Wistron NeWeb DCMA82 High Powered 802.11a/g WLAN Mini-PCI 3A User Manual rev3

Wistron NeWeb Corporation High Powered 802.11a/g WLAN Mini-PCI 3A rev3

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WLAN 802.11a/b/g mini-PCI Module
User Manual
(DCMA-82)
Version: 1.0
Nov. 2006
Copyright Statement
No part of this publication may be reproduced, stored in a retrieval system, or
transmitted in any form or by any means, whether electronic, mechanical,
photocopying, recording or otherwise without the prior writing of the publisher.
Windows™ 98SE/2000/ME/XP are trademarks of Microsoft® Corp.
Pentium is trademark of Intel.
All copyright reserved.
DCMA-82 Compliances
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 users authority to operate this equipment. This device complies with Part15 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.
IEEE 802.11 b or 802.11 g operation of this product in the U.S.A. is firmware‐limited to channels 1
through 11.
IMPORTANT NOTE: FCC Radiation Exposure Statement:
This equipment complies with FCC 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. This transmitter must not be co‐located or operating in conjunction with any other antenna
or transmitter. The availability of some specific channels and/or operational frequency bands is country
dependent and is firmware programmed at the factory to match the intended destination. The firmware
setting is not accessible by the end user.
Wireless 5 GHz Band Statements:
As the Access Point can operate in the 5150‐5250 MHz frequency band it is limited by the FCC to indoor
use only so as to reduce the potential for harmful interference to co‐channel Mobile Satellite systems.
High power radars are allocated as primary users (meaning they have priority) of the 5250‐5350 MHz
and 5650‐5850 MHz bands. These radars could cause interference and /or damage to the access point
when used in Canada.
Wireless 4.9 GHz Band Statements: (please refer to Appendix B for detailed
limitation)
Installation and operation requires an approved license from the FCC.
This device is intended only for OEM integrators under the following
conditions:
1) The antenna must be installed such that 20 cm is maintained between the antenna
and users, and
2)
The transmitter module may not be co‐located with any other transmitter or
antenna,
3)
For all products market in US, OEM has to limit the operation channels in CH1 to
CH11 for 2.4G bands by supplied firmware programming tool. OEM shall not
supply any tool or info to the end‐user regarding to Regulatory Domain change.
4)
Due to the involvement of FCC part 90(Y) 4.9G safety band operation, the end
product must be professional installed and can not be marketed to the general
public.
As long as 4 conditions above are met, further transmitter test will not be required. However, the OEM
integrator is still responsible for testing their end‐product for any additional compliance requirements
required with this module installed (for example, digital device emissions, PC peripheral requirements,
etc.).
IMPORTANT NOTE:
In the event that these conditions can not be met (for example certain laptop configurations or
co‐location with another transmitter), then the FCC authorization is no longer considered valid and the
FCC ID can not be used on the final product. In these circumstances, the OEM integrator will be
responsible for re‐evaluating the end product (including the transmitter) and obtaining a separate FCC
authorization.
End Product Labeling
This transmitter module is authorized only for use in device where the antenna may be installed such
that 20 cm may be maintained between the antenna and users. The final end product must be labeled in
a visible area with the following: “Contains FCC ID: NKRDCMA82”.
Manual Information To the End User
The OEM integrator has to be aware not to provide information to the end user
regarding how to install or remove this RF module in the user’s manual of the end
product that integrates this module. The end user manual shall include all
required regulatory information/warning as show in this manual.
4
Table of Contents
1. INTRODUCTION
1.1 SYSTEM REQUIREMENTS .........................................................................................6
1.2 FEATURES.................................................................................................................6
2. DRIVER/UTILITY INSTALLATION / UNINSTALLATION 7
2.1 INSTALLATION..........................................................................................................7
2.2 ADDITIONAL SETUP PROCESSES ............................................................................10
2.3 UNINSTALLATION ................................................................................................... 11
3. CONNECTING TO AN EXISTING NETWORK 12
4. CREATING AN AD HOC NEW NETWORK 17
5. MODIFYING A WIRELESS NETWORK
20
5.1 INFRASTRUCTURE MODE AND AD HOC MODE .....................................................20
5.2 MODIFYING A WIRELESS NETWORK .....................................................................21
5.3 DEFAULT SETTINGS WINDOWS XP ZERO-CONFIGURATION ................................28
5.4 SUPER A/G SETTING ..............................................................................................28
APPENDIX A: FAQ ABOUT WLAN
29
SPECIFICATION 31
APPENDIX B: Wireless 4.9GHz Band Statements 35
Notes: Professional Installation Guidelines 42
1. Introduction
Thank you for purchasing the WLAN 802.11a/b/g mini-PCI Module that provides the
easiest way to wireless networking. This User Manual contains detailed instructions in
the operation of this product. Please keep this manual for future reference.
