USB-N10 Nano
ASUS 802.11n Network Adapter
(For 802.11 b/g/n Wireless Networks)
User Guide
E10146 / January 2015
Manufacturer contact information
ASUSTeK COMPUTER INC. (Asia Pacific)
Address
Website
15 Li-Te Road, Peitou,Taipei,Taiwan 11259
Technical Support
Telephone
Support Fax
+886228943447
+886228907698
support.asus.com
Online support
ASUS COMPUTER INTERNATIONAL (America)
Address
Telephone
Fax
800 Corporate Way, Fremont, CA 94539, USA
+15107393777
+15106084555
Website
usa.asus.com
Online support
support.asus.com
ASUS COMPUTER GmbH (Germany and Austria)
Address
Support Fax
Website
Harkort Str. 21-23, D-40880 Ratingen, Germany
+49-2102-959931
asus.com/de
Online contact
eu-rma.asus.com/sales
Technical Support
Telephone (Component)
Telephone Germany
+49-2102-5789555
(System/Notebook/Eee/LCD)
Telephone Austria
+49-2102-5789557
(System/Notebook/Eee/LCD)
Support Fax
Online support
+43-820-240513
+49-2102-959911
support.asus.com
USB-N10 Nano WLAN Adapter User Guide
Table of contents
Manufacturer contact information ..........................................................3
Table of contents......................................................................................1
Notices.......................................................................................................2
1. Introduction..........................................................................................6
1.1 Package contents ............................................................................6
1.2 System requirements.......................................................................6
1.3 Hardware .........................................................................................6
2. Installing the USB-N10 Nano driver and utilities ..............................7
3. Configuring USB-N10 Nano using ASUS utility................................8
3.1 Connecting to a wireless network manually.....................................8
3.2 Connecting to a wireless network using WPS .................................9
4. Software information.........................................................................11
4.1 ASUS WLAN Adapter Setting Utility ..............................................11
5. Configuring USB-N10 Nano using Windows® WZC service...........16
6. Troubleshooting.................................................................................17
7. Glossary..............................................................................................18
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ASUS Wireless-N Adapter
USB-N10 Nano WLAN Adapter User Guide
Notices
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.
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.
WARNING: Any changes or modifications not expressly approved by the party
responsible for compliance could void the user’s authority to operate the
equipment.
Prohibition of Co-location
This device and its antenna(s) must not be co-located or operating in conjunction
with any other antenna or transmitter.
FCC Radiation Exposure Statement
This equipment complies with RFCC radiation exposure limits set forth for an
uncontrolled environment .
This equipment should be installed and operated with minimum 20cm between the
radiator and your body.
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CE Mark Warning
This is a Class B product, in a domestic environment, this product may cause radio
interference, in which case the user may be required to take adequate measures.
Operation Channels: Ch1~11 for N. America, Ch1~14 Japan, Ch1~ 13 Europe
(ETSI)
DGT Warning Statement
Article 12
Without permission, any company, firm or user shall not alter the frequency,
increase the power, or change the characteristics and functions of the original
design of the certified lower power frequency electric machinery.
Article 14
The application of low power frequency electric machineries shall not affect the
navigation safety nor interfere a legal communication, if an interference is found,
the service will be suspended until improvement is made and the interference no
longer exists.
低功率電波輻射性電機管理辦法
(1)「經型式認證合格之低功率射頻電機,非經許可,公司、商號或使用者均不得擅自變更頻
率、加大功率或變更原設計之特性及功能」以及(2)「低功率射頻電機之使用不得影響飛航安全
及干擾合法通信;經發現有干擾現象時,應立即停用,並改善至無干擾時方得繼續使用。前項
合法通信,指依電信法規定作業之無線電通信。低功率射頻電機須忍受合法通信或工業、科學
及醫療用電波輻射性電機設備之干擾」。
IC Warning Statement
Under Industry Canada regulations, this radio transmitter may only operate using
an antenna of a type and maximum (or lesser) gain approved for the transmitter by
Industry Canada. To reduce potential radio interference to other users, the antenna
type and its gain should be so chosen that the equivalent isotropically radiated
power (e.i.r.p.) is not more than that necessary for successful communication.
