Winmate 1102 USB Wireless Lan User Manual wlan user guide0319
WINMATE Communication INC. USB Wireless Lan wlan user guide0319
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Winmate Communication Inc. User Guide Feb 12, 2001 Wireless LAN Overview The wireless LAN is a new way to extend the reach of local area networks (LAN). Instead of plugging into a LAN wall outlet, you connect wirelessly to a wireless LAN access point. All you need is a wireless LAN card for the user and a wireless LAN access point connected to the Ethernet LAN. This enables truly wireless access to the LAN and the Internet. Wireless LAN users can enjoy the freedom of being automatically connected to the LAN and of mobile computing without any attached cables. Wireless LAN is fast and convenient: no more cables or searching for LAN outlets. USB Wireless LAN Card Features and benefits Ethernet speeds(11Mpbs) across your wireless LAN Flexible and standards-based (IEEE802.11b) interoperability Mobile connectivity Security equivalent to wired networks High performance up to 11Mbps Long range: The freedom to access real-time information anywhere, anytime within a building or multi-building complex without wires. Manageable: Installing a USB wireless LAN is fast and easy, and eliminates the need to pull cable through walls and ceilings. Quick and easy problem shooting. Application Healthcare: More and more healthcare professionals around the world are taking advantage of the speed, mobility and flexibility of wireless LAN solutions to increase the quality of patient care and reduce costs. Hospitals can access patient information at bedside, monitor pharmaceutical data and other information vital to quality of patient care. Hospitality and Retail: From hotels and casinos, to cruise lines and rental car agencies, wireless technology provides the hospitality industry a mobile service advantage, allowing workers access to real-time information. Retail companies use products to provide mobile and portable points-of-sale and in-store inventory tracking that simplify and speed customer interactions. Warehousing and Distribution: Handheld devices with barcode readers monitor inventory and warehouse storage and shipment to control warehousing costs and ensure speedy delivery of products. Manufacturing: WLANs have helped manufacturing improve productivity and speed with instant data access to monitor inventory, track shipments and run production Winmate Communication Inc. User Guide Feb 12, 2001 equipment. Education: Wireless LANs in education offer a low-cost solution to high-speed Internet access with the flexibility to meet the needs of the ever-changing educational landscape. Finance: In the fast-paced world of finance, access to real-time information is crucial. Financial traders employ wireless solutions to receive up-to-the-minute pricing information and real-time data anywhere on the trading floor. Software Driver Windows98/2000/ME (NDIS 5) Specification PRODUCT FEATURES Data rate 1, 2, 5.5, 11 Mbps per channel Aggregate throughput 6 Mbps DATA RATES DISTANCE RANGE Indoor Range Outdoor Range @ 11 Mbps 25m 100m @ 5.5 Mbps 35m 120m @ 2 Mbps 40m 130m @ 1 Mbps 50m 140m ANTENNA Internal NETWORK INTERFACE Network operating Windows98, ME, 2000 Network Drivers NDIS5 (Windows 98, ME, 2000) Network Protocol TCP/IP, IPX, AppleTalk, NetBEUI. RADIO SPECIFICATIONS Modulation Technique Direct sequence spread spectrum Wireless LAN Standard Compliant with IEEE 802.11/b Frequency range 2.4-2.4835 GHz SENSITIVITY @ 11 Mbps -81 dBm, 1E-6 BER @ 5.5 Mbps -85 dBm, 1E-6 BER @ 2 Mbps -89 dBm, 1E-6 BER @ 1 Mbps -93 dBm, 1E-6 BER MODULATION Winmate Communication Inc. User Guide @ 11 Mbps DQPSK (CCK) @ 5.5 Mbps DQPSK (CCK) @ 2 Mbps DQPSK @ 1 Mbps DBPSK Feb 12, 2001 OUTPUT POWER USA +18 dBm Europe +18/ +2 dBm Approvals of compliance FCC part 15.247,15.249, ETSI 300-328 CONFIGURATION & MANAGEMENT Configuration and setup Utility for configuration and monitor; Utility for Device firmware Upgrade (DFU). LED Indicators Red: Power On, Green: Activity POWER CONSUMPTION With supply voltage of 5V Receive Mode 330 mA Transmit Mode 450 mA SIZE & WEIGHT Dimensions (L/W/H) 108.5mm × 71.2mm × 22mm Weight (include box) 100g (body and cable, no box) ENVIRONMENTAL Operating temperature 0℃-40℃ Operating humidity 10%-90% non-condensing Winmate Communication Inc. User Guide Feb 12, 2001 Installing Your WLAN Card (Windows 98) 1. Before you install your WLAN card, make sure that you have removed other network devices (e.g., PCI Ethernet card). If you have other network devices, please turn off your computer and remove the device. 2. Plug in your WLAN card to a USB port. Click “Next” in the following dialog box. 3. Instruct the Windows to “Search for the best driver for your device” and click “Next”. Winmate Communication Inc. User Guide Feb 12, 2001 4. In the following box, specify the directory where your driver is located (e.g., “A:\” if the driver file is on a floppy disk). 