1.1 System Requirements
ƒ
ƒ
A laptop PC contains:
- 32 MB memory or greater
- 300 MHz processor or higher
Microsoft® Win™2000/ME/98 Second Edition/XP
1.2 Features
ƒ
ƒ
Mini-PCI adapter, half size design
IEEE 802.11a/b/g compatible: allowing inter-operation among multiple
vendors
ƒ
ƒ
Support Atheros Super A/GTM Mode
Provide seamless roaming within the IEEE 802.11 a/b/g WLAN
infrastructure
Site survey function
ƒ
2. Driver/Utility Installation / Uninstallation
2.1 Installation
Note! The Installation Section in this User Manual describes the first-time installation
for Windows. To re-install the driver, please first uninstall the previously
installed driver. See Chapter 2.3 “Uninstallation” in this User Manual.
Follow the steps below to complete the driver/utility installation:
1. Insert the Installation Software CD into the CD-Rom Drive.
2. Click “Next”.
3. Read the License Agreement and click “Yes”.
4. Click “Next” to continue or click “Browse” to choose a destination folder.
5. Click “Next”.
6. Click “Yes” to create a shortcut icon on your desktop.
7. Click “Finish”.
8. You should now see a shortcut icon on your desktop.
2.2 Additional Setup Processes
During software installation procedure, each operating system may prompt different
specific options:
1. Windows 98SE: The system will request the original Windows CD during the
installation process. When the installation is finished, you’ll have to restart your
computer.
2. Windows Me: Please restart your computer when the installation is finished.
3. Windows 2000/XP: Select “Install the software automatically” when the window
with this option appears, and then click “Next” to continue installation.
10
2.3 Uninstallation
Note! Before uninstallation, please close all running programs.
1. Click Start>Programs>WLAN a+b+g mini-PCI Module >UnInstall WLAN a+b+g
mini-PCI Module.
2. Choose “Remove”. Click “Next”.
3. Click “OK” to start Uninstall.
4. Click “Finish”.
Uninstall is now completed.
11
3. Connecting to an Existing Network
1. Double click the shortcut icon of WLAN a+b+g mini-PCI Module on the desktop,
and the Configuration window appears.
2. Click on the Refresh button
to list all available networks.
12
Note! To automatically connect to the network with the strongest signal, select
Enable Smart Selection. Any displays in Profile List.
3. From the list of “Available Networks”, choose one network by double clicking the
Network Name. One of the following dialog boxes appears. Click “Yes” to
continue.
4. If the chosen network has security enabled, the Security tab displays. Select the
security option used by the network. Contact the network administrator for the
correct settings.
13
5.
If selecting WPA or 802.1X, select the EAP type, then click on the Configure
button to select the certificate.
6. If selecting WPA-PSK, click on the Configure button to enter the PassPhrase.
14
7.
If selecting Pre-Shared Key, click on the Configure button to enter the correct
Encryption Keys.
Key entry method:
a.10hex digits: User must enter 10 hexadecimal digits.
The hexadecimal define is "0-9" and "A-F".
ex: 123456abc
b.5 chars: User must enter 5 characters. ex: ab3#@
c.13 chars: User must enter 13 characters.
ex: ab3#@kf08&kdk
d.16 chars: User must enter 16 characters.
ex: ab3#@kf08&kdk456
For WEP key, please contact with MIS administrator.
8. Click on OK (or Apply if using the other tabs) when done to save the settings.
9. Once connected (the icon
or
in front of the name of the Connected
Network), you can check the signal strength from the icon
in the Windows
System Tray.
15
Additional Note for Windows XP
In Windows XP, it is recommended that you use the WLAN a+b+g mini-PCI Module
Configuration Utility. Before using the Utility, please follow the steps below to
disable the Windows XP Zero Configuration:
Option 1:
1. Double click the shortcut icon to open the Utility.
2. From the Windows System Tray, you should see the signal icon. Right-click it
and select “Disable Zero-Configuration”.
Option 2:
1. Go to “Control Panel” and double click “Network Connections”.
2. Right-click “Wireless Network Connection” of “WLAN a+b+g mini-PCI Module”,
and select “Properties”.
3. Select “Wireless Networks” tab, and uncheck the check box of “Use Windows to
configure my wireless network settings”, and then click “OK”.