This radio transmitter(IC: 3568A-PCEN15) has been approved by Industry Canada
to operate with the antenna types listed below with the maximum permissible gain
and required antenna impedance for each antenna type indicated. Antenna types
not included in this list, having a gain greater than the maximum gain indicated for
that type, are strictly prohibited for use with this device.
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USB-N10 Nano WLAN Adapter User Guide
Ant.
A
B
Antenna Type
Dipole Antenna
Dipole Antenna
Connector
Reversed-SMA
Reversed-SMA
Gain (dBi) Remark
5.00
3.00
TX / RX
TX / RX
C
D
E
Dipole Antenna
Dipole Antenna
Dipole Antenna
Reversed-SMA
Reversed-SMA
Reversed-SMA
3.00
2.00
2.00
TX / RX
TX / RX
TX / RX
This Class [B] digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe [B] est conforme à la norme NMB-003 du
Canada.
For product available in the USA/Canada market, only channel 1~11 can be
operated. Selection of other channels is not possible.
IC Radiation Exposure Statement:
This equipment complies with IC RSS-102 radiation exposure limits set forth for an
uncontrolled environment. This equipment should be installed and operated with
minimum distance 20cm between the radiator & your body.
Operation is subject to the following two conditions: (1) this device may not
cause interference, and (2) this device must accept any interference, including
interference that may cause undesired operation of the device.
ASUS Recycling/Takeback Services
ASUS recycling and takeback programs come from our commitment to the highest
standards for protecting our environment. We believe in providing solutions for you
to be able to responsibly recycle our products, batteries, other components as well
as the packaging materials. Please go to http://csr.asus.com/english/Takeback.htm
for the detailed recycling information in different regions.
REACH
Complying with the REACH (Registration, Evaluation, Authorisation, and Restriction
of Chemicals) regulatory framework, we published the chemical substances in our
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ASUS Wireless-N Adapter
USB-N10 Nano WLAN Adapter User Guide
Manufacturer:
ASUSTeK Computer Inc.
Tel:
+886-2-2894-3447
Address:
4F, No. 150, LI-TE RD., PEITOU,
TAIPEI 112, TAIWAN
Authorised representative
in Europe:
ASUS Computer GmbH
Address: HARKORT STR. 21-23, 40880
RATINGEN, GERMANY
BOGAZICI BIL GISAYAR SAN. VE TIC. A.S.
Authorised distributors
in Turkey:
Tel:
+90 212 3311000
Address:
AYAZAGA MAH. KEMERBURGAZ
CAD. NO.10 AYAZAGA/ISTANBUL
CIZGI Elektronik San. Tic. Ltd. Sti.
Tel:
+90 212 3567070
Address:
CEMAL SURURI CD. HALIM MERIC
IS MERKEZI
No: 15/C D:5-6 34394
MECIDIYEKOY/ISTANBUL
KOYUNCU ELEKTRONiK BiLGi iSLEM SiST.
SAN. VE DIS TIC. A.S.
Tel:
+90 216 5288888
Address:
EMEK MAH.ORDU CAD. NO:18,
SARIGAZi, SANCAKTEPE
ISTANBUL
AEEE Yönetmeliğine Uygundur.
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ASUS Wireless-N Adapter
USB-N10 Nano WLAN Adapter User Guide
1. Introduction
1.1 Package contents
Check your USB-N10 Nano package for the following items.
•
•
•
ASUS USB-N10 Nano x1
Support CD x1
•
•
Quick Start Guide x1
Warranty card x1
USB cable x1 or Cradle x1 (US SKU)
NOTE: If any of the above items is damaged or missing, contact your retailer
immediately.
1.2 System requirements
Before using the USB-N10 Nano, check if your system meets the following
requirements:
•
•
Windows® XP/ Vista/7
•
•
USB 2.0 for PC or Laptop
Optical disk drive
512MB system memory or larger
1.3 Hardware
Status indicator
LED
Link
Status Description
On
Solid light for 5 seconds means WPS connection is
established successfully.
Off
The WLAN adapter is disabled.
Blinking Data is being transmitted or received.
Blinking fast three times per second means the WPS function
is enabled. WPS connection is established in about two
minutes.
