Loopcomm Technology LP-8617 802.11 b/g/n Wireless USB Dongle User Manual 8697 8617 8617E Manual

Loopcomm Technology,.Inc. 802.11 b/g/n Wireless USB Dongle 8697 8617 8617E Manual

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Date Submitted2009-10-27 00:00:00
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802.11n Wireless USB Dongle
USER MANUAL 1.0
Contents
1 Introduction..................................................................................................3
2 Driver Installation........................................................................................4
2.1 Windows XP/2K……….................................................................................................4
2.2 Windows Vista…………………....................................................................................6
3 Wireless Network Configuration.................................................................9
3.1 Utility Icon……………...................................................................................................9
3.2 Client Mode ……………….....................................................................................……9
3.2.1 Wireless Device Control ..............................................................................................9
3.2.2 General Setting…………..............................................................................................9
3.2.3 Profile Setting……………. ........................................................................................10
3.2.4 Available Network Setting..........................................................................................11
3.2.5 Status……. .................................................................................................................13
3.2.6 Statistics .....................................................................................................................14
3.2.7 Wi-Fi Protected Setup.................................................................................................15
4 Troubleshooting..........................................................................................................17
5 Glossary........................................................................................................18
1 Introduction
Thank you for your purchase of the WLAN Dongle. Featuring wireless technology, this
wireless networking solution has been designed for both large and small businesses, and it is
scalable so that you can easily add more users and new network features depending on your
business scale.
SYSTEM REQUIREMENTS
Windows System : 2000, XP 32/64, Vista 32/64
PCs must have a device driver installed. It allows you to communicate with WLAN Dongle.
BEFORE YOU START
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1. Contents confirmation
Wireless LAN USB Dongle
Driver CD
CONNECTING YOUR WLAN Dongle TO PC
2. Connect your WLAN USB dongle to your PC after the driver installation.
GETTING TO KNOW WIRELESS LAN USB Dongle
3. LED
LED turns on when the WLAN dongle linking normally.
LED is blinking when WLAN Adapter is active.
2 Driver Installation
Warning! Do not cover or block the airflow to the adapter. The adapter will reach a high temperature
during use.
2.1 Windows XP/2K
Step 1 :
Insert the installation CD into your CD-ROM. Installation program will prompt language setup. Choose the Setup
Language you would like to use and click Next button.
Step 2 :
Welcome Installation dialog prompt shown. Click Next to continue. Click Cancel to close
installation. Installing and configuring WLAN utility.
Step 3 :
Click Install
Step 4 :
Click Finish to complete installation.
2.2 Windows Vista
Step 1 :
Insert the installation CD into your CD-ROM. Installation program will prompt language setup. Choose the Setup Language you
would like to use and click Next button.
Step 2 :
Welcome Installation dialog prompt shown. Click Next to continue. Click Cancel to close
installation. Installing and configuring WLAN utility.
Step 3 : Click Install.
Step 4 :
Click Finish to complete installation.
3 Wireless Network Configuration
The management software is provided for the WLAN dongle. When you insert the WLAN Adapter into your laptop or
desktop, an icon should appear in the Windows System Tray automatically.
3.1 Utility Icon
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Client mode utility running but no WLAN Adapter plugged.
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Client mode utility running and WLAN Adapter scan available network.
Client mode utility running and WLAN Adapter can not scan any AP.
3.2 Client Mode (Default Setting)
3.2.1 Wireless Device Control
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Show Tray Icon – Show icon or not show icon in systray.
Radio Off – Stop wireless signal.
Disable Adapter – Stop wireless device.
3.2.2 GENERAL SETTING
Once device is set, double click on that icon and the configuration window will pop up as shown. It shows the current
connected network. The signal strength and link quality are displayed also. The bar graph displays the quality and strength
of the link between the node and its Access Point. Link Quality is a measurement of receiving and transmitting
performances over the radio.
Network Address displays current MAC Address, IP Address, Subnet. and Gateway. Click Renew IP
button to refresh IP address leased from wireless AP.
3.2.3 PROFILE SETTING
In profile tab, you can Add, Remove, Edit, Duplicate and Set Default to manipulate profile content manually. Strongly
recommend to use profile after you do Available Network.
