter the name of the IEEE 802.11 wireless infrastructure. To connect to an ad-hoc workgroup of wireless stations, place a check mark in the Enable Demo Mode tick box. Inthis mode your WaveLAN card will:
n n n Ignore the WaveLAN Network Name value. Ignore WavePOINT-II access points. Fix the radio channel to operate at its factory-set default channel. This means that your WaveLAN IEEE station can commmunicate with any other WaveLAN IEEE station within its range, provided E-6 WaveLAN IEEE 802.11 PC Card Users Guide Installing in Apple Macintosh Using WaveLAN with PowerBooks that these stations have been equipped with cards that have a matching defualt radio frequency (see Table A-6 on page A-8). WaveLAN Network Name E If you selected to connect to an infrastructure network, you will need to identify the name of that network. Consult your LAN Administrator for the value that applies in your situation. n Valid values are any alphanumeric string in the range of a-z, A-Z and 0-9 including spaces, with a maximum of 32 characters. For example: Your WaveLAN Network. n Alternatively, you can use the value ANY (all-uppercase). This might be the preferred option when:
n You operate your computer in multiple network environments that are identified by different WaveLAN Network Names. n You do not know the WaveLAN Network Name of the network to which you would like to connect your computer. NOTE:
If you select the value ANY please note that the LAN Administrator may have selected to close the network infrastructure as described on page 6-2. Advanced Parameters E The other parameters listed on the WaveLAN DSetup window, are advanced parameters that will work most efficient when you leave the settings to these parameters to their factory-set defaults. You may only need to modify these parameters only when troubleshooting WaveLAN performance upon advice of a WaveLAN IEEE expert, or a WaveLAN Technical Support representative. WaveLAN IEEE 802.11 PC Card Users Guide E-7 Installing in Apple Macintosh Using WaveLAN with PowerBooks A detailed description of these parameters can be found in Chapter 4 Advanced WaveLAN Parameters. Although Chapter 4 is basically oriented at Microsoft Windows operating systems, this chapter will provide you sufficient information to learn more about the setting fo these parameters. NOTE:
The parameter names described in Chapter 4 are slightly different from the names in the WaveLAN Setup window for MAC operating systems. Please use the list below to identify which section in Chapter 4 corresponds with the parameter for your computer:
n Station Address - see MAC Address on page 4-2. n RTS/CTS Medium Allocation - see . n Power Management - Power Management on page 4-13. Figure E-3 WaveLAN Power Managment Setup E-8 WaveLAN IEEE 802.11 PC Card Users Guide Installing in Apple Macintosh Using WaveLAN with PowerBooks Monitoring Wireless Performance E The WaveLAN software for Apple PowerBook devices, does not include diagnostic tools to validate the radio link quality. However if your network also includes MS-Windows 95/98 or MS-
Windows NT v4.0 computers, you can use such stations to monitor wireless communications between the other station and your Apple PowerBook device. n n For Independent Network environments, you should start the WaveMANAGER/CLIENT IEEE program on a WaveLAN computer running either the MS-Windows 95, 98 or Windows NT operating system. The Link Test mode of this utility enables you to analyze the communications quality between the Initiator station and your Apple PowerBook device (identified as the Remote Station). In Infrastructure Networks, consult the LAN Administrator to run the WaveMANAGER/AP tool. The Remote Link Test of this utility enables the LAN Administrator to analyze the communications quality between a WavePOINT-II device (identified as the Initiator station) and your Apple PowerBook (identified as the Remote Station). Modifying Configuration Parameters E To view or modify the WaveLAN parameters, open the WaveLAN Setup window that is listed under the Apple Menu, as an item in the Control Panels (see Figure E-2 on page E-5). n Click the button at the top-right side of the window to confirm changes and close the window. n Click the button Undo Changes at the lower left-side of the window to restore any modification, and cick the button at the top-right side of the window to close the window again. WaveLAN IEEE 802.11 PC Card Users Guide E-9 Installing in Apple Macintosh Removing the WaveLAN Driver Removing the WaveLAN Driver E If you wish or need to remove previously installed WaveLAN drivers, you can do so using the WaveLAN Installer program. Removing previously drivers is mandatory if you wish to:
