BAE Systems WINTLAW 802.16 Wideband Transceiver User Manual XX XXXX Exhibit Cover

BAE Systems 802.16 Wideband Transceiver XX XXXX Exhibit Cover

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     5015 B.U. Bowman Drive  Buford, GA 30518 USA Voice: 770-831-8048 Fax: 770-831-8598   Certification Exhibit     FCC ID:  Y75WINTLAW  FCC Rule Part: 15.247  ACS Report Number:  10-0313.W03.11.A   Manufacturer: BAE Systems Model: R3T-S-700     Manual
  Date:  Jan 19, 2011   Revision:  I  CAGE Code:  0D0D0 BAE Systems Information and Electronic Systems Integration Inc. Network Systems 164 Totowa Road, Wayne, NJ  07474-0975  USA Telephone (973) 633-6000          R3T-S-700 Users Guide  Jan 19, 2011           Prepared For:  General Distribution       BAE Systems Information and Electronic Systems Integration Inc. – Network Systems (NS) Proprietary This data, furnished to US Government representatives, shall not be disclosed outside the customer and shall not be duplicated, used, or disclosed in whole or in part for any purpose other than to evaluate the information provided, that if a contract is awarded to this offeror as a result of or in connection with the submission of this data, the customer shall have the right to duplicate, use or disclose the data to the extent provided in the contract.  This restriction does not limit the customer's right to use information contained in the data if it is obtained from another source without restriction.  The data subject to this restriction is contained in sheets marked with the restriction legend. WARNING: This document contains technical data whose export is restricted by the Arms Export Control Act (Title 22, U.S.C., Sec 2751, et seq.) or the Export Administration Act of 1979, as amended, Title 50, U.S.C., app. 2401 et seq. Violations of these export laws are subject to severe criminal penalties. This information in document and electronic form, including any attachments and exhibits hereto, may not be exported, released or disclosed to foreign persons inside or outside the United States without first obtaining the proper export authority. Recipient shall include this notice with any reproduced portion of this document.  DUNS 19-495-6751  Total number of pages:  87
  Date:  Jan 19, 2011   Revision:  I  CAGE Code:  0D0D0 BAE Systems Information and Electronic Systems Integration Inc. Network Systems 164 Totowa Road, Wayne, NJ  07474-0975  USA Telephone (973) 633-6000    FCC General Statements and Warnings:    Warning: Changes or modifications to this device not expressly approved by BAE Systems could void the user’s authority to operate the equipment.    NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:  • Reorient or relocate the receiving antenna. • Increase the separation between the equipment and receiver. • Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. • Consult the dealer or an experienced radio/TV technician for help.  NOTE:  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 and your body. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.”
  Date:  Jan 19, 2011   Revision:  I  CAGE Code:  0D0D0 BAE Systems Information and Electronic Systems Integration Inc. Network Systems 164 Totowa Road, Wayne, NJ  07474-0975  USA Telephone (973) 633-6000    Table Of Contents 1.0  802.16 SYSTEM OVERVIEW AND INTERCONNECTS ................................................1 2.0 1U RADIO ............................................................................................................................5 2.1 1UR Features .....................................................................................................5 2.2 UR Installation and Startup Procedures.............................................................5 Cable Connection.........................................................................................5 Startup – BS, SS, Bridging, Non-Bridging ..................................................7 3.0 1UR Physical I/O ..................................................................................................................9 4.0 SYSTEM CONFIGURATION ...........................................................................................14 Base-Station Login Page........................................................................................14 Base-Station Home Page........................................................................................15 Base-Station Software Configuration Page ...........................................................17 Base Station Radio Control Page...........................................................................22 Base Station Service Flows....................................................................................25 Base Station Registered SS Page ...........................................................................27 Base Station ACM Parameters Page......................................................................29 Base Station Status Page........................................................................................31 Base Station Bit Status...........................................................................................32 Base Station Maintenance Page .............................................................................34 Base Station Network Status Page.........................................................................36 Base Station Power Settings Page..........................................................................37 Base Station Test Page...........................................................................................39 Base Station Admin Page.......................................................................................40 Base Station Software Update Page.......................................................................41 Base Station Version Page .....................................................................................42 Base Station Contact Page .....................................................................................44 Subscriber Station Login Page...............................................................................44 Subscriber Station Home Page...............................................................................45 Subscriber Station Software Configuration Page ..................................................46 Subscriber Station Radio Control Page..................................................................48 Subscriber Station Service Flow Page ...................................................................51 Subscriber Station Status Page...............................................................................53 Subscriber Station Bit Status Page.........................................................................54 Subscriber Station Maintenance Page....................................................................56 Subscriber Station Network Status Page................................................................58 Subscriber Station Power Settings Page ................................................................59 Subscriber Station Test Page .................................................................................61 Subscriber Admin Page..........................................................................................62 Subscriber Software Update Page..........................................................................63 Subscriber Station Version Page............................................................................64 Contact Page ..........................................................................................................65 5.0 SYSTEM SETUP AND CONFIGURATION EXAMPLE ................................................66 5.1 Bridging Mode Scenario ..................................................................................66
  Date:  Jan 19, 2011   Revision:  I  CAGE Code:  0D0D0 BAE Systems Information and Electronic Systems Integration Inc. Network Systems 164 Totowa Road, Wayne, NJ  07474-0975  USA Telephone (973) 633-6000  5.2 Bridging Base Station Configuration Mode ....................................................66 5.3 Bridging Subscriber Station Configuration Mode ...........................................69 5.3.1 Bridging Base Station Configuration Mode with two subscribers ...............70 5.4 Non-Bridging Mode Scenario..........................................................................72 5.5 Non-Bridging Base Station Configuration Mode ............................................73 5.6 Non-Bridging Subscriber Station Configuration Mode...................................75 5.6.1 Non-Bridging Base Station Configuration Mode with Two subscribers..................................................................................................76 6.0 PERFORMANCE ...............................................................................................................79 Radio Performance.................................................................................................79 6.1 Receiver Sensitivity .........................................................................................79 6.2 User Data Rates................................................................................................80 APPENDIX:  DEFINITIONS, ACRONYMS, AND ABBREVIATIONS ......................82
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  1 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. 1.0       802.16 SYSTEM OVERVIEW AND INTERCONNECTS The functional block diagram of the 802.16 System is shown in Figure 1. The R3T-S-700 radio system is comprised of the R3T-S-700 Indoor radio and the Outdoor RF Unit. Table 1 provides a definition of the system interfaces. The RF Outdoor unit can be located up to 100 feet from the indoor unit. The system is designed to operate with up to 10 db cable loss between the Indoor and Outdoor units.     Figure 1 : 802.16 System Block Diagram
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  2 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page.  No.  Interface  Connector  Direction  Description E1  Ethernet  Control/Data RJ-45  Input/Output   10/100BaseT Ethernet Network Connector E2  RF -Radio  RX TNC Female Input/Output   Input: RF Rx IF Input 5.8 or 4.6 GHz Output:  15VDC prime power for RF Unit  E3  RF -Radio  Tx TNC Female Output   RF Tx IF Output 5.8 or 4.6 GHz. TTL Signal For RF Unit T/R Control:  HIGH,  2.4V  MIN TO  5V  MAX;  LOW,  0.7  VOLTS MAX TO 0 V MIN. E4  Power  AC Plug  Input    110 VAC Power Source –Less than 1 Amp E5  RF - RF Unit  J2 Type N Female  Input/Output  Output: RF Unit Rx  out Port   Input: Primary 15VDC E6  RF –RF Unit  J1 Type TNC Female Input  RF Module Tx  in Port. TTL Signal : HIGH, 2.4V MIN TO 5V MAX; LOW, 0.7 VOLTS MAX TO 0 V MIN. E7  RF –RF Unit  J3 Type N Female Input/Output  Antenna Port (Tx/Rx)   Omni or Directional Antenna E8  Serial Control Interface DB9  Input/Output  RS-232 Serial Connection – User Port SW Maintenance E9   Serial Control Interface DB25  Input/Output  RS-422/232 Serial Connection supporting GPS 1PPS, T/R Switch  Table 1 – R3T-S-700 Interfaces  Table 1 describes the interface of the R3T-S-700 System. Connections between the Indoor and Outdoor units should be made using low loss 50 ohm coaxial cable. The RF unit includes a solar shield and can be mounted to a mast as shown in Figure 2 below. Most omni-directional antenna designs can be mounted directly to the RF Unit Antenna Port N-Type connector (J3)
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  3 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page.    Figure 2 – Typical RF Outdoor Unit Mount to Mast 7.75” 7.75” 6.42” 6.1” 2.375”
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  4 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page.  Figure 3 shows a typical radio setup using an omni antenna    Figure 3 – Typical R3T-S-700 Configuration
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  5 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page.   2.0 1U RADIO     This unit is a COTS 1U Radio (1UR) that contains 802.16+ functionality. This unit mates with BAE  supplied  RF  Unit  and  antenna  system.  With  the  appropriate  external  powerhead  and antenna systems, it operates at both 5.8 GHz and 4.6 GHz ranges.   Figure 4. COTS 802.16 1U Radio (1UR) 2.1 1UR Features   All the features and advantages of an IEEE 802.16 platform.  Simple yet powerful GUI for radio configuration.  Additional features from Aeronix 802.16+ MAC and PHY. o Designed for 2000 mph Doppler o Designed for 70 Mile Range, 72 Mbps Burst Rate (QAM64) o TRANSEC (v2.0 and above) o Designed for vibration tolerance o Extra Modulation/Encoding options for rotor aircraft  o Dual Frequency (supports 5.8 GHz and 4.6 GHz).   o IPV6 Capable o Linux Based MAC o Software Defined Radio o Evolution Path to 802.16e 2.2 UR Installation and Startup Procedures Cable Connection With unit power OFF, connect the cables as described and shown below:
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  6 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. 1) Connect the RF Receive Cable to the 1U radio rear panel RX port, as shown in Figure 5.  WARNING! Unit power must be OFF.   Figure 5. 1UR Receive Connection 2) Connect the RF Transmit Cable to the 1U radio rear panel TX port, as shown in Figure 6.   WARNING! Unit power must be OFF.   Figure 6. 1UR Transmit Connection 3) Plug in the RJ-45 Network Connector into the RJ-45 ETHERNET receptacle on the 1U chassis rear panel, as shown in Figure 7.   Figure 7. 1UR AX100617-00x Network Connection 4) Plug supplied Power Cable female end into 1U chassis rear panel POWER receptacle as shown in Figure 8.  5) Plug supplied Power Cable male end into correct power source. 6) Power-on the unit by pressing the power switch on the 1U chassis front panel.  Figure 8. 1UR Power Connection
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  7 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. 7) Connect to the appropriate 9-pin Cable to the 1U chassis front panel USER 1 port, as shown in Figure 9.   Figure 9. 1UR  User Port Connection Startup – BS, SS, Bridging, Non-Bridging  Enter the following commands from a terminal connected to the user1 port.  The terminal should be connected serially at Baud Rate = 115200, 8-N-1, and no flow control. There  are  four  base  startups  which  are  Base-station  or  Subscriber-station  running  in  either bridging mode or non-bridging mode.  To start in the modes perform the following: 1) >cd /mnt/jffs2 2) To run the system as a Base station in bridging mode:  >cp startShimBridgeBS start 3) To run the system as a Base station in non-bridging mode:  >cp startShimBS start 4) To run the system as a Subscriber station in bridging mode:  >cp startShimBridgeSS start 5) To run the system as a Subscriber station in non-bridging mode:  >cp startShimSS start Once  you  have  copied  the  appropriate  script  to  the  ‘start’  script  perform  one  of  the  following modifications. Startup Bridging Mode Enter the following commands from any console connected to the 802.16 radio. 1) >cd /mnt/jffs2 2) Vi the start* file. The following (or similar) results will be displayed on the console. - - - ./mnt/jffs2/brctl addbr mybridge ./mnt/jffs2/brctl addif mybridge eth0 ./mnt/jffs2/brctl addif mybridge aend0 #This is where you  need to  set the  network address so  that  you can  run the GUI ifconfig mybridge 192.168.100.1 netmask 255.255.255.0  cd /mnt/jffs2 - - - 3) Modify the “ifconfig” line to have the desired IP address. 4) Reboot at the console prompt:   >reboot
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  8 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Startup IP Mode Enter the following commands from any console connected to the 802.16 radio. 1) >cd /mnt/jffs2 2) Vi the start* file. The following (or similar) results will be displayed on the console. - insmod macss.ko subscriberNumber=1 - ifconfig eth0 192.168.100.1 - route add -net 192.168.1.0 netmask 255.255.255.0 gw 10.1.1.1 dev aend0 - 3) Modify the “ifconfig eth0” line to have the desired IP address. 4) If this is for a subscriber change this line ‘insmod macss.ko subscriberNumber=1’ to = the desired subscriber number. 5) Modify the “route add” line to have the appropriate -net address.  If you’re on the base add the subscribers, if you’re on the subscriber add the base-stations. 6) Reboot at the console prompt:   >reboot
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  9 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. 3.0 1UR Physical I/O The front panel of a COTS 1U 802.16+ radio is shown in Figure 10. The rear panel is shown in Figure 11. Indicated controls, connectors, ports, and indicators are described below.  Figure 10. COTS 1UR Physical I/O, Front Panel  Figure 11. COTS 1UR Physical I/O, Rear Panel 1 1UR  LED  -  Base  Indicator  -  The  ‘BASE’  LED  is  illuminated  continuously when  the radio is configured as a Base-Station.  The ‘Base’ LED flashes at 1 second intervals when the  radio  is  configured  as  a  Subscriber-Station.    When  the  LED  is  not  illuminated,  the power is off. 2 1UR  LED  -  Synchronization  Indicator  –  The  ‘SYNC’  LED  flashes  on  a  Subscriber-Station  when  it  has  received  maps  from  the  Base-Station  (sync)  and  it  is  illuminated continuously  when  the  Subscriber-Station  has  registered  with  the  Base-Station.    The ‘SYNC’ LED is off on the Base-Station when no Subscriber-Stations are registered and is illuminated continuously when Subscriber-Stations are registered. 3  1UR LED - Receive Indicator - The ‘RCV’ LED is illuminated when a unit is receiving frames.  It is sampled on a 1 second interval. 4 1UR  LED  -  Transmit  Indicator  -  The  ‘XMT’  LED  is  illuminated  when  a  unit  is transmitting frames.  It is sampled on a 1 second interval.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  10 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. 5 1UR PORT – User 1 Port - The User 1 port is a standard 9 pin female connector that supports RS-232 signals (Baud = 115200, 8-N-1 no flow control) with the following pin assignments: Table 3.0-1. 1UR User 1 Port Pinout Pin  Signal Name  Signal Description 01     02  RS232_TX1A  RS232 Output 03  RS232_RX1A  RS232  Input 04     05  RS232_RTN2  Sig_Gnd 06     07     08     09     6 1UR SWITCH  –  Power  On/Off  Switch  and  Indicator - This power switch  turns the radio  On  and  Off.    The  switch  is  illuminated  when  the  power  is  turned  On  and  not illuminated when the power is turned Off. 7 1UR  CONNECTOR  –  AC  Power  Connector  -  The  unit  requires  120V  AC  @  60Hz power.  It accepts the supplied standard IEC-430 AC power cord.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  11 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. 8 1UR PORT – User 2 Port - The User 2 port is a standard 25 pin female connector that supports  RS-232/RS-422  maintenance  debug,  transmit  receive  switch,  1PPS,  and reserved signals with the following pin assignments: Table 3.0-2. 1UR User 2 Port Pinout Pin  Signal Name  Signal Description 01  RS232/RS422-_TX2A  RS232 / RS485 / RS422-  Output 02  RS232/RS422-_RX2A  RS232 / RS485 / RS422-  Input 03  RS485 / RS422+_TX2B  RS485 / RS422+ Output 04  RS485 / RS422+_RX2B  RS485 / RS422+ Input 05     06  RS232_RTN  Sig_Gnd 07     08     09P*P TR_SW1+  RS422 Output 10P*P TR_SW1-  RS422 Output 11     12  RSVD (TR_SW2+)  RS422 Output 13  RSVD (TR_SW2-)  RS422 Output 14     15  RSVD (ZEROIZE+)  No Connect 16  RSVD (ZEROIZE-)  No Connect 17     18     19     20  1PPS_TTL  50 Ohm TTL Input - Daisy Chain 21  1PPS_TTL  50 Ohm TTL Input 22  1PPS_RTN  Sig_Gnd 23  1PPS_RTN  Sig_Gnd - Daisy Chain 24  1PPS_TERM_IN  Termination Jumper 25  1PPS_TERM_OUT  Termination Jumper