5. A dialog box which shows “WINMATE USB WIRELESS LAN CARD” will appear. Click “Next” to proceed or “Back” to change the location of the driver. Winmate Communication Inc. User Guide Feb 12, 2001 6. A dialog box “WINMATE USB WIRELESS CARD Properties” shows up. This dialog box allows you to set up the wireless options of your card. In this box you usually need to configure the following properties: select a channel (1 through 14), the ESSID which is used to enroll the station to an AP, the operating mode (ad-hoc or infrastructure), rate (1, 2, 5.5, or 11 Mbps), and the WEP key. Leave the fields in Authentication Type, Fragmentation Threshold, Preamble Type, and RTS Threshold as they were. You do not need to configure your WLAN card at this moment. You can change these values by the configuration utility later whenever necessary. Click OK when you finish the above configuration. Or, you can configure your card later by the configuration utility. Winmate Communication Inc. User Guide Feb 12, 2001 7.. After you click “Finish” in the following box, you will be asked to restart your computer. Click “No” because we need to set up more network properties. Click No. Winmate Communication Inc. User Guide Feb 12, 2001 8. From the Control Panel, use the right button of the mouse to click “Network” and select “Properties”. The following dialog box appears. Click TCP/IP (or, if you have installed other network devices before, select TCP/IP-WINMATE USB WIRELESS LAN CARD). 9. Set up the IP address. We recommend users to use “Specify an IP address” instead of the default “Obtain an IP address automatically”. Please ask your system administrator for the appropriate setting of the IP address. If you are running the infrastructure mode, you also need to set up the Gateway appropriately. Please ask your SA for the appropriate address of the gateway. Winmate Communication Inc. User Guide Feb 12, 2001 10. Click OK and save the changes you made for the network properties. Windows will request to restart your computer. After the system restarts, you can use your USB WLAN card. Winmate Communication Inc. User Guide Feb 12, 2001 Installing Your WLAN Card (Windows 2000) 1. Plug in your WLAN card to a USB port. Click “Next” in the following dialog box. 2. Instruct the Windows to “Search for a suitable driver” 10 Winmate Communication Inc. User Guide Feb 12, 2001 3. Specify the directory where your driver is located 4. A dialog box which shows “WINMATE USB WIRELESS LAN CARD” will appear. Click “Next” to proceed or “Back” to change the location of the driver. 11 Winmate Communication Inc. User Guide Feb 12, 2001 5. Click OK to continue the installation and neglect the “Digital Signature”. 6. Now Windows copies necessary files to the system. Click Finish. You still need to configure the network properties before your WLAN card can be used.. 12 Winmate Communication Inc. User Guide Feb 12, 2001 7. Use the right button of the mouse to click “My Network”, and select “Properties”. 13 Winmate Communication Inc. User Guide Feb 12, 2001 8. Click TCP/IP and configure your IP as in the following. You may need to consult your system administrator to acquire an appropriate IP address. After you finish the network setting, you are able to use your WLAN card. 14 Winmate Communication Inc. User Guide Feb 12, 2001 Installing Your WLAN Card (Windows ME) 1. Before you install your WLAN card, make sure that you have removed other network devices (e.g., PCI Ethernet card). If you have other network devices, please turn off your computer and remove the device 2. Plug in your WLAN card to a USB port. Select “Specify the location of the driver” and click “Next”. 3. Give the location of the directory that contains the device driver. 15 Winmate Communication Inc. User Guide Feb 12, 2001 4. Windows find the driver for the WLAN card. Click “Next.” 5. You can simply leave all the wireless settings as they are at this moment, and configure them later in the configuring/monitor utility. Click “OK” here. 16 Winmate Communication Inc. User Guide Feb 12, 2001 6. Click “Finish” in the following dialog box. You do not need to restart your computer at this moment because you need to configure the network properties. Say “No” to the following dialog box. 17 Winmate Communication Inc. User Guide Feb 12, 2001 7. From the Control Panel, use the right button of the mouse to click “Network” and select “Properties Configuration TCP/IP”. The following dialog box appears. Configure your IP as in the following. You may need to consult your system administrator to acquire an appropriate IP address and the gateway address. After you finish these network configuration and restart the computer, you are able to use your USB WLAN card. 18 Winmate Communication Inc. User Guide Feb 12, 2001 