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Commissioning Procedure | Users Manual | 336.96 KiB | / September 04 2004 | |||
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FBTEST Reference manual | Users Manual | 1.26 MiB | / September 04 2004 | |||
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Introduction and Product Specification | Users Manual | 555.44 KiB | / September 04 2004 | |||
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Operation and Maintenance Instructions | Users Manual | 776.80 KiB | / September 04 2004 | |||
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Safety Instructions | Users Manual | 182.63 KiB | / September 04 2004 | |||
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Site Requirements and Installation Instructions | Users Manual | 875.87 KiB | / September 04 2004 | |||
1 | Attestation Statements | / September 04 2004 | ||||||
1 | Internal Photos | / September 04 2004 | ||||||
1 | Parts List/Tune Up Info | / September 04 2004 | ||||||
1 | External Photos | / September 04 2004 | ||||||
1 | External Photos | / September 04 2004 | ||||||
1 | Test Report | / September 04 2004 | ||||||
1 | ID Label/Location Info | / September 04 2004 | ||||||
1 | RF Exposure Info | / September 04 2004 | ||||||
1 | Operational Description | / September 04 2004 | ||||||
1 | Cover Letter(s) | / September 04 2004 | ||||||
1 | Cover Letter(s) | / September 04 2004 |
1 | Commissioning Procedure | Users Manual | 336.96 KiB | / September 04 2004 |
Commissioning Procedure Contents 1 General ........................................................................................................ 3 1.1 Commissioning ................................................................................ 3 1.2 Function Check ................................................................................ 4 2 Hardware Commissioning ........................................................................... 5 2.1 General ............................................................................................. 5 2.2 Test Equipment ................................................................................ 5 2.3 Documentation Required ................................................................. 5 3 Part A - Installation Inspection.................................................................... 6 4 Part B - Power Test...................................................................................... 7 5 Part C - Transmitter Test ............................................................................. 8 5.1 C1 - Reference Oscillator................................................................. 8 6 Part D- Hardware Alarms.......................................................................... 10 6.1 D1 - Alarm Status........................................................................... 10 7 Part E- LED indicators .............................................................................. 12 7.1 E1 - LED indicators ....................................................................... 12 8 Before Leaving the Site ............................................................................. 13 9 Software Commissioning .......................................................................... 14 9.1 General ........................................................................................... 14 9.2 Equipment Required....................................................................... 14 9.3 Connecting the BRU1 .................................................................... 15 9.3.1 Connection Procedure......................................................... 15 9.3.2 NODOP............................................................................... 15 9.3.3 Console ............................................................................... 15 Installation of BRU1 Software....................................................... 15 10 Commissioning Procedure......................................................................... 19 10.1 Part SW-A - Commissioning the Computer................................... 19 10.2 Part SW-B - Network Test ............................................................. 20 10.3 Part SW-C - Traffic Test ................................................................ 21 9.4 BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 BRU1 MANUAL 11 Before Leaving the Site..............................................................................22 12 Appendix 1 Downloading New MAIN NTE SW to a BRU1 Node....................................23 The contents of this document are subject to revision without notice due to continued progress in methodology, design and manufacturing. Ericsson shall have no liability for any errors or damages of any kind resulting from the use of this document. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 COMMISSIONING PROCEDURE 3 (23) 1 General 1.1 Commissioning The commissioning is divided into two parts. This first part describes the HW