16
4. Creating an Ad Hoc New Network
1. In the Configuration window, click New
2. Select the “Profile Editor” tab.
17
3. Choose the check box of Enable Advanced Setting to edit all settings.
4. If joining or creating an Ad-Hoc network, choose Ad Hoc.
5. If the correct country is not selected, select the country where the computer is
located.
ALERT! Different countries have different regulations that affect which channels
can be used. You should always choose the country where you are physically
located to avoid using an illegal channel.
6. Click OK (or Apply if using the other tabs) to save the settings.
For details of each setting, refer to Modifying a Wireless Network on page 20.
7. Click the Security tab. If not using security, select None.
8.
If security is used, select Pre-Shared Key and click on the Configure button.
18
9. Enter an encryption key in the Shared: First field.
10. Click OK (or Apply if using the other tabs) to save the settings. The new
Network Name is listed in the Profile List.
The driver does not allow channel selection in Ad-Hoc mode. Instead, the driver
starts with an initial channel then checks channel status. If the channel is busy, the
driver automatically uses a different channel.
For details of each setting, please see chapter 5.
19
5. Modifying a Wireless Network
5.1 Infrastructure Mode and Ad Hoc Mode
You can set the Wireless Network Adapter to work in either Infrastructure mode or
Ad Hoc mode.
Infrastructure Mode
In infrastructure mode, devices communicate with each other by first going through
an Access Point (AP). Wireless devices can communicate with each other or can
communicate with a wired network. When one AP is connected to wired network
and a set of wireless stations, it is referred to as a BSS (Basic Service Set).
Ad Hoc Mode
Ad-hoc mode is also called “peer-to-peer mode” or “Independent Basic Service Set
(IBSS)”. In ad hoc mode, devices communicate directly with each other without
using an Access Point (AP).
20
5.2 Modifying a Wireless Network
1. Open “WLAN a+b+g mini-PCI Module Configuration” by double clicking the
shortcut icon on the desktop.
Note! If there’s no network name listed in the “Profile List”, click Refresh
button and double click a Network Name from Available Networks.
The chosen Network Name is listed in the Profile List.
2. From the Profile List, select one Profile and click Modify button
21
3. Select Profile Editor tab and edit the settings. Click OK to save the
modifications.
„
Configuration Name: This name identifies the configuration. This name
should be unique.
„
Network Name (SSID1) (SSID2) (SSID3): The name of the wireless
network. This name cannot be longer than 32 characters. If the field is
set to be “ANY” or is left blank, your computer will connect to an AP with
the best signal strength.
„
Network Connection: Specifies the mode of the network. Two options
are “Infrastructure” and “Ad Hoc”.
„
Power Saving: Minimizes power consumption while maintaining network
connectivity and high data transfer performance. In Ad Hoc mode, Power
Savings function cannot be enabled. The power management options are:
• Off: PC Card is powered up at all times.
• Normal: PC Card sleeps less often and stays asleep for a shorter period.
• Maximum: PC Card sleeps more frequently and stays asleep as much as
possible.
„
Wireless Mode: Three options are “802.11b”, “802.11a”, “802.11g”,
22
“Super A”, “Super G” or “Auto”. “Auto” allows the use of either 802.11a,
802.11g or 802.11b mode.
„
Ad Hoc Net Start: Specifies a band to establish an Ad Hoc network if no
matching SSID is found. Four options are available: 802.11b, 802.11a,
802.11aTurbo and 802.11g.
„
802.11b Range: Options are Normal Range and Extended Range. This
function can let user to determine the transfer range in 802.11b mode.
Extended Range can prolong the transfer range with a lower data
transmitting rate.
„
Scan Mode: Options are Active Scan, Passive Scan and Auto. In Active
Scan, the driver sends out the probe request frames from each channel and
collects the response frames from the responding. In Passive Scan, the
driver scan each requested channel, listening the beacons on each channel.
„
Transmit Power: This setting allows you to change the output power of the
PC Card to increase or decrease the coverage area.
„
QoS: Disables or enables the PC Card to cooperate in a network using QoS
(Quality of Service).
„
Country: Select the country where this PC Card will operate.
ALERT! Different countries have different regulations that affect which
channels can be used. You should always choose the country where you are
physically located to avoid using an illegal channel.
„
2.4 GHz Preamble: Allows Ad-Hoc compatibility with other 2.4 GHz
devices. Two options are Short and Long and Long only. Use Long Only
when configuring the client for an 802.11b RoamAbout AP wireless
network.