Enabling the WPS (for Windows® OS only)
To enable the WPS feature, you may either press the WPS button on the LAN card
or select Use the WPS button in the WLAN ’s web interface.
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2. Installing the USB-N10 Nano driver and
utilities
IMPORTANT: Install the ASUS USB-N10 Nano into your computer before
installing the driver and utilities from the bundled Support CD.
To install the driver and utilities for your ASUS USB-N10 Nano:
1. Place the bundled Support CD into the optical drive. An Autorun screen appears
if the Autorun function is enabled on your computer.
NOTE: If the Autorun function is not enabled on your computer, double-click
SETUP.EXE from the root directory to run the Support CD.
2. From the Autorun screen, select your 3. The InstallShield Wizard screen
language and click Install Utilities/
appears. Click Next to continue.
Driver.
5. Choose destination location.
4. Select Use ASUS WLAN utilities.
6. Click Install to start the installation.
7. Click Finish to complete the installation.
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3. Configuring USB-N10 Nano using ASUS utility
3.1 Connecting to a wireless network manually
To connect USB-N10 Nano to a station (Ad Hoc mode) manually:
2. You may click Survey > Search to
search for the wireless networks.
Select a network (AP from the
available network list) and then click
Connect.
1. Right-click the ASUS WLAN Adapter
Setting Utility icon in the Windows®
system tray, then select Wireless
Setting.
Setup is completed. The Status page
displays information such as the
association state, current data rate,
and radio state.
3. If Security is enabled on the AP or
station, do the same security settings
on your WLAN as those on the AP or
station. Click Save.
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3.2 Connecting to a wireless network using WPS
The ASUS USB-N10 Nano supports the WPS function that helps you set up a
secure wireless network easily.
IMPORTANT: Ensure that the AP or station you are trying to connect to
supports the WPS function.
To connect USB-N10 Nano to a WPS-enabled AP or station using the WPS push
button:
1. Click WPS.
2. Select Use the WPS button, then
click Next.
3. Press the WPS button on the AP
or station to establish a wireless
connection. Wait until your WLAN
adapter finishes scanning for the
network.
4. Click Finish.
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To connect USB-N10 Nano to a WPS-enabled AP or station using the PIN code:
1. Select Use PIN code.
2. Key in the eight-digit PIN code that
you can get from the AP's web user
interface, then click Next.
3. Click Finish.
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4. Software information
4.1 ASUS WLAN Adapter Setting Utility
ASUS WLAN Adapter Setting utility provides you with an easy interface to set up
wireless connections.
To launch WLAN utility, click Start > All Programs > ASUS Wireless LAN Card.
The system tray icon switches as is shown in the picture.
ASUS WLAN Adapter Setting
From the taskbar area, right-click the ASUS WLAN Adapter
Setting icon to display these options:
•
Wireless Settings - Launches the ASUS WLAN Setting
Utility.
•
•
Activate Configuration - Activates a preset profile.
Help - Launches the help file.
•
•
WPS - Launches the WPS wizard.
About Control Center - Displays the version of your Control Center.
•
Exit Control Center - Closes the ASUS WLAN Control Center.
From the taksbar area, left-click the ASUS WLAN Adapter Setting icon to display
these options:
•
•
•
Wireless Radio On - Turns the wireless signal ON.
Wireless Radio Off - Turns the wireless signal OFF.
Search & Connect - Displays the available wireless
networks.
Double-click the icon to launch the ASUS WLAN Setting utility.
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Survey
The Survey page displays the connection status and contains these information:
SSID - Displays the name of the wireless network that the WLAN adapter is
connecting to.
MAC Address - Indicates the hardware address of the WLAN adapter. A MAC
address is a unique identifier assigned to networking devices. It consists of six
groups of two hexadecimal digits (0 through 9 and A through F) separated by
colons, e.g. 00:E0:18:F0:05:C0.
Channel - Displays the channel of the wireless network.
Current Data Rate - Displays the current data transmission rate.
Network Type - Displays the WLAN adapter type such as infrastructure type.
Security - Displays the encryption of the wireless networks.
Search- Lists the wireless networks that the WLAN adapter is connecting to.
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Configuration - Basic
Network Type
Infrastructure - Select the Infrastructure
mode to establish a connection with an
AP.