Configuring Your WLAN card We offer a convenient utility which allows users to configure all the WLAN parameters and to monitor the current signal quality. Run the SETUP.EXE under the UsrCfg directory, and follow the instruction to complete the installation. Then reboot your computer. Whenever your USB WLAN card is connected to the PC, you can find a small icon appearing in the bottom right corner of the tool bar as in the following figure: If the WLAN card is successfully associated with an AP, the icon is in blue color. If there is no AP, the AP is out of the range, or there is any mistake happening, the icon is in red color. Click the icon to pop up the configuration/monitor box: 19 Winmate Communication Inc. User Guide Feb 12, 2001 If the card is associated to an AP, a message “Associated to AP with BSSID xx-xx-xx-xx-xx-xx” will appear, where the 12 digit HEX number is the MAC address of the AP. The signal strength will show up in the middle of the box as a blue bar. The Successful and unsuccessful Tx and Rx frames also show up. You can select the communication mode between Ad-hoc mode and Infrastructure mode by click “change” button to make changes. In the Ad-hoc mode, for every station participating in a Network the user must select the same channel and rate (1, 2, 5.5, or 11Mbps). In the infrastructure mode, you do not need to specify the channel. Instead, you need to configure the ESSID. ESSID is used in the infrastructure mode to enroll the station to the AP. One can 20 Winmate Communication Inc. User Guide Feb 12, 2001 specify ESSID up to 32 characters. Please note that it is case sensitive (i.e., WINMATE is different from Winmate or winmate). If you want your station to connect to the wired network through an AP, you should obtain the ESSID of that AP from your system administrator. You can enter “ANY” (which is also the default value) as the ESSID, and the WLAN card will search for an available AP, if there is any, to associate with. Select the Transmission rate. This will not affect the receiving rate because the rate of the receiving station is determined by that of the transmission station. WEP stands for Wired Equivalent Privacy. It served like a network password and is an optional information to add the security of the wireless communication. The stations, either in Ad-Hoc mode or Infrastructure mode, should have the same WEP to associate with the other station. Please bear in mind that the WEP keys must be in HEX and in two characters per byte formats. You can store up to four sets of WEP KEYs in the field WEP KEY #1 to WEP KEY #4, and select among one of them in the field WEP KEY, or simply use the value “None” if you do not want the WEP option. Now you can enjoy the convenience and speed of wireless connection to the network! 21 Winmate Communication Inc. User Guide Feb 12, 2001 FAQ Q1. What is an AP (Access Point )? Ans: An AP is the bridge to connect two different protocols, Ethernet 802.3 and wireless 802.11b. It can stand alone as the center of a wireless infrastructure, providing connections to your wired networks. Or, it can act as a repeater, increasing wireless communication range. The maximum communication range is based on how you configure your wireless infrastructure. If your purpose is merely transferring files between two nearby computers, you can connect these two PCs by two WLAN cards through ad-hoc mode (explained below) without using an AP. Q2. Please explain "infrastructure" mode and "ad hoc" mode. Ans: The 802.11 standard defines two modes: infrastructure and ad-hoc. In the 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. The ad-hoc mode is a peer-to-peer LAN. It is 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 wired infrastructure does not exist or is not required for service. Q3. What is the maximum transmission rate among WLAN cards? Ans. In 802.11b, the theoretical maximum transmission rate is 11Mbps. It also supports 1Mbps, 2Mbps, and 5.5Mbps rates when the transmission condition is not very good. If you have more than two wireless stations connecting on the same channel, the 11Mbps rate would be shared by these stations. Q4. What does the “channel selection” mean in your driver? Ans: In 802.11 there are total of 14 channels within the 2.4GHz to 2.4835 GHz bandwidth. If you are working under the “ad hoc" mode, you have to assign one of the channel. All PCs in this group should be configured to this assigned channel so that your group could form up. If you are using the infrastructure mode, the system administrator would have set a specific channel for the AP, and the client stations can auto detect that channel to associate with it. In the latter case, the channel selection in the driver does not matter. Q5. What OS can your driver support? 