23
4. Select Security tab and choose the security mode.
Note! Check with your Network Administrator for the security features supported
by your AP.
„
WPA: Enables the use of WiFi protected Access (WPA). This option
requires IT administration.
a) Select WPA to open the WPA EAP drop-down menu. The options
includes TLS and PEAP.
b) Click on the Configure button and complete the configuration
information in the Define Certificate dialog.
„
WPA-PSK: Enables the WPA-Pre Shared Key (PSK). Click on the
Configure button and complete the configuration information in the WPA
Passphrase dialog.
„
802.1x: Enables 802.1x security. This option requires IT administration.
a) Select 802.1x to open the 802.1x EAP drop-down menu. The options
include TLS and PEAP.
b) Click on the Configure button and complete the configuration
information in the Define Certificate dialog.
24
„
Pre-Shared Key: Enables the use of pre-shared keys that are defined on the
AP and the station.
a) Select the Pre-Shared Key radio button.
b) Click on the Configure button and complete the configuration
information in the Define Certificate dialog.
„
5.
None: No security.
Define the Certificate.
„
Select a Certificate: Select the Certificate to Authenticate to the RADIUS
server from the drop-down menu.
„
Use any Certificate Authority: The Default Setting. Select this radio
button to use any Certificate Authority (CA) for authentication.
„
Choose a Certificate Authority: Select this radio button to choose the
desired Certificate Authority for authentication from the drop-down menu.
„
Server/Domain Name: The the RADIUS server name or the domain name
used for the network access.
„
„
Login Name: The username used to log into the server or domain.
Define User Information (PEAP): Click on the Define User Information
button and complete the configuration information in the Define User
Information dialog.
25
6. If selecting WPA-PSK, click on the Configure button to enter the PassPhrase.
The PassPhrase must be a minimum of 8 printable ASCII characters. The
PassPhrase should be at least 20 characters to make it more difficult for an
attacker to decipher the key.
7. If selecting Pre-Shared Key, click on the Configure button to enter the
Encryption Keys.When finished, click OK. For WEP key, please contact with
MIS administrator.
„
Key Entry Method: Determines the entry method for the key. Hexadecimal
(0-9, A-F) or ASCII text (all keyboard characters).
„
Default Encryption Key: Allows you to choose one encryption key (First,
Second, Third, or Fourth) as the transmit key, which encrypts transmissions
from the PC Card.
„
Unique Key: Defines the per-session encryption key for the current network
configuration. Not used in Ad-Hoc mode.
„
Shared Keys: Use these fields to enter the wireless network’s encryption keys.
The keys must be in the correct position (First, Second, Third, or Fourth).
„
Key Length: Defines the length of each encryption key.
o For 40/64 bit (enter 10 digits for hexadecimal or 5 characters for ASCII)
o For 104/128 bit (Enter 26 digits for hexadecimal or 13 characters for ASCII)
26
When the length is changed, the number of available characters in the field
automatically changes. If a previously entered key is too long, the key is
automatically truncated to fit. If the key length is increased again, the key does
not update to the previous value.
8. Click OK to save the settings.
9. Select “TCP/IP Property” tab. Enter the settings and click “OK” to save the
settings.
„
„
If the network uses DHCP server, choose Obtain an IP address automatically.
If the network does not use DHCP server, choose Use the following IP address
to set the relative settings. For the IP configuration information, please contact
the network administrator.
27
5.3 Default Settings Windows XP Zero-Configuration
You may also choose the default parameters and directly proceed to Windows XP
zero-configuration through the steps below:
1. Go to “Control Panel” and open “Network Connections”.
2. Right-click the Wireless Network Connection of “WLAN a+b+g mini-PCI
Module”, and make sure this connection is Enabled.
3. Right-click the Wireless Network Connection of “WLAN a+b+g mini-PCI
Module”, and then click “Properties”.
4. Select “Wireless Networks” tab and select “Use Windows to configure my
wireless network settings” check box.
Note! Clear the check box of “Use Windows to configure my wireless network
settings” will disable automatic wireless network configuration.
5.4 Super A/G Setting
The Super A/G features do not require station configuration as the command are
handled during auto-negotiation.
1. User can double click the AP that set in Super A/G mode in the site survey list, the
configuration tool would auto connect to that AP.
2. User can manually create a new profile, and then modify the profile setting by
changing the “wireless Mode” to “Super A” or “Super G”.
28
Appendix A: FAQ about WLAN
1. Can I run an application from a remote computer over the wireless network?
This will depend on whether or not the application is designed to be used over a
network. Consult the application’s user guide to determine whether it supports
operation over a network.