n Upgrade a driver n Change the type of driver (e.g. migrate from Apple Classic to Apple Open Transport. To remove the drivers, proceed as follows:
1. Insert the WaveLAN diskette for the MAC operating system into your Apple PowerBook. 2. Double-click the diskette icon on the desktop of your computer, to display the contents of this WaveLAN diskette. 3. Now double-click the file called WaveLAN Installer to start the installation program. In the welcome window click the button Continue to proceed. 4. 5. From the list of options select Custom Remove. If you have any applications open during the WaveLAN installation process, you will be prompted to close these applications. n Click No to abort the process, or n Click Continue to proceed and have the MAC operating system close all the open applications. 6. Follow the instructions as they appear on your screen and restart your computer. E-10 WaveLAN IEEE 802.11 PC Card Users Guide WWarranty Repair Card About Warranty and Repair W In case your IEEE 802.11 WaveLAN product is not working properly, you are advised to consult the Troubleshooting hints, prior to contacting WaveLAN Technical Support. In case your IEEE 802.11 WaveLAN product is defective, return it to your Dealer/Distributor in the original packaging. Warranty Repairs:
W When returning a defective product for Warranty, always include the following documents:
The Warranty Repair card, and n n A copy of the invoice/proof of purchase All other Repairs:
W When returning a defective product for Repair, always include the the Warranty Repair card You are advised to read the Information about Limited Warranty as described on the following page. WaveLAN/IEEE Turbo 11 Mb PC Card W-1 Warranty Repair Card Limited Warranty Limited Warranty W Lucent Technologies extends a limited warranty from date of purchase of:
n n n Thirty-six (36) months for WaveLAN hardware products Twelve (12) months for WavePOINT access points Twelve (12) months for for the media on which the software is furnished and the reproduction of the software on the media. Upon proof-of-purchase Lucent Technologies shall at its option, repair or replace the defective item at no cost to the buyer. Defective items shall be returned to the dealer/distributor:
Freight prepaid. n n Accompanied by a copy of proof-of-purchase. n Accompanied by a filled out Warranty/Repair card. This warranty is contingent upon proper use in the application for which the products are intended and does not cover products which have been modified without the sellers approval or which have been subjected to unusual physical or electrical demands or damaged in any way. This Warranty constitutes the sole and exclusive remedy of any buyer or sellers equipment and the sole and exclusive liability of Lucent Technologies in connection with the products and is in lieu of all other warranties, express, implied or statutory, including, but not limited to, any implied warranty of merchantability of fitness for a particular use and all other obligations or liabilities of Lucent Technologies. In no event will Lucent Technologies Inc. or any other party or person be liable to you or anyone else for any damages, including lost profits, lost savings or other incidental or consequential damages, or inability to use the software provided on the software media even if Lucent Technologies or the other party person has been advised of the possibility of such damages. W-2 WaveLAN/IEEE Turbo 11 Mb PC Card
W
3 W a v e L A N
I E E E T u r b o 1 1 M b P C C a r d To be filled out by the User 0 To be filled out by the Dealer/Distributor 0 Product Description COMCODE (Product ID) Serial Number:
Invoice Date:
Name:
Title:
Company:
Address:
City/State/Zipcode:
Country:
Telephone:
Fax:
Email:
Reported Problem:
Out-of-Box Failure Other
(dd/mm/yyyy) Comment:
Dealer Name:
Address:
City/State/Zipcode:
Country:
Telephone:
Fax:
Warranty?
