Acrowave Systems AWL-1100U DSSS WLAN IEEE802.11b USB Card User Manual
Acrowave Systems Co., Ltd DSSS WLAN IEEE802.11b USB Card Users Manual
Users Manual
AcroLAN Card User’s Guide Version 20002.5 Acrowave Systems £ Wireless LAN PC Card User’s Guide AWL-1100C/AWL-1100P AWL-1100U/AWL-1100M Corporate Headquarters Acrowave Systems Co. Ltd. 6Fl. Maru Building 86-6 Nonhyun-dong Gangnam-gu Seoul 135-818 Korea http://www.acrowave.com Tel: 82-2-547-8778 Fax: 82-2-547-4779 Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 1 of 38 AcroLAN Card User’s Guide Version 20002.5 Contents Chapter 1 Introduction To The Wireless LAN 1.1 What’s the Wireless LAN? …………………………………… 5 1.2 Wireless LAN Standard and Structure………………………… 6 Chapter 2 Before You Start AcroLAN……………………………. 12 Chapter 3 Installing AcroLAN Card Driver………………………13 Chapter 4 Connecting the AcroLAN Card to your computer 4.1 Installing AcroLAN PCMCIA Card……………………… 4.2 Installing AcroLAN PCI Card………………………….… 4.3 Installing AcroLAN USB Card………………………….… 4.4 Installing AcroLAN Mini-PCI Card …………………….… Chapter 5 16 16 20 20 Configuring the Wireless LAN Card 5.1 Installing Network Protocols… ……...…………………………...22 5.2 Uninstalling AcroLAN Card Driver……………………………. 27 5.3 Remove AcroLAN Card from you computer………………….. 27 5.4 Wireless AcroLAN Card Configuration Utility………………. 30 Chapter 6 Troubleshooting ……………………………………………35 Appendix Appendix A Appendix B Appendix C Cell Planning (Radio Range) …………………………….. 37 Technical Specification …………………………………. 39 Channel Allocation ……………………………..………… 42 Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 2 of 38 AcroLAN Card User’s Guide Version 20002.5 THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE. ALL STATEMENTS, INFORMATION, AND RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED. USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS. THE SOFTWARE LICENSE AND LIMITED WARRANTY FOR THE ACCOMPANYING PRODUCT ARE SET FORTH IN THE INFORMATION PACKET THAT SHIPPED WITH THE PRODUCT AND ARE INCORPORATED HEREIN BY THIS REFERENCE. IF YOU ARE UNABLE TO LOCATE THE SOFTWARE LICENSE OR LIMITED WARRANTY, CONTACT YOUR ACROWAVE REPRESENTATIVE FOR A COPY. The following information is for FCC compliance of Class B devices: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. This device complies with Part 15 of the FCC Rules and with RSS-210 of Industry Canada. Operation is subject to the following two conditions: (1) this device my not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. This equipment complies with FCC RF radiation exposure limits set forth for an uncontrolled environment.This equipment must be installed and operated with a minimum distance of 20 centimeters between the radiator and your body. Modifications to this product not authorized by Acrowave Systems Co., Ltd. could void the FCC approval and negate your authority to operate the product. NOTWITHSTANDING ANY OTHER WARRANTY HEREIN, ALL DOCUMENT FILES AND SOFTWARE OF THESE SUPPLIERS ARE PROVIDED “AS IS” WITH ALL FAULTS. ACROWAVE AND THE ABOVE-NAMED SUPPLIERS DISCLAIM ALL WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING, WITHOUT LIMITATION, THOSE OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OR ARISING FROM A COURSE OF DEALING, USAGE, OR TRADE PRACTICE. IN NO EVENT SHALL ACROWAVE OR ITS SUPPLIERS BE LIABLE FOR ANY INDIRECT, SPECIAL, CONSEQUENTIAL, OR INCIDENTAL DAMAGES, INCLUDING, WITHOUT LIMITATION, LOST PROFITS OR LOSS OR DAMAGE TO DATA ARISING OUT OF THE USE OR INABILITY TO USE THIS MANUAL, EVEN IF ACROWAVE OR ITS SUPPLIERS HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. AcroLAN, the Acrowave logo are registered trademarks of Acrowave Systems Co., Ltd. or its affiliates in the Korea, U.S. and certain other countries. All other trademarks mentioned in this document are the property of their respective owners. The use of the word partner does not imply a partnership relationship between Acrowave and any of its resellers. Using the Acrowave AcroLAN Card Copyright© 2000, Acrowave Systems Co., Ltd All rights reserved. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 3 of 38 AcroLAN Card User’s Guide Version 20002.5 Chapter 1 Introduction To The Wireless LAN A wireless LAN (WLAN) is a flexible data communication system implemented as an extension to, or as an alternative for, a wired LAN within a building or campus. Using electromagnetic waves, WLANs transmit and receive data over the air, minimizing the need for wired connections. Thus, WLANs combine data connectivity with user mobility, and, through simplified configuration, enable movable LANs. WLANs have gained strong popularity in a number of vertical markets, including the health-care, retail, manufacturing, warehousing, and academic arenas. These industries have profited from the productivity gains of using hand-held terminals and notebook computers to transmit real-time information to centralized hosts for processing. Today WLANs are becoming more widely recognized as a general-purpose connectivity alternative for a broad range of business customers. 