22 Winmate Communication Inc. User Guide Feb 12, 2001 Ans: Our device driver uses NDIS 5, which support Windows 98 and Windows 2000. Linux driver will be ready soon. Q6. Does the radio wave emitting from a WLAN card have any threat to human health? Ans: To date, scientific studies have been unable to attribute adverse health effects to WLAN transmissions. As with other wireless technologies, WLANs must meet stringent government and industry standards for safety. In addition, it is expected that any health effects related to radio transmissions would be correlated to power of the transmitter, and the output power of WLAN system is limited by FCC regulations to under 100mW, much less than that of a mobile phone. 23 Winmate Communication Inc. User Guide Feb 12, 2001 WLAN Glossary Access Point (AP) A device that transports data between a wireless network and a wired network (infrastructure). ad-hoc network A wireless network composed only of stations (no access point). Also known as peer to peer network application layer The top layer of OSI seven layers. It establishes communications with other users and provides such services as file transfer and electronic mail to the end users of the network. association service An IEEE 802.11 service that enables the mapping of a wireless station to the distribution system via an access point. authentication The process a station uses to announce its identity to another station. IEEE 802.11 specifies two forms of authentication: open and shared key. bandwidth Specifies the amount of the frequency spectrum that is usable for data transfer. In other words, it identifies the maximum data rate that a signal can attain on the medium without encountering significant attenuation. baseband A signal that has not undergone any shift in frequency. Normally with LANs, a baseband signal is purely digital. Basic Service Set (BSS) A set of 802.11-compliant stations that operates as a fully connected, wireless network. BSSID A 6-byte address that distinguishes a particular AP from others. Also known as a network ID or the MAC address of the AP. 24 Winmate Communication Inc. User Guide Feb 12, 2001 Cyclic Redundancy Check (CRC) An error-detection process that (at the transmitting station) divides the data being sent by a particular polynomial and appends the resulting remainder to the transmitted data. Data link layer The bottom second layer of the OSI layers. It provides synchronization and transmission error control to packets. In 802.11 LANs, it encompasses the logical link control (LLC) and medium access control (MAC) layers. Differential quadrature phase shift keying (DQPSK) A modulation process that the IEEE 802.11 direct sequence physical layer uses to transmit data. It operates at a specific center frequency and varies the phase of the signal to represent double-bit symbols. Direct sequence spread spectrum (DSSS) Combines a data signal at the sending station with a higher data rate bit sequence, which many refer to as a chip sequence (aka. processing gain). A high processing gain increases the signal’s resistance to interference. Extended Service Set (ESS) A collection of basic service sets tied together via a distribution system. Frequency hopping spread spectrum (FHSS) Takes the data signal and modulates it with a carrier signal that hops from frequency to frequency as a function of time over a wide band of frequencies. IEEE 802.X A set of specifications for Local Area Networks (LAN) from The Institute of Electrical and Electronic Engineers (IEEE). Most wired networks conform to 802.3, the specification for CSMA/CD based Ethernet networks. The 802.11 committee completed a standard for 1 and 2 Mbps wireless LANs in 1997 that has a single MAC layer for the following physical-layer technologies: Frequency Hopping Spread Spectrum, Direct Sequence Spread Spectrum, and Infrared. IEEE 802.11 b, an 11 Mbps version of the standard, was finalized at the end of 1999. Independent Basic Service Set Network (IBSS Network) A 802.11-based wireless network that has no backbone infrastructure and consists of 25 Winmate Communication Inc. User Guide Feb 12, 2001 at least two wireless stations. This type of network is often referred to as an ad hoc network because it can be constructed quickly without much planning. Industrial, Scientific, and Medicine bands (ISM bands) Radio frequency bands that the Federal Communications Commission (FCC) authorized for wireless LANs. The ISM bands are located at 902 MHz, 2.400 GHz, and 5.7 GHz. Infrastructure network A wireless network centered about an access point. In this environment, the access point not only provides communication with the wired network but also mediates wireless network traffic in the immediate neighborhood. Logical Link Control (LLC) layer The highest layer of the IEEE 802 reference model, providing similar functions of a traditional data link control protocol. Medium Access Control (MAC) layer Provides medium acess services for IEEE 802 