FCC ID: NDD9576580518 802.11g MIMO Wireless LAN Mini-PCI Card

880022..1111gg MMIIMMOO WWiirreelleessss LLAANN MMiinnii--PPCCII CCaarrdd User Manual Version: 1.0

(November, 2005) COPYRIGHT Copyright 2005/2006 by this company. All rights reserved. No part of this publication may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language or computer language, in any form or by any means, electronic, mechanical, magnetic, optical, chemical, manual or otherwise, without the prior written permission of this company This company makes no representations or warranties, either expressed or implied, with respect to the contents hereof and specifically disclaims any warranties, merchantability or fitness for any particular purpose. Any software described in this manual is sold or licensed "as is". Should the programs prove defective following their purchase, the buyer (and not this company, its distributor, or its dealer) assumes the entire cost of all necessary servicing, repair, and any incidental or consequential damages resulting from any defect in the software. Further, this company reserves the right to revise this publication and to make changes from time to time in the contents hereof without obligation to notify any person of such revision or changes. All brand and product names mentioned in this manual are trademarks and/or registered trademarks of their respective holders. Federal Communication Commission 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 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 and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

1. Reorient or relocate the receiving antenna. 2. 3. Connect the equipment into an outlet on a circuit different from that to which the Increase the separation between the equipment and receiver. receiver is connected. 4. Consult the dealer or an experienced radio technician for help. FCC Caution This device and its antenna must not be co-located or operating in conjunction with any other antenna or transmitter. This device complies with Part 15 of the FCC Rules. 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. Any changes or modifications not expressly approved by the party responsible for compliance could void the authority to operate equipment. Federal Communications Commission (FCC) Radiation Exposure Statement This device is intended only for OEM integrators under the following conditions:

1) The antenna must be installed such that 20 cm is maintained between the antenna 2) The transmitter module may not be co-located with any other transmitter or and users, and antenna. As long as 2 conditions above are met, further transmitter test will not be required. However, the OEM integrator is still responsible for testing their end-product for any additional compliance requirements required with this module installed (for example, digital device emissions, PC peripheral requirements, etc.). IMPORTANT NOTE: In the event that these conditions can not be met (for example certain laptop configurations or co-location with another transmitter), then the FCC authorization is no longer considered valid and the FCC ID can not be used on the final product. In these circumstances, the OEM integrator will be responsible for re-evaluating the end product (including the transmitter) and obtaining a separate FCC authorization. Labeling Rule for OEM Integrator:

This transmitter module is authorized only for use in device where the antenna may be installed such that 20 cm may be maintained between the antenna and users. The final end product must be labeled in a visible area with the following:

"Contains TX FCC ID: NDD9576580518". R&TTE Compliance Statement This equipment complies with all the requirements of DIRECTIVE 1999/5/EC OF THE EUROPEAN PARLIAMENT AND THE COUNCIL of March 9, 1999 on radio equipment and telecommunication terminal Equipment and the mutual recognition of their conformity (R&TTE) The R&TTE Directive repeals and replaces in the directive 98/13/EEC

(Telecommunications Terminal Equipment and Satellite Earth Station Equipment) As of April 8, 2000. Safety This equipment is designed with the utmost care for the safety of those who install and use it. However, special attention must be paid to the dangers of electric shock and static electricity when working with electrical equipment. All guidelines of this and of the computer manufacture must therefore be allowed at all times to ensure the safe use of the equipment. EU Countries Intended for Use The ETSI version of this device is intended for home and office use in Austria, Belgium, Denmark, Finland, France, Germany, Greece, Ireland, Italy, Luxembourg, the Netherlands, Portugal, Spain, Sweden, and the United Kingdom. The ETSI version of this device is also authorized for use in EFTA member states:

Iceland, Liechtenstein, Norway, and Switzerland. EU Countries Not intended for use None. CONTENTS 1 INTRODUCTION............................................................................. 1 1.1 Features......................................................................................................................... 2 1.2 Specifications................................................................................................................ 2 1.3 Package Contents.......................................................................................................... 3 2 INSTALLATION PROCEDURE ..................................................... 4 3 CONFIGURATION UTILITY ......................................................... 7 3.1 Site Survey.................................................................................................................... 9 3.2 Profile.......................................................................................................................... 10 3.2.1 Configure the Profile .....................................................................................11 3.2.1.1 Configuration ........................................................................................................ 11 3.2.1.2 Authentication and Security.................................................................................. 13 3.2.1.3 802.1x Setting-Certification.................................................................................. 17 3.2.1.4 802.1x Setting-CA Server ..................................................................................... 18 3.3 Link Status .................................................................................................................. 19 3.4 Statistics ...................................................................................................................... 21 3.5 Advance ...................................................................................................................... 21 3.6 About........................................................................................................................... 24 3.7 Turbo Mode................................................................................................................. 24 3.8 WMM Function .......................................................................................................... 25 4 TROUBLESHOOTING .................................................................. 27 1 Introduction Thank you for purchasing the 802.11g MIMO Wireless LAN Mini-PCI Card. With the MIMO technology, this module enables you to connect to wireless networks at farther distances than before. The module has two antennas for signal reception and one antenna for high power signal transmission. Not only the connection distance is enhanced, but also the dead spots in the network will be reduced. In addition, the module remains backward compatible to 802.11b and 802.11g. When the module is connecting to the standard 11g or 11b APs or Routers, it can perform much better than standard clients. This module supports higher data throughput than the IEEE 802.11g standard (up to 54Mbps). It supports specific ways to increase the data transfer rate at a time; compress the data and decrease the waiting time to send the next data to the Routers or APs. This feature is called Turbo Mode. When the module is connecting to the Routers or APs with the proprietary feature, the wireless network will be more effective. For WLAN security issues, this module supports 64/128-bit WEP data encryption that protects your wireless network from eavesdropping. It also supports WPA (Wi-Fi Protected Access) feature that combines IEEE 802.1x and TKIP (Temporal Key Integrity Protocol) technologies. Client users are required to authorize before accessing to APs or AP Routers, and the data transmitted in the network is encrypted/decrypted by a dynamically changed secret key. Furthermore, this module supports WPA2 function, WPA2 provides a stronger encryption mechanism through AES (Advanced Encryption Standard), which is a requirement for some corporate and government users. When you use the devices such as Voice over Internet Protocol (VoIP) phones, televisions, VCRs and MP3 players, how can you speed up the audio, video and voice data to pass through the wireless network? IEEE 802.11e Quality of Service (QoS) (The Wi-Fi Alliance defined WMM as a profile of the IEEE 802.11e) extensions for 802.11 networks will help to define the priorities of the data traffics by the data categories to provide enhanced multimedia support. This module supports the advanced technology for sure. This module is cost-effective, together with the versatile features; it is the best solution for you to build your wireless network. 1 1.1 Features Works with both IEEE 802.11b and IEEE 802.11g products. High-speed transfer data rate - up to 54Mbps. Farther coverage, less dead spaces and higher throughput with MIMO technology. Supports Turbo Mode to enhance the data transfer speed within the specific wireless network. Supports WMM (IEEE 802.11e QoS standard) function to meet the multi-media data bandwidth requirement. Supports 64/128-bit WEP, WPA (TKIP with IEEE 802.1x), WPA2 (AES with IEEE 802.1x) functions for high level of security. Supports CCX 2.0 (Cisco Compatible Extensions) for the radio monitoring and fast roaming. Automatic fallback increases data security and reliability. Supports the most popular operating system: Windows 98SE/Me/2000/XP. Supports Mini-PCI Type III B. 1.2 Specifications Interface: Mini-PCI Type III B Standard: IEEE 802.11b/g Frequency Band: 2.4000 ~ 2.4835GHz (Industrial Scientific Medical Band) Modulation: OFDM with BPSK, QPSK, 16QAM, 64QAM (11g) BPSK, QPSK, CCK (11b) Data Rate: 54/48/36/24/18/12/11/9/6/5.5/2/1Mbps auto fallback Security: 64/128-bit WEP Data Encryption, WPA (TKIP with IEEE 802.1x), WPA2 (AES with IEEE 802.1x) Note: WPA2 is only enabled in Windows 2000/XP. Antenna: I-PEX x 2 Drivers: Windows 98SE/Me/2000/XP Transmit Power: 18dBm 2dBm Dimension: 59.6(L) x 44.45(W) mm Temperature: 32~131F (0 ~ 55C) Humidity: Max. 95% (NonCondensing) Certification: FCC, CE 2 1.3 Package Contents Before you begin the installation, please check the items of your package. The package should include the following items:

One MIMO Mini-PCI Card One CD (Driver/Utility/Users Manual.) One Quick Guide If any of the above items is missing, contact your supplier as soon as possible. 3 2 Installation Procedure Before you proceed with the installation, please notice following descriptions. Note1: Please do not install the module into your computer before installing the software program from the CD. Note2: The following installation was operated under Windows XP. (Procedures are similar for Windows 98SE/Me/2000.) Note3: If you have installed the MIMO Wireless LAN Mini-PCI Card driver & utility before, please uninstall the old version first. A. Insert the Installation CD to your CD-ROM Drive. Execute the setup program. B. Click Yes to process the installation if you accept the license agreement. 4 C. In Windows XP, there is a Windows Zero Configuration Tool for you to setup wireless modules. You can choose to configure the module through the Zero Configuration Tool or the Configuration Tool for the module. It is recommended to choose the Configure Tool for the module. Click Next to continue. D. If you need the module to operate with better performance, please choose the Optimize for performance to enable the Tx Burst mode. Or you can choose Optimize for Wi-Fi mode to let the module run in standard wireless network. E. The system starts to install the software of the module. Follow the instruction of the program to plug in the module into the Mini-PCI slot of your computer. 5 F. The system will automatically detect the module. When finish, please click Finish to complete the installation. 6 3 Configuration Utility The Configuration Utility is a powerful application that helps you configure the module and monitor the link status and the statistics during the communication process. When the module is installed, the configuration utility will be displayed automatically. This module will auto connect to wireless device which has better signal strength and no wireless security setting. The Configuration Utility appears as an icon on the system tray of Windows while the module is running. You can open the utility by double-click on the icon. Right click the icon, there are some items for you to operate the configuration utility.

Lauch Config Utilities Select Lauch Config Utilities to open the Configuration Utility tool.

Use Zero Configuration as Configuration Utility

Select Use Zero Configuration as Configuration Utility to use Windows XP built-in wireless configuration utility (Windows Zero Configuration) to configure the module.