(Hardware) Commissioning Procedure for the Base Radio Unit 1 (BRU1) and the second part describes the SW (Software) Commissioning Procedure. After installation of the BRU1, it is recommended to carry out the tests described below on site. The test procedures described in this section require that the installation has been successfully completed in accordance with the installation instructions found in Node Hardware Library/BRU1/Site Requirements and Installation Instructions. When performing the hardware commissioning procedure, the following documents are also required:
Node Hardware Library/BRU1/FBTEST Reference Manual Node Software Library BRU1 - Site Documentation Note:
The Site Documentation is not included in the electronically published version of the Mobitex NTE Client Library but is delivered on paper together with the hardware. The results of the commissioning are entered in the Commissioning Test Record included in the BRU1 - Site Documentation. Each check or test described below has a specific name. After each check has been carried out, the corresponding check box in the Commissioning Test Record is to be completed by entering the value of the test result, or for some tests, just by selecting the check box. If the result of the commissioning procedure does not correspond with the information given in this document, or if a malfunction is suspected, please refer to Node Hardware Library/BRU1/Operation and Maintenance Instructions/Troubleshooting. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 4 (23) BRU1 MANUAL 1.2 Function Check If required by the operator, the Function Check described in Node Hardware Library/BRU1/Operation and Maintenance Instructions, may be used as an extended hardware commissioning test. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 COMMISSIONING PROCEDURE 5 (23) 2 Hardware Commissioning 2.1 General The test equipment listed below is required when carrying out hardware commissioning procedure. Other equivalent test equipment may be used instead if performance and tolerances meet the specifications stated below. Note:
The test instruments should be properly calibrated as any inaccuracy in the instruments may deteriorate system quality. 2.2 Test Equipment Portable PC including VT-100 emulation software The following equipment is required when carrying out hardware commissioning of the BRU1:
BRU3 Console Cable TSRA 902 0190 or equivalent RF Power Meter Multimeter RF Attenuator 1 GHz, 30-50 dB Mobitex radio modem FBTEST software Frequency counter 1 GHz (accuracy 0.01 ppm) Note:
Ericsson does not supply the test equipment except for FBTEST software. 2.3 Documentation Required Commissioning Test Record, included in the BRU1 - Site Documentation. FBTEST Reference Manual, located in the NTE Client Library/Node Hardware Library/BRU1. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 6 (23) BRU1 MANUAL 3 Part A - Installation Inspection A1 Make sure that the site is clean and not damaged. A2 Make sure that the BRU1 is correctly mounted in accordance with the installation instructions given in Node Hardware Library/BRU1/Site Requirements and Installation Instructions. A3 Verify that the delivered equipment and serial numbers correspond to the specifications in the BRU1 - Site Documentation. A4 Make sure that the combined Rx/Tx antenna is installed. A5 Make sure that the required power supply cable is correctly installed. A6 Make sure that the connection line cable is correctly installed. For more site-specific information, please refer to the BRU1 - Site Documentation. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 COMMISSIONING PROCEDURE 7 (23) 4 Part B - Power Test Requirements The incoming DC supply must be within 21 - 32V DC. Test equipment Multimeter Test procedure 1. Disconnect the incoming Power supply cable. 2. Measure the incoming +24V DC Power supply cable connector. 3. Reconnect the Power supply cable to the BRU1. 4. Make sure the green System OK LED is lit, and that the red LED Error goes out after a few seconds. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 8 (23) BRU1 MANUAL 5 Part C - Transmitter Test 5.1 C1 - Reference Oscillator In the BRU1, the reference oscillator controls the channel unit frequency. Thus, an adjustment of the reference oscillator, in accordance with the following procedure, implies control of the channel unit frequency accuracy. Note:
Only authorized personnel are allowed to adjust the frequency of the reference oscillator. Requirements Note:
The frequency counter and the BRU1 must be powered up at least 10 min. before proceeding with the test. The measurement must be carried out on the correct carrier frequency for the site. For 900 BRU1 the carrier frequency is between 935.0125 and 940.9875 MHz. The carrier wave must not have a frequency error exceeding +/-0.1 ppm. Example:
For a carrier frequency of 936.0 MHz, the frequency error may not exceed
+/-93.6 Hz. Portable PC including VT-100 emulation software Test equipment Console cable TSRA 902 0190 or equivalent RF Attenuator 1 GHz, 30-50 dB FBTEST software Frequency counter 1 GHz (Degree of accuracy: 0.01 ppm) BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 COMMISSIONING PROCEDURE 9 (23) Test procedure 1. Put the BRU1 in command mode by pressing !!! when the following text appears:
REVISION : BOOT R1B Virtual thumb wheel position: Command mode CPU type: MC68030 Press !!! within 5 seconds, to change current thumb wheel value:
0 - Normal position operation 1 - Test (should not be used) 2 - Boot from RAM-disks (MS-DOS format) 3 - Not defined, reserved 4 - Boot from SCSI-disks 5 - Boot from PROM-disks 6 - Boot from old PROM-disk 7 - Command position operation 8 - Not defined, reserved Enter choice (0..8): 7 2. Connect the frequency counter via the RF attenuator to the BRU1 antenna. connection. 3. On request, enter !!! and set the virtual thumb wheel to position 7. 4. Use FBTEST to set the transmitter carrier frequency to correct value for the site. Please refer to Node Hardware Library/BRU1/FBTEST Reference Manual. 5. 6. 7. Select the power corresponding to 0 dB attenuation of the transmitter. Start the transmitter. Read the frequency measured on the frequency counter display. Check the result against the requirements specified. Note the value in the Commissioning Test Record. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 10 (23) BRU1 MANUAL 6 Part D- Hardware Alarms 6.1 D1 - Alarm Status Requirements All alarms shall be in NORMAL mode, defined as follows:
Alarm Temp alarm LOW Status INACTIVE (OFF) Temp alarm HIGH INACTIVE (OFF) Temp alarm LOW SHUTOFF INACTIVE (OFF) Temp alarm HIGH SHUTOFF INACTIVE (OFF) DC alarm 5V DC alarm 8V INACTIVE (OFF) INACTIVE (OFF) DC alarm 15V INACTIVE (OFF) External alarm 1
(For costumer use.) Radio OFF INACTIVE (OFF) INACTIVE (OFF) Reflection alarm INACTIVE (OFF) Low output power alarm INACTIVE (OFF) BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 COMMISSIONING PROCEDURE 11 (23) Portable PC including VT-100 emulation software Test equipment Console cable TSRA 902 0190 or equivalent FBTEST software Test procedure 1. Select STATUS OVERVIEW from the Main Menu in FBTEST. 2. Read the alarm status obtained on the terminal screen. Check the result against the requirements specified. Note the value in the Commissioning Test Record. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 12 (23) BRU1 MANUAL 7 Part E- LED indicators 7.1 E1 - LED indicators Requirements Check the LED status for the LEDs. LED Status SYSTEM OK ERROR RS232 RS422 LINK (RJ-45 Connector) RX (RJ-45 Connector) Test equipment None ON = power ok OFF = internal DC failure FLASHING = FBTEST running ON = Internal H/W error OFF = No failure ON or OFF depending on configuration ON or OFF depending on configuration LINK indicator for Ethernet ON = Good link;
OFF = No link Ethernet activity on RX Test procedure Check visually that the led indicators; SYSTEM OK is lit and the ERROR is turned off. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 COMMISSIONING PROCEDURE 13 (23) 8 Before Leaving the Site 1. Make sure all plugs and connectors are connected. 2. 3. Set the virtual thumb wheel to position zero 0 for normal node execution. Check that all outstanding items are listed in the Commissioning Test Record, and also, that the person and company responsible for the item/-s, is informed. When the hardware commissioning procedure is completed, please proceed with the software part of the Commissioning Procedure. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 14 (23) BRU1 MANUAL 9 Software Commissioning 9.1 General This document describes the measurements and checks to be carried out during the software commissioning procedure. All checks are carried out by using NODOP. Refer to Node Software Library/NODOP - Reference Manual for more information regarding applicable commands and qualifiers. Should the result of the software check deviate from what is described in this document, or if you suspect malfunction, please refer to Node Hardware Library/BRU1/Operation and Maintenance Instructions. The other documents in the BRU1 Manual are also recommended reading if you are not familiar with the equipment. 9.2 Equipment Required Cables:
NODOP cable TSRA 902 0190 (same as BRU3) Computer: Use a portable PC with VT100 emulation software including ZMODEM protocol. Set up the portable PC as follows:
Baud: 9600 8 bit ASCII 1 stop bit no parity VT100 mode BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 COMMISSIONING PROCEDURE 15 (23) 9.3 Connecting the BRU1 9.3.1 Connection Procedure In BRU1, the CONSOLE and NODOP share the same port. Use cable TSRA 902 0190 to connect the portable PC, with VT100 emulation software, to the console and NODOP port 9.3.2 NODOP NODOP (NODe Operators Program) is used to facilitate fault diagnosis and commissioning of nodes in the Mobitex network. By using NODOP an operator can access information about the set-up of nodes and operation data. 9.3.3 Console The connection of a terminal to a nodes console port enables the facility for reading screen messages, thus making it possible to follow what is happening in the node. The screen read-out enables the operator to follow the node both at initial start-up, and also when troubleshooting. 9.4 Installation of BRU1 Software 1. 2. 3. Connect the FE Console Cable TSRA 902 0190 between the PC and the console port connector P1-Console in the BRU1. Start the terminal software. Turn the power on by connecting the power cable. 4. At request, enter !!! and set the thumb-wheel to position 7. 5. When getting the <CMD> prompt, you may set BRU1 baudrate. The maximum possible baudrate is 115200. The higher the baudrate, the faster the loading of the remaining software will be. The baudrate is set by entering SB and <RETURN>, and, when prompted,