LANs. Microcell A bounded physical space in which a number of wireless devices can communicate. Because it is possible to have overlapping cells as well as isolated cells, the boundaries of the cell are established by some rule or convention. Multipath The signal variation caused when radio signals take multiple paths from transmitter to receiver. narrowband system A wireless system that uses dedicated frequencies assigned by the FCC licenses. The advantage of narrowband system is that if interference occurs, the FCC will intervene and issue an order for the interfering source to cease operations. NetBIOS A standard interface between networks and PCs that allows applications on different computers to communicate within a LAN. It was created by IBM for its early PC 26 Winmate Communication Inc. User Guide Feb 12, 2001 network, was adopted by Microsoft, and has since become a de facto industry standard. It is not routable across a WAN. open system authentication The IEEE 802.11 default authentication method, which is a very simple, two-step process. First the station wanting to authenticate with another station sends an authentication management frame containing the sending station’s identity. The receiving station then sends back a frame alerting whether it recognizes the identity of the authenticating station. Open System Interconnection (OSI) An ISO standard specifying an open system capable of enabling the communications between diverse systems. It has the following seven layers of distinction: physical, data link, network, transport, session, and application. These layers provide the functions necessary to allow standardized communications between two application processes. peer-to-peer network A network where there are communications between a group of equal devices. A peer-to-peer LAN does not depend on a dedicated server, but allows any node to be installed as a non-dedicated server and share its files and peripherals across the network. physical layer Provides the transmission of bits through a communication channel by defining electrical, mechanical, and procedural specifications. Point Coordination Function (PCF) An IEEE 802.11 mode that enables contention-free frame transfer based on a priority mechanism. Enables time-bounded services that support the transmission of voice and video. Quadrature Phase Shift Keying (QPSK) A modulation technique that changes the phase of a signal to represent different, four-bit binary words. Radio Frequency (RF) Terms: GHz, MHz, Hz 27 Winmate Communication Inc. User Guide Feb 12, 2001 The international unit for measuring frequency is Hertz (Hz), which is equivalent to the older unit of cycles per second. One Mega-Hertz (MHz) is one million Hertz. One Giga-Hertz (GHz) is one billion Hertz. For reference: 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 microwave ovens typically operate at 2.45 GHz. reassociation service Enables an IEEE 802.11 station to change its association with different access points as the station moves throughout the facility. roaming Movement of a wireless node between two microcells. Roaming usually occurs in infrastructure networks built around multiple access points. shared key authentication A type of authentication that assumes each station has received a secret shared key through a secure channel independent from an 802.11 network. Stations authenticate through shared knowledge of the secret key. Use of shared key authentication requires implementation of the 802.11 WEP algorithm. spread spectrum A modulation technique that spreads a signal’s power over a wide band of frequencies. The main reasons for this technique are that the signal becomes much less susceptible to electrical noise and interferes less with other radio-based systems. Transmission Control Protocol (TCP) A commonly used protocol for establishing and maintaining communications between applications on different computers. TCP provides full-duplex, acknowledged, and flow-controlled service to upper-layer protocols and applications. Wired Equivalent Privacy (WEP) An optional IEEE 802.11 function that offers frame transmission similar to a wired network. The WEP generates secret shared encryption keys that both source and destination stations can use to alter frame bits to avoid disclosure to eavesdroppers. 28 Winmate Communication Inc. User Guide Feb 12, 2001 FEDERAL COMMUNICATIONS COMMISSION INTERFERENCE STATEMENT 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. CAUTION: Any changes or modifications not expressly approved by the grantee of this device could void the user's authority to operate the equipment. FCC RF Radiation Exposure Statement This equipment complies with FCC RF radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with a minimum distance of 20 centimeters between the radiator and your body. 29
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