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  12 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page.  Table 3.0-3. 1UR User 2 Port TX Enable Specifications   Parameter  Test Conditions  Min  TypP1P Max  Unit VBOB Open-circuit output voltage  A or B, No load  0  - -   +5VBCCB V No load (open circuit)  3.3  4.2  +5VBCCB | VBOD(SS)B | Steady-state differential output voltage magnitude  RBLB = 54 Ω  1.8  2.5  - - V ∆| VBOD(SS)B | Change in Steady-state differential output voltage between logic states - -   -0.1  - -   0.1  V P1 PAll typical values are at VBCCB = 5V and 25°C     Figure 12. TR_SW Timing  Marker  Time (us)  Description t1  1.5 us  Time from Tx Enable Active to start of Tx t2  0.5 us  Time from Transmit Out Complete to Tx Enable Inactive t3  1.5 us  Time from Tx Enable Inactive to start of Rx Window
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  13 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. 9 1UR CONNECTOR – Tx RF / Tx Enable Connector - This female TNC connector is connected to the 802.16 RF Transmit system.  +5 DC Power is present on center pin. 10 1UR CONNECTOR - Rx RF Connector- This female TNC connector is connected to the 802.16 RF Receive system. +15V, 4 Amps is present on center pin. 11 1UR  CONNECTOR  -  Ethernet  Connector  -  The  Ethernet  connector  is  a  standard 10/100/1000BaseT RJ45 receptacle. It has the following pin assignments which conform to the Ethernet specification: Table 3.0-4. 1UR Ethernet RJ45 Connector Pinout Pin  Signal Name  Signal Description 01  ETH_CHA+  10/100/1000BaseT 02  ETH_CHA-  10/100/1000BaseT 03  ETH_CHB+  10/100/1000BaseT 04  ETH_CHC+  10/100/1000BaseT 05  ETH_CHC-  10/100/1000BaseT 06  ETH_CHB-  10/100/1000BaseT 07  ETH_CHD+  10/100/1000BaseT 08  ETH_CHD-  10/100/1000BaseT
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  14 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. 4.0 SYSTEM CONFIGURATION This simple yet powerful GUI uses uncomplicated intuitive screens to allow the average 802.16 user:  Configure the system for their network  Take the system operational  Perform maintenance The GUI screens and all their respective elements are described in the following subsections. To get to the main page, types the following URL:  http://<ip address of the radio>/ A step-by-step setup example for bridging mode and non-bridge mode are provided in section 5 of  this  document.    The  bridging  is  the  preferred  method  due  to  enhanced  capabilities  such  as multicast and it does not require manual route configuration.  The recommended browsers to use are Internet Explorer Version 7 and Mozilla Firefox. Base-Station Login Page The base station requires a login for access to configuration screens.  The base station contains one crypto officer login and one user login.   Access to certain configuration items is restricted for the user login.    Table 0-1. Base Station Login Page  Link   Description 1 Login  Location to provide the username and password
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  15 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page.    Base-Station Home Page The  base  station  home  page  contains  hardware  and  software  version  information.    It  also contains network address information.    Table 0-2. Base Station Home Page  Link   Description 1 Home HTML  Link  to  the  Home  page  that  displays  network access  information  as  well  as  the  hardware  and software version information. 2 SW Config HTML  Link  to  the  software  configuration  page;  the configuration  page  contains  the  needed  tools  to  define and  configure  the  external  systems  interaction  with  the 802.16 radio. 3 Radio Control HTML Link to the Radio Control Page; the radio control page  contains  channel,  initial  ranging  and  TRANSEC parameters.    The  user  has  limited  capabilities  for
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  16 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Table 0-2. Base Station Home Page  Link   Description TRANSEC and keying. 4 Service Flow HTML  Link  to  the  Service  Flow  page;  the  service  flow page displays the  current service flows  within  the  node and the  current  state  of  each  service  flow;  this  page  is used to enable or disable the ARQ.  5 Registered SS HTML  Link  to  the  Registered  SS  page;  the  registered SS  page  displays  the  current  subscribers  registered within  the  node;  this  is  a  display  page  only  with  no actions. 6 ACM Params HTML  Link  to  the  parameters  to  adjust  the  automatic changing of modulations.  This screen is only accessible to the crypto officer. 7 Status  HTML Link to the Status page; the status page contains operating status of the radio. 8 Bit Status  HTML  Link  to  the  Bit  Status  results  page.    This  page provides results of the test executed at startup. 9 Maintenance HTML  Link  to  the  Maintenance;  the  maintenance  page contains  information  for  debugging  and  antenna pointing. 10 Network Status HTML  Link  to  the  Network  Status  page;  this  page provides  transmit  and  receive  status  for  the  Ethernet interface. 11 Power Settings HTML  link  to  the  Power  Settings  page;  this  page provides  the capability  to  enter  gain  settings  and  cable loss settings for ranging purposes.   12 Test  HTML Link to the Test page for running either a CW test or BER test.   13 Admin HTML  Link  to  the  administration  page.    This  page provides  TRANSEC  key  selection  and  password changing  capabilities.    The  user  login  does  not  have access to the TRANSEC key selection functions. 14 Software Update HTML  Link  to  the  software  update  page.    This  page provides  the  capability  to  update  the  software  to  the crypto officer only. 15 Version  HTML  Link  to  Version  page;  the  version  page  contains the hardware and software version information. 16 Save Settings Save Settings control key will save the current selected values  in  each  GUI  screen  to  the  Base  Station database.    Additions,  modifications  or  deletions  are not  permanently  saved  to  the  database  unless  this control key is selected. 17 Contact  HTML  Link  to  the  Contact  Page;  the  contact  page contains Aeronix Inc. contact information. 18 Logout  The  logout  control  key  logs  the  current  user  out  of  the system.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  17 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Base-Station Software Configuration Page  Non-Bridging Example