2. Can I play computer games with other members of the wireless network?
Yes, as long as the game supports multiple players over a LAN (local area network).
Refer to the game’s user guide for more information.
3. What is Spread Spectrum?
Spread Spectrum technology is a wideband radio frequency technique developed by
the military for use in reliable, secure, mission-critical communications systems. It is
designed to trade off bandwidth efficiency for reliability, integrity, and security. In
other words, more bandwidth is consumed than in the case of narrowband
transmission, but the trade-off produces a signal that is, in effect, louder and thus
easier to detect, provided that the receiver knows the parameters of the
spread-spectrum signal being broadcast. If a receiver is not tuned to the right
frequency, a spread-spectrum signal looks like background noise. There are two main
alternatives, Direct Sequence Spread Spectrum (DSSS) and Frequency Hopping
Spread Spectrum (FHSS).
4. What is DSSS? What is FHSS? And what are their differences?
Frequency-Hopping Spread-Spectrum (FHSS) uses a narrowband carrier that changes
frequency in a pattern that is known to both transmitter and receiver. Properly
synchronized, the net effect is to maintain a single logical channel. To an unintended
receiver, FHSS appears to be short-duration impulse noise. Direct-Sequence
Spread-Spectrum (DSSS) generates a redundant bit pattern for each bit to be
transmitted. This bit pattern is called a chip (or chipping code). The longer the chip,
the greater the probability that the original data can be recovered. Even if one or more
bits in the chip are damaged during transmission, statistical techniques embedded in
the radio can recover the original data without the need for retransmission. To an
unintended receiver, DSSS appears as low power wideband noise and is rejected
(ignored) by most narrowband receivers.
5. Would the information be intercepted while transmitting on air?
WLAN features two-fold protection in security. On the hardware side, as with Direct
29
Sequence Spread Spectrum technology, it has the inherent security feature of
scrambling. On the software side, WLAN offers the encryption function (WEP) to
enhance security and access control.
6. What is WEP?
WEP is Wired Equivalent Privacy, a data privacy mechanism based on a 64-bit or
128-bit shared key algorithm, as described in the IEEE 802.11 standard.
7. What is infrastructure mode?
When a wireless network is set to infrastructure mode, the wireless network is
configured to communicate with a wired network through a wireless access point.
8. What is roaming?
Roaming is the ability of a portable computer user to communicate continuously
while moving freely throughout an area greater than that covered by a single access
point. Before using the roaming function, the workstation must make sure that it is the
same channel number with the access point of dedicated coverage area.
To achieve true seamless connectivity, the wireless LAN must incorporate a number
of different functions. Each node and access point, for example, must always
acknowledge receipt of each message. Each node must maintain contact with the
wireless network even when not actually transmitting data. Achieving these functions
simultaneously requires a dynamic RF networking technology that links access points
and nodes. In such a system, the user’s end node undertakes a search for the best
possible access to the system. First, it evaluates such factors as signal strength and
quality, as well as the message load currently being carried by each access point and
the distance of each access point to the wired backbone. Based on that information,
the node next selects the right access point and registers its address. Communications
between end node and host computer can then be transmitted up and down the
backbone. As the user moves on, the end node’s RF transmitter regularly checks the
system to determine whether it is in touch with the original access point or whether it
should seek a new one. When a node no longer receives acknowledgment from its
original access point, it undertakes a new search. Upon finding a new access point, it
then re-registers, and the communication process continues.
30
31
Market Specifications for model
DCMA-82 High Power, Industry
WLAN 802.11a/g Mini-PCI Adapter (MMCX/F.UL)
32
< Version V1.1>
1/30/2007
Wistron Neweb® Corporation
No. 10-1, Lin-hsin I Road, Science-Based Industry Park, Hsinchu 300, Taiwan,
R.O.C.
