® 802.11g Access Point WL-320gE (For 802.11g and 802.
Copyright Information Copyright © 2006 ASUSTeK COMPUTER INC. All Rights Reserved. No part of this manual, including the products and software described in it, may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language in any form or by any means, except documentation kept by the purchaser for backup purposes, without the express written permission of ASUSTeK COMPUTER INC. (“ASUS”).
Copyright Information ASUSTeK COMPUTER INC. (Asia-Pacific) Company Address: 15 Li-Te Road, Peitou, Taipei 112 General Telephone: +886-2-2894-3447 General Fax: +886-2-2894-7798 Web Site Address: www.asus.com.tw General Email: info@asus.com.
Table of Contents About this user guide ...................................................................7 Notational conventions...........................................................................7 Typographical conventions ....................................................................7 Symbols .................................................................................................7 The ASUS Wireless Family ...........................................................8 1.
Table of Contents 3.8 IP Config.........................................................................................39 LAN.................................................................................................39 Get IP Automatically........................................................................39 Yes..................................................................................................39 No.....................................................................................
About this user guide Notational conventions • Acronyms are defined the first time they appear in the text. • The ASUS WL-320gE is referred to as the “ASUS 802.11g WLAN AP”. Typographical conventions • Boldface type text is used for items you select from menus and dropdown lists, and commands you type when prompted by the program. These items could either be enclosed in < > (open and close brackets) or " " (open & close quotations). Boldface type text is also used for emphasis.
The ASUS Wireless Family The ASUS Wireless family contains a several wireless network solutions for 802.11g & 802.11b wireless local area networks in the home or office. Access Point or Client The ASUS WLAN 802.11g Access Point (WL-300g) creates a wireless network using the IEEE 802.11g and 802.11b wireless standards. The ASUS WL320gP Wireless Access Point incorporates 802.11g OFDM technology designs, which enables fastest 54Mbps IEEE 802.
PCMCIA Client Compact Flash (CF) Client The ASUS WLAN PC Card (WL-107g) is a wireless LAN adapter that fits into a PCMCIA Type II slot in a Notebook PC and creates a wireless network using the IEEE 802.11g/b wireless standards. The ASUS 802.11b Wireless CF Card (WL-110) is a IEEE 802.11b wireless LAN adapter that fits into a Compact Flash Type II slot in a Portable Digital Assistant (PDA).
Chapter 1 - Introduction 1. Introduction 1. Introduction 1.1 Welcome! Thank you for purchasing the ASUS WL320gE Wireless Access Point! The ASUS WL320gE Wireless Access Point incorporates 802.11g OFDM technology designs, which enables fastest 54Mbps IEEE 802.11g wireless transmission and keep compatibility with existing IEEE 802.11b devices. With Afterburner technology, you will get great performance enhancement than standard IEEE 802.11g.
Chapter 1 - Introduction 1. Introduction 1.3 Technical Specifications HARDWARE Ethernet interface RJ45 for 10/100 BaseT with auto cross-over function (MDI/MDI-X) Antenna 1 x external dipole antenna with Reverse-SMA antenna connector, 1 X internal Inverted-F PCB antenna (TBD) Output power 24dBm in b mode and 20dBm in g mode with 1.5dB tolerance Power adapter AC Input: 100V~240V(50~60HZ) DC Output: 5V with max.
1. Introduction Chapter 1 - Introduction SOFTWARE Management Access point mode Ethernet adapter cable Gateway mode WDS URE DHCP server, DHCP client Device statistic Noise level, noise level on other channel, signal level of current AP, list of other APs and log of last 10 association attempts Smart Wizard web-based administration Guest SSID (only in Gateway mode) Bandwidth management UPnP Internet Gateway Device (only in Gateway mode) Network management a. Save/restore configurations b.
Chapter 1 - Introduction 1. Introduction Security Firewall: • NAT and SPI Filtering: • Port, IP address, protocol and URL Keyword Logging: • Device statistic (TBD) Encryption: • 64/128-bit WEP • WPA/WPA2, WPA-TKIP/AES, WPA-PSK Authentication: • MAC address, 802.1x RADIUS (TLS, TTLS, PEAP) Utilities Device Discovery: Discover all WL300g/WL320g/ WL500g/WL520g/WL600/WL700g in network and help user to invoke Web Configuration page. Firmware Restoration: Restore firmware while system enters rescue mode.