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  18 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Bridging Example       Table 0-3. Base Station Software Configuration Page   Field/Control  Description 1 Service Classes Displays  the  service  classes  currently  entered which  define  the  scheduling  services  for  the network. •  Add Entry Button allows for adding a new service class entry.  Click on the button and enter the fields.  When the fields are complete click on the add button to the right of the entry fields. •  Modify Entry Button allows for modifying a service class entry in the table.  Click on the button and then select the entry to modify by clicking on the modify button to the right of the entry line.  When
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  19 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Table 0-3. Base Station Software Configuration Page   Field/Control  Description modifications are complete click the save button to the right of the entry line. •  Remove Entry Button allows for removing a service class entry from the table.  Click on the button and then click on the remove button to the right of the entry line to remove. •  Cancel Button allows for canceling the current add or modify request.  Entry fields: •  Index – the index into the service class table for the entry.  This field is not entered by the user. •  Name – the user defined name for the service class. •  Schedule Type – the scheduling type for the service class.  The entries are defined in a drop down by the system. •  Max Rate – the maximum data rate for the service class in Kbps. •  Min Rate – the minimum data rate for the service class in Kbps. •  Latency – the latency of the service class.  This is only used as a guideline for pertinent schedule types. •  Priority - the priority of the service class.  This is only used for the real time and non-real time scheduling types.  Seven is the highest priority. •  Jitter – the jitter of the service class.  This is only used as a guideline for pertinent schedule types.  2 Provisioned  Service Flows Displays  the  provisioned  service  flows  currently entered for the network.  The service flows define the  service  class  for  the  uplink  and  downlink  of each subscriber station in the network. •  Add Entry Button allows for adding a new provisioned service flow entry. Click on the button and enter the fields.  When the fields are complete click on the add button to the right of the entry fields. •  Modify Entry Button allows for modifying a provisioned service flow entry in the table. Click on the button and then select the entry to modify by clicking on the modify button to the right of the entry line.  When modifications are complete click the save button to the right of the entry line. •  Remove Entry Button allows for removing a provisioned service flow entry from the
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  20 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Table 0-3. Base Station Software Configuration Page   Field/Control  Description table.  Click on the button and then click on the remove button to the right of the entry line to remove. •  Cancel Button allows for canceling the current add or modify request.  Entry fields: •  SF Index – unique index for the service flow.  Valid entries are 3-255.  The values of 1,2,3 are reserved. •  MAC – the IEEE 802.16 MAC address of the subscriber station. •  Service Class – a drop down selection for the service class for the service flow. •  Direction – the direction of the service flow.  Downstream is BS to SS and upstream is SS to BS. •  State – the state of the service flow (display only). 3 Class Rules Displays  the  classifier  rules  currently  entered  for the network.  The classifiers define the paths that traffic is allowed to flow in the network. •  Add Entry Button allows for adding a new class rule for the network.  Click on the button and enter the fields.  When the fields are complete click on the add button to the right of the entry fields. •  Modify Entry Button allows for modifying a class rule entry in the table.  Click on the button and then select the entry to modify by clicking on the modify button to the right of the entry line.  When modifications are complete click the save button to the right of the entry line. •  Remove Entry Button allows for removing a class rule entry from the table.  Click on the button and then click on the remove button to the right of the entry line to remove. •  Cancel Button allows for canceling the current add or modify request.  Entry Fields: •  Index - the index into the classifier table for the entry.  This field is not entered by the user. •  SF – the SF index that the classifier is associated.  Defines the route for data traffic. •  Fwd – forwarding flag used to specify a downstream forwarding classifier.  Forwarding classifiers must be consistent
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  21 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Table 0-3. Base Station Software Configuration Page   Field/Control  Description with non-forwarding classifiers.  For example, if using IP masks with the non-forwarders, one must also use the same mask with the forwarders.  Forwarders define data traffic from a subscriber that should be forwarded to another subscriber. •  Src MAC - The source external network nodes Ethernet MAC address.  This is the source of data packets. •  Src Mask - Mask to be applied to Source MAC field, allows you to open up a range of MAC addresses. •  Dest MAC – The destination external network nodes Ethernet MAC address.  This is the destination of packets. •  Dest Mask - Mask to be applied to  •  Destination MAC field, allows you to open up a range of MAC addresses.    Multicast Note: o A service class for multicast data is automatically configured that defines the possible bandwidth for multicast messages.  The maximum and minimum rate can be modified according to the expected multicast traffic of your system.  The multicast service class cannot be deleted as multicast support is always on in the bridging configuration.  Multicast is not currently supported in the non-bridging configuration.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  22 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Base Station Radio Control Page   Table 0-4. Base Station Radio Control   Field/Control  Description 1 Tx/Rx Status  The  Tx/Rx  Status  indicates  if  the  user  has selected the Tx/Rx control on or off. 2 Tx/Rx  On  and  Off Buttons Buttons  to  select  the  Tx/Rx  function  to  be  turned on or off. When turned off the unit will not transmit or receive. 3 Link  Bandwidth Allocation The  current  link  bandwidth  allocation  is  shown  in percentage  of  upstream  and  downstream allocation. •  Up % and Down % on the left displays the current allocation of the network. •  Link Bandwidth Allocation Slide Bar – method to adjust the allocation.  The Down and Up percentages on each side of the slide bar displays the adjusted