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3.2.4 AVAILABLE NETWOEK SETTING
Click Available Network tab and it will show all available networks that radio can reaches. Select
proper SSID & BSSID you want to connect.
Click Refresh button to force and rescan available networks currently.
Select one of SSIDs, and click Add to Profile to create profile that can be configured more wireless
parameters.
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In this page, you can edit your profile name, configure wireless security like WEP, WPA, WPA2, 802.1x …etc. After finishing setup,
click OK button to save configuration.
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3.2.5 Status
In this page, it shows all wireless, networking and device driver version in details.
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3.2.6 Statistics
Statistics page tab will show real-time TX/RX relative counters to check or evaluate the wireless performance. Click Reset
button to set counter to zero.
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3.2.7 Wi-Fi Protected Setup
There is an easy and secure setup solution for Wi-Fi network. You can choose PIN Code or Push Button method to connect
to an AP.
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4 Troubleshooting
Symptom :
The LED is off.
Remedy :
Make sure the PC Card is inserted properly. Otherwise contact your
vendor.
Symptom :
The LED is always on not blinking.
Remedy :
Symptom :
Make sure that you have installed the driver from attached CD. Otherwise
contact your vendor.
The LED is blinking but the PC Card icon does not appear in your icon
tray.
Remedy :
Make sure that you have installed the Utility from the attached CD.
Symptom :
The PC Card is linking, but can’t share files with others.
Remedy :
Make sure the file and printer sharing function is enabled. You can
enable the function by checking the icon of My Computer -> Control
Panel -> Network -> file and printer sharing -> I want to be able to
give others to access to my files.
Symptom :
Slow or poor performance under AP mode
Remedy :
Try to select another channel for the communicating group or move your
device closer to the Access Point.
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5 Glossary
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1. IEEE 802.11 Standard
The IEEE 802.11 Wireless LAN standards subcommittee, which is formulating a standard for the industry.
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2. Access Point
An internetworking device that seamlessly connects wired and wireless networks together.
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3. Ad Hoc
An Ad Hoc wireless LAN is a group of computers, each with a WLAN adapter, connected as an independent wireless LAN.
Ad Hoc wireless LAN is applicable at a departmental scale for a branch or SOHO operation.
4. BSSID
A specific Ad Hoc LAN is called a Basic Service Set (BSS). Computers in a BSS must be configured with the same BSSID.
5. DHCP
Dynamic Host Configuration Protocol - a method in which IP addresses are assigned by server dynamically to clients on the
network. DHCP is used for Dynamic IP Addressing and requires a dedicated DHCP server on the network.
6. Direct Sequence Spread Spectrum
This is the method the wireless cards use to transmit data over the frequency spectrum. The other method is frequency
hopping. Direct sequence spreads the data over one frequency range (channel) while frequency hopping jumps from one
narrow frequency band to another many times per second.
7. ESSID
An Infrastructure configuration could also support roaming capability for mobile workers. More than one BSS can be
configured as an Extended Service Set (ESS). Users within an ESS could roam freely between BSSs while served as a
continuous connection to the network wireless stations and Access Points within an ESS must be configured with the same
ESSID and the same radio channel.
8. Ethernet
Ethernet is a 10/100Mbps network that runs over dedicated home/office wiring. Users must be wired to the network at all
times to gain access.
9. Gateway
A gateway is a hardware and software device that connects two dissimilar systems, such as a LAN and a mainframe. In
Internet terminology, a gateway is another name for a router. Generally a gateway is used as a funnel for all traffic to the
Internet.
10. IEEE
Institute of Electrical and Electronics Engineers Infrastructure. An integrated wireless and wired LAN is called an
Infrastructure configuration. Infrastructure is applicable to enterprise scale for wireless access to central database, or wireless
application for mobile workers.
11. ISM Band
The FCC and their counterparts outside of the U.S. have set aside bandwidth for unlicensed use in the so-called ISM
(Industrial, Scientific and Medical) band. Spectrum in the vicinity of 2.4 GHz, in particular, is being made available
worldwide. This presents a truly revolutionary opportunity to place convenient high-speed wireless capabilities in the hands
of users around the globe.