Exit Select Exit to close the Configuration Utility tool. 7 In Windows XP, there is a Windows Zero Configuration Tool for you to setup wireless clients. If you want to switch the configuration utilities, please follow one of the ways as below. First Way Right click the icon in the system tray and select Use RaConfig as Configuration Utility. Second Way A. Right-click the icon and select View Available Wireless Networks. B. Click Advanced. C. Uncheck Use Windows to configure my wireless network settings to enable the utility for the module. 8 Note: If Wireless Zero Configuration is enabled, you can only configure the advance setting or check the link status and statistics from the configuration utility of the module. 3.1 Site Survey When you open the Configuration Utility, the system will scan all the channels to find all the access points/stations within the accessible range of your module and automatically connect to the wireless device with the highest signal strength. From the Site Survey, all the networks nearby will be listed. You can change the connection to another networks or add one of the networks to your own profile list. 9 Parameter Available Networks Rescan Button Connect Button Add to Profile Button 3.2 Profile Description This list shows all available wireless networks within range of your module. It also displays the information of the networks including the SSID, BSSID, Signal Strength, Channel, Encryption, Authentication and Network Type. If you want to connect to any networks on the list, double-click the item on the list, and the module will automatically connect to the selected network. Click Rescan button to collect the new information of all the wireless networks nearby. Click Connect to connect to the selected network. Add the selected network to Profiles list. The Profiles List is for you to manage the networks you connect to frequently. You are able to Add/Delete/Edit/Activate a profile. 10 Parameter Profiles List Add/Delete/Edit Button Activate Button 3.2.1 Configure the Profile Description The profiles list display all the profiles and the relative settings of the profiles including Profile Name, SSID, Channel, etc. This sign indicates the activated profile is been connecting. This sign indicates the activated profile is not been connecting. Click these buttons to add/delete/edit the selected profiles. Click Activate to connect to the selected profile. When a profile is activated, the module will be initially connected to the profile. 3.2.1.1 Configuration Parameter Profile Name SSID Description Define a recognizable profile name for you to identify the different networks. The SSID (up to 32 printable ASCII characters) is the unique name identified in a WLAN. The ID prevents the unintentional merging of two co-located WLANs. You may specify a SSID for the module and then only the device with the same SSID can interconnect to the module. If you want to add the network nearby to the profile list, pull down the menu, all the networks will be listed for you to add one of them to the profile list. 11 Parameter PSM (Power Saving Mode) Network Type TX Power Ad Hoc Wireless Mode Preamble Description The power saving function is only available when the network type is in Infrastructure. CAM (Constantly Awake Mode) The module will always set in active mode. PSM (Power Saving Mode) Enable the module in the power saving mode when it is idle. Infrastructure This operation mode requires the presence of an 802.11 Access Point. All communication is done via the Access Point or Router. Ad-Hoc Select this mode if you want to connect to another wireless stations in the Wireless LAN network without through an Access Point or Router. If you want to lower the transmit power of the module for saving the power of the system, you can select the lower percentages from the list. The lower power will cause the lower signal strength and the coverage range. When the module is set in Ad Hoc (Peer to Peer Mode), you can designate the wireless connection mode for the Ad Hoc network. 802.11 B only This module can be compatible with both 802.11g and 802.11b wireless stations. If there are only 802.11b wireless stations in the network, you can set the module to this mode. 802.11 B/G mix If you have a mix of 802.11b and 802.11g wireless stations in your network, it is recommended to setting the module to this mode. This mode is also the default setting. 802.11 G only This module can be compatible with both 802.11g and 802.11b wireless stations. If there are only 802.11g wireless stations in the network, you can set the module to this mode. The preamble defines the length of the CRC block for communication among wireless devices. This option is only active in the Ad Hoc network. There are two modes including Auto and Long Preamble. If Auto mode is selected, the module will auto switch the preamble mode depending on the wireless devices the module is connecting to. 12 Parameter RTS Threshold Fragment Threshold Channel Description Minimum packet size required for an RTS (Request To Send). For packets smaller than this threshold, an RTS is not sent and the packet is transmitted directly to the wireless network. Select a setting within a range of 0 to 2347 bytes. Minor change is recommended. The value defines the maximum size of packets; any packet size larger than the value will be fragmented. If you have decreased this value and experience high packet error rates, you can increase it again, but it will likely decrease overall network performance. Select a setting within a range of 256 to 2346 bytes. Minor change is recommended. This setting is only available for Ad Hoc mode. Select the number of the radio channel used for the networking. The channel setting should be the same with the network you are connecting to. 3.2.1.2 Authentication and Security Parameter Authentication Type Description This setting has to be consistent with the wireless networks that the module intends to connect. Open No authentication is needed among the wireless network. Shared Only wireless devices using a shared key (WEP Key identified) are allowed to connecting each other. 13 Parameter Authentication Type 802.1x Setting Description LEAP LEAP is a pre-EAP, Cisco-proprietary protocol, with many of the features of EAP protocols. Cisco controls the ability of other vendors to implement this protocol, so it should be selected for use only when limited vendor choice for client, access-point, and server products is not a concern. When you have set up LEAP authentication, you have to enter the user name and password of your computer. WPA WPA provides a scheme of mutual authentication using either IEEE 802.1x/Extensible Authentication Protocol (EAP) authentication or pre-shared key (PSK) technology. It provides a high level of assurance to enterprises, small businesses and home users that data will remain protected and that only authorized users may access their networks. For enterprises that have already deployed IEEE 802.1x authentication, WPA offers the advantage of leveraging existing authentication databases and infrastructure. WPA-PSK It is a special mode designed for home and small business users who do not have access to network authentication servers. In this mode, known as Pre-Shared Key, the user manually enters the starting password in their access point or gateway, as well as in each wireless stations in the network. WPA-PSK takes over automatically from that point, keeping unauthorized users that don't have the matching password from joining the network, while encrypting the data traveling between authorized devices. WPA2 Like WPA, WPA2 supports IEEE 802.1x/EAP authentication or PSK technology. It also includes a new advanced encryption mechanism using the Advanced Encryption Standard (AES). AES is required to the corporate user or government users. The difference between WPA and WPA2 is that WPA2 provides data encryption via the AES. In contrast, WPA uses Temporal Key Integrity Protocol (TKIP). WPA2-PSK WPA2-PSK is also for home and small business. The difference between WPA-PSK and WPA2-PSK is that WPA2-PSK provides data encryption via the AES. In contrast, WPA-PSK uses Temporal Key Integrity Protocol (TKIP). When you have set the Authentication Type to Open, Shared, WPA or WPA2, you can also enable IEEE 802.1x setting to use the authentication server or certification server to authenticate client users. 14 Parameter Encryption Mode WPA Pre-Shared Key WEP Key