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  23 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Table 0-4. Base Station Radio Control   Field/Control  Description value. •  Set Allocation Button – changes the current allocation to the new settings displayed in the Down and Up boxes adjacent to the slide bar. 4 Channel  / Channelization Displays channel information for the base station. •  Current Channel – displays the current channel of the base station. •  Channel (Freq) – drop down to choose a different channel for the base station. •  Set Button – changes the current channel of the base station to the channel selected by the channel (freq) drop down. •  Current Channelization – displays the current channelization of the radio.  The base station and subscriber stations need to be configured for the same channelization. •  Channelization Selection – Allows the selection of the channelization.  The 10MHz Europe is not currently enabled in the product.  •  Set Button – changes the current channelization selected by the user. 5 Power Values Allows the user to adjust the transmit power of the radio. •  Tx Pwr Ctrl – the value on the left of the screen shows the current setting.  The drop down on the right side of the screen allows the user to choose a different setting.  Any grey value in the drop down is not currently supported in the product. •  Set Button – changes the transmit power control parameter to the chosen value from the drop down. •  BS Estimated EIRP – the value is an estimated EIRP based upon configuration settings and received RSSI readings.  6 Cable Length Allows  the  user  to  define  certain  cable  length values.    The  choices  are  defined  on  the  Power Settings configuration page by a privileged user. •  External Rx – the current cable length and loss defined in the system for the external receive cable. •  External Rx Cable Loss – drop down to choose the receive cable length and loss in dB for the external receive cable. •  Set Button – changes the external receive cable loss parameter in the radio.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  24 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Table 0-4. Base Station Radio Control   Field/Control  Description •  Antenna – the current cable length and loss defined in the system for the antenna cable. •  Antenna Cable Loss – drop down to choose the antenna cable loss parameter. •  Set Button – changes the antenna cable loss parameter in the radio.  7 Transec Displays the settings for Transec capability. •  Status - Displays whether Transec is on or off on the base station. •  Transec On/Off – buttons to turn Transec on or off.  The crypto user is the only user that can turn Transec off. •  Current Effective Key – displays the key slot of the current effective key.  The current effective key is selected on the Admin page by the crypto officer. •  Key – drop down to select a key slot to zeroize. •  Zeroize – button to initiate the zeroization of the key slot selected in the key drop down.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  25 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Base Station Service Flows    Table 0-5. Base Station Service Flow   Field  Description 1 Service Flows  Displays  every service  flow  that  is  currently configured in the base station.  Displays the following selected fields: •  Index - Actual index number assigned to the service flow. •  CID - Basic CID for this service flow, corresponds to basic CID in registered SS page. •  Direction - Direction is either upstream or downstream.  To create 1 duplex connection you must configure an upstream and downstream service flow. •  State - States can be Provisioned, Admitted, or Active.  Provisioned is a service flow that was configured but the subscriber has not yet established communication with the base station.  Admitted is a state in which a subscriber is
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  26 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Table 0-5. Base Station Service Flow   Field  Description registered and allowed in the system but is not yet flowing traffic.  Active is a flow that currently has traffic or the ability to pass traffic. •  Service Class - The textual name of a configured service class that the node is using for QOS parameters. •  Max Sustained Rate - QOS parameter that defines the maximum sustained rate that will be made available to the flow. •  ARQ Enabled – When the box is checked, ARQ is enabled for the service flow. A reboot is necessary after changing this value and saving the settings. 2 Downstream Burst Profiles Displays  the  downstream  burst  profiles  which  define  the FEC types that the base station uses for transmissions. •  Add Entry Button allows for adding a new burst profile for the network.  Click on the button and enter the fields.  When the fields are complete click on the add button to the right of the entry fields. •  Modify Entry Button – The modify capability has is enabled on the ACM parameter screen. •  Remove Entry Button allows for removing a burst profile rule entry from the table.  Click on the button and then click on the remove button to the right of the entry line to remove. •  Cancel Button allows for canceling the current add or modify request.  Entry Fields: •  Index - the index into the burst profile table for the entry.  This field is not entered by the user. •  DIUC – the DIUC for the entry.  This field is not entered by the user. •  DCD FEC Code – drop down menu to choose the FEC to use for the burst profile.  This defines the modulation type and forward error correction.   •  CINR Mandatory Exit – Threshold value of CINR in dB that is used as a decision point to exit the use of this profile. Valid values are 1-65. •  CINR Minimum Entry - Threshold value of CINR in dB that is used as a decision point to enter the use of this profile. Valid values are 1-65. •  FEC Mandatory Exit – Threshold value of FEC errors that is used as a decision point for exiting a current modulation.  The unit of this value is bits per symbol. •  FEC Mandatory Entry – Threshold value of FEC errors that is used as a decision point for entering a modulation.  The unit of this value is bits per