Tel: +886-3-666-7799
Fax:+886-3-666-7711
Subject to change without notices
© copyrights 2002 by Wistron Neweb®
All rights reserved
33
Revision History
Edition #
Reason for revision
Issue date
Author
0.1
Initial Draft Document
2006/3/15
Lydia Tsai
0.2
Modify Output Power
2006/10/12
Abber Lee
Modify Power Consumption
Modify Operation Distance
Add detail Model Name and description
2006/10/24
Lydia Tsai
Modify Feature List & Dimension
Modify Operation & Storage Temperature
Change G mode output power fm 23dBm to 23.5dBm at 6, 9,
2007/1/30
Lydia Tsai
1.0
1.1
12, 18Mbps; fm 22.5dBm to 22 at 36Mbps; fm 20dBm to 22.5
at 48Mbps
34
Feature List
1. High Power Design, peak power up to 30dBm
2. RoHS compliant product
3. Atheros AR5414A, MAC/BB/Radio single chip solution supports super mode
4. RF connector: 2*MMCX or 2*F.UL
5. Heat sink design provide reliable high power RF performance
6. Screw hole reserved for assembly with AP main board for AP application
7. High speed for wireless LAN connection: IEEE802.11b 11Mbps data rate by
incorporating Direct Sequence Spread Spectrum (DSSS); IEEE802.11a
54Mbps data rate with Orthogonal Frequency Division Multiplexing (OFDM)
and up to 108Mbps with Turbo mode; IEEE802.11g 54Mbps date rate with
OFDM (108Mbps in Turbo mode) and 11Mbps with DSSS. Provide seamless
roaming within the IEEE 802.11a/b WLAN infrastructure
8. IEEE 802.11a/b/g compatible: allowing inter-operation among multiple
vendors
9. Support Atheros Super A/GTM Mode
10. Provide seamless roaming within the IEEE 802.11 a/b/g WLAN
infrastructure
11. Site survey function
12. Support MicroSoft Windows XP, 2000
13. Interoperability – Complying with WiFi
14. Extended range supporting
15. Support 802.1x, AES-CCM & TKIP, Power Saving Mode
16. 64/128/152-bit WEP Encryption
17. 802.11e standard compatible bursting
18. Wireless multimedia enhancements quality of service support (QoS)
35
19. Support for IEEE 802.11e,h,I and j standards
36
DCMA-82 Market Product Specification,
WLAN 802.11a/b/g® Mini-PCI Adapter
Item
Key specifications
Main Chipset
¾
Frequency Band
¾ A Mode:
DCMA-82, AR5414 BGA Single Chip (with Super AG function)
5.15~5.25 & 5.725~ 5.85 GHz for US
4.9~5.35 GHz for Japan
5.15~5.35 & 5.47~5.725 GHz for ETSI
5.725~5.85 GHz for China
4.94~4.989Ghz for US safety band
¾ B/G Mode:
2400~2483.5 MHz (for US, Canada, EU, China and Japan)
Modulation technique
¾ 802.11 a/b/g
DSSS (DBPSK, DQPSK, CCK)
OFDM (BPSK,QPSK, 16-QAM, 64-QAM)
Host interface
¾ Mini-PCI form factor; Mini-PCI Version 1.0 type 3A
Channels support
¾ 802.11b/g
US/Canada: 11 (1 ~ 11)
Major European country: 13 (1 ~ 13)
France: 4 (10 ~ 13)
Japan: 11b: 14 (1~13 or 14th), 11g: 13 (1 ~ 13)
China: 13 (1 ~ 13)
¾
802.11a
1). US/Canada: 8 non-overlapping channels (5.15~5.25GHz, 5.725~5.825GHz)
2). Europe: 19 non-overlapping channel (5.15~5.35GHz, 5.47~5.725GHz)
3). Japan: 8 non-overlapping channels (5.15~5.35GHz)
4). China: 5 non-overlapping channels (5.725 ~ 5.85GHz)
Operation voltage
¾
3.3V +/- 10%
Power consumption
¾
A Mode:
¾
¾
B Mode:
G Mode:
Cont. Tx:
1100mA (typical)~1300mA (max)
Cont. Rx:
250mA (typical)~270mA (max)
Stand by:
280mA (typical)~290mA (max)
Cont. Tx:
730mA (typical)~780mA (max)
Cont. Rx:
200mA (typical)~220mA (max)
Stand by:
230mA (typical)~240mA (max)
Cont. Tx:
730mA (typical)~780mA (max)
Cont. Rx:
240mA (typical)~260mA (max)
Stand by:
¾
Power saving: 40mA (typical)
37
280mA (typical)~290mA (max)
Output power
¾ A Mode:
+22.5dBm at 6, 9, 12, 18Mbps
+21.5dBm at 36Mbps
+19dBm at 48Mbps
+18dBm at 54Mbps
¾ B Mode:
+24dBm at 1,2, 5.5, and 11Mbps
¾ G Mode:
+23.5dBm at 6, 9, 12, 18Mbps
+22dBm at 36Mbps
+20.5dBm at 48Mbps
+19.5dBm at 54Mbps
Operation distance
¾
802.11a
Outdoor: 85m@54Mbps, 350m@6Mbps
Indoor:
¾
25m@54Mbps, 60m@6Mbps
802.11b
Outdoor:
Indoor:
¾
350m@11Mbps, 400m@1Mbps
45m@11Mbps, 70m@1Mbps
802.11g
Outdoor: 90m@54Mbps, 400m@6Mbps
Indoor:
30m@54Mbps, 65m@6Mbps
Operation System supported
¾
Windows® 98SE, ME, 2K, XP, NT4.0
Dimension
¾
59.6mm(L) * 50.8mm (W) * 7.5mm (H)
Security
¾
