HARRIS VIDA-BB-CL VIDA Broadband High Power Client User Manual TYPE CERTIFICATION REPORT

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Date Available	2009-03-03 00:00:00
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Document Author:	Kathy

MM-014720-001, Rev. A
APPENDIX B SUBSCRIBER STATION WEB PAGE
This section provides instructions for setting up and using the Subscriber Station (client) Web Page using
a Web browser.
B.1
SETTING UP THE BROWSER
When accessing the Web page we recommend using Mozilla Firefox 2.0 (or higher) or Microsoft Internet
Explorer 6.0 (or higher). In addition, before you can access the SS Web Page, you need to ensure that
your Web browser’s settings will enable access to the tool. The following procedure describes how to
configure Microsoft Internet Explorer for this purpose.
To Configure Microsoft Internet Explorer for Web Management:
1. Start Internet Explorer.
2. From the IE menu, select Tools Æ Internet Options.
3. In the Internet Options window, click the General tab, and then in the “Temporary Internet Files”
group, click the Settings button. The Settings window opens.
4. In response to “Check for newer versions of stored pages”, select the “Every visit to the page” option,
and then click OK. This ensures you will always view current information.
5. Click the Security tab, and then configure the following security settings:
a. Select the Trusted Sites zone.
b. Click the Sites button.
c. In the Add this Web site to the Zone field, enter the client’s IP address, for example:
http://10.0.0.1
d. Click Add, and then click OK.
6. In the Internet Options window, click the Apply button, and then click OK.
B.2
ACCESSING THE SS WEB PAGE
Each client has a pre-configured IP address that is used to access the SS Web Page. This Web Page
communicates with the Web server software embedded in the client.
To access the SS Web Page:
1. Open a Web browser session.
2. Enter the client’s IP address in the URL Address field.
3. Press the  key or click the Go button.
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The SS Web Page will display the WiMAX Modem Management tool home page, as displayed
below:
Figure B-1: SS Web Page - Menu Bar
The menu bar, located at the top of the page, provides links (menus) to various configuration categories.
This menu bar is displayed throughout the Web pages to allow easy navigation between categories.
Table B-1: SS Web Page Menu Bar Description
Menu Item
Description
System
The System page (described in Section B.3.) displays client identification parameters
such as serial number, hardware version, software version, etc.
Signal Parameters
The Signal Parameters page (described in Section B.4.) displays signaling parameters
such as frequency and RSSI.
Addresses
The Addresses page (described in Section B.5) displays addresses such as the client’s
Ethernet MAC and IP address.
Log
The Log page (described in Section B.6) displays logged traps and their severity levels.
Advanced
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The Advanced page (described in Section B.7) provides access to advanced features
that are for use by authorized personnel only.
MM-014720-001, Rev. A
B.3
SYSTEM PAGE
The client’s system information is displayed in the System page. This page is accessed from the System
menu. The System page displays a table containing read-only system information, as displayed below.
Figure B-2: SS Web Page – System Page
The parameters of the System page are described in the Table B-2.
Table B-2: System Page Parameters
Parameter
Description
Serial Number
Client’s serial number.
Product Type
Product type.
Hardware Revision
Hardware revision.
Software Version
Active software version.
Certificate
Digital certificate (x.509) indication, either stored or not.
Note: Only client’s with stored certificate will work in
Authentication and Encryption modes.
SIM Card
Indicates if SIM card is installed.
System Up Time (D/H/M/S)
How long the system is running since the last reset in Days,
Hours, Minutes and Seconds.
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B.4
SIGNAL PARAMETERS PAGE
The Signal Parameters menu opens the Signal Parameters page (see Figure B-3). This page displays
various signaling parameters. This page displays: the Link Status (Table B-3), BS to client Downlink
Parameters (Table B-4), and client to BS Uplink Parameters (Table B-5).
Figure B-3: Signal Parameters Page
Table B-3: Link Status Parameters
Network Entry State
Description
IDLE
No link established.
SCANNING
The client is scanning through a preconfigured list of frequencies and
bandwidths in search of a base station (BS) transmission. Once a BS is
detected the channel is scored according to the signal strength. The best
channel is then used for the network entry process.
DL_SYNC
The client is synchronizing to the downlink (DL) channel. During this
phase the client identifies the correct cyclic prefix. DL synchronization
is obtained in case the client periodically receives the DL broadcast
messages (DL MAP and DCD) transmitted by the BS.
Continued…
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Network Entry State
Description
UL_SYNC
The client tries to obtain uplink messages required to access the air
interface. UL synchronization is obtained in case the client periodically
receives UL broadcast messages (UL MAP and UCD) transmitted by the
BS.
RANGING
The client performs ranging with the preferred BS in order to adjust its
transmission parameters, including Tx power, timing, and frequency
offset.
BASIC CAPABILITY
The client negotiates with the BS regarding the basic capabilities that
will be used on the link between them, such as supported modulations
and coding schemes.
AUTHORIZATION
The client and BS perform authentication and authorization using X.509
digital certificate transferred to the BS by the client.
REGISTRATION
The client and BS negotiate capabilities concerning (mainly)
management options for the client.
IP CONNECTIVITY
The client obtains IP address through DHCP.
OPERATIONAL
The client has completed network entry and is capable of transferring
data.
Table B-4: Downlink Parameters
Parameter
Description
BS Identifier
BS ID number that the client is presently connected to.
Downlink Frequency
Frequency used for downlink transmission (in MHz).
Downlink Channel Bandwidth
Downlink frequency bandwidth (in MHz).
SNR
Signal-to-noise ratio (in dB).
Received Signal Strength
Received signal strength at client (in dBm).
Modulation
Modulation scheme available to the client (e.g. 16 QAM 1/2).
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Table B-5: Uplink Parameters
Parameter
B.5
Description
Uplink Frequency
Frequency used for uplink transmission (in MHz).
Uplink Channel Bandwidth
Uplink frequency bandwidth (in MHz).
Tx Power
Transmit power of client (in dBm).
Modulation
Modulation scheme of the last uplink data stream.
ADDRESSES PAGE
The Addresses menu opens the Addresses page (see Figure B-4), displaying various IP addresses as well
as MAC addresses “learned” (listed in the MAC Table) from bridging.
Figure B-4: Address Parameters Page
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B.5.1
Address Parameters
Table B-6: Address Parameters
Parameter
Description
MAC Address #1
Ethernet media access control (MAC) address of the device (i.e.,
client)
MAC Address #2
Ethernet media access control (MAC) address of the 2nd device
(for future release)
LAN Port Default IP Address
IP address of client’s LAN port (default value is 10.0.0.1).
Default Subnet Mask
Default subnet mask address.
IP Address (via DHCP)
Client’s IP address assigned by Dynamic Host Configuration
Protocol (DHCP). When set to DHCP, see IP Mode Settings.
IP Mask (via DHCP)
Subnet mask address assigned by DHCP. When set to DHCP,
see IP Mode Settings.
Default GW (via DHCP)
Default gateway address assigned by DHCP. When set to
DHCP, see IP Mode Settings.
DHCP Server IP Address
IP address of DHCP server. When set to DHCP, see IP Mode
Settings
IP Address (static)
Client’s IP address set manually, see IP Mode Settings.
IP Mask (static)
Subnet mask address, see IP Mode Settings.
Default GW (static)
Default gateway address, see IP Mode Settings.
DHCP Server IP Address
N/A in Static mode.
B.5.2
MAC Table Parameters
Table B-7: MAC Table Parameters
Parameter
Description
Index
Place identifier.
MAC Address
Ethernet media access control (MAC) address of the devices connected to the
client via a LAN.
Status
Current status.
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B.6
LOG PAGE
The Web-based management tool logs traps and events generated by and received from the client. The
information logged parameters are displayed in the Log page.
Figure B-5: Log Page
Table B-8: Log Page Parameters
Parameter
Description
No.
Trap identification number.
Time
Time (in Days, Hours, Minutes, Seconds, and Milliseconds) since power up,
when the particular event was generated.
Severity
Severity level of trap:
• Debug (Level 3)
• Debug (Level 2)
• Debug (Level 1)
• Informational
• Warning
• Fatal.
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Code
Unique event code.
Description
Brief description of trap or event.
MM-014720-001, Rev. A
B.7
ADVANCED PAGE
The Advanced page, accessed from the Advanced menu, is used for advanced configuration procedures.
These advanced features include the following:
Table B-9: Advanced Page Menu
Feature
Description
Software Download
To download software to the client.
Channel Table Settings
Defines frequency channels client will scan.
Base Station ID Settings
Defines the base station the client is connecting to.
System Info Settings
To view and define general System information such as: name,
location, and contact information.
Code Banks List
To view the software code versions resident in the flash banks list.
Detailed Log
To view detailed logs.
Connections List
To display information on current connections.
Change User Name
To change the User Name.
Change Password
To change the Password.
Maximum TX Power Setting
To set the maximum TX power.
IP mode Settings
To define IP mode settings.
Reset 2 Default
To reset the client to the factory default settings.
Clear Log
To clear all Log entries.
External Unit Settings
To set calibration values for the transceiver. Do not change.