[baudrate] and <RETURN>. 6. Change the baudrate of the terminal emulator to that of BRU1. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 16 (23) BRU1 MANUAL 7. 8. Start the software download function by entering ASY and <RETURN>. Load the desired software (MAIN, BOOT, FBTEST and optionally CONFIG) by using ZMODEM. Note:
The node will restart after each piece of software has been loaded. The two preceding steps must therefore be repeated each time a piece of software is loaded. 9. When getting the <CMD> prompt, set BRU1 baudrate to 9600. Set the baudrate of the terminal emulator to 9600. 10. Check the led indicators that the correct serial interface is selected
(selection of serial interface is performed in FBTEST). First Start-up, CONFIG not Present 1. Check the contents of the WP2 disc by running the following command:
CMD>di <RETURN>
WP2: <RETURN>
2. Run the following command at the <CMD> prompt:
CMD> b wp2: a1_xxxxx.mb3 3. When the node boots it will not find any CONFIG and therefore you are prompted to enter the node number. After you have entered the node number, the node may reboot for new system parameters. Example:
... TASK0: Config not found, instead pass 1 can be entered from console _OWNNODENUMBER: > [node number]
TASK0 : Start handling system parameters Will autogenerate memory system parameters and reboot
... 4. Run the following command at the <CMD> prompt:
CMD> b wp2: a1_xxxxx.mb3 5. After the node has rebooted, you are prompted to enter the communication interface for the slave unit connected to the node. Note that the X.25 option shall be selected whether X.25 or XOT is desired. Example:
BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 COMMISSIONING PROCEDURE 17 (23) TASK0: Enter protocol HDLC/X25/MASC/BIU for unit 0 Enter . to ignore _Enterprotocol: > X25 _OK?(Y/N) > Y CFG_DB: Delete CONFIG_DB 6. Press <RETURN> when the system prompts you to enter user name and password (they are not required at this stage). 7. Verify that the slave unit has started. NODOP> LIST UNIT The status of the unit should be Running. 8. 9. Establish (create) a connection to the superior node. The connection will automatically be enabled after it has been created. Example:
NODOP> CREATE SUPERIOR_CONNECTION [superior node]
Examine if the connection to the superior node works by issuing the command:
NODOP> SHOW CONNECTION [superior node]
10. Tell the NCC operator to DISTRIBUTE a proper config to the node, to perform the on-line operation UPDATE SW, and to RESTART the node. 11. When you are prompted, enter !!! on the console port and set the virtual thumb wheel to position 0. 12. Set the console printouts on:
NODOP> SET CONSOLE ON 13. Wait until a screen message indicates that the new NSV (Node Software Version) is permanently installed. Examine if the NSV is permanently installed by issuing the command:
NODOP> SHOW BOOT_SOURCE 14. Run the command NODOP> SET CONSOLE OFF 15. Terminate the NODOP session by issuing the <LOGOUT> command. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 18 (23) BRU1 MANUAL First Start-up, MAIN and CONFIG Present 1. Check the contents of the WP2 disc by running the following command:
CMD>di <RETURN>
WP2: <RETURN>
2. When the node has rebooted automatically, run the following command:
CMD> b WP2: a1_xxxxx.mb3 <RETURN>
The restart resumes. 3. Wait until the BRU1 is connected to its superior node. 4. 5. Run the following commands and press <RETURN>:
NODOP> set boot config anydsk [config file] Yes NODOP> set boot master anydsk [MAIN software] Yes Run the following command to reboot the node:
NODOP> boot master 120 Yes <RETURN>
6. When you are prompted, enter !!! on the console port and set the thumb-
wheel to position 0. 7. 8. Check with the NCC operator that no alarms are present. Tell the NCC operator to update the NMS Client. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 COMMISSIONING PROCEDURE 19 (23) 10 Commissioning Procedure 10.1 Part SW-A - Commissioning the Computer Connect the portable terminal to the console port and make sure that the unit is powered. If the checks make you suspect a malfunction, please refer to Node Hardware Library/BRU1/Operation and Maintenance Instructions/Troubleshooting. SW-A1. Connect the incoming power supply cable. SW-A2. Read and check that the screen text is correct. SW-A3. During the start-up, you are asked whether you want to set the virtual thumb wheel position. Enter !!! on the console terminal and set the virtual thumb wheel to position zero 0 for normal node execution. Note: Wait until the prompt <USERNAME:> is visible. Press