64-bit,128-bit, 152-bit WEP Encryption
¾
802.1x Authentication
¾
AES-CCM & TKIP Encryption
Operation mode
¾
Infrastructure & Ad-hoc mode
Transfer data rate
¾
802.11b/g
11b: 11, 5.5, 2, 1 Mbps, auto-fallback,
11g: 54, 48, 36, 24, 18, 12, 9, 6Mbps, auto-fallback
¾
802.11g (Super mode)
up to 108 Mbps
¾
802.11a (Normal mode)
54, 48, 36, 24, 18, 12, 9, 6Mbps, auto-fallback
¾
802.11a (Super mode)
108,96,72,54, 48,36,24,18,12 Mbps, auto-fallback
Operation temperature
¾
0o ~ 70o C
Storage temperature
¾
-10o ~ 80o C
Wi-Fi® Alliance
¾
WECA Compliant
WHQL
¾
Microsoft® 2K, XP Complaint
FAA
¾
S/W radio On/Off support
38
¾
FCC part 15 (USA)
¾
ETSI, EN301893, EN60950 (Europe)
Media access protocol
¾
CSMA/CA with ACK architecture 32-bit MAC
Advance Function
¾
Super AG
¾
Extended Range
¾
Support JumpStart V1.0 on Microsoft® 2K, XP
¾
2 x SMT Ultra-miniature coaxial connectors
EMC certificate
Antenna connector
Appendix B: Wireless 4.9 GHz Band Statements
1.
Background Information on the 4.9 GHz Public Safety
Band (PSB)
The Federal Communication Commission (FCC) has allocated 50 megahertz
(MHz) of spectrum in the 4940-4990 MHz band (4.9 GHz band) for fixed and mobile
wireless data communications, designating the band for use in support of public safety
(Public Safety Band, PSB). Specifically, the Commission adopted two emission
masks limiting interference potential for the band, one for low power and one for
high-power operations. These changes will allow public safety licensees to leverage
commercial off-the-shelf (COTS) technologies available for the U-NII and ITS
frequency bands. The FCC action allows for a nationwide focus on homeland
security, and will ensure that all state and federal agencies possess the required
communications resources to adequately protect the public.
This allocation will provide public safety users the additional spectrum required
to support broadband applications such as high-speed data transitions and video over
wireless, which in turn enhances local area networks for incident monitoring and
supervision. The spectrum can also be used to support the dispatch operations
communications as well as safety vehicle communications. Public safety agencies
will be able to implement on-scene wireless networks for streaming video, rapid
Internet and database access, and transfers of large files such as maps, building
layouts, medical files, and missing person images. It also allows these agencies to
establish temporary or permanent links to support surveillance operations. This
allocation gives every jurisdiction in the country access to spectrum for deployable,
interoperable, broadband communications.
39
The spirit behind the creation of the band was to allow the public safety
organizations access to inexpensive hardware already available for the ISM bands, but
in a section of the spectrum that is not available to the general public.
1.1. Key Facts of the 4.9 GHz PSB band
¾
The FCC allocates the 4.9 GHz band for fixed and mobile communication.
¾
The FCC designates the 4.9 GHz band for use solely in the support of public
safety encompassing the protection of life, health and property.
¾
Users must be a state or local government entity or non-government entity
authorized by a local or state public safety entity.
¾
Provide services that are not commercially available to the public.
¾
The FCC rules allow a maximum total power output of 33 dBm (2 W) per
channel and a maximum antenna gain of 9 dBi for a maximum EIRP of 42 dBm.
¾
Public safety agencies can apply for licenses to use the spectrum within their
areas of jurisdiction.
¾
The FCC rules permit broadband mobile operations, fixed hotspot use and
temporary fixed links.
¾
Fixed point-to-point operations are also permitted but this use requires a separate
license from the FCC for each station.
¾
The FCC rules prohibit use for services that are made commercially available to
the public.
¾
The new looser emissions mask is designed to allow users to utilize off the shelf
technology to significantly reduce cost and time.