Chapter 1 - Introduction 1. Introduction Performance 1.4 Wireless Performance This section provides the user with ideas for how to improve the performance of a ASUS WLAN network. 1.4.1 Site Topography For optimal performance, locate wireless mobile clients and the ASUS AP s away from transformers, heavy-duty motors, fluorescent lights, microwave ovens, refrigerators, and other industrial equipment. Signal loss can occur when metal, concrete, walls or floors block transmission.
Chapter 1 - Introduction 1. Introduction Roaming 1.4.4 Roaming Between ASUS APs If there are multiple ASUS APs on the network, then a wireless mobile client may seamlessly roam from one ASUS AP to another. Each ASUS AP creates its own wireless cell or coverage area. This is also known as a Basic Service Set (BSS). Any wireless mobile client can communicate with a particular ASUS AP if it is within the ASUS AP’s coverage area.
Chapter 1 - Introduction 1. Introduction Status Indicators 1.5 Getting to Know the WL-320gP 1.5.1 Front panel features The ASUS WL-320gP Access Point includes LED indicators which show the system, LAN, wireless network, and link status.
Chapter 1 - Introduction 1. Introduction LINK (Link Status) OFF: ON: Blinking: No power Has physical connection to an Ethernet network Transmitting or receiving data (through Ethernet wire) Operation Mode AP/Repeater/Bridge/ Gateway Client Off Client not associated Not associated to AP On Client associated Associated to AP with strong signal Blinking slowly -- Associated to AP with better signal Blinking slowly -- Associated to AP with weak signal 1.5.
Chapter 2 - Hardware Installation 2. Installation This chapter describes the installation procedure for the ASUS 802.11g AP and includes a description of the LEDs found on the unit. 2.1 Installation Procedure Follow these steps to install the ASUS 802.11g WLAN AP. 2. Hardware 1. Determine the best location for the ASUS 802.11g WLAN AP. Keep in mind the following considerations: • The length of the Ethernet cable that connects the Access Point to the network must not exceed 100 meters.
Chapter 2 - Hardware Installation 4. Attach one end of the AC power adapter, included in the product package, to the back of the ASUS 802.11g AP and the other end to a power outlet. 2. Hardware Note: Use the Access Point only with the power adapter supplied in the product package. Using another power supply may damage the Access Point. The Power LED on the front of the Access Point will light up when the unit is powered ON.
Chapter 3 - Software Configuration 3. Software Configuration 3.1 Configuring the ASUS 802.11g AP The ASUS 802.11g AP can be configured to meet various usage scenarios. Some of the factory default settings may suit your usage; however, others may need changing. Prior to using the ASUS 802.11g AP, you must check the basic settings to guarantee it will work in your environment. 3. Software Configuring Configuring the ASUS 802.11g AP is done through a web browser.
Chapter 3 - Software Configuration Advanced IP Settings If you want to set your IP address manually, the following default settings of the ASUS 802.11g AP should be known: • IP address 192.168.1.1 • Subnet Mask 255.255.255.0. If you set your computer’s IP manually, it needs to be on the same segment. For example: • • • • IP address 192.168.1.xxx (xxx can be any number between 2 and 254 that is not used by another device) Subnet Mask 255.255.255.0 (same as the ASUS 802.11g AP) Gateway 192.168.1.
Chapter 3 - Software Configuration 3.1.1 Installing the ASUS WLAN Utilities (1) Click Install...Utilities. 3. Software Installing Utilities Follow these steps to install the ASUS WLAN Utilities in Microsoft Windows. Insert the support CD. Double-click setup.exe (in the root of the support CD) if your autorun has been disabled. (2) Click Next after reading the welcome screen. (3) Click Yes after reading the license (4) Click Next to accept the default destination folder or click Browse to agreement.