Ad Hoc - Select the Ad Hoc mode to
communicate with a station. An Ad Hoc
network is formed quickly and easily
without pre-planning. For example, you can share meeting notes among
network computers in a meeting room.
Action mode name & Network Name (SSID) - Key in or select from the dropdown
list the SSID of an AP or station you are trying to connect to. An SSID must be valid
characters and have a maximum of 32 case sensitive characters, such as Wireless
LAN.
NOTE: Set the SSID to a null string if you want to allow your WLAN adapter to
connect to any AP it can find. You cannot use a null string in the Ad Hoc mode.
Channel - Select a radio channel for your WLAN adapter. In the Infrastructure
mode, your WLAN adapter automatically selects the correct channel required to
communicate with an AP and this field shows Auto. In the Ad Hoc mode, you are
allowed to select a channel for your WLAN adapter. WLAN adapter in the same
network can communicate with each other if they have the same channel setting.
The radio channels you can use depend on the regulations in your country. In the
United States (FCC) and Canada (IC), channels 1 to 11 are supported. In Europe
(ETSI), channels 1 to 13 are supported. In Japan (MKK), channels 1 to 14 are
supported.
Data Rate - Auto: The WLAN adapter adjusts to the most suitable transmission
rate automatically.
Others
Encryption - Launches the Encryption page.
Advanced - Launches the Advanced page. In most cases, you do not need to
change the default values.
Troubleshooting - Displays the troubleshooting solutions.
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Configuration - Encryption
The Encryption page allows you to set
up the encryption settings for your WLAN
adapter For data confidentiality in a wireless
environment, IEEE 802.11 specifies a Wired
Equivalent Privacy (WEP) algorithm to
offer transmission privacy similar to wired
network. WEP uses keys to encrypt data
packets sent and decrypt data packets
received. The encryption process can
scramble frame bits to avoid disclosure to others. Wi-Fi Protected Access (WPA) is
an improved security system for 802.11 that encrypts data sent over radio waves.
WPA is developed to overcome the weakness of the WEP protocol.
Network Authentication - Set up authentication for your WLAN adapter. Options
are:
Open - Sets the network in the Open System mode that disables authentication
protection for the network or use the WEP encryption for the network.
Shared - Sets the network in the Shared Key mode that uses the WEP
encryption for your network.
WPA-PSK/WPA2-PSK - Use the WPA Pre-Shared Key/WPA2 Pre-Shared Key
in the Infrastructure mode for authentication.
Data Encryption - In the Open and Shared authentication modes, options are:
Disabled and WEP.
Disabled - Disables the encryption protection for your WLAN adapter.
WEP - Encrypts the data before it is transmitted over the air. You can
communicate with wireless devices that use the same WEP keys.
In the WPA-PSK and WPA2-PSK authentication modes, options are: Temporal Key
Integrity Protocol (TKIP) and Advanced Encryption Standard (AES).
TKIP - Dynamically generates unique keys to encrypt data packet.
AES - Offers stronger protection and increases the complexity of wireless
encryption. It is a symmetric 128-bit block encryption method that works
simultaneously on multiple network layers.
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Wireless Network Key (WEP) - This option becomes configurable when you
select WEP in the Data encryption field. 64-bit WEP key uses 5 ASCII characters
(10 hexadecimal digits). 128-bit WEP key uses 13 ASCII (26 hexadecimal digits).
Key Format - Allows you to select the key format.
Key Length - Allows you to select the key length. For 64bits encryption, each
key consists of 10 hexadecimal digits or 5 ASCII characters. For 128bits
encryption, each key consists of 26 hexadecimal digits or 13 ASCII characters.
Select one as your Default Key - Allows you to select one of the four WEP
Keys as the default key.
Configuration - Advanced
TheAdvancedpageisintendedforexperienced
users to set up additional parameters for the
WLAN adapter. We recommend that you keep
the default values.
RTS Threshold (0-2347) - The Request to
Send/Clear to Send (RTS/CTS) function is
used to minimize collisions among wireless
stations. When RTS/CTS is enabled, the router
refrains from sending a data frame until another RTS/CTS handshake is completed.
