AT&T Turbo 802.11b user manual Rts, Smtp, Snmp, Tcp/Ip, Udp

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Glossary

RTS

RTS (Request To Send) is a signal sent from the transmitting station to the receiving station requesting permission to transmit data.

Server

Servers are typically powerful and fast computers that store programs and data. The programs and data are shared by client computers (workstations) on the network.

SMTP

SMTP (Simple Mail Transfer Protocol) is the standard Internet e-mail protocol. SMTP is a TCP/IP protocol defining message format and includes a message transfer agent that stores and forwards mail.

SNMP

SNMP (Simple Network Management Protocol) is a widely used network monitoring and control protocol. SNMP hardware or software components transmit network device activity data to the workstation used to oversee the network.

SSID

SSID (Service Set Identifier) is the name designated for a LAN. It serves as a simple security measure used in Wireless LANs (WLANs). The SSID is attached to packets sent over WLANs. This identifier acts as a password when a wireless device attempts communication on the WLAN. Because an SSID distinguishes WLANS from each other, routers and wireless devices trying to connect to a WLAN must use the same SSID.

Subnet Mask

Subnet Masks (SUBNETwork masks) are used by IP protocol to direct messages into a specified network segment (i.e., subnet). A subnet mask is stored in the client machine, server or router and is compared with an incoming IP address to determine whether to accept or reject the packet.

SysLog Server

A SysLog server monitors incoming System log messages and decodes the messages for logging purposes.

TCP

(Transmission Control Protocol) is the transport protocol in TCP/IP that ensures messages over the network are transmitted accurately and completely.

TCP/IP

TCP/IP (Transmission Control Protocol/Internet Protocol) is the main Internet communications protocol suite. TCP ensures that data is completely sent and received at the other end. The IP component of TCP/IP provides data routability, meaning that data packets contain the destination station and network addresses, enabling TCP/IP messages to be sent to multiple networks within the LAN or in the WAN.

Telnet

Telnet is a terminal emulation protocol commonly used on the Internet and TCP- or IP-based networks. Telnet is used for connecting to remote devices and running programs. Telnet is a high level application protocol that uses the TCP/IP communications protocol.

UDP

(User Datagram Protocol) is a protocol within TCP/IP that is used to transport information when accurate delivery isn't necessary (for example, realtime video and audio where packets can be dumped since there is no time for retransmitting the data).

Virtual Servers

Virtual servers are client servers (such as web servers) that share resources with other virtual servers (i.e., it is not a dedicated server).

AT&T Plug&ShareWireless PCI Adapter 22 Mbps Turbo 6500B4X

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Contents Plug&Share Wireless PCI Adapter Mbps Turbo 802.11b 6500B4X Table of Contents System Requirements Package ContentsInstall the Driver and Configuration Utility OverviewRecognize the Hardware Install the Wireless PCI AdapterWEP Encryption Configure the PCI adapter for your wireless networkWizard screen SsidProblems? Test Internet AccessLink Info Configuration Security Windows Me/98 SE To change network settingsConfiguring Windows for File and Printer Sharing Site SurveyConfigure Windows XP for Network Sharing Step Click Wireless Network Connection Step Step Step Click Start Printers and Faxes Configure Windows XP for Printer SharingConfigure Windows XP for File Sharing To Share Network Files in Windows XP Configure Windows 2000 for Network Sharing Settings Control Panel Step Step Settings Printers Step Configure Windows 2000 for Printer SharingConfigure Windows 2000 for File Sharing To Share Network Files in Windows Step Click Start Settings Control Panel Configure Windows 98/Me for Network SharingStep Step Step Click Start Settings Printers Configure Windows 98/Me for Printer SharingConfigure Windows 98/Me for File Sharing To Share Network Files in Windows 98/Me Set Power Mode to Power Save or Continuous Access see TroubleshootingProblem SolutionBlue screen. Nothing works Reinstallation procedureGlossary LAN FTPHttp Icmp ISPRIP MTUNAT NTPTCP RTSSmtp SnmpWAN Wireless LAN WlanVoIP WEPTechnical Specifications Or visit Call

Turbo 802.11b specifications

The AT&T Turbo 802.11b represents a significant evolution in wireless networking technology, designed to enhance connectivity and speed in home and office environments. Introduced in the early 2000s, this standard rapidly gained popularity due to its promising features and capabilities that paved the way for modern wireless communication.

At the core of the AT&T Turbo 802.11b is its operational frequency of 2.4 GHz, which allows for an extended range of wireless connectivity. This frequency is not only accommodating to a broader area but also beneficial for penetrating walls and other obstacles, reducing dead zones within a typical home or office setup. With a maximum data transfer rate of 11 Mbps, the Turbo version enhances performance over its predecessors, although it is eclipsed by later standards like 802.11g and 802.11n.

One of the critical features of the Turbo 802.11b is its support for a Multi-Channel operation. By leveraging different channels within the 2.4 GHz spectrum, users can improve their data throughput and minimize interference, especially in densely populated areas where multiple networks are in operation. This capability includes automatic channel selection, which streamlines the setup process and optimizes performance based on the current environment.

Security is another prominent aspect of the Turbo 802.11b technology. It offers WEP (Wired Equivalent Privacy) encryption, an essential feature for safeguarding data transmitted over wireless networks. While WEP is not regarded as the most robust security measure by today’s standards, it was a step forward at its introduction, prompting users to recognize the importance of protecting their wireless communications.

Compatibility is a hallmark of the Turbo 802.11b, as it is designed to easily integrate with existing 802.11b devices. This backward compatibility ensures that users can seamlessly transition from older networks while still taking advantage of the technology’s enhancements.

Furthermore, the AT&T Turbo 802.11b is built with user-friendliness in mind. Its plug-and-play setup allows even non-technical users to establish a wireless network with minimal effort, making it particularly appealing for home users who desire connectivity without extensive technical knowledge.

In summary, the AT&T Turbo 802.11b exemplifies a critical milestone in wireless technology, boasting features like enhanced data rates, multi-channel support, basic security, and remarkable compatibility, which have laid foundational groundwork for subsequent advancements in wireless networking.