Restart
To restart the client.
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B.7.1
Accessing the Advanced Page
The Advanced Page is secured by login user name and password, and therefore, can only be accessed by
authorized technicians.
Login parameters are case sensitive.
The default Advanced page login parameters are as follows:
•
User Name: Admin
•
Password:
VIDA802.16
To access the Advanced Page:
1. On the menu bar, click the Advanced option to open the Login page.
Figure B-6: Advance Page Login
2. In the User Name field, enter the User Name.
3. In the Password field, enter the Password.
4. Click Enter to open the Advanced page.
To improve security, we recommend changing the default user name and password after
installing a client. For more information on changing the user name and password, refer to
Sections B.13 and B.14.
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Figure B-7: Advanced Page – Main Menu
5. To access an advanced feature, select the desired feature and click the Select button.
While viewing an Advanced feature, you can return to the Advanced Page by clicking on
the Back button. However, any pending changes not submitted will be lost.
B.7.2
Upgrading Subscriber Station Software
The Software Download feature allows you to upgrade the subscriber station software. This should only
be performed by an authorized Tyco Electronics technician. The process is performed by downloading a
software version file to the client using File Transfer Protocol (FTP). The downloaded file is initially
stored to the client’s standby software bank, which is inactive. To activate the downloaded file, the file
must be transferred (swapped) with the client’s active software bank, and then the client must be restarted.
To upgrade the device, you need to define the FTP parameters and the name of the software
version file that you want downloaded.
The client upgrade should only be performed by authorized Tyco Electronics technicians.
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To Download a Software File:
1. Ensure that you have an FTP server program up and running on the host and configured with a user
“1” with password “1” and the software file is stored in the default path for that user.
2. Open a web-browser on the host with a target address of “http://10.0.0.1”.
3. If you need access to the Advanced page, click the Advanced option from the menu bar and login as
required.
4. On the Advanced page, select Software Download and click the Select button to open the Software
Download window.
5. Verify the following FTP login entries, as shown in Figure B-8:
•
FTP Server IP Address field: 10.0.0.10
•
FTP User Name field: 1
•
FTP Password field:
•
File Name field: software version file name
6. Click the Load button. The Confirmation message box appears, requesting that you confirm software
version file download.
Click the Back button to return to the Advanced Page without performing the software
download.
Figure B-8: Advanced Page - Software Download Window
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7. Click OK to confirm and start the process. The Web server performs the following:
a. Checks the connection with the Web embedded server.
b. Erases the software version stored in the standby software bank on the flash memory.
c. Begins communicating with the FTP server.
d. Starts downloading the software file, via the FTP server, to the client’s standby software bank.
The download processing is indicated on the Downloading Software update window.
8. When the software file download completes, the “Download complete” message is displayed
9. After the download is complete, click the Back button on the “Downloading Software” window and
return to the “Software Download” window.
Before the software can be activated it must be transferred into the client’s “active software
bank” and the client must be restarted.
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10. Click the Swap Bank button.
11. When the Confirmation message box appears, click the OK button to confirm software transfer
between standby and active banks.
Failure to confirm (by clicking OK) will result in not swapping the files and the client.
When it is restarted, it will continue to use the previous software version stored in the active
bank.
12. The downloaded software file is transferred to the client’s active bank and the previously active
software file is transferred from the active bank to the standby bank as indicated by the swap screen.
13. To activate the downloaded file, you must restart the client.
a. Click the Back button to return to the Software Download window.
b. Click the Back button to return to the Advanced page, and then follow the restart instructions in
Restarting the Unit or cycle the client’s power.
When the restart process is complete, the downloaded file becomes the active software running on the
client. Verify that the downloaded software version is active by opening the System page (see Viewing
Configuration Parameters).
The old software has been transferred to the standby bank. If for some reason the old
software needs to be reactivated, return to the “Software Download” window and repeat
Steps 10 through 13.
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B.8
DEFINING FREQUENCY CHANNELS
The client configuration tool allows you to define frequency channels for uplink and downlink channels.
The client scans these defined channels to seek viable frequency channels (one for uplink and one for
downlink) to communicate with the VIDA Broadband Base Station.
Click the Back button to return to the previous window.
To define Uplink and Downlink Frequency Channels:
1. Access the Advanced page (see B.7.1, Accessing the Advanced Page).
2. In the Advanced page, select Channel Table Settings and click the Select button. The “Channel
Table Settings” window appears.
Figure B-9: Advanced Page – Channel Table Settings
3. Select one of the following:
•
Scan All Channel Bandwidth Tables – to scan both high and low channel bandwidth tables.
•
Scan 10 MHz Channel Bandwidth Table – to scan only the high channel bandwidth table.
•
Scan 5 MHz Channel Bandwidth Table – to scan only the low channel bandwidth table.
High and Low refer to a single channel spacing in each band. High refers to the 10 MHz
channel spacing and low refers to the 5 MHz channel spacing.
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4. Click the Select button to display the selected “Channel Table Settings” window.
Figure B-10: Advanced Page – 5 MHz Channel Table Settings
Select Reset to Default to reset the client to the factory Channel settings and replace the
user-defined settings.
The frequencies shown are for illustration purposes only; the frequency range of the specific
client will be displayed.
5. In the selected “Channel Table Settings” window, enter the frequencies for the Uplink (UL) channel
frequencies.
•
In the First UL Channel Frequency field, enter the first frequency (in kilohertz) of the Frequency
Channel table for the uplink communication. (For example: 4.9425 GHz is 4942500 kHz.)
•
In the Last UL Channel Frequency field, enter the last frequency (in kilohertz) of the Frequency
Channel table for the uplink communication.
6. Click the Submit button to display the selected “Channel Table,” indicating the frequencies used for
the uplink and downlink channels in the selected Bandwidth.
7. Place a check mark for the specific frequencies to be scanned.
The client is factory configured to scan the complete channel list referenced in Table 5-1.
Check boxes with a check mark indicate that the corresponding channel will be scanned for
viable communication with the VIDA Broadband Base Station.
8. Clear (un-check) the Channel IDs not to be scanned.
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Figure B-11: Advanced Page – 5 MHz Channel Table Shown
The channel numbers defined in this table and the channel numbers defined in the BS
configuration script do not necessarily link to the same frequency. When choosing channels
for BS – SS communication, use the frequency to choose channels not the channel number.
9. Click Submit. A confirmation message appears, confirming that the new parameters have been
stored.
10. To apply the new frequency channel settings to the unit, you need to restart the unit. Click Back to
return to the Advanced page, and then follow the restart instructions in B.20, Restarting the Unit.
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B.9
DEFINING ASSOCIATED BASE STATIONS
For the client to communicate with a base station, the specific base station can be defined at the client.
The base station is defined by a Base Station ID (BSID) value and a Base Station Mask value. The Base
Station ID value is the ID of the base station to which the client is registered (authorized to communicate
with). Multiple base stations can be defined for communication with the unit. This is typically relevant
in roaming scenarios.
This functionality ensures that the client establishes a communication link with authorized VIDA
Broadband Base Station(s).
The Base Station ID is a 48-bit long programmable (user-defined) field identifying the BS. The most
significant 24 bits are used as the operator ID (configurable). This is a network management hook that
can be used to restrict the client from performing network entry with a predefined base station or a group
of base stations.
The Base Station Mask is a 48-bit programmable (user-defined) field that identifies which bits of the Base
Station ID require a match to enable the client to associate with the BS.
Example for defining a single base station with which the unit can communicate:
Assume that the administrator wants to limit the network entry of a client to a specific BS with ID
=0xAB5050123456. To enable this, the following configuration must be performed:
•
Base Station ID: AB 50 50 12 34 56
•
Base Station Mask: FF FF FF FF FF FF (This is limited to one (1) specific BS.)
Example for defining multiple base stations with which the unit can communicate:
The administrator needs to set up a BSID plan in which it can identify, for example, three base stations
together. For example, it can divide the coverage area into zones of four BS. The zone number shall be
22 bits and the BS index within the zone shall be 2 bits. If the administrator wishes to limit the unit
access to zone #30, then the configured parameters must be:
•
Base Station ID: AB 50 50 00 00 78
•
Base Station Mask: FF FF FF FF FF FC
To define the base station:
1. Access the Advanced page (see B.7.1, Accessing the Advanced Page).
2. In the Advanced page, select Base Station ID Settings and click the Select button. The Base Station
ID Settings page appears.
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Figure B-12: Advanced Page – Base Station ID Settings
3. In the Base Station ID field, enter the identification number of the base station to which the unit must
communicate.
4. In the Base Station Mask field, enter the mask to identify which bits of the Base Station ID require a
match to enable the client to associate with the BS.
5. Click the Submit button. A confirmation message is displayed informing you that the new values
have been saved.
6. To apply the settings, you need to restart the unit. Perform the following:
a. Click the Back button to return to the Base Station ID Settings page.
b. Click the Back button to return to the Advanced page, and then follow the restart instructions in
Restarting the Unit.
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B.10 VIEWING CODE BANKS
The client management tool allows viewing the Code Banks and the Boot Loader version. Both the
Current Bank (B) and Bank (A) are displayed.
