TL-WN751N/TL-WN751ND 150Mbps Wireless N PCI Adapter
Rev 1.1.1
COPYRIGHT & TRADEMARKS
FCC RF Radiation Exposure Statement
FCC STATEMENT
Industry Canada Statement
CE Mark Warning
Canadian Compliance Statement
Korea Warning Statements
Safety Information
NCC Notice & BSMI Notice
The product carries the CE Mark
DECLARATION OF CONFORMITY
Product Description 150Mbps Wireless N PCI Adapter
Shennan Rd, Nanshan, Shenzhen, China
CONTENTS
1.2 Introduction
1.1 Package Contents
Chapter 1 Product Overview
150Mbps Wireless N PCI Adapter
150Mbps Wireless N PCI Adapter
1.3 Features
1.4 Hardware Overview
TL-WN751N/TL-WN751ND
2.2 Software Installation
Chapter 2 Installation
2.1 Hardware Installation
150Mbps Wireless N PCI Adapter
150Mbps Wireless N PCI Adapter
TL-WN751N/TL-WN751ND
TL-WN751N/TL-WN751ND
150Mbps Wireless N PCI Adapter
5. Click Install to continue the setup
TL-WN751N/TL-WN751ND
150Mbps Wireless N PCI Adapter
6. The utility and drivers will install. This may take 1~2 minutes
150Mbps Wireless N PCI Adapter
TL-WN751N/TL-WN751ND
150Mbps Wireless N PCI Adapter
Chapter 3 Connect to a Wireless Network
3.1 To connect using TWCU
To connect using TWCU
TL-WN751N/TL-WN751ND
150Mbps Wireless N PCI Adapter
SSID Service Set Identifier is the name of the wireless network. The adapter will automatically connect to your target network next time if you tick Connect automatically
TL-WN751N/TL-WN751ND
150Mbps Wireless N PCI Adapter
point, then click OK to continue. Or push the WPS button on your router if your router features the WPS function to quickly build a connection without having to enter a key
150Mbps Wireless N PCI Adapter
3.2 To connect using WPS
3.2.1 PBC Push Button Configuration method
TL-WN751N/TL-WN751ND
TL-WN751N/TL-WN751ND
150Mbps Wireless N PCI Adapter
3. The adapter will be connecting to the target network
TL-WN751N/TL-WN751ND
150Mbps Wireless N PCI Adapter
3.2.2 PIN method
3.2.2.1. Enter the PIN from your AP device
3.2.2.2. Enter a PIN into your AP device
150Mbps Wireless N PCI Adapter
TL-WN751N/TL-WN751ND
This method is only available in Windows XP and Windows Vista
3.3.1 In Windows
3.3 To connect using Windows built-in wireless utility
150Mbps Wireless N PCI Adapter
TL-WN751N/TL-WN751ND
3. You have now successfully connected to the network
150Mbps Wireless N PCI Adapter
TL-WN751N/TL-WN751ND
TL-WN751N/TL-WN751ND
150Mbps Wireless N PCI Adapter
3.3.2 In Windows Vista
4. You have now successfully connected to the network
150Mbps Wireless N PCI Adapter
TL-WN751N/TL-WN751ND
TL-WN751N/TL-WN751ND
150Mbps Wireless N PCI Adapter
3.3.3 In Windows XP
TL-WN751N/TL-WN751ND
150Mbps Wireless N PCI Adapter
2. Right-click on the wireless computer icon in your system tray lower-right corner. Select View Available Wireless Networks
150Mbps Wireless N PCI Adapter
TL-WN751N/TL-WN751ND
150Mbps Wireless N PCI Adapter
Chapter 4 Management
4.1 Profile
TL-WN751N/TL-WN751ND
The following items can be found on the screen
150Mbps Wireless N PCI Adapter
TL-WN751N/TL-WN751ND
4.1.3 Delete a profile
150Mbps Wireless N PCI Adapter
4.1.2 Modify a profile
TL-WN751N/TL-WN751ND
TL-WN751N/TL-WN751ND
4.2 Advanced
150Mbps Wireless N PCI Adapter
TL-WN751N/TL-WN751ND
4.3 About
150Mbps Wireless N PCI Adapter
TL-WN751N/TL-WN751ND
Chapter 5 AP Mode
150Mbps Wireless N PCI Adapter
TL-WN751N/TL-WN751ND
150Mbps Wireless N PCI Adapter
¾ SoftAP mode Select to enable or disable the function
150Mbps Wireless N PCI Adapter
Chapter 6 Uninstall Software
6.1 Uninstall the utility software from your PC
TL-WN751N/TL-WN751ND
TL-WN751N/TL-WN751ND
6.2 Uninstall the driver software from your PC
150Mbps Wireless N PCI Adapter
TL-WN751N/TL-WN751ND
Appendix A Specifications
150Mbps Wireless N PCI Adapter
Normal
TL-WN751N/TL-WN751ND
Appendix B Glossary
150Mbps Wireless N PCI Adapter
TL-WN751N/TL-WN751ND
150Mbps Wireless N PCI Adapter
¾ Spread Spectrum - Spread Spectrum technology is a wideband radio frequency technique developed by the military for use in reliable, secure, mission-critical communications 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