Yes No RMA Reference Problem Description:
W a r r a n t y R e p a i r C a r d q q q q List of Figures Stand Alone Wireless LAN Select WaveLAN Adapter Type Identify the Location of Files 1-1 Figure 1-1 WaveLAN IEEE 802.11 Kit Contents 1-2 Figure 1-2 Ad-hoc Wireless Workgroup 1-3 Figure 1-3 1-4 Figure 1-4 LAN Infrastructure 1-5 Figure 1-5 The WaveLAN/IEEE Turbo 11 Mb PC Card 1-11 Figure 1-6 Contents of the Software CD-ROM 1-14 Figure 1-7 Range Extender Antenna 1-16 Figure 1-8 Vehicle Mount Omni-Directional Antenna Figure 2-1 2-2 Inserting the PC Card into Your Computer Figure 3-1 Enable the PCMCIA service for Windows NT 3-7 Figure 3-2 3-9 3-11 Figure 3-3 3-12 Figure 3-4 Windows Network Identification Properties Setup WaveLAN Parameters 3-15 Figure 3-5 Setup WaveLAN Encryption Parameters Figure 3-6 3-18 3-20 Figure 3-7 Finished Setting up the Hardware 4-1 Figure 4-1 Advanced WaveLAN Parameters Figure 4-2 Access Point Density Parameter 4-3 4-5 Figure 4-3 WaveLAN Transmit Rate Figure 4-4 The Hidden Station Problem 4-9 4-10 Figure 4-5 Medium Reservation Parameters Figure 4-6 Medium Reservation Request to Send 4-10 4-11 Figure 4-7 Medium Reservation Clear to Send 4-14 Figure 4-8 WaveLAN Power Management Parameters 5-7 Figure 5-1 WaveMANAGER/CLIENT Status Window Figure 5-2 WaveMANAGER Link Test 5-8 5-17 Figure 5-3 Logging Setup Dialog Box B-5 Figure B-1 Enabling the PC Card Controller Figure B-2 Verifying IRQ Availability B-8 WaveLAN/IEEE Turbo 11 Mb PC Card 1 List of Figures Figure B-3 Verifying I/O Port Availability Figure B-4 The Windows 98 Device Manager Figure B-5 Windows 98 Update Driver Window Figure B-6 Update Driver in Windows NT Figure B-7 Interface of early WaveLAN Drivers Figure B-8 Setup WaveLAN Parameters Figure C-1 Windows CE CPU Type Figure E-1 Setting the AppleTalk Parameters Figure E-2 Setup WaveLAN Parameters Figure E-3 WaveLAN Power Managment Setup B-10 B-15 B-16 B-17 B-18 B-19 C-2 E-4 E-5 E-8 LOF-2 WaveLAN/IEEE Turbo 11 Mb PC Card List of Tables Physical Specifications Power Characteristics A-1 Table A-1 A-1 Table A-2 A-2 Table A-3 Networking Characteristics A-5 Table A-4 Radio Characteristics A-7 Table A-5 WaveLAN Fixed Wireless PC Card A-8 Table A-6 WaveLAN IEEE 802.11 Channels Sets Table B-1 B-2 Table B-2 Default Strappings of the WaveLAN Hardware B-6 B-13 Table B-3 Default Configuration Settings Table D-1 WaveCAD Configuration Parameter Values D-7 D-11 Table D-2 WaveLAN DOS ODI Driver Parameters Table D-3 WaveLAN Packet Driver Parameter Values D-22 Table D-4 D-24 Packet Driver Specific Parameters LED Activity Table WaveLAN/IEEE Turbo 11 Mb PC Card LOT-1 Index A Access Control 6-4, D-16, D-23 Ad-hoc workgroup MS-DOS D-11 Advanced Parameters Medium Reservation 4-8 Transmit Rate 4-4 AP Density default B-13 DOS ODI Driver D-13, D-22 Miniport Driver 4-3 Apple E-1 AppleTalk E-2 B BSS MS-DOS D-11 C Carrier Sense Multiple Access/
Collission Avoidance 4-8 CSMA/CA 4-8 CTS see Medium Reservation 4-11 D Data Encryption 6-4 Data Speed 4-4 Display Parameter Settings 3-24 Documentation Updates i Driver_Class Packet Driver D-24 Drivers DOS ODI Driver D-10 Miniport Driver 3-9 Packet D-19 DSSS ii E Encryption 3-18 Enhance Mode WaveMANAGER/CLIENT 5-14 Enhanced Mode Disabling 5-15 Enabling 5-15 ESS MS-DOS D-11 G Gold Label Cards 1-7 H Hot Swapping 2-2, 2-4 I I/O Base (see I/O Port) B-6, D-7 WaveLAN/IEEE Turbo 11 Mb PC Card IX-1 Index I/O Port default B-6 DOS D-7 IEEE ii Manual Logging 5-16 Measurement Data automatic logging 5-16 logging options 5-16 Standard on Wireless LANs ii Medium Reservation Information World Wide Web i Infrastructure MS-DOS D-11 Installation, network operating system D-9 Interoperability ii Interrupt Request DOS D-7 IRQ Display B-8 DOS D-7 ISA Card (Windows 95/98 only) B-6 PC Card defaults B-6 verify availability B-8 L LED activity B-2 Logging Measurement Data stop 5-17 M MAC Address 6-4 default B-13 DOS ODI D-14, D-23 Miniport Driver 4-4 Macintosh E-1 default B-13 DOS ODI D-14, D-23 Miniport Driver 4-4 Memory Address DOS D-7 Message Fragmentation Miniport Driver 4-4 MS-DOS D-1 N Novell Flag Packet Driver D-24 P Packet_Interrupt Packet Driver D-24 PCIC MS-DOS systems D-2 Plug & Play 2-3, 2-4, 3-5 Protocol verify current setting 3-23 Protocols ad-hoc workgroup 3-22 infrastructure networks 3-22 R Radio Safety ii IX-2 WaveLAN/IEEE Turbo 11 Mb PC Card Index Technology ii RTS see Medium Reservation 4-11 U