Chapter 3 - Software Configuration 3.2 ASUS WLAN Utilities After installation, you can launch the utilities through the Start menu. 3. Software WLAN Utilities 3.3 Connecting to the WLAN Web Manager Wired Ethernet Connection Besides using a network hub, you can also connect a LAN cable from your computer to the ASUS 802.11g AP using either a straight or crossover cable because the ASUS 802.11g AP has auto-crossover capability.
Chapter 3 - Software Configuration 3.4 Device Discovery 3. Software WLAN Utilities Run the ASUS WLAN Device Discovery from the Start menu and click Config on the device. Manually Entering the Address You can also open your PC’s web browser and enter the IP address of the ASUS 802.11g AP : http://192.168.1.1 If your computer’s IP is not on the same subnet as the ASUS 802.11g AP (192.168.1.X), you will be asked to change it.
Chapter 3 - Software Configuration Restart your Windows if you are asked to. Note: If you cannot find any the ASUS 802.11g APs due to a problem in the IP settings, push and hold the “Restore” button on the ASUS 802.11g AP over five seconds to restore factory default settings. 3. Software WLAN Utilities User Name Password Reset and Once connected, a window will ask for the User name and Password in order to log in. The factory default values are “admin” and “admin”.
Chapter 3 - Software Configuration 3.5 Access Point Mode In “Access Point” mode, the ASUS 802.11g AP will operate as a MAC layer learning bridge and forward packets between wireless mobile clients and the Ethernet network. A wireless LAN that uses the ASUS 802.11g AP in “Access Point” mode generally consists of one or more 802.11g/b Access Points and one or more wireless mobile clients that have an 802.11g/b adapter installed. 3. Software Access Point The ASUS 802.
Chapter 3 - Software Configuration 3.6 Quick Setup Click Next to enter the Quick Setup page. Follow the instructions to setup the ASUS 802.11g AP. Tips are given when you move your cursor over each item. 3.6.1 Configure Wireless Interface 3. Software Access Point First step to set your wireless interface is to give it a name, called SSID. In addition, if you would like to protect transmitted data, please select Security Level as Medium or High.
Chapter 3 - Software Configuration 3.7 Wireless Click an item on the menu to reveal a submenu. Follow the instructions to set up the ASUS 802.11g AP. Tips are displayed when you move your cursor over an item. 3. Software Access Point 3.7.1 Interface SSID The SSID is an identification string of up to 32 ASCII characters that differentiate one ASUS 802.11g AP or Access Point from other manufacturers. The SSID is also referred to as the “ESSID” or “Extended Service Set ID.
Chapter 3 - Software Configuration Channel The 802.11g and 802.11b specifications supports up to 14 overlapping channels for radio communication. To minimize interference, configure each ASUS 802.11g AP to be non-overlapping; select Auto from the Channel drop-down list to enable the system to select a clear channel during boot up as your operating channel. Ensure that ASUS 802.
Chapter 3 - Software Configuration WPA Encryption When “WPA-PSK” authentication method is used, the newly proposed TKIP (Temporal Key Integrity Protocol) or AES encryption schemes are applied. WPA Pre-Shared Key Selecting “TKIP” or “AES” in the WPA Encryption, this field is used as a password to begin the encryption process. Note: 8 to 63 characters are required. WEP Encryption Traditional WEP encryption is applied when “Open or Shared Key”, “Shared Key” or “Radius with 802.
Chapter 3 - Software Configuration Together these two schemes make a 128-bit (104 + 24) encryption scheme. Some vendors refer to this level of WEP as 104-bit and others refer to this as 128-bit. ASUS WLAN products use the term 128-bit when referring to this higher level of encryption. Passphrase Selecting “WEP-64bits” or “WEP-128bits” in the Encryption field generates four WEP keys automatically. A combination of up to 64 letters, numbers, or symbols is required.
Chapter 3 - Software Configuration 3.7.2 Bridge WDS Only 3. Software Access Point AP Only Hybrid ASUS 802.