1.2. Eligibility for 4.9 GHz PSB Use
All state and local government entities that provide public safety services, this
is defined as their primary focus being the protection for the safety of life, health, or
property; are eligible to apply for a 4.9-GHz license. The control of the licensing is
being managed at the state and local level to facilitate priority and availability of the
4.9 GHz band. Entities that do not meet these eligibility requirements, but that
provide services in support of public safety, such as private infrastructure
40
companies, can negotiate sharing agreements with license holders.
1.3. 4.9 GHz PSB Frequency Band Plan
The 4.9 GHz band ranges from 4940.5-4989.5 MHz and can be segregated out
using 1, 5, 10, 15, and 20 MHz of bandwidth.
1.4. 4.9 GHz PSB Licensing Requirements
A 4.9 GHz band license gives the licensee authority to operate on any
authorized channel in this band within the applicant's legal jurisdiction such as city,
county, or state. The 4.9 GHz band is shared by all licensees, who must coordinate
their usage of the band with other licensees within their areas of authority. The 4.9
GHz licenses are granted for a 10-year term.
The license gives authority to construct and operate:
¾
Any number of base stations anywhere within the area authorized by the license
¾
Base and mobile units, including portable and handheld units
A 4940-4990 MHz band license does not give the licensee authority to
operate permanent fixed point-to-point stations. Licensees choosing to operate
such fixed stations must license them individually on a site-by-site basis. Such
fixed operation will be authorized only on a secondary, non-interference basis to
base, mobile and temporary fixed operations.
1.5. 4.9 GHz PSB Peak Power Limits
The transmitting power of radios operating in the 4940-4990 MHz band must
not exceed the following maximum limits:
Channel Bandwidth in MHz
10
15
20
Class A peak output power in dBm
20
27
30
31 8
33
Class B peak output power in dBm
14
17
18 8
20
1.6. 4.9 GHz PSB Emission Mask
The FCC has adopted two emission masks for use in the 4.9 GHz band.
The
first being DSRC-A, is a mask strictly for low-power applications. The second being
41
the DSRC-C mask is strictly for high-power applications. The DSRC-A mask is
identical to the mask defined in the widely used 802.11Wi-Fi standard, which is most
commonly used in-home wireless LANs and consumer hotspots. These 802.11 devices
are readily available for purchase and significantly reduce cost and time to market for
wireless deployments. Higher power units that are above 20 dBm of output power are
required for deploying mobile networks and need to employ the DSRC-C mask.
2.
DCMA-82 4.9 GHz PSB Introduction
DCMA-82 is now certified to operate under Part 90, Subpart Y of the FCC
Rules to operate as a high power device in the 4.9 GHz PSB band with 10 and
20MHz channel bandwidths. DCMA-82 itself as module product and will be
bundled with server products. The 4.9GHz products will have separate ordering
codes and will be available only to customers who have applied and received
authorization by the FCC to use the public safety band. These products will be
marketed separately than our other wireless products. All other wireless products
shipped will not offer the possibility to use the 4.9GHz public safety band to the
customer and installer.
¾
20 MHz bandwidth settings may operate at signaling rates up to 54 Mbps,
¾
10 MHz bandwidth settings may operate at signaling rates up to 54/2 (27) Mbps
Notes: Professional Installation Guidelines
DCMA-82 was tested for compliance to the Federal Communication
Commission (FCC) rules part 15.247 and 4.9GHz complies with Part 90. Due to the
coexistence of non-licensed and licensed transmitter in the same module, the final
products which incorporate this module are subject to professional installation and the
installer has to make sure that the final installation will comply with the applicable
rule parts.
42
Tested antennas and their corresponding
maximum output power setting.
Antenna list:
1. 802.11g 2.4GHz Installation Requirements
The table below is maximum allowed conducted output power for tested antenna
(No 1 & 2) for 2.4G band.
802.11b
802.11g
802.11g Turbo
43
2. 802.11a 5GHz Installation Requirements
The table below is maximum allowed conducted output power for specified
antennas for 5G band. (note: Antenna B share same power table as A)
5.15-5.25G band (applicable to both antenna A & B)
Turbo
5.7G (applicable to both antenna A & B)
Turbo
44
Turbo
Note: The 13.5 dBi antenna is for point-to-point application only.
3. 4.9GHz Installation Requirements
The table below is maximum allowed conducted output power for tested
antennas for 4.9G band under part 90 subpart Y.
For 10M Bandwidth channel
For 20M Bandwidth channel
Note: The 13.5 dBi antenna is for point-to-point application only.
4.
RF Exposure Installation Requirements
All antennas have to be installed to keep at least 20cm from all end-users.
45

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