<RETURN> or, if applicable, enter user name and password. SW-A4. Enter the NODOP command <SHOW SYSTEM>. Write the information in the Test record. SW-A5. Enter the NODOP command <LIST UNITS>, for the unit enter the command <SHOW UNIT>. Write the information in the Commissioning Test Record. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 20 (23) BRU1 MANUAL SW-A6. For the unit, enter the NODOP command <LIST PORTS>. For the port, enter the command <SHOW PORT>. For the port, enter the NODOP command <LIST CHANNELS>. For every channel listed, enter the command
<SHOW CHANNEL>. Enter the NODOP command <LIST CONNECTIONS>. For every connection listed, enter the command
<SHOW CONNECTION>. Note the information in the Commissioning Test Record. 10.2 Part SW-B - Network Test SW-B1. Use the NODOP command <SHOW TIME> and verify that the base has received the correct system time. Set the time, if necessary using the <SET TIME> command. Make a note of the test results in the Commissioning Test Record. SW-B2. Use the command <SHOW DELTA TIME> and verify that the node has received the correct delta time. Set the time, if necessary, using the <SET DELTA TIME> command. Make a note of the test results in the Commissioning Test Record. Use the NODOP command <LOGOUT> to terminate the NODOP session. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 COMMISSIONING PROCEDURE 21 (23) 10.3 Part SW-C - Traffic Test SW-C1. For a radio base station, use a Radio Modem to make a final function check. Send STATUS messages to your own MAN and check that the messages return with TRAFSTAT OK. Make a note of the test results in the Commissioning Test Record. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 22 (23) BRU1 MANUAL 11 Before Leaving the Site 1. Make sure all connectors are connected. 2. Make sure the power supply cable is connected. 3. 4. Set the virtual thumb wheel to position zero 0 for normal node execution. Check that all outstanding items are listed in the Commissioning Test Record, and also, ensure that the person and company responsible for the item/items, is informed. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20 COMMISSIONING PROCEDURE 23 (23) Appendix 1 Downloading New MAIN NTE SW to a BRU1 Node In Mobitex System Release NTE, it is possible to have two MAIN software releases stored in a BRU1 node. One release that the BRU1 is running on, and one release that is used as the fallback release during the installation. As from System Release NTE, BRU1 nodes are handled in the same way as other node types when downloading new MAIN software from a superior node. Example M7 = current MAIN NTE software M8 = new MAIN NTE software M7 is running in the BRU1 node. First, MAIN M8 is downloaded directly from the NCC to the BIN1 download device (where the MAIN software is not running currently) in the BRU1 node. For more information on downloading, please see System Library/System User Guides/Network Configuration and Software Distribution/Network Program Distribution. When the BRU1 executes the node restart order that is sent from the NCC, the BRU1 will check that the current and the new CONFIG file (if any) are stored in the node, and the node will be restarted, running the new MAIN M8 software. For more information on restart orders, please see NCC Library/NCC NMS/Job Procedures/Restart of the Nodes/Restart a Node from the NMS. If the CONFIG files do not exist in the node, the operator will receive a message, and an operator intervention is required. 5. In the BAS Properties window in the NMS, change the Software Device parameter for the BAS from BIN1 to BIN. Subsequent MAIN software releases will then be downloaded to the BIN download device in the BAS node. BRU1 MANUAL, Doc.no: b1commis Uen Rev PA5, 2004-02-20
1 | FBTEST Reference manual | Users Manual | 1.26 MiB | / September 04 2004 |
FBTEST Reference Manual Contents 1 Introduction ................................................................................................. 3 1.1 Field of Application ......................................................................... 3 1.2 Date and Time Window ................................................................... 4 1.3 FBTEST Menu Overview ................................................................ 5 2 Installation Procedures .............................................................................. 10 3 Hardware, Equipment and Preparation...................................................... 11 3.1 Configuration ................................................................................. 11 3.2 External Tests requiring External Hardware.................................. 12 3.3 Start of FBTEST ............................................................................ 12 4 FBTEST User Modes ................................................................................ 14 5 User Interface Description......................................................................... 15 5.1 Working with Menus...................................................................... 