1.1 What’s Wireless LAN? Wireless LANs use electromagnetic airwaves (radio and infrared) to communicate information from one point to another without relying on any physical connection. Radio waves are often referred to as radio carriers because they simply perform the function of delivering energy to a remote receiver. The data being transmitted is superimposed on the radio carrier so that it can be accurately extracted at the receiving end. This is generally referred to as modulation of the carrier by the information being transmitted. Once data is superimposed (modulated) onto the radio carrier, the radio signal occupies more than a single frequency, since the frequency or bit rate of the modulating information adds to the carrier. Multiple radio carriers can exist in the same space at the same time without interfering with each other if the radio waves are transmitted on different radio frequencies. To extract data, a radio receiver tunes in (or selects) one radio frequency while rejecting all other radio signals on different frequencies. In a typical WLAN configuration, a transmitter/receiver (transceiver) device, called an access point, connects to the wired network from a fixed location using standard Ethernet cable. At a minimum, the access point receives, buffers, and transmits data between the WLAN and the wired network infrastructure. A single access point can support a small group of users and can function within a range of less than one hundred to several hundred feet. The access point (or the antenna attached to the access point) is usually mounted high but may be mounted essentially anywhere that is practical as long as the desired radio coverage is obtained. End users access the WLAN through wireless LAN adapters, which are implemented as PC cards in notebook computers, or use PCI adapters in desktop computers. WLAN adapters provide an interface between the client network operating system (NOS) and the airwaves (via an antenna). The nature of the wireless connection is transparent to the NOS. 1.2 Wireless LAN Standard and Structure ƒ Wireless LAN Standard – IEEE802.11b The widespread acceptance of WLANs depends on industry standardization to ensure product compatibility and reliability among the various manufacturers. The Institute of Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 4 of 38 AcroLAN Card User’s Guide Version 20002.5 Electrical and Electronics Engineers (IEEE) ratified the original 802.11 specifications in 1997 as the standard for wireless LANs. That version of 802.11 provides for 1 Mbps and 2 Mbps data rates and a set of fundamental signaling methods and other services. The most critical issue affecting WLAN demand has been limited throughput. The data rates supported by the original 802.11 standard are too slow to support most general business requirements and have slowed adoption of WLANs. Recognizing the critical need to support higher data-transmission rates, the IEEE recently ratified the 802.11b standard (also known as 802.11 High Rate) for transmissions of up to 11 Mbps. With 802.11b, WLANs will be able to achieve wireless performance and throughput comparable to wired Ethernet. Outside of the standards bodies, wireless industry leaders have united to form the Wire-less Ethernet Compatibility Alliance (WECA). WECA’s mission is to certify cross-vendor interoperability and compatibility of IEEE 802.11b wireless networking products and to promote that standard for the enterprise, the small business, and the home. Members include WLAN semiconductor manufacturers, WLAN providers, computer system vendors, and software makers. ƒ Wireless LAN Network Equipment 802.11 defines two pieces of equipment, a wireless station, which is usually a PC equipped with a wireless network interface card (NIC), and an access point (AP), which acts as a bridge between the wireless and wired networks. An access point usually consists of a radio, a wired network interface (e.g., 802.3), and bridging software conforming to the 802.1d bridging standard. The access point acts as the base station for the wireless network, aggregating access for multiple wireless stations onto the wired network. Wireless end stations can be 802.11 PC Card, PCI. ƒ Wireless LAN Network Configuration The 802.11 standard define two modes: infrastructure mode and ad hoc mode (or independent or peer-to-peer). l Ad Hoc Mode Ad hoc mode (also called peer-to-peer mode or an Independent Basic Service Set, or IBSS) is simply a set of 802.11 wireless stations that communicate directly with one another without using an access point or any connection to a wired network. This mode is useful for quickly and easily setting up a wireless network anywhere that a wireless infrastructure does not exist or is not required for services, such as a hotel room, convention center, or airport, or where access to the wired network is barred (such as for consultants at a client site). Copyright© Acrowave Systems 2000 Independent Basic Service Set (IBSS) Page 5 of 38 DOC – xxx - yyy AcroLAN Card User’s Guide Version 20002.5 Figure 1. Ad Hoc Mode l Infrastructure Mode In infrastructure mode, the wireless network consists of at least one access point