To access the Code Bank List:
1. Access the Advanced page, as described in B.7.1, Accessing the Advanced Page.
2. In the Advanced page, select Code Banks List and click the Select button. The Code Banks List
page opens.
Figure B-13: Advanced Page – Code Banks List
3. Click the Back button to return to the Advanced page.
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B.11 VIEWING DETAILED LOGS
The client management tool has detailed log traps and events that are generated by and received from the
client and are displayed in this Detailed Log in greater detail. The logged parameters are displayed in the
Detailed Logs page.
To access the Detailed Log:
1. Access the Advanced page (see B.7.1, Accessing the Advanced Page).
2. In the Advanced page, select Detailed Log and click the Select button. The Detailed log page
appears.
Figure B-14: Advanced Page – Detailed Log
Table B-10: Detail Log Parameters
Parameter
Description
No.
Trap identification number.
Time
Time (in Days, Hours, Minutes, Seconds, and Milliseconds) since power
up, when the particular event was generated.
Severity
Severity level of trap:
• Debug (Level 3)
• Debug (Level 2)
• Debug (Level 1)
• Informational
• Warning
• Fatal
Code
Unique event code.
Description
Brief description of trap or event.
3. Click the Back button to return to the Advanced page.
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B.12 DISPLAY CONNECTIONS LIST
The Connection List page allows you to display information about your current connections.
To access the Connections List:
1. Access the Advanced page (see B.7.1, Accessing the Advanced Page).
2. In the Advanced page, select Connections List and click the Select button. The Connections List
page appears.
Figure B-15: Advanced Page – Connections List
Table B-11: Connections List Parameters
Parameter
Direction
Description
Displays the transmission direction, either:
•
UL – uplink
•
DL – downlink
•
Bidirectional - both uplink and downlink
CID
Displays the connection identifier (ID).
SFID
Displays the Service Flow identifier (ID).
Type
Displays the connection type.
State
Displays the current connection status.
3. Click the Back button to return to the Advanced page.
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B.13 CHANGING ADVANCED PAGE USER NAME
Using the Web-based management tool, you can change your User Name as necessary. To change your
User Name enter your Password, old User Name, and new User Name. Then confirm the new User
Name.
To change your User Name:
1. Access the Advanced page (see B.7.1, Accessing the Advanced Page).
2. In the Advanced page, select Change User Name and click the Select button. The Change User
Name page opens.
Figure B-16: Advanced Page – Change User Name
3. Enter your Password.
4. Enter your old User Name.
5. Enter your new User Name.
6. Re-enter your new User Name to Confirm.
7. Click Submit. A confirmation message is displayed to confirm the requested change.
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8. Click OK to accept the change, resetting the unit is not required.
9. Click the Back button to return to the Advanced page.
The new User Name will be required for subsequent access to the Advanced page.
B.14 CHANGING ADVANCED PAGE PASSWORD
Using the Web-based management tool you can change your Password as necessary. For security
reasons, it is advisable to change your password periodically. To change your Password enter your User
Name, old Password, new Password and then confirm the new Password.
To change your Password:
1. Access the Advanced page (see B.7.1, Accessing the Advanced Page).
2. In the Advanced page, select Change Password and click the Select button. The Change Password
page opens.
Figure B-17: Advanced Page – Change Password
3. Enter your User Name.
4. Enter your old Password.
5. Enter your new Password.
6. Re-enter your new Password to Confirm.
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7. Click the Submit button. A confirmation message is displayed to confirm the requested change.
8. Click the OK button to accept the change, resetting the unit is not required.
9. Click the Back button to return to the Advanced page
The new Password will be required for subsequent access to the Advanced page.
B.15 SETTING THE MAXIMUM TX POWER
The Web-based WiMAX interface configuration tool allows you to set maximum TX power. You can
define the maximum TX power transmission required.
Different territories have various regulation definitions for the maximum TX power transmission
permitted by an RF product. Maximum TX Power Setting enables configuration flexibility for any of the
regulation domains.
To set Maximum TX Power:
1. Access the Advanced page (see B.7.1, Accessing the Advanced Page).
2. In the Advanced page, select Maximum TX Power Setting and click the Select button. The
Maximum TX Power page opens.
Figure B-18: Advanced Page – Maximum TX Power Setting
3. Define the maximum TX power setting.
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4. Click the Submit button. A confirmation window appears, confirming that the new parameters have
been stored.
5. To apply the settings to the unit, you need to restart the unit. Click the Back button to return to the
Advanced page, and then follow the restart instructions in Restarting the Unit.
B.16 IP MODE SETTINGS
The Web-based WiMAX interface configuration tool allows you to define IP mode settings. The IP
address can be assigned dynamically via the DHCP server or you can assign a static IP address.
To access IP Mode Settings:
1. Access the Advanced page, as described in B.7.1, Accessing the Advanced Page.
2. In the Advanced page, select IP Mode Settings and click the Select button to open the “IP Mode
Settings” page.
Figure B-19: Advanced Page – IP Mode Settings
3. Select the Dynamic setting to provide unit’s IP address via the DHCP server, this is the default
value.
If assigning the IP address manually, select the Static setting and enter the appropriate values.
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4. Click the Submit button. A confirmation window appears, confirming that the new parameters have
been stored.
5. To apply the settings to the unit, you need to restart the unit. Click the Back button to return to the
Advanced page, and then follow the restart instructions in Restarting the Unit.
After changing the IP mode to dynamic or static, the unit will still be accessible using the IP
address 10.0.0.1.
B.17 RESET TO DEFAULT
In the event you want to reset the device the Web-based management tool allows you to reset the device
to the factory default settings and replace the user-defined settings.
To Reset to Default:
1. Access the Advanced page (see B.7.1, Accessing the Advanced Page).
2. In the Advanced page, select Reset2Default and click the Select button. The Reset to Default
confirmation message appears.
3. Click OK to reset the client’s settings to the factory default settings. A message page is displayed
when the reset is finished.
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Reset to Default – Will overwrite defaults to the NVRAM. Defaults are of the current
software in use.
4. Click the Back button to return to the Advanced page.
B.18 CLEAR LOG
In the event you want to clear all the device’s event logs to have a clean log state, the Web-based
management tool allows you to clear all log entries.
To Clear the Logs:
1. Access the Advanced page (see B.7.1, Accessing the Advanced Page).
2. In the Advanced page, select Clear Log and click the Select button. The Clear Log confirmation
message is displayed.
3. Click OK to clear the log. A message page indicating that all Log entries have been cleared is
displayed.
4. Click the Back button to return to the Advanced page.
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B.19 EXTERNAL UNIT SETTINGS
The RF offsets of the final cascade stage in the 4.9 GHz transceiver is set in the external unit settings
entries. The external unit settings are factory calibrated and should not be changed.
CAUTION
Changes to the calibrated values in the External Unit Settings can degrade the
equipment performance. Please contact Technical Assistance to obtain the calibrated
values.
To View the External Unit Settings:
1. Access the Advanced page (see B.7.1, Accessing the Advanced Page).
2. In the Advanced page, select External Unit Settings and click the Select button. The External Unit
Settings page is displayed.
Figure B-20: Advanced Page – External Unit Settings
3. Click the Back button to return to the Advanced page
107
MM-014720-001, Rev. A
B.20 RESTARTING THE UNIT
Resetting the client is required to activate certain configuration changes. These configuration settings
include upgrading the unit’s software, defining frequency channels, and defining a base station.
To Restart the Unit:
1. Access the Advanced page (see B.7.1, Accessing the Advanced Page).
2. Select Restart. The reset confirmation message is displayed.
3. Click the OK button to confirm that you want to restart the unit. A restart message is displayed
informing you that the unit is being restarted.
After a few seconds, the system restart is completed successfully.
A cold restart can also be initiated by cycling power to the client.
108
MM-014720-001, Rev. A
APPENDIX C INSTALLATION OPTIONS AND
ACCESSORIES
This section provides details for the installation options and accessories that are available through Tyco
Electronics.
C.1
SURGE PROTECTION OPTIONS
C.1.1 RF Port Surge Protector, PT-016508-001
The RF port should be protected in all installation configurations. The recommended surge protector is
the PolyPhaser AL-LSXL-ME, DC blocking lightning arrestor. This device should be connected directly
to a station’s RF Port.
Surge:
Impedance:
Frequency Range:
VSWR:
Return Loss:
Insertion Loss:
RF Power:
Operational Temperature Range:
Throughput Energy:
Peak Let-Through Voltage:
Vibration:
Conn. Equip. (protected) Side:
Conn. Ant. (surge) Side:
18kA IEC 1000-4-5 8/20 µs
50Ω
1.8 to 3.8, 4.2 to 6.0 GHz
<1.2:1 Typical; <1.3:1 Max
>20 dB
0.1 dB
10 W continuous
-40oC to +85oC
< 0.5µJ for 3 kA @8/20 µs
< ±3 volts for 3kA @8/20 µs
1 G @ 5 Hz to 100 Hz
N (male)
N (female)
C.1.2 CAT5E, RJ-45, Data Port Surge Protector, PT-016508-003
The data lines using Cat5e Ethernet cables should be protected prior to connecting to the Ethernet Switch.