Enable RTS/CTS by setting a specific packet size threshold. The default value (2347)
is recommended.
Fragmentation Threshold (256-2346) - Fragmentation is used to divide 802.11
frames into smaller pieces (fragments) that are sent separately to the destination.
Enable fragmentation by setting a specific packet size threshold. If there is an
excessive number of collisions on the WLAN , experiment with different fragmentation
values to increase the reliability of frame transmissions. The default value (2346) is
recommended for normal use.
Preamble Mode - Select the preamble mode. The default value is Auto.
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5. Configuring USB-N10 Nano using Windows®
WZC service
To connect your USB-N10 Nano to a wireless network using Windows® WZC
service:
1. From the taskbar area, left-click the
ASUS WLAN Control Center icon,
then click Exit. ASUS WLAN Control
Center will be switched off.
Click Windows Wireless to use it.
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6. Troubleshooting
This chapter provides solutions to problems which you may encounter when
installing or using the ASUS USB-N10 Nano. Contact a qualified service
technician for assistance if the problem still exists after you have performed the
troubleshooting solutions.
My WLAN adapter cannot connect to any Access Points.
•
Check if Network Type is set to the Infrastructure mode.
•
Check if the SSID of your WLAN adapter is the same as that of the access point
you want to connect to.
•
Check if the Encryption settings of your WLAN adapter are the same as those
of the access point you want to connect to.
My WLAN adapter cannot connect to a station or WLAN adapter.
•
•
Check if Network Type is set to the Ad Hoc mode.
Check if the SSID of your WLAN adapter is the same as that of the station or the
WLAN adapter you want to connect to.
•
•
Check if the Channel of your WLAN adapter is the same as that of the station or
the WLAN adapter you want to connect to.
Check if the Encryption settings of your WLAN adapter are the same as those
of the station or the WLAN adapter you want to connect to.
The connection quality is bad and the signal strength is weak.
•
Keep your WLAN adapter away from microwave ovens and large metal objects
to avoid radio interference. Adjust the WLAN adapter antenna.
•
Move your WLAN adapter closer to the access point, station, or WLAN adapter
you want to connect to.
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7. Glossary
Access Point (AP)
A 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).
Basic Rate Set
This option allows you to specify the data transmission rate.
Basic Service Area (BSS)
A set of stations controlled by a single coordination function.
Broadband
A type of data transmission in which a single medium (such as cable) carries
several channels of data at once.
Channel
An instance of medium use for the purpose of passing protocol data units that
may be used simultaneously, in the same volume of space, with other instances
of medium use (on other channels) by other instances of the same physical layer,
with an acceptably low frame error ratio due to mutual interference.
Client
A client is the desktop or mobile PC that is connected to your network.
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COFDM (for 802.11a or 802.11g)
Signal power alone is not enough to maintain 802.11b-like distances in an
802.11a/g environment. To compensate, a new physical-layer encoding technology
was designed that departs from the traditional direct-sequence technology being
deployed today. This technology is called COFDM (coded OFDM). COFDM was
developed specifically for indoor wireless use and offers performance much
superior to that of spread-spectrum solutions. COFDM works by breaking one
high-speed data carrier into several lowerspeed subcarriers, which are then
transmitted in parallel. Each high-speed carrier is 20MHz wide and is broken
up into 52 subchannels, each approximately 300KHz 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 300KHz wide. At the
low end of the speed gradient, BPSK (binary phase shift keying) is used to
encode 125Kbps of data per channel, resulting in a 6,000Kbps, or 6Mbps, data
rate. Using quadrature phase shift keying, you can double the amount of data
encoded to 250Kbps per channel, yielding a 12Mbps data rate. And by using
16-level quadrature amplitude modulation encoding 4bits per hertz, you can
achieve a data rate of 24Mbps. The 802.11a/g standard specifies that all 802.11a/
g-compliant products must support these basic data rates. The standard also lets
the vendor extend the modulation scheme beyond 24Mbps. Remember, the more
bits per cycle (hertz) that are encoded, the more susceptible the signal will be to
interference and fading, and ultimately, the shorter the range, unless power output
is increased.