connected to the wired network infrastructure and a set of wireless end stations. This configuration is called a Basic Service Set (BSS). An Extended Service Set (ESS) is a set of two or more BSSs forming a single sub-network. Since most corporate WLANs require access to the wired LAN for services (file servers, printers, Inter-net links) they will operate in infrastructure mode. Distribution System (DS) Ethernet (802.3) Access Point (AP) Service Set (SS) – Multiple le Cells Figure 2. Infrastructure Mode ƒ Roaming Wireless communication is limited by how far signals carry for given power output. WLANs use cells, called microcells, similar to the cellular telephone system to extend the range of wireless connectivity. At any point in time, a mobile PC equipped with a WLAN adapter is associated with a single access point and its microcell, or area of coverage. Individual microcells overlap to allow continuous communication within wired network. They handle low power signals and “hand off” users as they roam through a given geographic area. The 802.11 MAC layer is responsible for how a client associates with an access point. When an 802.11 client enters the range of one or more APs, it chooses an access point to associate with (also called joining a Basic Service Set), based on signal strength and Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 6 of 38 AcroLAN Card User’s Guide Version 20002.5 observed packet error rates. Once accepted by the access point, the client tunes to the radio channel to which the access point is set. Periodically it surveys all 802.11 channels in order to assess whether a different access point would provide it with better performance characteristics. If it determines that this is the case, it reassociates with the new access point, tuning to the radio channel to which that access point is set. Reassociation usually occurs because the wireless station has physically moved away from the original access point, causing the signal to weaken. In other cases, Reassociation occurs due to a change in radio characteristics in the building, or due simply to high network traffic on the original access point. In the latter case this function is known as “load balancing,” since its primary function is to distribute the total WLAN load most efficiently across the available wireless infrastructure. This process of dynamically associating and reassociating with APs allows network managers to set up WLANs with very broad coverage by creating a series of overlapping 802.11b cells throughout a building or across a campus. To be successful, the IT manager ideally will employ “channel reuse,” taking care to set up each access point on an 802.11 DSSS channel that does not overlap with a channel used by a neighboring access point. Backbone Network Access Point (AP) Figure 3. Roam ing Inter-Cell Roaming Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 7 of 38 AcroLAN Card User’s Guide Version 20002.5 ƒ BSS, ESS and SS ID The basic service set (BSS) is the basic building block of WLAN network. Minimum WLAN BSS may be consist of only two stations. Using access point (AP) and network distribution systems (DS), WLAN service set can be extended arbitrary size – extended service set (ESS). Each service set has its network ID (SSID). All the service sets within an ESS network can have same service ID so that the ESS can support inter-cell ROAMING. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 8 of 38 AcroLAN Card User’s Guide Version 20002.5 Backbone Network AP #`1 SS ID = Acrowave AP #`2 SS ID = Acrowave ROAMING Re-Configuration Required ESS BSS AP #`3 SS ID = Acro Backbone Network Figure 4. SSID and Roaming Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 9 of 38 AcroLAN Card User’s Guide Chapter 2 Version 20002.5 Before You Start AcroLAN To use the AcroLAN adapter with a computing device (desktop personal computer, notebook, laptop computer, portable or hand-held device), the device must be equipped with an internal or external PC Card Type II or Type III slot. All drivers and supporting software (card and socket services) for the client adapter slot must be loaded and configured. Ask your system administrator for the following information, which you may need to provide during driver installation: • Your Wireless Client Name • Your Wireless SSID • Your computer's unique client name and workgroup name • For Windows NT, a free interrupt and I/O address. • For your network account, your user name and password • If you’re not using a DHCP server, your IP address, gateway address, and subnet mask After unpacking the card, make sure the following items are present and in good condition: • Acrowave AcroLAN AWL-1100 Series PC Card Adapter • AWL-1100 Series install software and documentation CD for Windows If any item is damaged or missing, contact your PC Card adapter supplier. Save all the shipping and the packing material to repack the unit should service be required. Caution Before you start, close all working windows and backup important data. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 10 of 38 AcroLAN Card User’s Guide Chapter 3 Version 20002.5 Installing the PC/PCI Card Adapter on a Windows OS This section provides instructions for installing a PC/PCI adapter on a computer using one of the Windows operating systems. Whatever operating systems(Windows 95/98/ME/2000/XP) you use the installation procedures are all same. But, PCI card does not support for Windows XP. Caution The following procedures and physical connections apply generally to normal and conventional client adapter slots. In the cases of custom or non-conventional equipment, be alert to possible differences in client adapter slot configurations. 3.1 Installing PC Card Adapter Before you begin, examine the client adapter. One end is a dual-row, 68-pin client adapter connector. This side will be inserted into the client adapter slot with the logo on the client adapter facing up. The card is keyed so it can be inserted only one way into the slot. The client adapter can be connected to a client adapter Type II slot. This includes slots that support both Type II and Type III cards. Caution Do not force the client adapter into the slot. Forcing it will damage both the client adapter and the slot. If the client adapter does not go in easily, remove the card and reinsert it. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 11 of 38 AcroLAN Card User’s Guide 3.1.1 Version 20002.5 Installing the PC Card Driver for Windows Operating Systems × Windows95, 98, 2000, ME, XP If the operating system on your computer is Windows, follow these steps. STEP 1 If you insert the AcroLAN software and documentation CD for Windows, the Windows automatically runs AcroLAN setup program and a dialog box appears. ( Some CDs may not run automatically, in this case execute “Setpu.exe” file located at the Card setup directory of CD.) STEP 2 It takes a few seconds for copying the utility files and then click on Finish to complete the installation. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 12 of 38 AcroLAN Card User’s Guide Version 20002.5 Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 13 of 38 AcroLAN Card User’s Guide Chapter 4 Version 20002.5 Connecting the AcroLAN Card to your computer Caution The following procedures and physical connections apply generally to normal and conventional client adapter slots. In the cases of custom or non-conventional equipment, be alert to possible differences in client adapter slot configurations. 4.1 Installing AcroLAN PCMCIA Card Before you begin, examine the card. One end is a dual-row, 68-pin client adapter connector. This side will be inserted into the client adapter slot with card’s logo facing up. The card is keyed so it can be inserted only one way into the slot. The client adapter can be connected to a client adapter Type II slot. This includes slots that support both Type II and Type III cards. Caution Do not force the card into the slot. Forcing it will damage both the client adapter and the slot. If the client adapter does not go in easily, remove the card and reinsert it. 4.2 Installing AcroLAN PCI Card This section describes the procedures for installing the client adapter. Before You Start For the client adapter to be used with a computing device, the device must be equipped with a PCI or ISA expansion slot. Check the documentation that came with your computer for details on the differences between PCI and ISA expansion slots. Ask your system administrator for the following information, which you may need to provide during driver installation: • Your Wireless Client Name • Your Wireless SSID • Your computer's unique client name and workgroup name • For your network account, your user name and password • If you’re not using a DHCP server, your IP address, gateway address, and subnet mask After unpacking the client adapter, make sure the following items are present and in Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 14 of 38 AcroLAN Card User’s Guide Version 20002.5 good condition: • AcroLAN AWL-1100P Series PCI Client Adapter • Standard 2 dBi dipole antenna • AWL-1100P Series software and documentation CD for Windows 95/98 Windows ME, Windows 2000 Installing the PCI Client Adapter If any item is damaged or missing, contact your client adapter supplier. Save all shipping and packing material in order to repack the unit should service be required. This section provides instructions for installing a client adapter on a computer using one of the Windows operating systems. Before you begin, examine the client adapter. The antenna connector and Status and Activity LEDs will face out of your computer, and will be visible when you put the cover back on. The bottom edge of the card is the connector you will insert into an empty expansion slot in your computer. 4.2.1 Installing PCI Card Adapter 1. Turn off the computer and all its components. 2. Remove the computer cover. 3. Remove the screw from the top of the CPU back panel above an empty expansion slot. This screw is used to hold the metal bracket on the back panel. 4. Tilt the client adapter to allow the antenna connector and LED lights to slip through the opening in the CPU back panel. 