Chapter 3 - Software Configuration Wireless bridge (also known as Wireless Distribution System or WDS) allows you to connect to one or many Access Points. Access Point AP Mode configures the ASUS 802.11g AP for a specific purpose. By default, the ASUS 802.11g AP is set to serve as an “Access Point” where a wireless mobile client can connect wirelessly to a wired Ethernet network. WDS Only With WDS, the ASUS 802.11g AP can only communicate with other Access Points. Hybrid 3.
Chapter 3 - Software Configuration Remote Bridge List MAC Address Enter the MAC address of the target ASUS 802.11g AP in order to designate which ASUS 802.11g AP will be the partner for this ASUS 802.11g AP. 3. Software Access Point You can setup your wireless environment as shown in this figure: Note: The content in braces “( )” is the MAC address in the Remote Bridge List of the AP. For example, WB1 have the MAC address of WB in its Remote Bridge List. In this case, there are six ASUS 802.
Chapter 3 - Software Configuration 3.7.3 Access Control Pull down menu items: Disable (no info required) Accept (need to input information) Reject (need to input information) 3. Software Access Point To add security, the ASUS 802.11g AP has the ability to only associate with or not associate with wireless mobile clients that have their MAC address entered into this page. The default setting of “Disable” will allow any wireless mobile client to connect.
Chapter 3 - Software Configuration 3.7.4 RADIUS Setting This section allows you to set up additional parameters for connection with RADIUS Server. It is required while you select “Authentication Method” as “WPA” or “Radius with 802.1x” in “Wireless – Interface”. Server IP Address - This field specifies the IP address of the RADIUS server to use for 802.1X wireless authentication and dynamic WEP key derivation. 3.
Chapter 3 - Software Configuration 3.7.5 Advanced This section allows you to set up additional parameters for the wireless router function. We recommend that you use the default values for all items in this window. 3. Software Access Point Hide SSID - By default, “No” is selected so that wireless mobile users can see your ASUS 802.11g AP’s SSID and join. If “Yes” is selected, your ASUS 802.11g AP will not show in site surveys by wireless mobile clients and they will have to manually enter your ASUS 802.
Chapter 3 - Software Configuration another RTS/CTS handshake is completed. Enable RTS/CTS by setting a specific packet size threshold. The default value (2347) is recommended. DTIM Interval (1-255) – DTIM (Delivery Traffic Indication Message) is a wireless message used to inform clients in Power Saving Mode when the system should wake up to receive broadcast and multicast messages. Type the time interval in which the system will broadcast a DTIM for clients in Power Saving Mode.
Chapter 3 - Software Configuration 3.8 IP Config Click this item on the menu to reveal a sub menu. Follow the instructions to setup the ASUS 802.11g AP. Tips are given when you move your cursor over each item. LAN Selection items: Yes (no info required) No (need to input information) 3. Software Access Point Click Apply or Finish if you make any changes. Get IP Automatically Select Yes (default) or No to get IP address automatically from a DHCP server.
Chapter 3 - Software Configuration 3.9 System Setup Click this item on the menu to reveal a sub menu. Follow the instructions to setup the ASUS 802.11g AP. Tips are given when you move your cursor over each item. 3.9.1 Operation Mode 3. Software Web (Common) The ASUS 802.11g AP supports two operation modes to meet different requirements from different groups of people. Please select the mode that matches your networking requirements.
Chapter 3 - Software Configuration 3.9.1.1 Home Gateway Mode There are three operation modes in the ASUS 802.11g AP. The default operation mode of the ASUS 802.11g AP is Home Gateway Mode. Please refer to “System Setup” – “Operation Mode” in detail. To start quick setup, click Next to enter the “Quick Setup” page. Follow the instructions to setup the ASUS 802.11g AP. Quick Setup in Home Gateway Mode Select your time zone or the closest region. Click Next to continue. 3.
Chapter 3 - Software Configuration To set up your wireless interface, you must first give it an SSID (Service Set Identifier). The SSID is a unique identifier attached to packets sent over WLANs. This identifier emulates a password when a wireless device attempts communication on the WLAN. Because an SSID distinguishes WLANs from each other, access points and wireless devices trying to connect to a WLAN must use the same SSID. 3.