Default Key
This option allows you to select the default WEP key. This option allows you to
use WEP keys without having to remember or write them down. The WEP keys
generated using the Pass Phrase is compatible with other WLAN products. The
Pass Phrase option is not as secure as manual assignment.
Device Name
Also known as DHCP client ID or network name. Sometimes provided by an ISP
when using DHCP to assign addresses.
DHCP (Dynamic Host Configuration Protocol)
This protocol allows a computer (or many computers on your network) to be
automatically assigned a single IP address from a DHCP server.
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DNS Server Address (Domain Name System)
DNS allows Internet host computers to have a domain name and one or more IP
addresses. A DNS server keeps a database of host computers and their respective
domain names and IP addresses, so that when a user enters a domain name into
the Internet browser, the user is sent to the proper IP address. The DNS server
address used by the computers on your home network is the location of the DNS
server your ISP has assigned.
DSL Modem (Digital Subscriber Line)
A DSL modem uses your existing phone lines to transmit data at high speeds.
Direct-Sequence Spread Spectrum (for 802.11b)
Spread spectrum (broadband) uses a narrowband signal to spread the transmission
over a segment of the radio frequency band or spectrum. 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.
Wireless mobile clients receiving a direct-sequence transmission use the spreading
code to map the chips within the chipping sequence back into bits to recreate the
original data transmitted by the wireless device. Intercepting and decoding a direct-
sequence transmission requires a predefined algorithm to associate the spreading
code used by the transmitting wireless device to the receiving wireless mobile
client.
This algorithm is established by IEEE 802.11b specifications. The bit redundancy
within the chipping sequence enables the receiving wireless mobile client to
recreate the original data pattern, even if bits in the chipping sequence are
corrupted by interference. The ratio of chips per bit is called the spreading ratio.
A high spreading ratio increases the resistance of the signal to interference. A
low spreading ratio increases the bandwidth available to the user. The wireless
device uses a constant chip rate of 11Mchips/s for all data rates, but uses different
modulation schemes to encode more bits per chip at the higher data rates. The
wireless device is capable of an 11 Mbps data transmission rate, but the coverage
area is less than a 1 or 2 Mbps wireless device since coverage area decreases as
bandwidth increases.
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Encryption
This provides wireless data transmissions with a level of security. This option
allows you to specify a 64-bit or a 128-bit WEP key. A 64-bit encryption contains
10 hexadecimal digits or 5 ASCII characters. A 128-bit encryption contains 26
hexadecimal digits or 13 ASCII characters.
64-bit and 40-bit WEP keys use the same encryption method and can interoperate
on wireless networks. This lower level of WEP encryption uses a 40-bit (10
hexadecimal digits assigned by the user) secret key and a 24-bit Initialization
Vector assigned by the device. 104-bit and 128-bit WEP keys use the same
encryption method.
All wireless clients in a network must have identical WEP keys with the access
point to establish connection. Keep a record of the WEP encryption keys.
Extended Service Set (ESS)
A set of one or more interconnected basic service set (BSSs) and integrated local
area networks (LANs) can be configured as an Extended Service Set.
ESSID (Extended Service Set Identifier)
You must have the same ESSID entered into the gateway and each of its wireless
clients. The ESSID is a unique identifier for your wireless network.
Ethernet
The most widely used LAN access method, which is defined by the IEEE 802.3
standard. Ethernet is normally a shared media LAN meaning all devices 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.
Gateway
A network point that manages all the data traffic of your network, as well as to the
Internet and connects one network to another.
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ICS
ICS is used to share one computer’s Internet connection with the rest of the
computers on your network. When this computer is connected to the Internet, all
the communications to and from the Internet on your network are sent through this
computer which is called the host computer. The rest of the computers can send
and receive e-mail messages and access the web as if it were connected directly
to the Internet.
IEEE
The Institute of Electrical and Electronics Engineers. The IEEE sets standards
for networking, including Ethernet LANs. IEEE standards ensure interoperability
between systems of the same type.
IEEE 802.11
IEEE 802.xx is a set of specifications for LANs from the Institute of Electrical
and Electronic Engineers (IEEE). Most wired networks conform to 802.3, the
specification for CSMA/CD based Ethernet networks or 802.5, the specification for
token ring networks. 802.11 defines the standard for wireless LANs encompassing
three incompatible (non-interoperable) technologies: Frequency Hopping Spread
Spectrum (FHSS), Direct Sequence Spread Spectrum (DSSS), and Infrared. 802.11
specifies a carrier sense media access control and physical layer specifications for
1 and 2 Mbps wireless LANs.