12. Local Area Network (LAN)
A LAN is a group of computers, each equipped with the appropriate network adapter card connected by cable/air, that share
applications, data, and peripherals. All connections are made via cable or wireless media, but a LAN does not use telephone
services. It typically spans a single building or campus.
13. Network
A network is a system of computers that is connected. Data, files, and messages can be transmitted over this network.
Networks may be local or wide area networks.
14. Protocol
A protocol is a standardized set of rules that specify how a conversation is to take place, including the format, timing,
sequencing and/ or error checking.
15. SSID
A Network ID unique to a network. Only clients and Access Points that share the same SSID are able to communicate with
each other. This string is case-sensitive.
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16. Static IP Addressing
A method of assigning IP addresses to clients on the network. In networks with Static IP address, the network administrator
manually assigns an IP address to each computer. Once a Static IP address is assigned, a computer uses the same IP address
every time it reboots and logs on to the network, unless it is manually changed.
17. Temporal Key Integrity Protocol (TKIP)
The Temporal Key Integrity Protocol, pronounced tee-kip, is part of the IEEE 802.11i encryption standard for wireless
LANs. TKIP is the next generation of WEP, the Wired Equivalency Protocol, which is used to secure 802.11 wireless LANs.
TKIP provides per-packet key mixing, a message integrity check and a re-keying mechanism, thus fixing the flaws of WEP.
18. Transmission Control Protocol / Internet Protocol (TCP/IP)
TCP/IP is the protocol suite developed by the Advanced Research Projects Agency (ARPA). It is widely used in corporate
Internet works, because of its superior design for WANs. TCP governs how packet is sequenced for transmission the
network. The term “TCP/IP” is often used generically to refer to the entire suite of related protocols.
19. Transmit / Receive
The wireless throughput in Bytes per second averaged over two seconds.
20. Wi-Fi Alliance
The Wi-Fi Alliance is a nonprofit international association formed in 1999 to certify interoperability of wireless Local Area
Network products based on IEEE 802.11 specification. The goal of the Wi-Fi Alliance’s members is to enhance the user
experience through product interoperability. The organization is formerly known as WECA.
21. Wi-Fi Protected Access (WPA)
The Wi-Fi Alliance put together WPA as a data encryption method for 802.11 wireless LANs. WPA is an industry-supported,
pre-standard version of 802.11i utilizing the Temporal Key Integrity Protocol (TKIP), which fixes the problems of WEP,
including using dynamic keys.
22. Wide Area Network (WAN)
A WAN consists of multiple LANs that are tied together via telephone services and / or fiber optic cabling. WANs may span
a city, a state, a country, or even the world.
23. Wired Equivalent Privacy (WEP)
Now widely recognized as flawed, WEP was a data encryption method used to protect the transmission between 802.11
wireless clients and APs. However, it used the same key among all communicating devices. WEP’s problems are
well-known, including an insufficient key length and no automated method for distributing the keys. WEP can be easily
cracked in a couple of hours with off-the-shelf tools.
24. Wireless LAN (WLAN)
A wireless LAN does not use cable to transmit signals, but rather uses radio or infrared to transmit packets through the air.
Radio Frequency (RF) and infrared are the commonly used types of wireless transmission. Most wireless LANs use spread
spectrum technology. It offers limited bandwidth, usually under 11Mbps, and users share the bandwidth with other devices
in the spectrum; however, users can operate a spread spectrum device without licensing from the Federal Communications
Commission (FCC).
25. Fragment Threshold
The proposed protocol uses the frame fragmentation mechanism defined in IEEE 802.11 to achieve parallel transmissions. A
large data frame is fragmented into several fragments each of size equal to fragment threshold. By tuning the fragment
threshold value, we can get varying fragment sizes. The determination of an efficient fragment threshold is an important
issue in this scheme. If the fragment threshold is small, the overlap part of the master and parallel transmissions is large.