This protection can be best provided by installing a (Transtector TSJ 10/100BT) surge protector. The TSJ
10/100BT is designed for STP (Shielded Twisted Pair) applications. Each of the eight lines is protected
with a three stage suppression circuit. This device should be connected between the client or base station
Cat5e Ethernet cable and the Ethernet Switch as close to the switch as practical.
Nominal Service Voltage:
Voltage Clamp Levels:
Connector:
Surge Ratings:
Operating Temperature:
Dimensions:
12V
15V
RJ-45 – all 8 lines protected
10/1000 µs, up to 200A
-30oC to +65oC
2.1”H x 2.1”W x .875”D
5.4 cm x 5.4 cm x 2.22 cm
Response Time (Max.)
5 Nanoseconds
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MM-014720-001, Rev. A
C.1.3 GPS Port Surge Protector, PT-016508-002
Generally the GPS antenna is mounted directly to the base station chassis where the bonded chassis
provides proximity protection. If the antenna is mounted elsewhere, surge protection should be installed
between the GPS antenna port and the antenna. The GPS port supplies a DC voltage for an active antenna
and so the protector must be able to pass DC. The recommended surge protector is the PolyPhaser
DGXZ+15TFTF-A.
Freq. Range:
800-2500 MHz
Maximum Power (Watts):
50 Watt
Throughput Energy:
175µJ
Conn. Equip. Side:
TNC Female
Conn. Ant. Side:
TNC Female
Inject, Pick, or Both:
DC Pass
Maximum DC:
6 Vdc
To connect the surge protector between the base station and the GPS antenna cable, you
will need BA579 SMAM-TNCM and BA589 SMAF-TNCM L-Com Adaptors.
C.1.4 DC Surge Protector, PT-016508-004, 005
The power source surge protection should be installed on all 24 or 48 Volt power sources to protect the
equipment from lightning and stray transients. The protection device should be installed between the
power supply and the powered devices (client, base station, etc.). The recommended device is the
Transtector FSP 4002 MC (24 Vdc) or FSP 4003 MC (48 Vdc).
110
FSP 4002 MC
FSP 4003 MC
Nominal Service Voltage:
27 Vdc
54 Vdc
Voltage Protection Level
33 Vdc
67V
Surge Current Rating:
181A
90A
Dimensions:
2.125”H X 2.125”W X .875”D
5.4 cm X 5.4 cm X 2.2 cm
Response Time (Max.)
<5 Nanoseconds
MM-014720-001, Rev. A
C.1.5 AC/DC Surge Protector, PT-016508-006
When using 24-30 Vac to power Subscriber Stations, power source surge protection should be installed to
protect the equipment from lightning and stray transients. The recommended protection device is the
Polyphaser IS-PSP-24. This is a hardwire power supply shunt protector with high speed MOV and high
current gas tube combination.
Operating Voltage:
24 Vac/ 30 Vdc
Max Surge Current:
35kA
Operating Temperature:
-40oC to +85oC
Turn On Voltage:
39 L-L, 90 L-G V
C.1.6 Camera Data Port Surge Protector, PT-016508-007
Installers should also consider installing surge protection for the closed circuit television cameras. The
surge protector is designed to protect one coax video signal and either 24 Vdc and two-wire data (CCTVPTZ), or four-wire data (CCTV-PTZ-4). The device should be installed as close to the protected
equipment as possible.
CCTV Model
Nominal Service
Voltages
Surge Current Ratings
CCTV PTZ-4
CCTV PTZ
Both Models
24 Vac/Vdc
RS232
RS232/422/485
150A
190A
140A
28 Vac
40 Vdc
24 Vdc
12 Vdc
Coax
Protection
10/1000 ms
Maximum Voltage
Operating Temperature
Dimensions:
Response Time (Max.)
-40º C to +65º C
3.25"H x 3.17"W x 1.3"D
8.26 cm x 8.05 cm x 3.3 cm
<5 Nanoseconds
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MM-014720-001, Rev. A
C.1.7 CCTV Surge Protector, PT-016508-008
To protect CCTV coaxial lines we recommended installing a Transtector TCP CMS silicon based surge
protection device.
Nominal Service Voltages
90V
Surge Current Ratings*
20kA
Connector Type:
BNC type Male/Female
Max. Shunt Capacitance:
<30 pF
Series Resistance
None
Response Time (Max.)
<5 Nanoseconds
Insertion Loss @ 40MHz
-0.5 dB
C.1.8 120 VAC Surge Protector, PT-016508-009
When using 120 Vac to power an AC base Station, power source surge protection should be installed to
protect the equipment from lightning and stray transients. The recommended protection device is the
Transtector ACP100MN. This is a Wire-in Silicon Surge Protectors for 120 Vac Single Phase
applications.
C.2
Nominal Service Voltages
120 V
Surge Current Ratings*
15 A
Protection Level:
to 330 V
ANTENNA OPTIONS
Table C-1 is a list of approved antennas and their specifications. These antennas are available from Tyco
Electronics or their respective manufacturers or distributers.
The Transmitter Output Power must be reduced if the Effective Maximum Antenna Gain is
greater than 26 dBi.
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MM-014720-001, Rev. A
Table C-1: Recommended Fixed Antennas
Part Number
Polarization
Manufacturer
(Mfg Part Number)
Description
Gain (dBi)
Beamwidth
(-3 dB)
Az°
Size
Weight
EL°
AN-013386-008
Subscriber Panel Antenna
Mars Antenna and RF Systems
(MA-WA49-1X)
Linear, Vertical or
Horizontal
21.0
12 x 12 x 0.6"
(30.5 x 30.5 x 1.5 cm)
AN-013386-013
Subscriber Panel Antenna
PCTEL, Inc. MAXRAD
(MP24581820PT)
Linear, Vertical or
Horizontal
20.0
15.1 x 13.9 x 1.9"
(38.4 x 35.3 x 4.8 cm)
AN-013386-002
90° Sector Antenna
Vertical
16.0
AN-013386-003
90° Sector Antenna
Horizontal
16.0
AN-013386-004
60° Sector Antenna
Vertical
17.0
AN-013386-005
60° Sector Antenna
Horizontal
17.0
AN-013386-015
120° Sector Antenna
Vertical
15.0
10.5
90
90
60
60
120
10.5
5.0 lbs (2.3 kg)
3.9 lbs (1.8 kg)
Radio Waves, Inc.
(SEC-47V-90-16)
25.5 x 8.5 x 4.0"
(65 x 21.6 x 10 cm)
5.0 lbs (2.3 kg)
Radio Waves, Inc.(SEC-47H-90-16)
25.5 x 8.5 x 4.0"
(65 x 21.6 x 10 cm)
5.0 lbs
(2.3 kg)
Radio Waves, Inc.
(SEC-47V-60-17)
25.5 x 8.5 x 4.0”
(65 x 21.6 x 10 cm)
5.0 lbs
(2.3 kg)
Radio Waves, Inc.
(SEC-47H-60-17)
25.5 x 8.5 x 4.0”
(65 x 21.6 x 10 cm)
5.0 lbs
(2.3 kg)
Mars Antenna and RF Systems
(MA-WA49-7X)
28 x 7 x 2.4"
(71 x 17.8 x 6.1 cm)
6.6 lbs
(3.0 kg)
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MM-014720-001, Rev. A
Table C-1: Recommended Fixed Antennas
Part Number
Polarization
Manufacturer
(Mfg Part Number)
Description
Gain (dBi)
Beamwidth
(-3 dB)
Az°
Size
EL°
TerraWave Solutions
(M5120120P10006)
AN-013386-014
180° Sector Antenna
Vertical
12.0
AN-013386-006
Grid Parabolic Antenna
Radio Waves, Inc.
(G2-4.7NF)
Plane
26.4
24 in. diameter (61
cm)
AN-013386-007
Std Parabolic Antenna
Plane
21.2
AN-013386-001
Std Parabolic Antenna
Plane
26.6
AN-013386-009
Omnidirectional Antenna
Vertical
AN-013386-012
Omnidirectional Antenna
Vertical
AN-013386-010
Wideband Parabolic
Reflector Antenna
Linear
26.4
114
Weight
180
7.1
13.1
7.1
360
360 H/8 V
28 x 7 x 2.4"
(71 x 17.8 x 6.1 cm)
6.6 lbs
(3.0 kg)
22.0 lbs
(9.9 kg)
Radio Waves, Inc.
(SP1-4.7)
12 in. diameter (30
cm)
15.0 lbs
(6.8 kg)
Radio Waves, Inc.