Updates i W WaveCAD D-1 WaveLAN Network Name 3-14 default B-13 DOS ODI Driver D-11 Miniport Driver 3-14 Packet Driver D-20, D-22 WaveLAN Parameters Advanced 4-1 Basic 3-14 WaveMANAGER/CLIENT 5-15 Windows 95, OSR2 B-16 WVLAN42.COM D-1 WVLAN43.COM D-1 S Security 6-3, 6-4 Access Control 6-3 Silver Label Cards 1-6 Software Updates i SOHO 1-2 SSID see WaveLAN Network Name 1-19, 3-14 Station Address DOS ODI Driver D-14, D-23 Miniport Driver 4-2 Station Name 3-16 default B-13 DOS ODI Driver D-11, D-22 Miniport Driver 3-16 Packet Driver D-20 System Scale (AP Density) 4-3 T TCP/IP Macintosh environments E-2 Technical Support i Transmit Rate default B-13 DOS ODI Driver D-12, D-22 Miniport Driver 4-4 Transmit Rate Select 5-10 WaveLAN/IEEE Turbo 11 Mb PC Card IX-3
frequency | equipment class | purpose | ||
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1 | 2000-05-05 | 2414 ~ 2462 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
app s | Applicant Information | |||||
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1 | Effective |
2000-05-05
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1 | Applicant's complete, legal business name |
Symbol Technologies Inc
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1 | FCC Registration Number (FRN) |
0011209004
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1 | Physical Address |
1 Zebra Plaza
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1 |
Holtsville, New York 11742
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1 |
United States
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app s | TCB Information | |||||
n/a | ||||||
app s | FCC ID | |||||
1 | Grantee Code |
H9P
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1 | Equipment Product Code |
PPT4600SOHWEW9
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app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
L****** Z******
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1 | Title |
Regulatory Specialist
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1 | Telephone Number |
346-2********
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1 | Fax Number |
631-6********
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1 |
L******@zebra.com
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app s | Technical Contact | |||||
1 | Firm Name |
Retlif Testing Laboratories
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1 | Name |
T**** J******** S******
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1 | Physical Address |
795 Marconi Avenue
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1 |
Ronkonkoma, New York 11779
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1 |
United States
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|||||
1 | Telephone Number |
631-7********
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1 | Fax Number |
631-7********
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1 |
L******@aol.com
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app s | Non Technical Contact | |||||
1 | Firm Name |
Retlif Testing Laboratories
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||||
1 | Name |
M**** T********
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1 | Physical Address |
795 Marconi Avenue
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1 |
Ronkonkoma, New York 11779
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|||||
1 |
United States
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|||||
1 | Telephone Number |
631-7******** Extension:
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1 | Fax Number |
631-7********
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||||
1 |
L******@aol.com
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app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | This hand-held device is approved as a mobile transmitter with respect to 2.1091 for operation in a person's hand(s). Grantee must ensure the specific operating instructions and requirements are provided to end-users for satisfying FCC RF exposure compliance requirements. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
n/a | ||||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
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Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 2414.00000000 | 2462.00000000 | 0.0347000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC