TROY Group 802.11b manual

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Note:

If you don’t see the print server in the list, hold down the button for more than 5 seconds to reset it to factory defaults and try the search again. If you still don’t see it, check the troubleshooting section (chapter 11).

5.When you see the print server you want to configure in the list, highlight it and click Configure. If you are using DHCP, wait until the print server gets an IP Address from the DHCP server and is updated on the search screen before configuring (the IP address will change from the default 192.0.0.192 to a new value).

Note:

If the wireless signal is less than 50% on the search screen, printing perfor- mance could be affected. To improve the signal strength, try moving the print server closer to the computer or access point and away from other radio devices such as BluetoothTM wireless devices, microwave ovens, or cordless phones.

6.You will be prompted for the configuration password (the default password is access), type in the password and click OK to continue. The Wireless Server Configuration screen will come up which will look like this:

Note: If you are having trouble configuring a print server, click Cancel to get back to the Search screen, click Clear to clear the list of print servers, and start again from step 4 above.

7.The settings of the EtherWind you selected in the Wireless Server Search screen will be displayed. Many of the fields will be configured automatically to match the network being used, so you will probably NOT need to change the Wireless Mode, RF Channel, SSID, and Data Rate settings unless you want to want to change the EtherWind to a different wireless network.

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Contents User’s Guide Copyright Notice Contents Troubleshooting Where to Get HelpAd-Hoc Mode IntroductionSystem Requirements Operating Systems SupportedNetwork Protocols Supported IPX/SPX Page Installing EtherWind Print Server Hardware Before You BeginUnpacking the Print Server EtherWind Connectors, Switches, and LEDs Connecting to a Printer Verifying Successful InstallationVerifying the Connection to the Printer Connecting the EtherWind to an RS-232 Serial Device DB9 DTE DCESET Port S1 Console Enabled Page Configuring the EtherWind ConfiguringIP Settings EtherWind 802.11bPage Installing the Software Page Page Page STARTProgramsTROY GroupEtherWindWP-Admin STARTProgramsTROY GroupEtherWindXAdmin32Management Methods EtherWind Console Telnet DEC NCP DEC NCLNetwork Configuration Microsoft WindowsPage Page Additional Windows Configuration Methods Setting Up Printing MacOS 8.x ConfigurationConfiguring the Macintosh AppleTalk NetworkSetting Up Printing MacOS Directory ServicesThis section covers installation using the Novell client NetWare NetworkPage Select Print Services Quick Setup from the Tools menu Print Server Name windowPage Berkeley Unix Host Configuration Unix Network192.189.207.33xcdprinter Sun Solaris Configuration LaserPrinter\ Lp=\Mkdir /usr/spool/lpd/LaserPrinter Lp -dLaserJet filename HP/UX ConfigurationSelect Add Access to Remote Printer Check the box next to Remote Printer is on BSD SystemConfiguration on Other Systems Name of queue to add user selectable Activate the queue YesVMS LAT Host Configuration DEC LAT Network$SET Term LTAxx/PASSTHRU/PASSALL @filename PRINT/QUEUE=queuename filenameFile Server User Configuration File Server Queue ConfigurationBanyan Vines Print Server Configuration Printing Configuration Installing the Software on a Windows PC at the Local SitePrintraNet Internet 10-2 Adding a Second PrintraNet Destination Configuring the Remote Troy Print Server Printing to the Remote Troy Print Server 192.189.207.222mail.troy.com Troubleshooting and Maintenance Troubleshooting Printing ProblemsTroubleshooting Wireless Configuration Problems Troubleshooting Network Configuration Wireless Server Configuration Screen Fields Server NameSsid Wireless Mode Loading the Firmware11-6 11-7 Uninstalling the EtherWind Wireless Software Double-ClickAdd/Remove ProgramsChange/Remove Where to Get Help Worldwide Web SupportContacting Troy Warranty Returning ProductsFCC Compliance Statement For United States Users For European Users Declaration of ConformityRegulatory Information Canada IC notice

802.11b specifications

TROY Group 802.11b is a significant advancement in wireless networking technology, introduced in the late 1990s. Operating within the 2.4 GHz frequency band, 802.11b provided users with robust connectivity and established a foundation for future wireless standards. This protocol marked a transition from wired networking to wireless, enabling greater mobility and flexibility for users.

One of the main features of the 802.11b standard is its data transmission rate, which supports speeds of up to 11 Mbps. While this may seem modest by today’s standards, it was a groundbreaking achievement at the time. The 802.11b technology utilized Direct Sequence Spread Spectrum (DSSS) modulation, which allowed multiple data streams to coexist with minimal interference. This was crucial in environments with numerous wireless devices.

Security was another important consideration, and 802.11b incorporated Wired Equivalent Privacy (WEP) for data protection. WEP attempted to secure wireless transmissions by encrypting data packets, although it was later found to have vulnerabilities. Nevertheless, it was a starting point for securing wireless communication until more robust security protocols, such as WPA and WPA2, were developed.

The compatibility of 802.11b with earlier standards like 802.11 meant that devices could be mixed and matched, allowing for a smooth transition to wireless networks. With a typical range of around 100 to 300 feet, it was suitable for various environments, from homes to offices. In addition, the protocol facilitated peer-to-peer networking, allowing devices to communicate directly without the need for an access point.

In terms of hardware, 802.11b required compatible wireless network interface cards (NICs) and access points. These devices were increasingly integrated into laptops and desktops, leading to widespread adoption and the growing popularity of wireless networking in everyday life.

In conclusion, TROY Group 802.11b laid the groundwork for modern wireless communication. Its features, including data rates of up to 11 Mbps, DSSS modulation, and initial security measures like WEP, made it a pioneer in the industry. Although it has been succeeded by faster and more secure protocols, the legacy of 802.11b lives on as a crucial development in the evolution of wireless technology, setting the stage for the high-speed and secure connections that users enjoy today.
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