Compex Systems 802.11N Station, Station WDS, Repeater WDS mode Identity, User Name, User Password

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WPA + EAP_TLS, WPA-TTLS, WPA-PEAP

Fig 2.8 WPA (Station /Station WDS/Repeater WDS)

This apply to the following modes only, when WPA or WPA2, with EAP is selected.

Station, Station WDS, Repeater WDS mode.

Identity

Identification credential used by the wpa-supplicant for EAP authentication.

User Name:

Identification credential used by the wpa-supplicant for EAP tunneled authentication in unencrypted form.

User Password:

Password credential used by the wpa-supplicant for EAP authentication

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Contents Page Trademark Information FCC Notice Declaration of Conformity Table of Contents Status System TabIntroduction Overview the ProductUConfig Utility Highly Secured Wireless NetworkPoint-to-Point & Point-to-MultiPoint Support Virtual AP Multiple SsidAccess Point WDS Mode Station Mode Point-to-Point Station WDS ModeRouter Mode Repeater WDS Mode Device Panel Views and Descriptions Features Status and IndicationsAntenna Alignment Install the HardwareAntenna Alignment Installation Direction Mount the Unit on a Pole Setup RequirementsPrepare Unit to mount to a pole Page For Windows 95/98/98SE/ME/NT Configure the IP AddressStep Select the Use the following IP address radio button For Windows XP/2000Click on the OK button to close all windows Access with uConfig Access the Web InterfaceStep It then opens the device home page. The Status Access with a Web Browser Step Main Menu Bar How to save changesNavigation Network Modes Bridging and Routing LAN SetupBasic Network Tab Primary DNS IP optional Basic Wireless Settings Basic Wireless TabEnable the radio Wireless Mode Wireless Profile Access Point Parameters SettingsLocal AP-ESSID Country CodeChannel Frequency Channel Spectrum WidthData Rate Rate AggressivenessRemote AP Preferred MAC Station Parameters SettingsRemote AP-ESSID Channel Scan List Wireless Adapter modeWPA or WPA2 Authentication Wireless SecurityCipher Type Preshared KeyPrimary Radius Server IP Authentication PortSecondary Radius Server IP Accounting PortUser Name Station, Station WDS, Repeater WDS mode IdentityUser Password IEEE802.1x Key Length IEEE802.1x SettingsIEEE802.1x Key Rotation Key Type Authentication TypeCurrent Key WEP KeyVirtual Access Point VAP Long Range Parameters Advance Wireless TabLong Range Parameters Setup Noise Immunity Signal Strength Indicator RssiAdvanced Network Tab Adding an entry from Known Server Spanning Tree SetupNAT Setup Adding an entry from Custom Server Router Info Protocol version select RIPv1 or RIPv2 Bandwidth ControlRule Type select By IP or By MAC Firewall Setup Outbound Filtering Setup Page Services Tab Ping Watchdog Auto-RebootNTP Setup Snmp SetupEngine ID Default is Web Http SecuritySystem Log Setup Telnet Access SetupSSH Access Setup System Tab Firmware UpgradeEnable Read-Only Account Administrative and Read-only AccountHost Name Read-Only UsernameDevice Maintenance Configuration ManagementMain StatusStatus Reporting Radio LAN SettingWAN Setting Wlan Connected Status Station Connection Status InfoChannel Width Wlan Local AP StatisticsPage Network Mode Selections Bridge ModeBridge Mode Network Settings Appendix I NetworkDhcp Fallback IP Bridge IP AddressPrimary/Secondary DNS IP Spanning Tree Protocol Bridge mode Firewall Configuration SettingsAP-Router mode Network Settings Appendix II Wireless with Router ModePage Port Forwarding Settings IP of the host system which sends the packets Page Rate Aggressiveness Appendix III- Advanced SettingsAdvanced Wireless Setting Acknowledgement Timeout LED Thresholds Configuration Signal Strength LED SettingsSnmp Agent Appendix IV- ServicesSystem Log NTP Client, Web, Telnet, SSH Server

802.11N specifications

Compex Systems 802.11N solutions are designed to provide high-performance wireless networking, catering to the growing demand for faster and more reliable connectivity in various applications. The 802.11N standard, also known as Wi-Fi 4, significantly enhances the capabilities of previous Wi-Fi standards by utilizing advanced technologies and features.

One of the key characteristics of Compex Systems 802.11N products is their support for Multiple Input Multiple Output (MIMO) technology. MIMO allows the transmission of multiple data streams simultaneously, effectively improving throughput and range. This is especially useful in environments with high user density or physical obstructions, as it enhances the signal quality and minimizes interference.

Another significant feature is the use of Channel Bonding, which combines two adjacent channels to double the data rate. This capability enables users to experience higher speeds, typically reaching up to 600 Mbps under optimal conditions. The dual-band operation, supporting both 2.4 GHz and 5 GHz frequencies, further enhances flexibility and performance. The 2.4 GHz band offers broader coverage, while the 5 GHz band provides faster speeds with less congestion.

Compex Systems also incorporates advanced security protocols in their 802.11N solutions. With support for WPA2 encryption and robust authentication methods, users can ensure that their connections remain secure, protecting sensitive data from potential threats.

Quality of Service (QoS) is another critical feature, allowing network administrators to prioritize traffic according to application needs. This ensures that bandwidth-intensive applications, such as video streaming and online gaming, receive the necessary resources for optimal performance, even in a crowded network environment.

Designed for versatility, Compex Systems 802.11N devices can be employed in various scenarios, including enterprise, education, healthcare, and hospitality sectors. Their compact and durable designs make them suitable for deployment in both indoor and outdoor settings.

Overall, Compex Systems 802.11N solutions offer a comprehensive set of features and technologies aimed at providing robust, high-speed wireless connectivity. With MIMO, Channel Bonding, dual-band support, enhanced security, and QoS capabilities, these systems are well-suited to meet the demands of modern wireless networking environments.