Chapter 3 - Software Configuration Virtual Server and Dynamic-DNS (DDNS) 3. Software Home Gateway Virtual Server allows you to make services, like WWW, FTP, provided by a server in your local network accessible for outside users. DDNS allows users to export host names to the Internet through a DDNS service provider. Each time your ASUS 802.
Chapter 3 - Software Configuration Internet Firewall LAN & WAN filter allows you to block specified packets between LAN and WAN in a pre-defined time interval. URL filter allows you to block specific URL access from your local network. ASUS 802.11g Access Point 3. Software Home Gateway Note: The only Ethernet port in ASUS 802.11g AP is used for WAN connection in “Gateway” mode. If you still hope to configure ASUS 802.
Chapter 3 - Software Configuration 3.9.2 Firmware Upgrade 3. Software Web (Common) This page reports the Flash Code (Firmware) version installed in the ASUS 802.11g AP. Periodically, a new Flash Code is available for the ASUS 802.11g APs on ASUS’s Web site. You can update the ASUS 802.11g AP’s Flash Code using the Firmware Upgrade page under the Advanced Setup menu of the Web Manager.
Chapter 3 - Software Configuration 3.9.3 Setting Management This function allows you to save current settings to a file, or load settings from a file. 3. Software Web (Common) Save As a File Move your cursor over the HERE link on the web page. Then click the right button of mouse and select Save As... to save current setting into a file. Note: When current settings are saved to file, it will be saved to flash as well.
Chapter 3 - Software Configuration 3.9.4 Factory Default Restoring Factory Default Settings Web Manager You can reset all settings to their factory defaults through the web manager using the “Factory Default” page in “Advanced Setup”. Click the Restore button and wait about 30 seconds before trying to access the ASUS 802.11g AP. 3. Software Web (Common) Hardware You can reset all settings to their factory defaults manually by pushing the “Restore” button in a hole on the back of the ASUS 802.
Chapter 3 - Software Configuration 3.10 Status & Log Click this item on the menu to reveal a sub menu. Follow the instructions to setup the ASUS 802.11g AP. Tips are given when you move your cursor over each item. 3. Software Web (Common) 3.10.1 Status 3.10.2 Wireless System Up Time Shows how long the ASUS 802.11g AP has been running since the last bootup. ASUS 802.
Chapter 3 - Software Configuration 3.11 Firmware Restoration The Firmware Restoration utility is an emergency rescue tool that can automatically search out an ASUS 802.11g AP that has failed during a firmware upload and re-upload a firmware that you specify. A failed firmware upgrade will cause the ASUS 802.11g AP to enter a failure mode, waiting for the Firmware Restoration utility to find and upload a new firmware. The process takes about 3 to 4 minutes.
Chapter 4 -Troubleshooting 4. Troubleshooting The ASUS AP is designed to be very easy to install and operate. However, if you experience difficulties, use the information in this chapter to help diagnose and solve problems. If you cannot resolve a problem, contact Technical Support, as listed on the front of this manual. Common Problems and Solutions Problem The ASUS AP does not power up: Solution • Check for faulty ASUS AP power supply by measuring the output voltage with an electrical test meter.
Chapter 4 -Troubleshooting Problem The ASUS AP Device Discovery still cannot find or connect to the ASUS AP after verifying the IP address and LAN cable, changes cannot be made, or password is lost. Solution In case the ASUS AP is inaccessible, you can restore the ASUS AP’s factory default settings. Use a straightened paper clip to press the button located in the hole on the back of the ASUS AP and keep it depressed over 5 seconds. The power LED will darken and then light up when reset is successful.
Chapter 4 -Troubleshooting Problem My ASUS WLAN Card will not associate with the ASUS AP. Solution Follow these steps: 4. Troubleshooting 1. Make sure that your WLAN Card is of the same specifications as the WLAN Access Point. 2. Try to bring the devices closer together; the ASUS WLAN Card may be out of range of the ASUS AP. 3. Confirm that the ASUS AP and ASUS WLAN Card have the same SSID. 4. Confirm that the ASUS AP and ASUS WLAN Card have the same Encryption settings, if enabled. 5.