(Key1 ~ Key4) Description None Disable the encryption mode. WEP Enable the WEP Data Encryption. When the item is selected, you have to continue setting the WEP Encryption keys. TKIP TKIP (Temporal Key Integrity Protocol) changes the temporal key every 10,000 packets (a packet is a kind of message transmitted over a network.) This insures much greater security than the standard WEP security. AES AES has been developed to ensure the highest degree of security and authenticity for digital information and it is the most advanced solution defined by IEEE 802.11i for the security in the wireless network. Note: All devices in the network should use the same encryption method to ensure the communication. The WPA-PSK key can be from 8 to 64 characters and can be letters or numbers. This same key must be used on all of the wireless stations in the network. The WEP keys are used to encrypt data transmitted in the wireless network. There are two types of key length: 64-bit and 128-bit. Select the default encryption key from Key 1 to Key 4 by selected the radio button. Fill the text box by following the rules below. 64-bit Input 10-digit Hex values (in the A-F, a-f and 0-9 range) or 5-digit ASCII characters (including a-z and 0-9) as the encryption keys. For example: 0123456aef or test1. 128-bit Input 26-digit Hex values (in the A-F, a-f and 0-9 range) or 13-digit ASCII characters (including a-z and 0-9) as the encryption keys. For example:

01234567890123456789abcdef or administrator. 15 The IEEE 802.1X specification describes a protocol that can be used for authenticating both clients and servers on a network. The authentication algorithms and methods are those provided by the Extensible Authentication Protocol (EAP), a method of authentication that has been in use for a number of years on networks that provide Point-to-Point Protocol (PPP) support as many internet service providers and enterprises do. When an AP acting as an authenticator detects a wireless station on the LAN, it sends an EAP-Request for the user's identity to the device. (EAP, or the Extensible Authentication Protocol, is an authentication protocol that runs before network layer protocols transmit data over the link.) In turn, the device responds with its identity, and the AP relays this identity to an authentication server, which is typically an external RADIUS server. An example for MD5 Authentication IEEE 802.1x Access Client RADIUS Client 1 2 Access Point RADIUS Server 3 4 Windows 2000 IAS

(Internet Authentication Service)

(1) Client requests to login the network.

(2) Login with username, password.

(3) Send username, password to RADIUS server.