(SP2-4.7NS)
24 in. diameter (61
cm)
22.0 lbs
(9.9 kg)
TerraWave Solutions
(T49080O100006)
13.4 in. high (34.1 cm)
0.5 lbs
(0.23 kg)
PCTEL, Inc. MAXRAD
(MFB49009)
20.2 in. high (51.3 cm)
0.5 lbs
(0.23 kg)
PCTEL, Inc. MAXRAD
(MPRC2449)
26 in. dia. (66 cm)
24.0 lbs
(10.9 kg)
MM-014720-001, Rev. A
Table C-1: Recommended Fixed Antennas
Part Number
Polarization
Manufacturer
(Mfg Part Number)
Description
Gain (dBi)
Beamwidth
(-3 dB)
Az°
AN-013386-011
Vertical
C.3
Weight
EL°
PCTEL, Inc. MAXRAD
(MEFC49005HF)
Nomadic Antenna
Size
360
12 in. high (30.4 cm)
0.5 lbs
(0.23 kg)
MISCELLANEOUS EQUIPMENT OPTIONS
C.3.1 Standard Grounding Kits - 3/8" Cable
The grounding kit diverts transient currents from lightning off the shielded transmission, communication,
or power lines to an earth grounding system to prevent damage to cable and broadband equipment. Each
broadband cable installation normally uses at least three grounding kits: one within six (6) inches of the
VIDA Broadband unit, one at the bottom of the cable prior to the horizontal run, and one just prior to the
cable entering the building or shelter.
Figure C-1: Grounding Kit
The recommended grounding kit, Andrew # 223158-2 (Tessco #493736), is designed for use with 1/4" to
3/8" cables. It has a 24" ground wire with a solid copper strap and a factory attached two-hole lug. The
kit complies with MIL-STD-188-124A and has been verified by independent labs to protect coax from
115
MM-014720-001, Rev. A
lightning strikes in excess of 200 kA. The kit also includes materials necessary for attachment to the buss
bar, including mastic and electrical tape for weatherproofing.
Installing Grounding Kit on Power Cable:
When installing the grounding kit on the power cable, it is important to ensure the copper ground wire
makes contact with the grounding strap as shown in Figure C-2.
Figure C-2: Grounding Kit Installation
116
MM-014720-001, Rev. A
APPENDIX D INSTALLATION CABLE ASSEMBLIES
D.1
POWER CABLES
D.1.1 2-Pin Power Cable, CA-014984-XXXXXX
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MM-014720-001, Rev. A
D.1.2 2-Pin Power Patch Cable, CA-014988-XXXXXX
(Made from AD-CA-014988-XXXXX, Rev. B)
118
MM-014720-001, Rev. A
D.1.3 3-Pin Power Cable, CA-014985-XXXXXX
(Made from AD-CA-014985-XXXXX, Rev-)
119
MM-014720-001, Rev. A
D.2
COPPER ETHERNET CABLE
The Cat5e Ethernet cable consists of four (4) twisted-pair solid copper 24 gauge wires. The twisted pairs
are contained with an inner jacket then shielded by foil with a drain wire all encased in a waterproof UV
resistance outer Jacket designed for outdoor use. The cable meets or exceed EIA/TIA 568 B.2-1 and
ISO/IEC 11801 Standards for 350 MHz high-speed data applications, and 10/100/1000 Mbps highperformance data communications.
Table D-1 lists part numbers for bulk lengths of the CA-015223-XXX family of Ethernet cables available
through Tyco Electronics. The “-XXX” dash variant describes the length to which the bulk cable is cut,
measured in feet. For example, CA-015223-015 is 15 feet of cable cut from the box. A special case
would be CA-015223-000 representing the entire 1000 foot box.
D.2.1 Cable Selection
•
•
•
•
•
Cable type:
Conductor size:
Conductor type:
Belden, Inc.
Shielding:
8–conductor
24 AWG
copper
Part Number 7929A or 7919A
Foil
Figure D-1: Ethernet Cable Construction
The twisted pairs shall be color coded as follows:
•
Pair 1 - Blue, White/Blue
•
Pair 2 – Orange, White/Orange
•
Pair 3 – Green, White/Green
•
Pair 4 – Brown, White/Brown
D.2.2
120
Tools Required
•
Tyco Electronics-AMP Modular Plug Hand Assembly 790163-7 and Die Set 790163-8 (or
equivalent).
•
Cable tester, Ideal VDV MultiMedia Cable Tester #33-856, or equivalent.
MM-014720-001, Rev. A
Table D-1: Copper Indoor/Outdoor Cat5e Shielded Cable (Bulk)
Part Number
Description
CA-015223-000
Cable, Cat5e, Outdoor, Shielded, w/Drain, 1,000 feet long
CA-015223-005
Cable, Cat5e, Outdoor, Shielded w/Drain, 5 feet long
CA-015223-015
Cable, Cat5e, Outdoor, Shielded w/Drain, 15 feet long
CA-015223-025
Cable, Cat5e, Outdoor, Shielded w/Drain, 25 feet long
CA-015223-050
Cable, Cat5e, Outdoor, Shielded w/Drain , 50 feet long
CA-015223-100
Cable, Cat5e, Outdoor, Shielded w/Drain, 100 feet long
CA-015223-150
Cable, Cat5e, Outdoor, Shielded w/Drain, 150 feet long
CA-015223-200
Cable, Cat5e, Outdoor, Shielded w/Drain, 200 feet long
CA-015223-250
Cable, Cat5e, Outdoor, Shielded w/Drain , 250 feet long
CA-015223-300
Cable, Cat5e, Outdoor, Shielded w/Drain, 300 feet long
CA-015223-350
Cable, Cat5e, Outdoor, Shielded w/Drain, 350 feet long
CA-015223-400
Cable, Cat5e, Outdoor, Shielded w/Drain, 400 feet long
CA-015223-450
Cable, Cat5e, Outdoor, Shielded w/Drain, 450 feet long
CA-015223-500
Cable, Cat5e, Outdoor, Shielded w/Drain, 500 feet long
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MM-014720-001, Rev. A
D.2.3 Ethernet Cat5e Equipment Plug Kit 1738607-1 Assembly
The following sections provide instructions for fabricating the Ethernet cable equipment end connection.
The assembly procedures are provided for reference and are superseded by any instructions provided with
the connector. Always read and follow any instructions provided by the connector manufacturer.
The solid wire Plug Kit (Tyco Electronics # 1738607-1), shown in Figure D-2, consists of an 8-position
Category 5e RJ-45 plug, load bar, and plug assembly. The load bar is used to hold the cable wires for
insertion into the RJ-45 plug. The RJ-45 plug must be terminated and then installed into the plug
assembly. The RJ-45 plug is held in the plug assembly by the locking tab. The cable fitting holds the RJ45 plug in the plug assembly and seals the plug at the cable end. When engaged, the connector is held
together by a locking mechanism (coupling ring and bayonet lock), which prevents accidental
disconnection. The engaged connector is sealed by the interfacial seal.
Figure D-2: Tyco/Electronics Industrial Circular Ethernet Connector Plug Kit (1738607-1)
D.2.4 Ethernet Cable - Equipment End Connector
Preparation Procedure:
Prepare the cable using the following procedure:
Reasonable care must be taken not to scrape or nick any part of the cable during the
stripping operation.
CAUTION
1. Slide the plug assembly (cable fitting end first) onto the cable. See Figure D-3, Detail A.
Figure D-3: Cable Preparation
122
MM-014720-001, Rev. A
2. Strip back the cable insulation and shielding approximately one inch exposing the twisted pairs .
Proper strip length is necessary to insert the conductors into the contact slots.
Insulation of individual conductors must not be cut or removed. This could result in
shorted or open connections.
3. Conductor pairs must be oriented side–by–side in the order shown in Figure D-4, Detail A. The end
of the cable jacket must be flattened so that the conductor pairs lay side–by–side.
4. Properly sequenced conductor pairs should extend into the cable jacket to the dimension given in
Figure D-4, Detail B, creating an oblong shape.
5. The conductor tips must be trimmed evenly to the dimension shown in Figure D-4, Detail C. Proper
orientation of conductors must be maintained.
Figure D-4: Cable Preparation Continued
6. The conductor pairs must be untwisted and arranged according to EIA/TIA T568B (defined in Figure
D-5). IT IS CRITICAL that the pairs are NOT untwisted inside the cable jacket.
When arranging conductor pairs, IT IS IMPORTANT that Conductor 6 is crossed over Conductors 4
and 5 as shown in Figure D-4, Detail C.
123
MM-014720-001, Rev. A
Conductor
Pair
Conductor
Pair
for electrical
schematic
Conductor Color
Code
Blue (BL)
White/Blue (W-BL)
White/Orange (W-O)
Orange (O)
White/Green (W-G)
Green (G)
White/Brown (WBR)
Brown (BR)
Figure D-5: Cable Preparation Continued
D.2.4.1
Termination
Terminate the RJ-45 plug to the cable end using the following procedure:
1. The conductors (maintaining arrangement) must be inserted into the load bar (oriented so that the
cable notch will align with the contacts) until the cable jacket rests against the cable notch. The
conductor twist must not enter the front of the load bar. The conductors must be trimmed evenly and
square with the front edge of the load bar to the dimension given in Figure D-6, Detail A.
2. The conductors must be retracted from the load bar so that the conductors protrude from the end of
the load bar to the dimension given in Figure D-6, Detail B. The top of the load bar must not be
deformed.
If the load bar is deformed, the conductor twist entered the front of the load bar.