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  27 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Table 0-5. Base Station Service Flow   Field  Description symbol. 3 Upstream Burst Profiles Displays the upstream burst profiles which define the FEC types  that  the  subscriber  stations  use  for  transmissions.  The  current  implementation  uses  the  same  values  for upstream  as  downstream  for  CINR  and  FEC  entry  and exit.  Entry Fields (display only): •  Index - the index into the burst profile table for the entry. •  UIUC – the UIUC for the entry. •  FEC – type of modulation and forward error correction of the burst profile.  Base Station Registered SS Page     Table 0-6. Base Station Registered SS   Field  Description 1 Registered  SSs Display Displays  all  subscriber  stations  which  are registered  with  the  base  station.    Fields  that  are
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  28 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Table 0-6. Base Station Registered SS   Field  Description displayed include: •  Index - Actual index numbered assigned to the entry. •  MAC Address - IEEE 802.16 MAC address of subscriber station. •  Basic Cid - Basic Connection ID of the subscriber station, used to flow traffic data between the base station and subscriber station. •  Primary Cid - Primary Connection ID of the subscriber station, used to flow management data between the base station and subscriber station. •  CRC On/Off - Indicates if CRC mechanism is on or off for the subscriber station.  CRC covers the entire contents of each PDU within the connections.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  29 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Base Station ACM Parameters Page   Table 0-7. Base Station ACM Page   Field  Description 1 ACM Parameters  Displays  the  adjustable  ACM  parameters  which  includes the following selected fields: •  Current Exit Steps – Displays the current number of modulation steps to take when exiting the current modulation.   •  FEC Exit Steps – Drop down menu for selecting the number of steps to take in the modulation table when exiting the current modulation due to FEC errors occurring. •  Set Button – Sets the exit steps selected in the FEC Exit Steps drop down. •  Current Frame Accumulation – Displays the current number of frames to accumulate before deciding to adjust the modulation up or down.   •  FEC Entry Frame Accumulation – Drop down menu for selecting the number of frame to
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  30 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Table 0-7. Base Station ACM Page   Field  Description accumulate before adjusting the modulation up or down. •  Set Button – Sets the FEC Entry Frame Accumulation selected in the drop down menu. 2 Downstream Burst Profiles Displays  the  downstream  burst  profiles  which  define  the FEC types that the base station uses for transmissions as well  as  the  entry  and  exit  threshold  for  switching modulations. •  Add Entry Button – the button is enabled on the service flow screen. •  Modify Entry Button – The modify capability allows the user to modify the entry and exit thresholds for switching modulations. •  Remove Entry Button - the button is enabled on the service flow screen. •  Cancel Button allows for canceling the current modify request.  Entry Fields: •  Index - the index into the burst profile table for the entry.  This field is not entered by the user. •  DIUC – the DIUC for the entry.  This field is not entered by the user. •  DCD FEC Code – drop down menu to choose the FEC to use for the burst profile.  This defines the modulation type and forward error correction.   •  CINR Mandatory Exit – Threshold value of CINR in dB that is used as a decision point to exit the use of this profile. Valid values are 1-65. •  CINR Minimum Entry - Threshold value of CINR in dB that is used as a decision point to enter the use of this profile. Valid values are 1-65. •  FEC Mandatory Exit – Threshold value of FEC errors that is used as a decision point for exiting a current modulation.  The unit of this value is bits per symbol. •  FEC Mandatory Entry – Threshold value of FEC errors that is used as a decision point for entering a modulation.  The unit of this value is bits per symbol. 3 Upstream Burst Profiles Displays the upstream burst profiles which define the FEC types  that  the  subscriber  stations  use  for  transmissions.  The  current  implementation  uses  the  same  values  for upstream  as  downstream  for  CINR  and  FEC  entry  and exit.  Entry Fields (display only): •  Index - the index into the burst profile table for the entry. •  UIUC – the UIUC for the entry.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  31 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Table 0-7. Base Station ACM Page   Field  Description •  FEC – type of modulation and forward error correction of the burst profile.  Base Station Status Page   Table 0-8. Base Station Status   Field  Description 1 Status Status displays a subset of current settings. •  Current Channel – the current 802.16 specified channel that the base station uses for transmit and receive. •  MAC Address – The IEEE 802.16 MAC address of the base station. •  BS Estimated EIRP – Displays the estimated EIRP of the base station based upon user configured gain a loss values.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  32 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Table 0-8. Base Station Status   Field  Description •  Tx/Rx - Status indicating whether the base station Tx/Rx capability is currently on or off. •  Current Channelization – displays the channelization of the base station. •  Transec Status – displays the status of Transec (on or off). 2 Front Panel Displays  the  PHY  status  lights  on  an  interval basis.  The lights should match those on the front of  the  unit  but,  could  be  delayed  slightly  due  to sample rate. 3 Status Table Displays the status of each subscriber connection. •  Subscriber SFID - Contains the service flow ID of the downstream service flow to the subscriber. •  Current Modulation Type – Contains the current modulation/FEC type for the subscriber connection.  