5. Press the client adapter into the empty slot until its connector is firmly seated. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 15 of 38 AcroLAN Card User’s Guide Version 20002.5 Caution Do not force the client adapter into the slot. Forcing it will damage both the card and the slot. If the card does not go in easily, remove the card and reinsert it. 6. Reinstall the screw to the top of the CPU back panel. 7. The client adapter comes with one 2dBi dipole antenna. With the unit powered off, attach the antenna to the antenna connector on the client adapter. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 16 of 38 AcroLAN Card User’s Guide Version 20002.5 Caution Do not over-tighten the antenna connector; finger-tight is sufficient. Position the antenna vertically for best omni-directional signal reception. 4.3 Installing AcroLAN USB Card AWL-1100U is Wireless LAN Adapter and it provide USB1.1 host interface. USB can use both notebook PC and desktop PC. Operation and installation method is same with PC card. To install AcroLAN USB Card, first connect one end of the USB cable to the card. Then, Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 17 of 38 AcroLAN Card User’s Guide Version 20002.5 connect the other end of the USB cable to the USB port on your computer. Since the card gets its power from the PC’s USB port, there is no external power adapter. The Power LED should light up green when the Card is attached and the PC is on. 4.4 Installing AcroLAN Mini-PCI Card AWL-1100M is Mini PCI type card and it can use at notebook PC. Antenna is located at the side of monitor and it can improve link quality.It is very convenient to use because the card is installed inside PC. It satisfy IEEE802.11b standard and support maximum 11Mbps data rate. It support also Ad-Hoc(Peer to Peer) and Infra structure mode. Installation procedure of Mini PCI card is as below. Install driver program first before insert card. Turn off PC power and insert card to PC. Turn on PC power then it will automatically run installation program. Caution Please check the availability of your PC has Mini PCI slot before you purchase Mini PCI card. Most of the case Mini PCI will be installed at manufacturing status. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 18 of 38 AcroLAN Card User’s Guide Chapter 5 Version 20002.5 Configuring the AcroLAN Card If you have connected Wireless LAN card successfully, illuminating LED and Sound confirms the detection of your card. Also you will see its icon on the right bottom of your screen. If you install Acrowave’s wireless LAN card for the first time all the setup process runs automatically. If you reinstall, the install program asks next two files folder position and you should select same as the below: Location designation of inf file Windows98, ME(filename : AcrowavePRISMNIC.inf) C: \WINDOW\inf Windows 95, 2000, XP(filename : PRISMNIC.inf) C: \WINDOWS\inf Location designation of driver file Windows 95, 98, ME (filename : PRISMNDS.sys) C: \WINDOWS\SYSTEM Windows 2000, XP (filename : PRISMNDS.sys) C: \WINDOWS\SYSTEM\Drivers And then the install program asks whether you want to reboot your computer. At this time you should select No in order to complete the installation correctly. Left-click My Computer icon on your desktop and select Properties. Open Device Manager In the Hardware Tab. If you find yellow (?) sign on the adaptor, it shows the installation is not successful. Select the adaptor and click on Remove. Restart your computer after uninstalling the driver to make the change effective. 5.1 Installing Network Protocols Protocols are necessary for computers to be recognized on your network. Windows 2000 and XP users need to check their Windows User Guides for protocol installation. From the Start Menu, select Settings and bring up the Control Panel. From the Control Panel, double-click on the Network icon. The Network box appears and you see three main tabs; Configuration, Identification, Access control. Select Wireless LAN Card on the configuration tab and then click the Add button. Highlight Protocol, and click the Add button. Select Microsoft from the list of “Manufacturers” and TCP/IP from the list of “Network Protocols” Click the OK button to close the Network window. Windows may start copying some files and ask you for your Windows installation files at this time. After the files are copied Windows may ask you to restart. Click Yes to restart and complete the installation process. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 19 of 38 AcroLAN Card User’s Guide Version 20002.5 Caution This Process could cause serious problem on your network if you edit wrong data. So, if you do not know how to configure your network option, ask for help your network administrator. Click on the TCP/IP option for setting the IP address for your computer. You can select either Static or DHCP setting. If you use static IP address then enter the IP value assigned for you, and Subnet masking, DNS, Domain/Workgroup name, Gateway address value. IP Address Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 20 of 38 AcroLAN Card User’s Guide Version 20002.5 Gateway Address Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 21 of 38 AcroLAN Card User’s Guide Version 20002.5 DNS After setting these parameters appropriately, click on OK to return Network Component Type and you can select the File and Printer Sharing options as well as the Access to your computer by other users connected to that network by setting the computer sharing options. Click on OK. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 22 of 38 AcroLAN Card User’s Guide Version 20002.5 Screen message “Do you want to restart your computer” will pop up. Select Yes. It will shut down your computer and will restart. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 23 of 38 AcroLAN Card User’s Guide Version 20002.5 5.2 Uninstalling AcroLAN Card Driver If you want to uninstall the PC card, click on the control panel. Select the Add/Remove Programs. Click on the Acrowave 11Mbps Wireless LAN and click on Add/Remove button. Uninstall Shield removes the software successfully. And then, click System icon in the control panel and removes the ACROWAVE 11Mbps Wireless PC Card adapter under the Network adapters. 5.3 Remove PC Card from PC card socket 5.3.1 Remove PCMCIA AcroLAN Card /PCI AcroLAN Card If you want to extract PC card from PC card socket, click on PC card information icon. Click on Socket Status window and select ACROWAVE 11Mbps Wireless PC cars adapter and click on Stop button. After a few second, screen message “You can remove this device safely” will pop up. 5.3.2 Remove USB AcroLAN Card PC may shut down or malfunction if you pull out USB connector from PC without proper procedure. It will be okay if you follow as below. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 24 of 38 AcroLAN Card User’s Guide Version 20002.5 Above utility window will be pop up when you click PC monitor shape green icon. Select “ Radio Disable”. Then PC icon will be display with X and it means Wireless LAN operation is stoped. After PC monitor shape green icon go out of sight, Pull out USB connector from PC. If you want to use again then connect USB port to PC and select “Enable Radio” at utility window. 5.3.3 Remove Mini-PCI AcroLAN Card Be sure to turn off PC power before remove. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 25 of 38 AcroLAN Card User’s Guide Version 20002.5 Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 26 of 38 AcroLAN Card User’s Guide Version 20002.5 5.4 AcroLAN Configuration Utility Acrowave install shied program installs wireless LAN driver program and Configuration Utility program. You can see the icon at the right bottom of your screen. Click on that icon will show you the screen as show below. Wireless Link Status Status shows wireless LAN card’s MAC address information. Current Tx Rate shows transmit data rate. Current Channel shows selected channel number. Channel number is the channel available for the communications between the client and AP or between the clients only. In case of the Infrastructure Network Mode, the channel number scanned automatically, while in case of the Ad-hoc Network Mode, the channel number is set by the client and can be changed by the client user. If you click on Rescan button, LAN card program searches other new channel that currently used one. Throughput (Byte/sec) shows transmit/receive data rate. Link Quality shows measured radio link quality. If the link quality is bad, your computer may not communicate with other client computers. Otherwise (; fair, good…), there is no problem to communicate with other clients. Signal Strength is similar to Link Quality information but slightly differ from it. But Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 27 of 38 AcroLAN Card User’s Guide Version 20002.5 usually, the quality level moves simultaneous with the Link Quality level. Network Configuration Network Type : You can select wireless LAN network mode – Infrastructure(Access Point) or Ad-hoc(Peer-to-Peer) mode Infrastructure Mode This mode is used to set up a connection to a wired Ethernet network. This mode requires an ACROLAN Access Point to gain access to the wired network. Ad Hoc Mode This mode is used to set up a small, temporary network between two or more computers. For example, you might set up an ad hoc network between computers in a conference room so users can share information in a meeting. Network Name(SSID) : The Service Set Identifier (SSID) controls access to a given wireless network. This value MUST match the SSID of any and all AcroLAN Access Points that you want to communicate with. If the value does not match, access to the system is not granted. The SSID can be up to 32 case-sensitive characters. Transmit Rate: The transmission rate at which the data packets are transmitted by the client or AP. You can set this value to 1~2Mbps, 5.5Mbps, 11Mbps or Fully Automatic. Power Save Enabled : Power Saving Mode. Currently, the Power Save mode does not supported. After changing the setting in the Configuration change dialog box, click on Apply Changes button. It takes a few seconds to set changes that you made. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 28 of 38 AcroLAN Card User’s Guide Version 20002.5 Encryption - WEP In order to do secure communication over the wireless LAN network, wireless LAN module provides encryption function - WEP. There are two ways to generate WEP key. This key is an important in protecting the illegal access to the wireless networks. If you want to use WEP function, the AP also set the same WEP key value with you. And all the users who want to communicate with you must use same key with each other. You can select WEP key Disable in Configuration dialog box, the communication between clients and AP does not secure. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 29 of 38 AcroLAN Card User’s Guide Version 20002.5 There are two ways to generate the WEP key. One is by entering any text in the Passphrase. And click on Generate button. It will generate four WEP keys; Key 1, Key 2, Key 3, Key 4. You can select any key for the security. If you do not select any key, Key 1 is selected in default. The other way is by entering Key value directly from the keyboard. Select the Key number and use that Key for accessing the AP. If the Key is not entered correctly, a client cannot access any other client or AP. This Key value protects the illegal access to the wireless network resources. As the wireless channel is more prone to the illegal access, WEP provides the users safe wireless LAN network access. Caution If you use WEP function, your network throughput degrade Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 30 of 38 AcroLAN Card User’s Guide Chapter 6 Version 20002.5 Troubleshooting In this chapter, we have listed various problems that you may encounter during the installation and have also listed possible solutions. The system tray wireless monitor icon is always red £ Change your location or the location of the antenna by a few feet and try again. £ Make sure the client adapter card is securely inserted in the expansion slot. £ Make sure the antenna is securely attached. £ Make sure that your computers SSID have the same one with other clients. Set all clients to the same channel number in case of Ad-hoc network mode. Make sure that you are with in the range of an AP. If your computer cannot be associated with any AP, it cannot communicate with other clients. Make sure the antenna is securely attached. The system tray wireless monitor icon is always yellow You can communicate with other clients but air link quality is not good so data transferred slowly. In this case, you may move your computer or wireless LAN card antenna to higher position than current state or closer position with AP. Cannot find wireless monitor icon in the taskbar Make sure that the PC card is started as automatic in the device applet of the Control panel. £ £ Double click on the PC card icon in the Control panel. Click on AcroLAN adapter and then click on the properties button. It should say that the driver started correctly. Make sure the drivers were installed correctly. If there is some warning or error, uninstall drivers and software through Add/Remove Program, remove the Wireless LAN card and reinstall the drivers following the manual. Cannot connect to some computers £ Make sure that the client computer is with in the range of an AP and uses same SSID with you. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 31 of 38 AcroLAN Card User’s Guide £ Version 20002.5 Make sure that your TCP/IP is set properly and correctly. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 32 of 38 AcroLAN Card User’s Guide Version 20002.5 Appendix Appendix A Cell Planning (Radio Range) This section provides general guidelines on factors that influence network performance Cell Site Survey Because of differences in component configuration, placement and physical environment, every network application is a unique installation. Before installing the system, users should perform a site survey to determine the optimum utilization of networking components and to maximize range, coverage and network performance. Here are some operating and environmental conditions you should consider: • Data Rates Radio signal sensitivity and range are inversely proportional to data bit rates. The maximum radio range is achieved at the lowest workable data rate. There will be a decrease in receiver threshold sensitivity as the radio data rate increases. • Antenna Type and Placement (PCI card only) Proper antenna configuration is a critical factor in maximizing radio range. As a general guide, range increases in proportion to antenna height. For a detailed explanation of antenna types and configurations along with guidelines on selecting antennas for specific environments, see the documentation that comes with your antenna. • Physical Environments Clear or open areas provide better radio range than closed or filled areas. Also, the less cluttered the work environment, the greater the range. • Obstructions A physical obstruction such as metal shelving or a steel pillar can hinder the performance of the client adapter. Avoid locating the computing device in a location where there is a metal barrier between the