3. The load bar (oriented so that the cable notch is aligned with the contacts) must be inserted into the
RJ-45 plug until it butts against the mating feature of the RJ-45 plug, and the conductors are bottomed
on the wire circuits. The cable jacket must be against the cable notch after the load bar is fully seated.
The conductors must not be exposed between the cable jacket and cable notch. The ends of the
conductors must be clearly visible through the front of the RJ-45 plug. See Figure D-6, Detail C.
If the conductors do not bottom on the wire circuits, they must be re-trimmed (after
removing the load bar/cable assembly from the RJ-45 plug), and re-inserted into the RJ-45
plug. If the conductors are too short, the cable must be re-stripped.
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MM-014720-001, Rev. A
Figure D-6: Termination Requirements
4. The RJ-45 plug must be terminated to the cable according to the instructions included with the
tooling.
D.2.4.2
Assembly
Assemble the RJ-45 connector into the plug assembly using the following procedures:
1. Align the locking tab of the RJ-45 plug with the wide slot at the front (end opposite the cable fitting)
of the plug assembly. See Figure D-7, Detail A.
2. Depress the locking tab, and insert the RJ-45 plug into the plug assembly. Gently pull the cable until
the RJ-45 plug is fully seated. There should be approximately 12.7 mm [.50 in.] of the RJ-45 plug
protruding from the front of the plug assembly. See Figure D-7, Detail B.
125
MM-014720-001, Rev. A
To avoid damage to the connection, the cable must be pulled GENTLY when seating the
RJ-45 plug.
CAUTION
3. While holding the RJ-45 plug in position, rotate the cable fitting as shown in Figure D-7, Detail B
until tightened to a torque of 1.7-2.8 N–m [15-25 lb–in.].
The given torque must be met in order for the cable fitting to seal the plug at the cable end.
Figure D-7: Assembly Detail
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MM-014720-001, Rev. A
D.2.5 Ethernet Cable - Shelter End Connector
The following sections provide instructions for fabricating the Ethernet cable shelter end connector, Tyco
Electronics part number 336462-1 (or equivalent). The assembly procedures are provided for reference
and are superseded by any instructions provided with the connector. Always read and follow any
instructions provided by the connector manufacturer.
Figure D-8: Tyco Electronics 336462-1 Cat 5e (EMT) Plug Connector Assembly
D.2.5.1
Cable Preparation
Prepare the cable using the following procedure (refer to Figure D-9):
Reasonable care must be taken not to scrape or nick any part of the cable during the
stripping operation.
CAUTION
1. Slide each boot over the relevant end of the cable before the cable stripping operation.
2. Strip the cable jacket 30 – 40mm [1.18 – 1.58 in.] as shown.
3. Fold the outside shield foil back over the jacket.
4. Foil must be trimmed up to 2.0mm [0.079 in.] max from the jacket end. Individual pair shields must
be trimmed up to 2.0 [.079] max from the jacket end.
127
MM-014720-001, Rev. A
Cut and remove any cable filler, ripcord, or plastic wrap, if present.
5. Slide the plug shield over the cable jacket and cable shield.
1. Slide on the boot.
2. Strip the cable jacket.
3. Fold the outside shield and foil back over
the jacket.
4. Foil of individual pair shields must
be trimmed up to max 2mm max.
5. Slide the plug shield over the cable jacket and cable shield.
Figure D-9: Cable Preparation – Strip and Fold Shield
Reasonable care must be taken not to scrape or nick any part of the cable during the
stripping operation.
CAUTION
D.2.5.2
Cable Positioning
1. While firmly holding the cable jacket next to the stripped end, untwist the pairs as much as possible
as shown in Figure D-10.
2. Position the pairs according to the Wiring Diagram shown in Figure D-5. Try to avoid twisting
between pairs as much as possible, see Figure D-4.
128
MM-014720-001, Rev. A
3. While firmly holding the positioned pairs, make a preliminary cut to the pairs to help the insertion of
the conductors into the wire holder, as shown in Figure D-11.
4. Insert the conductors through the wire holder and slide it up to the end, as shown in Figure D-12.
Original cable twisting.
Untwist the pairs as much as possible.
Figure D-10: Cable Positioning - Untwist Pairs
Hold firmly the positioned pairs.
Make a preliminary cut.
Conductors are ready for insertion.
Figure D-11: Cable Positioning, Trim Wires
129
MM-014720-001, Rev. A
Insert the conductors through the wire holder.
Slide the wire holder up to the jacket end.
Figure D-12: Cable Positioning, Insert Wire Holder
5. While holding all conductors down against the wire holder in a flat layer, trim all conductors evenly
and square with appropriate tooling, just beyond the front edge of the wire holder, as shown in Figure
D-13.
Trim all conductors evenly and square with
appropriate tooling.
Conductors perfectly aligned at the wire
holder edge.
Figure D-13: Cable Positioning, Finish Trim
6. Insert the front of the wire holder and the ends of the conductors into the cavity of the plug housing,
as shown in Figure D-14.
Insert the front of the wire holder into the plug housing cavity.
Figure D-14: Cable Positioning, Insert Wire Holder
7. Push the wire holder into the housing, making sure it arrives up to the end, as shown in Figure D-15.
130
MM-014720-001, Rev. A
Push the wire holder into the housing until it latches.
Figure D-15: Cable Positioning, Latch Wire Holder in Housing
8. Visually verify that all conductors are fully inserted into the housing with the ends of the conductors
seated against the end of the housing cavity. If not, push the cable into the wire holder and check if
the wire holder has latched into both sides of the plug housing.
D.2.5.3
Connector Termination
1. Slide the plug shield over the plug subassembly until it seats against the front edge of recessed area
around the outside of the plug housing, as shown in Figure D-16.
Slide the plug shield over the plug subassembly.
Figure D-16: Connector Termination, Position Plug Shield
2. Insert the plug and shield assembly into the appropriate crimping tool and crimp the connector
according to the instruction sheet packaged with the tool. The shield must be free of bulges, tears and
must be uniform after the crimping operation.
3. Trim away any braid/foil left extending beyond the end of the plug shield, as shown in Figure D-17.
Once the connector is crimped, trim away any braid/foil left.
131
MM-014720-001, Rev. A
Figure D-17: Connector Termination, Trim Excess Foil
4. Slide the boot over the crimped plug and shield, as shown in Figure D-18.
Slide the boot over the crimped plug.
Figure D-18: Connector Termination, Slide on Boot Cover
5. After fabricating the connectors on both ends of the cable, test the cable for continuity and verify
there are no shorts or opens.
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MM-014720-001, Rev. A
D.3
FIBER OPTIC CABLE
D.3.1 Fiber Optic Cable Specifications
Electrical
•
Fiber Type
100Base-FX Multimode
•
Core Diameter
62.5 um
•
Cladding Diameter
125 um
•
Wavelength
850 nm
1300 nm
•
Attenuation (Maximum)
3.4 dB/km
1.5 dB/km
•
Bandwidth (Maximum)
200 MHz-km
500 MHz-km
D.3.2 Outdoor Fiber Optic Cable
The fiber optic cable available from Tyco Electronics is intended for outdoor applications supporting
networking, data transfer, and phone lines. It includes a UV protected outer jacket, incasing two 62.5/125
um fiber multimode members. It is suitable for high-speed data applications, and supports 100Base-FX
high-performance data communications.
The cables consist of two multimode 62.5 um 100Base-FX fiber optic members with supporting
structure(s) to make the cable suitable for “supported” aerial and/or direct burial indoor/outdoor
conditions. The cables are terminated on both ends using IP67 industrialized LC connectors. These
connectors also include the protective mating caps for protection during cable installation and delivery.
Cables of 150 feet or longer shall be equipped with a pulling eye on one end for use during installation
The connector-cable interfaces have a pull-strength in excess of 45 lbs.
Table D-2 is a list of factory made fiber optic cables, with LC connectors, available from Tyco
Electronics. We do not recommend mating LC connectors to cables in the field, however, if this becomes
necessary, fabricate the LC plug termination according to the manufacturer’s instructions.
133
MM-014720-001, Rev. A
Table D-2: Outdoor Fiber Optic Cable Assemblies
Part Number
134
Description
CA-015488-000003
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 3 feet long.
CA-015488-000005
Cable, Fiber Optic, IP67, LC-LC Duplex, 5 feet long.
CA-015488-000010
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 10 feet long.
CA-015488-000016
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 16 feet long.
CA-015488-000033
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 33 feet long.
CA-015488-000050
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 50 feet long.
CA-015488-000075
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 75 feet long.
CA-015488-000100
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 100 feet long.
CA-015488-000125
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 125 feet long.
CA-015488-000150
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 150 feet long.
CA-015488-000175
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 175 feet long.
CA-015488-000200
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 200 feet long.
CA-015488-000225
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 225 feet long.
CA-015488-000250
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 250 feet long.
CA-015488-000275
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 275 feet long.
CA-015488-000300
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 300 feet long.
CA-015488-000325
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 325 feet long.
CA-015488-000350
Cable, Fiber Optic, Outdoor, IP67, LC-LC Duplex, 350 feet long.