IEEE 802.11a (54Mbits/sec)
Compared with 802.11b: The 802.11b standard was designed to operate in the
2.4GHz ISM (Industrial, Scientific and Medical) band using direct-sequence
spreadspectrum technology. The 802.11a standard, on the other hand, was
designed to operate in the more recently allocated 5-GHz UNII (Unlicensed
National Information Infrastructure) band. And unlike 802.11b, the 802.11a standard
departs from the traditional spread-spectrum technology, instead using a frequency
division multiplexing scheme that’s intended to be friendlier to office environments.
The 802.11a standard, which supports data rates of up to 54 Mbps, is the Fast
Ethernet analog to 802.11b, which supports data rates of up to 11 Mbps. Like
Ethernet and Fast Ethernet, 802.11b and 802.11a use an identical MAC (Media
Access Control). However, while Fast Ethernet uses the same 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.
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The 802.11a standard gains some of its performance from the higher frequencies
at which it operates. The laws of information theory tie frequency, radiated power
and distance together in an inverse relationship. Thus, moving up to the 5GHz
spectrum from 2.4GHz will lead to shorter distances, given the same radiated
power and encoding scheme.
802.11a is a standard for access points and radio
Compared with 802.11g:
NICs that is ahead of 802.11g in the market by about six months. 802.11a operates
in the 5GHz frequency band with twelve separate non-overlapping channels. As
a result, you can have up to twelve access points set to different channels in the
same area without them interfering with each other. This makes access point
channel assignment much easier and significantly increases the throughput the
wireless LAN can deliver within a given area. In addition, RF interference is much
less likely because of the less-crowded 5GHz band.
IEEE 802.11b (11Mbits/sec)
In 1997, the Institute of Electrical and Electronics Engineers (IEEE) adopted the
802.11 standard for wireless devices operating in the 2.4 GHz frequency band.
This standard includes provisions for three radio technologies: direct sequence
spread spectrum, frequency hopping spread spectrum, and infrared. Devices that
comply with the 802.11 standard operate at a data rate of either 1 or 2 Mbps.
In 1999, the IEEE created the 802.11b standard. 802.11b is essentially identical
to the 802.11 standard except 802.11b provides for data rates of up to 11Mbps for
direct sequence spread spectrum devices. Under 802.11b, direct sequence devices
can operate at 11Mbps, 5.5Mbps, 2Mbps, or 1Mbps. This provides interoperability
with existing 802.11 direct sequence devices that operate only at 2Mbps.
Direct sequence spread spectrum devices spread a radio signal over a range of
frequencies. The IEEE 802.11b specification allocates the 2.4GHz frequency band
into 14 overlapping operating Channels. Each Channel corresponds to a different
set of frequencies.
IEEE 802.11g
802.11g is a new extension to 802.11b (used in 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. In this environment, the access
point not only provides communication with the wired network but also mediates
wireless network traffic in the immediate neighborhood.
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IP (Internet Protocol)
The TCP/IP standard protocol that defines the IP datagram as the unit of
information passed across an Internet and provides the basis for connectionless
packet delivery service. IP includes the ICMP control and error message protocol
as an integral part. It provides the functional equivalent of ISO OSI Network
Services.
IP Address
An IP address is a 32-bit number that identifies each sender or receiver of
information that is sent across the Internet. An IP address has two parts: the
identifier of a particular network on the Internet and an identifier of the particular
device (which can be a server or a workstation) within that network.
ISM Bands (Industrial, Scientific, and Medicine Bands)
Radio frequency bands that the Federal Communications Commission (FCC)
authorized for wireless LANs. The ISM bands are located at 902MHz, 2.400GHz,
and 5.7GHz.
ISP (Internet Service Provider)
An organization that provides access to the Internet. Small ISPs provide service
via modem and ISDN while the larger ones also offer private line hookups (T1,
fractional T1, etc.).
LAN (Local Area Network)
A communications network that serves users within a defined geographical area.