sending and receiving antennas. • Building Materials Radio penetration is greatly influenced by the building material used in construction. For example, drywall construction allows greater range than concrete blocks. Metal or steel construction is a barrier to radio signals. Enhancing Coverage The system architecture options of the wireless station and AcroLAN Access Points provide for a variety of coverage alternatives and flexibility. The system can be designed to provide a wide coverage area with minimal overlap or coverage with heavy overlap. The latter improves system performance and protection against downtime in the event of a component failure. By arranging the AcroLAN Access Points so the overlap in coverage area is minimized, a large area can be covered with minimal system cost. The total bandwidth available to each mobile station will depend on the amount of data each Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 33 of 38 AcroLAN Card User’s Guide Version 20002.5 mobile station desires to transfer and the number of stations located in each cell. Seamless roaming is supported as a mobile station moves in and out of range of each AcroLAN Access Point, thereby maintaining a constant connection to the wired LAN. Each device in the radio network must be configured with the same Service Set Identifier (SSID) to provide the roaming capability. Multiple systems can operate in the same vicinity. The architecture provides multiple channels, which can coexist in the same area with virtually no interference to each other. In this mode, each system must be configured with different Service Set Identifiers (SSID) and different channels, which prevent clients from roaming to AcroLAN Access Points of a different wireless system. Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 34 of 38 AcroLAN Card User’s Guide Version 20002.5 Appendix B Technical Specifications Supported Operating Systems Windows 95, Windows 98, Windows 2000, Windows ME, Windows XP Radio Specifications Item Specification Description Radio Type Direct Sequence Spread-Spectrum (DSSS) 2.4 GHz ISM Band Operating Frequency 2400-2483.5 MHz FCC ID Channeling Type of Modulation Receiver sensitivity 5 MHz increments BPSK 1 Mbit/s QPSK 2 Mbit/s CCK 5.5 and 11 Mbits/s –87 dBm @ 1 Mbps –85 dBm @ 2 Mbps –84 dBm @ 5.5 Mbps –81 dBm @ 11 Mbps Copyright© Acrowave Systems 2000 North American, ETSI, and Japan channel coverage, factory configurable FCC approval Programmable for IEEE 802.11b Nominal 10 MHz BW (-6 dB) DOC – xxx - yyy Page 35 of 38 AcroLAN Card User’s Guide Version 20002.5 Power Requirements - PC Card Specification Value Operational Voltage Receive Mode Current 3.3V ± 0.25V 250 mA (200 mA typically) 400 mA (370 mA typically) 30 mA typically High Power Transmit Mode Current Sleep Mode Current - PCI Card Specification Operational Voltage Receive Mode Current High Power Transmit Mode Current Sleep Mode Current Value 5.0V ± 0.25V 250 mA (200 mA typically) 470 mA (450 mA typically) 40 mA typically - USB Card Specification Value Operational Voltage Receive Mode Current 5.0V ± 0.25V 250 mA (200 mA typically) 390 mA (370 mA typically) 15 mA typically High Power Transmit Mode Current Sleep Mode Current - Mini-PCI Card Specification Operational Voltage Receive Mode Current High Power Transmit Mode Current Sleep Mode Current Value 3.3V± 0.25V 240 mA (200 mA typically) 390 mA (450 mA typically) 15 mA typically Physical Specifications PC Card Item Description Size Enclosure Operating Temperature Connectors Status Indicators 114 mm L x 54 mm W x 5 mm H PC Card Type II 0°C to 70°C minimum (32°F to 158°F) 68-pin PCMCIA card Green LEDs – link association/activity PCI Card Item Description Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 36 of 38 AcroLAN Card User’s Guide Size Operating Temperature Connectors Status Indicators Version 20002.5 149 mm L x 121 mm W x 18 mm H 0°C to 70°C minimum (32°F to 158°F) PCI Card edge Green LEDs – link association/activity USB Card Item Description Size Operating Temperature Connectors Status Indicators 56 mm L x 121.8 mm W x 10.5 mm H 0°C to 50°C minimum Mini USB Card wafer Green LEDs – link association/activity Mini-PCI Card Item Description Size Operating Temperature Connectors Status Indicators 59.7 mm L x 59.95 mm W x 3mm H 0°C to 55°C minimum Mini-PCI Card edge None Copyright© Acrowave Systems 2000 DOC – xxx - yyy Page 37 of 38 AcroLAN Card User’s Guide Version 20002.5 Appendix C Channel Allocation The channel identifiers and the channel center frequencies of each 22-MHz-wide channel are shown in the table below, as appropriate for the various areas or regulatory agencies. Channel Identifier Center Frequency 10 11 12 13 14 2412MHz 2417MHz 2422MHz 2427MHz 2432MHz 2437MHz 2442MHz 2447MHz 2452MHz 2457MHz 2462MHz 2467MHz 2472MHz 2484MHz Regulatory Domains North America √ √ √ √ √ √ √ √ √ √ √ − − − ETSI Spain France √ √ √ √ √ √ √ √ √ √ √ √ √ − − − − − − − − − − − − − − − − − − √ √ √ √ √ √ − Copyright© Acrowave Systems 2000 − − − − Korea / Japan √ √ √ √ √ √ √ √ √ √ √ √ √ √ DOC – xxx - yyy Page 38 of 38
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