Chapter 4 -Troubleshooting Problem I cannot find the ASUS APs using the ASUS AP Discovery. Solution To configure the ASUS AP through an ASUS WLAN Card, your computer must be in the same subnet of the ASUS AP. You cannot find the ASUS APs with subnet different from your computer within the same gateway. You must change your computer to the same subnet as the ASUS AP. The factory default subnet of the ASUS AP is “192.168.1.1”.
Chapter 5 - Appendix 5. Appendix Operating frequency range The DSSS PHY shall operate in the frequency range of 2.4 GHz to 2.4835 GHz as allocated by regulatory bodies in the USA and Europe or in the 2.471 GHz to 2.497 GHz frequency band as allocated by regulatory authority in Japan. Number of operating channels The channel center frequencies and CH ID numbers shall be as shown below. The FCC (US), IC (Canada), and ETSI (Europe) specify operation from 2.4 GHz to 2.4835 GHz.
Chapter 5 - Appendix DSSS PHY frequency channel plan (Regulatory Domains) 5.
Chapter 5 - Appendix Glossary Access Point (AP) An networking device that seamlessly connects wired and wireless networks. Access Points combined with a distributed system support the creation of multiple radio cells that enable roaming throughout a facility. Ad Hoc A wireless network composed solely of stations within mutual communication range of each other (no Access Point). AES(Advance Encryption Standard) AES is the U.S.
Chapter 5 - Appendix lower-speed subcarriers, which are then transmitted in parallel. Each highspeed carrier is 20 MHz wide and is broken up into 52 subchannels, each approximately 300 KHz wide. COFDM uses 48 of these subchannels for data, while the remaining four are used for error correction. COFDM delivers higher data rates and a high degree of multipath reflection recovery, thanks to its encoding scheme and error correction. Each subchannel in the COFDM implementation is about 300 KHz wide.
Chapter 5 - Appendix Direct-sequence is a spread spectrum technique where the transmitted signal is spread over a particular frequency range. Direct-sequence systems communicate by continuously transmitting a redundant pattern of bits called a chipping sequence. Each bit of transmitted data is mapped into chips and rearranged into a pseudorandom spreading code to form the chipping sequence. The chipping sequence is combined with a transmitted data stream to produce the output signal.
Chapter 5 - Appendix on the network segment share total bandwidth. Ethernet networks operate at 10Mbps using CSMA/CD to run over 10-BaseT cables. Firewall A firewall determines which information passes in and out of a network. NAT can create a natural firewall by hiding a local network’s IP addresses from the Internet. A Firewall prevents anyone outside of your network from accessing your computer and possibly damaging or viewing your files.
Chapter 5 - Appendix physical-layer encoding scheme as Ethernet (only faster), 802.11a uses an entirely different encoding scheme, called OFDM (orthogonal frequency division multiplexing). The 802.11b spectrum is plagued by saturation from wireless phones, microwave ovens and other emerging wireless technologies, such as Bluetooth. In contrast, 802.11a spectrum is relatively free of interference. The 802.11a standard gains some of its performance from the higher frequencies at which it operates.
Chapter 5 - Appendix majority of wireless LANs today) that broadens 802.11b’s data rates to 54 Mbps within the 2.4 GHz band using OFDM (orthogonal frequency division multiplexing) technology. 802.11g allows backward compatibility with 802.11b devices but only at 11 Mbps or lower, depending on the range and presence of obstructions. Infrastructure A wireless network centered about an access point.
Chapter 5 - Appendix MAC Address (Media Access Control) A MAC address is the hardware address of a device connected to a network. NAT (Network Address Translation) NAT masks a local network’s group of IP addresses from the external network, allowing a local network of computers to share a single ISP account. This process allows all of the computers on your home network to use one IP address.
Chapter 5 - Appendix Hertz. One gigahertz (GHz) is one billion Hertz. The standard US electrical power frequency is 60 Hz, the AM broadcast radio frequency band is 0.55-1.6 MHz, the FM broadcast radio frequency band is 88-108 MHz, and wireless 802.11 LANs operate at 2.4 GHz. RIP (Routing Information Protocol) Routing Information Protocol(RIP1) is defined as a means by which routing equipment can find the best path for transmitting data packets from one network to another.