MM-014720-001, Rev. A
D.3.3
Fiber Optic Cable Demarcation
Once the outdoor fiber cable enters a protected area, a shelter or other indoor space, we recommend
creating a demarcation point to transition from outdoor fiber cabling to indoor fiber cabling. Tyco
Electronics provides one option for this task with the use of a rack mount panel and industrialized fiber
receptacles. The FM-016476 is a panel designed to mount into a standard 19-inch equipment rack and
has eight (8) available locations for holding the receptacles. The receptacles should be installed on the
panel such that the outdoor cable connects to the protected reverse-side of the panel. Indoor fiber cables
then connect from the front of the panel to the appropriate network device.
Figure D-19: XLC-MM 19" Rack Mount Panel, Part Number FM-016476
The receptacle assembly consists of the receptacle, a seal (panel gasket), and a panel nut, as shown in
Figure D-20.
Figure D-20: Industrialized Fiber Receptacle, Part Number 1828619-1
135
MM-014720-001, Rev. A
D.3.4 Indoor Fiber Optic Cable
Table D-3: Indoor Fiber Optic Cable Assemblies
Part Number
CA-016481-001GRA
CA-016481-002GRA
CA-016481-003GRA
CA-016481-004GRA
CA-016481-005GRA
CA-016481-010GRA
CA-016481-001BLU
CA-016481-002BLU
CA-016481-003BLU
CA-016481-004BLU
CA-016481-005BLU
CA-016481-010BLU
CA-016481-001YEL
CA-016481-002YEL
CA-016481-003YEL
CA-016481-004YEL
CA-016481-005YEL
CA-016481-010YEL
CA-016481-001GRN
CA-016481-002GRN
CA-016481-003GRN
CA-016481-004GRN
CA-016481-005GRN
CA-016481-010GRN
CA-016481-001RED
CA-016481-002RED
CA-016481-003RED
CA-016481-004RED
CA-016481-005RED
CA-016481-010RED
CA-016481-001ORN
CA-016481-002ORN
CA-016481-003ORN
CA-016481-004ORN
CA-016481-005ORN
CA-016481-010ORN
136
Description
Cable, Fiber, LC Duplex, 1m, Gray
Cable, Fiber, LC Duplex, 2m, Gray
Cable, Fiber, LC Duplex, 3m, Gray
Cable, Fiber, LC Duplex, 4m, Gray
Cable, Fiber, LC Duplex, 5m, Gray
Cable, Fiber, LC Duplex, 10m, Gray
Cable, Fiber, LC Duplex, 1m, Blue
Cable, Fiber, LC Duplex, 2m, Blue
Cable, Fiber, LC Duplex, 3m, Blue
Cable, Fiber, LC Duplex, 4m, Blue
Cable, Fiber, LC Duplex, 5m, Blue
Cable, Fiber, LC Duplex, 10m, Blue
Cable, Fiber, LC Duplex, 1m, Yellow
Cable, Fiber, LC Duplex, 2m, Yellow
Cable, Fiber, LC Duplex, 3m, Yellow
Cable, Fiber, LC Duplex, 4m, Yellow
Cable, Fiber, LC Duplex, 5m, Yellow
Cable, Fiber, LC Duplex, 10m, Yellow
Cable, Fiber, LC Duplex, 1m, Green
Cable, Fiber, LC Duplex, 2m, Green
Cable, Fiber, LC Duplex, 3m, Green
Cable, Fiber, LC Duplex, 4m, Green
Cable, Fiber, LC Duplex, 5m, Green
Cable, Fiber, LC Duplex, 10m, Green
Cable, Fiber, LC Duplex, 1m, Red
Cable, Fiber, LC Duplex, 2m, Red
Cable, Fiber, LC Duplex, 3m, Red
Cable, Fiber, LC Duplex, 4m, Red
Cable, Fiber, LC Duplex, 5m, Red
Cable, Fiber, LC Duplex, 10m, Red
Cable, Fiber, LC Duplex, 1m, Orange
Cable, Fiber, LC Duplex, 2m, Orange
Cable, Fiber, LC Duplex, 3m, Orange
Cable, Fiber, LC Duplex, 4m, Orange
Cable, Fiber, LC Duplex, 5m, Orange
Cable, Fiber, LC Duplex, 10m, Orange
MM-014720-001, Rev. A
APPENDIX E SPECIFICATIONS
E.1
SUBSCRIBER STATION
E.1.1 Hardware Specifications
Model Numbers:
Low Power Copper Client:
MAVM-VMCLL (BS-010700-001)
High Power Copper Client:
MAVM-VMXCH (BS-010700-002)
High Power Nomadic Copper Client:
MAVM-VMCHN (BS-010700-002) 2
High Power Fiber Client:
MAVM-VMCHH (BS-010700-003)
Low Power Fiber Client:
MAVM-VMCLH (BS-010700-004)
Physical Characteristics:
Electrical Power:
Standard Models:
Fiber Models:
11 to 30 Vdc (neg. gnd.) or 16 to 26 Vac
11 to 30 Vdc(neg. gnd.)
Power Consumption:
16 Watts maximum (8 Watts - Low Power Clients)
Size (H x W x D):
9.9 in. x 7.9 in. x 2.9 in. (25.1 cm x 20.1 cm x 7.3 cm)
Weight:
6 lbs (2.7 kg) (less mounting hardware)
Environmental Specifications:
Operating Temperature:
-22°F to +140°F (-30°C to +60°C)
Storage Temperature:
-40°F to +185°F (-40°C to +85°C)
Environmental (Enclosure):
NEMA4
Altitude:
15,000 ft. (operational)
System Interfaces:
Data Plane:
Standard Client:
Fiber Client:
100Base-TX (copper - RJ-45 connector), Weatherproof
100Base-FX (LC Fiber Optic Connector), Weatherproof
Management:
100Base-TX, 100Base-FX, or over the air
4.9 GHz RF:
Type-N (F) connector, 50 ohms
High Power Copper Client supplied with nomadic installation kit.
137
MM-014720-001, Rev. A
E.1.2 Data Specifications
Security Features:
Authentication:
X.509 Digital Certificate
Authorization:
RSA Public Key Encryption
Encryption:
AES 128 bit
Network Features:
Management:
SNMP
Convergence:
IPv4 over IEEE 802.3/Ethernet
IEEE 802.3/Ethernet
Configuration:
UAS, BAS, or embedded Web page
PHY Characteristics:
PHY:
OFDM 256 FFT
Channel Bandwidth:
5 or 10 MHz
Modulation Rates:
BPSK, QPSK (1/2, 3/4), 16QAM (1/2, 3/4),
64QAM (1/2, 3/4)
Duplexing:
Time Division Duplexing (TDD)
Frame Durations:
5 msec, 10 msec
CP:
1/32, 1/16, 1/8, 1/4
Throughput:
1 to 19 Mbps for 5 MHz channel
3 to 38 Mbps for 10 MHz channel
MAC Characteristics:
Duplexing:
Time Division Duplexing (TDD)
Service Classes Supported:
Real-Time Polling Service (rtPS)
Non-Real-Time Polling Service (nrtPS)
Unsolicited Grant Service (UGS)
Best Efforts (BE)
138
Payload Header Suppression:
Supported
Automatic Repeat Request (ARQ):
Supported
MM-014720-001, Rev. A
E.1.3 Transmitter
Frequency:
4897.5 + 5*n (n=1,2,…18) MHz, or
4895.0 + 10*n (n=1,2,…9) MHz
Channel Bandwidth:
5 or 10 MHz
Output Power into a 50 Ω Load:
Low Power Model:
0.1 Watts (+20 dBm QPSK/16QAM)
High Power Model:
0.5 Watts (+27 dBm QPSK/16QAM)
Output Power Control:
Low Power Model:
+20 to -30 dBm (50 dB range) adjustable, 1 dB steps
High Power Model:
+27 to -23 dBm (50 dB range) adjustable, 1 dB steps
FCC ID:
High Power Model:
BV8VIDA-BBCL
Industry Canada:
High Power Model:
Spectrum Mask:
3607A-VIDABBCL
FCC Mask M (90.210)
E.1.4 Receiver
Frequency Band:
4897.5 + 5*n (n=1,2,…18) MHz, or
4895.0 + 10*n (n=1,2,…9) MHz
Channel Bandwidth:
5 or 10 MHz
Frequency Stability:
20 PPM
Sensitivity at BER 10E-6:
BPSK -1/2:
-96 dBm
QPSK -3/4:
-91 dBm
16-QAM – 3/4:
-85 dBm
Max RX Input Power:
-30 dBm
Max/RX Input Power (no damage):
0 dBm
139
MM-014720-001, Rev. A
E.2
BASE STATION
E.2.1
Hardware Specifications
Model Numbers:
Base Station, AC with Copper Ethernet:
MAVM-VMXBA (BS-009214-001)
Base Station, DC with Fiber:
MAVM-VMXBD (BS-009214-002)
Base Station, DC with Copper Ethernet:
MAVM-VMXBD (BS-009214-003)
Physical Characteristics:
Electrical Power:
AC Model:
DC Model:
120 Vac ±15%, 50-60 Hz
+24 ±3 Vdc (neg. gnd.)