(4) Approve or deny user login to the LAN. 16 3.2.1.3 802.1x Setting-Certification Parameter Authentication Type Description The EAP authentication protocols this module has supported are included as follows. This setting has to be consistent with the wireless APs or Routers that the module intends to connect. PEAP &TTLS PEAP and TTLS are similar and easier than TLS in that they specify a stand-alone authentication protocol be used within an encrypted tunnel. TTLS supports any protocol within its tunnel, including CHAP, MS-CHAP, MS-CHAPv2, PAP and EAP-MD5. PEAP specifies that an EAP-compliant authentication protocol must be used; this module supports EAP-MSCHAP v2, EAP-TLS/Smart Card and Generic Token Card. The client certificate is optional required for the authentication. TLS/Smart Card TLS is the most secure of the EAP protocols but not easy to use. It requires that digital certificates be exchanged in the authentication phase. The server presents a certificate to the client. After validating the servers certificate, the client presents a client certificate to the server for validation. MD5-Challenge MD5-Challenge is the easiest EAP Type. It requires the wireless station to enter a set of user name and password as the identity to RADIUS Server. There are Disabled, Reauthentication, Roaming, SameSsid and Always selections for you to choose whether to recovery the session in different status. Enter the name as the identity for the server. Enter the password as the identity for the server. A client certificate is required for TLS, and is optional for TTLS and PEAP. This forces a client certificate to be selected from the appropriate Windows Certificate Store and made available to the RADIUS server for certification. 17 Session Resumption Identity Password Use Client Certificate Parameter Tunneled Authentication Protocol Identity Password Description When the authentication type is PEAP or TTLS, select a protocol to be used to build the encrypted tunnel. This is the protected user EAP Identity used for authentication. The identity specified may contain up to 63 ASCII characters, is case sensitive and takes the form of a Network Access Identifier, consisting of <name of the user>@<users home realm>. The users home realm is optional and indicates the routing domain. The password used for authentication. It may contain up to 63 ASCII characters and is case sensitive. 3.2.1.4 802.1x Setting-CA Server Parameter Use Certificate Chain Certificate Issuer Description When the EAP authentication type such as TLS, TTLS or PEAP is selected and required a certification to tell the client what server credentials to accept from the authentication server in order to verify the server, you have to enable this function. Choose the server from the list to issue the certificate. If Any Trusted CA is selected, any CA included in the list (provided by the Microsoft Certificate Store) is permitted. 18 Parameter Allow Intermediate Certificates Description A server designates an issuer as a trusted root authority by placing the issuer's self-signed certificate, which contains the issuer's public key, into the trusted root certification authority certificate store of the host computer. Intermediate or subordinate certification authorities are trusted only if they have a valid certification path from a trusted root certification authority. Enter the authentication server name. Server Name Server name must match exactly When selected, the server name must match exactly the server Domain name must end in specified name 3.3 Link Status name found on the certificate. When selected, the server name field identifies a domain. The certificate must use a server name belonging to this domain or to one of its sub-domains (e.g. zeelans.com, where the server is blueberry.zeelans.com) but it may be any name used in the certificate name field. From the Link Status option, you can view all the information of the network you are connecting to. 19 Parameter Status Extra Info Channel Link Speed (Mbps) Throughput (Kbps) Link Quality dBm Signal Strength Signal Strength2 Noise Level Description Display the SSID and MAC ID of the network the module is connecting to. Display the link status. Display the number of the radio channel and the frequency used for the networking. Display the transmission and reception rate of the network. The maximum transmission rate is 54Mbps. Display the speed of data transmitted and received. This bar indicates the quality of the link. The higher the percentage, the better the quality. If you want to know the signal strength in the unit of dBm, select this check box. This bar shows the signal strength level. The higher percentage shown in the bar, the more radio signal been received by the module. This indicator helps to find the proper position of the wireless device for quality network operation. This module has two antennas for receiving. The Signal Strength2 indicates the receiving signal strength for the second antenna. Display the noise level in the wireless environment. 20 3.4 Statistics This option enables you to view the statistic information of the connection including transmit statistics and receive statistics. You may reset the counters by clicking Reset Counter. 3.5 Advance This option enables you to configure more advanced settings, for example: wireless mode, protection mode and etc. 21 Parameter Wireless Mode Description 802.11 B/G mix If you have a mix of 802.11b and 802.11g wireless stations in your network, it is recommended to setting the module to this mode. This mode is also the default setting. 