The benefits include the sharing of Internet access, files and equipment like
printers and storage devices. Special network cabling (10 Base-T) is often used to
connect the PCs together.
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. This will
enable access to the Internet from any computer on your home network without
having to purchase more IP addresses from your ISP.
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NIC (Network Interface Card)
A network adapter inserted into a computer so that the computer can be connected
to a network. It is responsible for converting data from stored in the computer to
the form transmitted or received.
Packet
A basic message unit for communication across a network. A packet usually
includes routing information, data, and sometimes error detection information.
Pass Phrase
The Wireless Settings utility uses an algorithm to generate four WEP keys based
on the typed combination.
PCMCIA (Personal Computer Memory Card International Association)
The Personal Computer Memory Card International Association (PCMCIA),
develops standards for PC cards, formerly known as PCMCIA cards. These cards
are available in three types, and are about the same length and width as credit
cards. However, the different width of the cards ranges in thickness from 3.3 mm
(Type I) to 5.0 mm (Type II) to 10.5 mm (Type III). These cards can be used for
various functions, including memory storage, land line modems and wireless
modems.
PPP (Point-to-Point Protocol)
PPP is a protocol for communication between computers using a serial interface,
typically a personal computer connected by phone line to a server.
PPPoE (Point-to-Point Protocol over Ethernet)
Point-to-Point Protocol is a method of secure data transmission. PPP using
Ethernet to connect to an ISP.
Preamble
Allows you to set the preamble mode for a network to Long, Short, or Auto. The
default preamble mode is Long.
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Radio Frequency (RF) Terms: GHz, MHz, Hz
The international unit for measuring frequency is Hertz (Hz), equivalent to the
older unit of cycles per second. One megahertz (MHz) is one million Hertz. One
gigahertz (GHz) is one billion Hertz. The standard US electrical power frequency is
60Hz, the AM broadcast radio frequency band is 0.55-1.6MHz, the FM broadcast
radio frequency band is 88-108MHz, and wireless 802.11 LANs operate at 2.4GHz.
SSID (Service Set Identifier)
SSID is a group name shared by every member of a wireless network. Only client
PCs with the same SSID are allowed to establish a connection. Enabling the
Response to Broadcast SSID requests option allows the device to broadcast
its SSID in a wireless network. This allows other wireless devices to scan and
establish communication with the device. Unchecking this option hides the SSID to
prevent other wireless devices from recognizing and connecting to the device.
Station
Any device containing IEEE 802.11 wireless medium access conformity.
Subnet Mask
A subnet mask is a set of four numbers configured like an IP address. It is used to
create IP address numbers used only within a particular network.
TCP (Transmission Control Protocol)
The standard transport level protocol that provides the full duplex, stream service
on which many application protocols depend. TCP allows a process or one
machine to send a stream of data to a process on another. Software implementing
TCP usually resides in the operating system and uses the IP to transmit information
across the network.
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 prod WPA (Wi-Fi Protected Access)
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WPA (Wi-Fi Protected Access)
Wi-Fi Protected Access (WPA) is an improved security system for 802.11. It is part
of the 802.11i draft security standard. WPA encompasses TKIP (Temporal Key
Integrity Protocol) along with MIC (Message Integrity Check) and other fixes to
WEP such as Weak IV (Initialization Vector) filtering and Random IV generation.
TKIP uses 802.1x to deploy and change temporary keys as opposed to static
WEP keys once used in the past. It is a significant improvement over WEP. WPA
is part of a complete security solution. WPA also requires authentication servers in
enterprise security solutions.
Requirements
(1) A WPA compatible Access Point or Wireless router, (2) Operating system
updates that support WPA. In XP, an updated Windows Zero Config service is
needed. Users can download the Windows XP WPA patch here:
ABEC-274845DC9E91&displaylang=en
Please note that this patch requires the installation Windows XP Service Pack 1,
servicepacks/sp1/default.asp
For earlier Windows Operating systems, a WPA capable supplicant is required
such as Funk Software’s Odyssey Client.
WLAN (Wireless Local Area Network)
This is a group of computers and other devices connected wirelessly in a small
area. A wireless network is referred to as LAN or WLAN .
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