Chapter 5 - Appendix WAN (Wide Area Network) A system of LANs, connected together. A network that connects computers located in separate areas, (i.e., different buildings, cities, countries). The Internet is a wide area network. WECA (Wireless Ethernet Compatibility Alliance) An industry group that certifies cross-vender interoperability and compatibility of IEEE 802.11b wireless networking products and to promote that standard for enterprise, small business, and home environments.
Chapter 6 - Safety Statements 6. Safety Information Federal Communications Commission This device complies with FCC Rules Part 15. Operation is subject to the following two conditions: • • This device may not cause harmful interference, and This device must accept any interference received, including interference that may cause undesired operation.
Chapter 6 - Safety Statements FCC Radio Frequency Interference Requirements MPE Statement: Your device contains a low power transmitter. When device is transmitted it sends out Radio Frequency (RF) signal. This device is restricted to INDOOR USE due to its operation in the 5.15 to 5.25GHz frequency range. FCC requires this product to be used indoors for the frequency range 5.15 to 5.25GHz to reduce the potential for harmful interference to co-channel of the Mobile Satellite Systems.
Chapter 6 - Safety Statements FCC RF Exposure Guidelines (Wireless Cards) This device has been tested for compliance with FCC RF Exposure (SAR) limits in typical portable configurations. In order to comply with SAR limits established in the ANSI C95.1 standards, it is recommended when using a WLAN Card adapter that the integrated antenna is positioned more than [2.5cm] from your body or nearby persons during extended periods of operation. If the antenna is positioned less than [2.
Chapter 6 - Safety Statements France Restricted Frequency Band Some areas of France have a restricted frequency band. The worst case maximum authorized power indoors is: • • 10mW for the entire 2.4 GHz band (2400 MHz–2483.5 MHz) 100mW for frequencies between 2446.5 MHz and 2483.5 MHz NOTE: Channels 10 through 13 inclusive operate in the band 2446.6 MHz to 2483.5 MHz.
Appendix - GNU General Public License Licensing Information This product includes copyrighted third-party software licensed under the terms of the GNU General Public License. Please see The GNU General Public License for the exact terms and conditions of this license.
Appendix - GNU General Public License The GNU General Public License GNU GENERAL PUBLIC LICENSE Version 2, June 1991 Copyright (C) 1989, 1991 Free Software Foundation, Inc. 59 Temple Place, Suite 330, Boston, MA 02111-307 USA Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. ASUS 802.
Appendix - GNU General Public License Preamble The licenses for most software are designed to take away your freedom to share and change it. By contrast, he GNU General Public License is intended to guarantee your freedom to share and change free software—to make sure the software is free for all its users. This General Public License applies to most of the Free Software Foundation’s software and to any ther program whose authors commit to using it.
Appendix - GNU General Public License Terms & conditions for copying, distribution, & modification 0. This License applies to any proram or other work which contains a notice placed by the copyright holder saying it may be distributed under the terms of this General Public License.
Appendix - GNU General Public License c) If the modified program normally reads commands interactively when run, you must cause it, when started unning for such interactive use in the most ordinary way, to print or display an announcement including an appropriate copyright notice and a notice that there is no warranty (or else, saying that you provide a warranty) and that users may redistribute th program under these conditions, and telling the user how to view a copy of this License.
Appendix - GNU General Public License b) Accompany it with a written offer, valid for at least three years, to give any third party, for a charge no more than your cost of physically performing source distribution, a complete machine-readable copy of the corresponding source code, to bedistributed under the terms of Sections 1 and 2 above on a medium customarily used for software interchange; or, c) Accompany it with the information you received as to the offer to distribute corresponding source code.
Appendix - GNU General Public License 5. You are not required to accept this License, since you have not signed it. However, nothing else grants you permission to modify or distribute the Program or its derivative works. These actions are prohibite by law if you do not accept this License.
Appendix - GNU General Public License This section is intended to make thoroughly clear what is believed to be a consequence of the rest of this License. 8.
Appendix - GNU General Public License NO WARRANTY 11. BECAUSE THE PROGRAM IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATEDIN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM “AS IS” WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