Power Consumption:
60 Watts maximum
Size (H x W x D):
14.5 in. x 8.0 in. x 4.25 in.
(36.9 cm x 20.3 cm x 10.8 cm)
Weight:
13.5 lbs (6.17 kg)
Environmental Specifications:
Operating Temperature:
-22°F to +140°F (-30°C to +60°C)
Storage Temperature:
-40°F to +185°F (-40°C to +85°C)
Environmental:
NEMA4
Altitude:
15000 ft
System Interfaces:
Data Plane:
140
Copper:
100Base-TX (copper - RJ-45 connector), Weatherproof
Fiber:
100Base-FX (LC Fiber Optic Connector),
Weatherproof
Management:
100Base-TX or 100Base-FX
4.9 GHz RF:
Type-N (F) connector, 50 ohms
GPS RF:
SMA (F) connector, 50 ohms
MM-014720-001, Rev. A
Security Features:
Authentication:
X.509 Digital Certificate
Authorization:
RSA Public Key Encryption
Encryption:
AES 128 bit
Network Features:
Management:
SNMP
Convergence:
IPv4 over IEEE 802.3/Ethernet
IEEE 802.3/Ethernet
Configuration:
UAS, BAS, or embedded Web page
PHY Characteristics:
PHY:
OFDM 256 FFT
Channel Bandwidth:
5 MHz
Modulation Rates:
BPSK, QPSK (1/2, 3/4), 16QAM (1/2, 3/4),
64QAM (1/2, 3/4)
Duplexing:
Time Division Duplexing (TDD)
Frame Durations:
5 msec, 10 msec
CP:
1/32, 1/16, 1/8, 1/4
Throughput:
1 to 19 Mbps for 5 MHz channel
MAC Characteristics:
Duplexing:
Time Division Duplexing (TDD)
Service Classes Supported:
Real-Time Polling Service (rtPS)
Non-Real-Time Polling Service (nrtPS)
Unsolicited Grant Service (UGS)
Best Effort (BE)
Payload Header Suppression:
Supported
Automatic Repeat Request (ARQ):
Supported
141
MM-014720-001, Rev. A
E.2.2
Transmitter
Frequency Band:
4937.5 + 5*n (n=1,2,…10) MHz
Channel Bandwidth:
5 MHz
RF Power Output:
0.5 Watts (27 dBm ) Maximum
Output Power Control:
30 dB
FCC ID:
BV8VIDA-BB
Industry Canada:
3670A-VIDABB
Spectrum Mask:
FCC Mask M (90.210)
E.2.3
Receiver
Frequency Band:
4937.5 + 5*n (n=1,2,…10) MHz
Channel Bandwidth:
5 MHz
1st Adjacent channel rejection at BER = 1e-6
for 3 dB degradation C/I (16QAM-3/4):
>20 dB
2nd Adjacent channel rejection at BER = 1e6 for 3 dB degradation C/I (16QAM-3/4):
>50 dBc
Sensitivity at BER 10E-6:
142
BPSK -1/2:
-96 dBm
QPSK -3/4:
-91 dBm
16-QAM – 3/4:
-85 dBm
Max RX Input Power:
-30 dBm
Max/RX Input Power (no damage):
0 dBm
MM-014720-001, Rev. A
E.3
MULTILINK STATION AND B510 BASE STATION
E.3.1
Hardware Specifications
Model Numbers:
MultiLink Station 3:
MAVM-MLINK (BS-014648-003)
B510 Base Station :
MAVM-MBASE (BS-014648-004)
Regulatory:
Wireless Protocol:
IEEE 802.16 2004
FCC ID:
MultiLink Station:
Base Station
BV8MLINK
BV8MBASE
Industry Canada:
MultiLink Station:
B510 Base Station
3670A-MLINK
3670A-MBASE
Spectrum Mask:
FCC Mask 90.210(m)
Physical Characteristics:
Electrical Power:
+24 ±3 Vdc (neg. gnd.)
Power Consumption:
MultiLink Station:
B510 Base Station
76 Watts (max)
60 Watts (max)
Size (H x W x D):
Weight:
MultiLink Station:
B510 Base Station
14.5 in. x 8.0 in. x 4.25 in.
(36.9 cm x 20.3 cm x 10.8 cm)
11.4 lbs (5.18 kg)
10.8 lbs (4.91 kg)
Environmental Specifications:
Operating Temperature:
-22°F to +140°F (-30°C to +60°C)
Storage Temperature:
-40°F to +185°F (-40°C to +85°C)
Environmental:
NEMA4
Altitude
Low Pressure Operating Range:
Low Pressure Storage Range:
15000 ft.
30000 ft.
The MultiLink Station contains the functionality of both a base station and subscriber station.
143
MM-014720-001, Rev. A
System Interfaces:
Data Plane:
Copper:
Fiber:
100Base-TX (copper - RJ-45 connector), Weatherproof
100Base-FX (LC Fiber Optic Connector), Weatherproof
4.9 GHz RF:
Two-Type-N (F) connectors, 50 ohms (base
station/client)
GPS RF:
TNC (F) connector, 50 ohms
Security Features:
Authentication:
X.509 Digital Certificate
Authorization:
RSA Public Key Encryption
Encryption:
AES 128 bit
Network Features:
Management:
SNMP
Convergence:
IPv4 over IEEE 802.3/Ethernet
IEEE 802.3/Ethernet
Configuration:
UAS, BAS, or embedded Web page
PHY Characteristics:
144
PHY:
OFDM 256 FFT
Channel Bandwidth:
5 or 10 MHz
Modulation Rates:
BPSK, QPSK (1/2, 3/4), 16QAM (1/2, 3/4),
64QAM (1/2, 3/4)
Duplexing:
Time Division Duplexing (TDD)
Frame Durations:
5 msec, 10 msec
CP:
1/32, 1/16, 1/8, 1/4
Throughput:
1 to 19 Mbps for 5 MHz channel
3 to 38 Mbps for 10 MHz channel
MM-014720-001, Rev. A
MAC Characteristics:
Duplexing:
Time Division Duplexing (TDD)
Service Classes Supported:
Real-Time Polling Service (rtPS)
Non-Real-Time Polling Service (nrtPS)
Unsolicited Grant Service (UGS)
Best Efforts (BE)
Payload Header Suppression:
Supported
Automatic Repeat Request (ARQ):
Supported
145
MM-014720-001, Rev. A
E.3.2
E.3.3
Base Station Section Specifications
Transmitter
Frequency Band:
4897.5 + 5*n (n=1,2,…18) MHz, or
4895.0 + 10*n (n=1,2,…9) MHz
Channel Bandwidth:
5 or 10 MHz
RF Power Output:
0.5 Watts (27 dBm ) Maximum
Output Power Control:
30 dB
FCC ID:
MultiLink Station:
Base Station
BV8MLINK
BV8MBASE
Industry Canada:
MultiLink Station:
Base Station
3670A-MLINK
3670A-MBASE
Spectrum Mask:
FCC Mask M (90.210)
E.3.4
Receiver
Frequency Band:
4897.5 + 5*n (n=1,2,…18) MHz, or
4895.0 + 10*n (n=1,2,…9) MHz
Channel Bandwidth:
5 or 10 MHz
1st Adjacent channel rejection at BER = 1e-6
for 3 dB degradation C/I (16QAM-3/4):
>20 dB
2nd Adjacent channel rejection at BER = 1e6 for 3 dB degradation C/I (16QAM-3/4):
>50 dBc
Sensitivity at BER 10E-6:
146
BPSK -1/2:
-96 dBm
QPSK -3/4:
-91 dBm
16-QAM – 3/4:
-85 dBm
Max RX Input Power:
-30 dBm
Max/RX Input Power (no damage):
0 dBm
MM-014720-001, Rev. A
E.3.5
Subscriber Station Section Specifications (MultiLink Only)
E.3.6
Transmitter
Frequency:
4897.5 + 5*n (n=1,2,…18) MHz, or
4895.0 + 10*n (n=1,2,…9) MHz
Channel Bandwidth:
5 or 10 MHz
Output Power into a 50 Ω Load:
0.5 Watts (+27 dBm QPSK/16QAM)
Output Power Control:
+27 to -23 dBm (50 dB range) adjustable, 1 dB steps
FCC ID:
BV8MLINK
Industry Canada:
3670A-MLINK
Spectrum Mask:
FCC Mask M (90.210)
E.3.7
Receiver
Frequency Band:
4897.5 + 5*n (n=1,2,…18) MHz, or
4895.0 + 10*n (n=1,2,…9) MHz
Channel Bandwidth:
5 or 10 MHz
Frequency Stability:
20 PPM
Sensitivity at BER 10E-6:
BPSK -1/2:
-96 dBm
QPSK -3/4:
-91 dBm
16-QAM – 3/4:
-85 dBm
Max RX Input Power:
-30 dBm
Max/RX Input Power (no damage):
0 dBm
147
Tyco Electronics Wireless Systems
221 Jefferson Ridge Parkway
Lynchburg, Virginia 24501
(Outside USA, 1-434-385-2400) Toll Free 1-800-528-7711
www.macom-wireless.com
Printed in U.S.A.

---

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