The display show the modulation of the receive frame at the time sampled. •  Avg CINR – Displays the average CINR value for the subscriber connection. •  Avg Leveled RSSI – Displays the average leveled RSSI value for the subscriber connection.  The value is calculated from the receive loss and gain values entered by the user and the actual RSSI value received by the PHY. •  Level – Displays the level of the RSSI.  Base Station Bit Status This page shows the results of the bit tests executed at startup.  The names and number of tests may change due to FIPS requirement changes.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  33 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  34 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Base Station Maintenance Page    Table 0-9. Base Station Maintenance   Field/Control  Description 1 Node Maintenance Provides  a  method  of  rebooting  the  system without a power cycle. Provides  a  method  to  revert  back  to  the  default database. 2 Channel  Maintenance Status Provides  some  additional  values on a  connection basis  for  debugging  and  antenna  pointing purposes. •  Current CINR – the instantaneous CINR for the connection. •  Average CINR – the average CINR of the connection over a period of received
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  35 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Table 0-9. Base Station Maintenance   Field/Control  Description frames.  •  Current RSSI – the instantaneous RSSI for the connection. •  Average RSSI – the average RSSI of the connection over a period of received frames. •  Current Leveled RSSI – the current leveled RSSI value for the connection.  The leveled RSSI reflects the loss and gain values from the output of the PHY (including the transmit power attenuation value) to the PA/LNA. •  Average Leveled RSSI – the average leveled RSSI value of the connection over a period of received frames. •  Average Frequency Offset – the average frequency offset of the connection over a period of received frames. •  FEC Corrected Bits – the instantaneous forward error correction corrected bits •  Average FEC Corrected Bits – the average forward error correction corrected bits for the connection 3 Tx/Rx  Maintenance Status Provides the Tx and Rx frame counts and well as error counts for debugging. •  Rx Frames – the number of frames received •  Invalid Frames – the number of frames received that were invalid •  CRCs Rx – the number of CRCs received •  Reset Rx – the number of times the receive path has been reset •  Tx Frames – the number of frame transmitted •  Tx Drop – the number of transmit frames that were dropped by the classifiers 4 Ranging Environment Provides  the  gain  and  loss  settings  used  for ranging  purposes  and  EIRP  calculations.    These settings are configured on the Power Settings and Radio Control pages. 5 PHY Temperature  Provides  the  temperature  of  the  PHY  card  inside of the radio box.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  36 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Base Station Network Status Page    Table 0-10. Base Station Network Status   Field/Control  Description 1 Network Status Displays  the  number  of  transmitted  and  received frames  on  the  network  side  of  the  radio.    This reflects  the  eth0  interface  in  a  non-bridging configuration  and  the  mybridge  interface  in  a bridging configuration.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  37 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page. Base Station Power Settings Page
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  38 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page.   Table 0-11. Base Station Power Settings Page   Field/Control  Description 1 Static Gain and Loss •  PA Tx Gain – the transmit gain of the power amplifier located outside of the radio •  LNA Rx Gain – the receive gain of the low noise amplifier located outside of the radio •  Antenna Gain – the gain of the antenna located outside of the radio •  Internal Rx Cable Loss - the loss of the cable and any other components in the receive path inside of the radio box but external to the PHY •  Internal Tx Cable Loss – the loss of the cable and any other components in the transmit path inside of the radio box but external to the PHY •  Attenuation – the change in transmit power of the PHY 2 External  Rx  Cable Menu •  Contains up to three entries for external receive cable loss values.  This value represents the receive cable between the radio unit and the receive LNA.  The user inputs the length of the cable in feet and the loss value in dB.  The comment field is optional.  The first value entered will be the default value that gets used initially for ranging, leveled RSSI and EIRP calculations.  To change the values used go to the Radio Control page. 3 External  Tx  Cable Menu •  Contains up to three entries for the transmit cable loss values.  This value represents the cable between the radio unit and the transmit power amplifier.  The user inputs the length of the cable in feet and the loss value in dB.  The comment field is optional.   4 Antenna Cable Menu •  Contains up to three entries for the antenna cable loss values.  This value represents the cable between the power head and the antenna.  The user inputs the length of the cable in feet and the loss value in dB.  The comment field is optional.      The Set button in each section is used to place the current values entered into the database.
  Revision:  I   CAGE Code:  0D0D0 ITAR CONTROLLED  39 BAE SYSTEMS PROPRIETARY INFORMATION     Use or disclosure of data contained on this sheet     is subject to the restriction on the title page.  Base Station Test Page   Table 0-12. Base Station Test Page   Field/Control  Description 1 System Information  Provides  the  current  channel  information  of  the radio 2 CW Test Provides  the  capability  to  execute  a  continuous waveform test. •  Transmit Gain – Selection of the transmit gain desired from the pull down menu. •  Start Transmit – Starts the transmission of a CW •  Start Receive – Starts the receive of a CW 3 BER Test Provides  the capability to  execute  a  bit  error  rate test. •  Mod Type – Defines the modulation type used during the test. •  Bit Pattern – Define the bit patter used during the test.

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