802.11 B only This module can be compatible with both 802.11g and 802.11b wireless stations. If there are only 802.11b wireless stations in the network, you can set the module to this mode. 802.11 G only This module can be compatible with both 802.11g and 802.11b wireless stations. If there are only 802.11g wireless stations in the network, you can set the module to this mode. Select Your Country Region Code The available channel differs from different countries. For B/G Protection Tx Rate example: USA (FCC) is channel 1-11, Europe (ETSI) is channel 1-13. The operating frequency channel will be restricted to the country user located before importing. If you are in different country, you have to adjust the channel setting to comply the regulation of the country. If you have a mix of 802.11b and 802.11g wireless stations in the network, it is recommended to enable the protection mechanism. This mechanism can decrease the rate of data collision between 802.11b and 802.11g wireless stations. When the protection mode is enabled, the throughput of the module will be a little lower due to many of frame traffic should be transmitted. Auto Based on the status of the network and automatically disable/enable protection mode. On Always enable the protection mode. Off Always disable the protection mode. There are several options including Auto/1/2/5.5/11/6/9/12/18/24/36/48/54Mbps for you to select. When the Auto is selected, the device will choose the most suitable transmission rate automatically. The higher data rate you designated in the network, the shorter distance is allowed between the module and the wireless stations. When the wireless mode is 802.11 B only, the maximum data rate is 11Mbps (11b) so that there are only Auto/1/2/5.5/11Mbps options you can select. 22 Parameter Tx BURST Enable TCP Window Size Fast Roaming at -70dBm Turn Off RF Button CCX 2.0 LEAP Turn on CCKM Enable Radio Measurement Non-Serving Channel Measurements Description Tx Burst enables the module to deliver the better throughput in the same period and environment. The TCP Window is the amount of data a sender can send on a particular connection before it gets an acknowledgment back from the receiver that it has gotten some of it. When the Router or AP the module is connecting to have set up the TCP Window, you can enable the parameter to meet the data size for the Router or AP connection. The larger TCP Window the better performance. When you want to fast roaming to the network nearby without intercepting the wireless connection especially the module is applied to the multimedia application or a voice call, you can enable the parameter. The module will fast roaming to the near network when the receive sensitivity (signal strength) is lower to the value you have set up. If you want to turn off the radio of the module temporarily, click this button. To turn on the radio, click this button again. CCX 2.0 (Cisco Compatible Extensions) is developed by Cisco for the radio monitoring and fast roaming. During normal operation, LEAP-enabled client devices mutually authenticate with a new access point by performing a complete LEAP authentication, including communication with the main RADIUS server. When you configure your wireless LAN for fast re-association, however, LEAP-enabled client devices roam from one access point to another without involving the main server. Using Cisco Centralized Key Management (CCKM), an access point configured to provide Wireless Domain Services (WDS) takes the place of the RADIUS server and authenticates the client so quickly that there is no perceptible delay in voice or other time-sensitive applications. When this parameter is enabled, the Cisco AP can run the radio monitoring through the associated CCX-compliant clients to continuously monitor the WLAN radio environment and discover any new APs that are transmitting beacons. The Cisco AP can perform monitoring measurements through the CCX-compliant clients on the non-serving channels when this parameter is enabled. 23 Parameter Limit xxx milliseconds (0-2000) 3.6 About Description It limits the channel measurement time. The default value is 250 milliseconds. By choosing this option, you can click the hyperlink to connect the website for the information of the wireless chipset vendor and review basic information about the Utility such as the Driver, Utility and EEPROM Version. The MAC Address of the module is displayed in the screen as well. 3.7 Turbo Mode This module supports specific ways to increase the data transfer rate at a time; compress the data and decrease the waiting time to send the next data to the Routers or APs, this feature (known as Turbo Mode) enables higher throughput than IEEE 802.11g standard (Up to 54Mbps). When the module is connecting to the Routers or APs with the proprietary MIMO technology, the Turbo Mode will be enabled automatically without any configuration. 24 3.8 WMM Function In addition to the Turbo Mode, this module also supports WMM function. When you use the devices such as Voice over Internet Protocol (VoIP) phones, televisions, VCRs and MP3 players, IEEE 802.11e Quality of Service (QoS) (The Wi-Fi Alliance defined WMM as a profile of the IEEE 802.11e) extensions for 802.11 networks will help to define the priorities of the data traffics by the data categories to provide enhanced multimedia support. When the module is connected to the AP or Router with WMM function, you can enable the function of the module by following the steps below. A. In the Desktop of the computer, right click My Network Places and select Properties. 25 B. Right Click the Wireless Network Connection and select Properties. C. Click Configure. D. Select Advanced page, enable the WMM Capable. 26 4 Troubleshooting This chapter provides solutions to problems usually encountered during the installation and operation of the adapter. 1. What is the IEEE 802.11g standard?