This means the spatial reuse ratio of parallel transmissions is high. In contrast, with a large fragment threshold, the overlap is
small and the spatial reuse ratio is low. However high fragment threshold leads to low fragment overhead. Hence there is a
trade-off between spatial re-use and fragment overhead. Fragment threshold is the maximum packet size used for
fragmentation. Packets larger than the size programmed in this field will be fragmented If you find that your corrupted
packets or asymmetric packet reception (all send packets, for example). You may want to try lowering your fragmentation
threshold. This will cause packets to be broken into smaller fragments. These small fragments, if corrupted, can be resent
faster than a larger fragment. Fragmentation increases overhead, so you'll want to keep this value as close to the maximum
value as possible.
26. RTS (Request To Send) Threshold
The RTS threshold is the packet size at which packet transmission is governed by the RTS/CTS transaction. The IEEE
802.11-1997 standard allows for short packets to be transmitted without RTS/ CTS transactions. Each station can have a
different RTS threshold. RTS/CTS is used when the data packet size exceeds the defined RTS threshold. With the
CSMA/CA transmission mechanism, the transmitting station sends out an RTS packet to the receiving station, and waits for
the receiving station to send back a CTS (Clear to Send) packet before sending the actual packet data. This setting is useful
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for networks with many clients. With many clients, and a high network load, there will be many more collisions. By
lowering the RTS threshold, there may be fewer collisions, and performance should improve. Basically, with a faster RTS
threshold, the system can recover from problems faster. RTS packets consume valuable bandwidth, however, so setting this
value too low will limit performance.
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27. Beacon Interval
In addition to data frames that carry information from higher layers, 802.11 includes management and control frames that
support data transfer. The beacon frame, which is a type of management frame, provides the "heartbeat" of a wireless LAN,
enabling stations to establish and maintain communications in an orderly fashion. Beacon Interval represents the amount of
time between beacon transmissions. Before a station enters power save mode, the station needs the beacon interval to know
when to wake up to receive the beacon (and learn whether there are buffered frames at the access point).
28. Preamble Type
There are two preamble types defined in IEEE 802.11 specification. A long preamble basically gives the decoder more time
to process the preamble. All 802.11 devices support a long preamble. The short preamble is designed to improve efficiency
(for example, for VoIP systems). The difference between the two is in the Synchronization field. The long preamble is 128
bits, and the short is 56 bits.
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29. WPA2
It is the second generation of WPA. WPA2 is based on the final IEEE 802.11i amendment to the 802.11 standard.
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30. Temporal Key Integrity Protocol (TKIP)
The Temporal Key Integrity Protocol, pronounced tee-kip, is part of the IEEE 802.11i encryption standard for wireless
LANs. TKIP is the next generation of WEP, the Wired Equivalency Protocol, which is used to secure 802.11 wireless LANs.
TKIP provides per-packet key mixing, a message integrity check and a re-keying mechanism, thus fixing the flaws of WEP.
31. 802.1x Authentication
802.1x is a framework for authenticated MAC-level access control, defines Extensible Authentication Protocol (EAP) over
LANs (WAPOL). The standard encapsulates and leverages much of EAP, which was defined for dial-up authentication with
Point-to-Point Protocol in RFC 2284. Beyond encapsulating EAP packets, the 802.1x standard also defines EAPOL
messages that convey the shared key information critical for wireless security.
32. Advanced Encryption Standard (AES)
Security issues are a major concern for wireless LANs, AES is the U.S. government’s next-generation
cryptography algorithm, which will replace DES and 3DES.
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Federal Communication 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 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.
FCC Caution: Any changes or modifications not expressly approved by the party responsible for compliance
could void the user's authority to operate this equipment.
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1)
This device may not cause harmful interference, and (2) this device must accept any interference received,
including interference that may cause undesired operation.
This device and its antenna(s) must not be co-located or operating in conjunction with any other antenna or
transmitter.
IMPORTANT NOTE:
Federal Communication Commission (FCC) Radiation Exposure Statement
This EUT is compliance with SAR for general population/uncontrolled exposure limits in ANSI/IEEE
C95.1-1999 and had been tested in accordance with the measurement methods and procedures specified in
OET Bulletin 65 Supplement C.

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