802.11g is the new IEEE standard for high-speed wireless LAN communications that provides for up to 54 Mbps data rate in the 2.4 GHz band. 802.11g is quickly becoming the next mainstream wireless LAN technology for the home, office and public networks. 802.11g defines the use of the same OFDM modulation technique specified in IEEE 802.11a for the 5 GHz frequency band and applies it in the same 2.4 GHz frequency band as IEEE 802.11b. The 802.11g standard requires backward compatibility with 802.11b. The standard specifically calls for:

A. A new physical layer for the 802.11 Medium Access Control (MAC) in the 2.4 GHz frequency band, known as the extended rate PHY (ERP). The ERP adds OFDM as a mandatory new coding scheme for 6, 12 and 24 Mbps (mandatory speeds), and 18, 36, 48 and 54 Mbps

(optional speeds). The ERP includes the modulation schemes found in 802.11b including CCK for 11 and 5.5 Mbps and Barker code modulation for 2 and 1 Mbps. B. A protection mechanism called RTS/CTS that governs how 802.11g devices and 802.11b devices interoperate. 2. What is the IEEE 802.11b standard The IEEE 802.11b Wireless LAN standard subcommittee, which formulates the standard for the industry. The objective is to enable wireless LAN hardware from different manufactures to communicate. 3. What does IEEE 802.11 feature support The product supports the following IEEE 802.11 functions:

CSMA/CA plus Acknowledge Protocol

Multi-Channel Roaming

Automatic Rate Selection

RTS/CTS Feature

Fragmentation

Power Management 4. What is Ad-hoc An Ad-hoc integrated wireless LAN is a group of computers, each has a Wireless LAN adapter, Connected as an independent wireless LAN. Ad hoc wireless LAN is applicable at a departmental scale for a branch or SOHO operation. 5. What is Infrastructure An integrated wireless and wireless and wired LAN is called an Infrastructure configuration. Infrastructure is applicable to enterprise scale for wireless access to central database, or wireless application for mobile workers. 27 6. What is BSS ID A specific Ad hoc LAN is called a Basic Service Set (BSS). Computers in a BSS must be configured with the same BSS ID. 7. What is WEP WEP is Wired Equivalent Privacy, a data privacy mechanism based on a 40 bit shared key algorithm, as described in the IEEE 802 .11 standard. 8. What is TKIP?

TKIP is a quick-fix method to quickly overcome the inherent weaknesses in WEP security, especially the reuse of encryption keys. TKIP is involved in the IEEE 802.11i WLAN security standard, and the specification might be officially released by early 2003. 9. What is AES?

AES (Advanced Encryption Standard), a chip-based security, has been developed to ensure the highest degree of security and authenticity for digital information, wherever and however communicated or stored, while making more efficient use of hardware and/or software than previous encryption standards. It is also included in IEEE 802.11i standard. Compare with AES, TKIP is a temporary protocol for replacing WEP security until manufacturers implement AES at the hardware level. 10. Can Wireless products support printer sharing Wireless products perform the same function as LAN products. Therefore, Wireless products can work with Netware, Windows 2000, or other LAN operating systems to support printer or file sharing. 11. Would the information be intercepted while transmitting on air WLAN features two-fold protection in security. On the hardware side, as with Direct Sequence Spread Spectrum technology, it has the inherent security feature of scrambling. On the software side, WLAN series offer the encryption function (WEP) to enhance security and Access Control. Users can set it up depending upon their needs. 12. What is DSSSWhat is FHSSAnd what are their differences Frequency-hopping spread-spectrum (FHSS) uses a narrowband carrier that changes frequency in a pattern that is known to both transmitter and receiver. Properly synchronized, the net effect is to maintain a single logical channel. To an unintended receiver, FHSS appears to be short-duration impulse noise. Direct-sequence spread-spectrum (DSSS) generates a redundant bit pattern for each bit to be transmitted. This bit pattern is called a chip (or chipping code). The longer the chip is, the greater the probability that the original data can be recovered. Even if one or more bits in the chip are damaged during transmission, statistical techniques embedded in the radio can recover the original data without-the need for retransmission. To an unintended receiver, DSSS appears as low power wideband noise and is rejected (ignored) by most narrowband receivers. 28 13. What is Spread Spectrum Spread Spectrum technology is a wideband radio frequency technique developed by the military for use in reliable, secure, mission-critical communication systems. It is designed to trade off bandwidth efficiency for reliability, integrity, and security. In other words, more bandwidth is consumed than in the case of narrowband transmission, but the trade off produces a signal that is, in effect, louder and thus easier to detect, provided that the receiver knows the parameters of the spread-spectrum signal being broadcast. If a receiver is not tuned to the right frequency, a spread spectrum signal looks like background noise. There are two main alternatives, Direct Sequence Spread Spectrum (DSSS) and Frequency Hopping Spread Spectrum (FHSS). 29