15 5.1.1 Toggling Function............................................................... 15 5.1.2 Menu Displays .................................................................... 16 6 Main Menu ................................................................................................ 17 6.1 Board Test Menu............................................................................ 20 6.1.1 Alt. 1: Do the Test............................................................... 22 6.1.2 Alt. 2: Number of Test Cycles ............................................ 22 6.1.3 Alt. 3: Select/Unselect Boards ............................................ 23 6.1.4 Alt. 4: Select Extended Test ............................................... 25 6.1.5 Alt. 5: Select Medium Test ................................................. 25 6.1.6 Alt. 6: Unselect all Tests..................................................... 25 6.1.7 Alt. 7-11: Sets the Test Parameters for Each Board ........... 25 6.1.8 Alt.7: Set Parameters for FCB FE Computer Board........ 26 6.1.9 Alt. 8: Set Parameters for FRB FE Radio Board ............. 28 6.1.10 Alt. 9: Set Parameters for FNB FE Connection Board
(BRU3 only) ....................................................................... 29 6.1.11 Alt. 10 (BRU3): Set Parameters for FMB FE Modem Board................................................................................... 30 BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 BRU1/BRU3 MANUAL 6.1.12 Alt. 10 (BRU1): Set Parameters for FIB - FE Interface Board ...................................................................................31 6.1.13 Alt. 11: Set Params for FPB FE Power Supply Board
(BRU3 only) ........................................................................32 6.1.14 Alt.12: Look at Test Results................................................33 6.2 Set Time..........................................................................................37 6.3 Radio Operations ............................................................................38 6.3.1 Radio Control and Calibration Menu ..................................38 6.3.2 Transceiver Setup Menu......................................................40 6.4 Measurement Setup Menu ..............................................................45 6.4.1 Transceiver Control and Presentation Menu .......................47 6.4.2 Radio Calibration Menu ......................................................50 6.4.3 Bandgap Calibration............................................................52 6.4.4 Temperature Sensor Calibration..........................................54 6.4.5 Reference Oscillator OCXO Calibration.............................56 PF Output Power Calibration ..............................................59 6.4.6 6.4.7 PR Reflected Power Calibration .........................................62 6.4.8 VCO Modulation Calibration ..............................................65 6.4.9 TCXO Modulation Calibration............................................69 6.4.10 RSSI Calibration..................................................................73 6.4.11 EEPROM Display Editor Menu ..........................................75 6.4.12 PA Bias and FDAC Calibration Menu ................................79 6.4.13 Radio Register Editor Menu................................................81 6.4.14 Adjustment ..........................................................................82 6.4.15 Setup ....................................................................................85 6.5 Modem Operation Menu (BRU3 only)...........................................87 Interface Board Parameters Menu (BRU1 only) ............................88 6.6 6.6.1 Configuration Data Display.................................................89 6.7 Status Overview Menu....................................................................90 6.8 Edit Loader Parameters Menu
(BRU3 and System Release R14 only)...........................................92 6.8.1 Ports.....................................................................................94 6.8.2 Channels ............................................................................102 6.8.3 Connections .......................................................................105 6.8.4 Read Parameters from FLASH..........................................107 6.9 Store Parameters in FLASH .........................................................108 The contents of this document are subject to revision without notice due to continued progress in methodology, design and manufacturing. Ericsson shall have no liability for any errors or damages of any kind resulting from the use of this document. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 3 (110) 1 Introduction FBTEST is a test program for the Base Radio Unit 1 (BRU1) and Base Radio Unit 3 (BRU3). Two types of user interfaces are available through a serial communication port. One by a menu-oriented structure where test alternatives and parameters are selected by stepping through the menus. The other interface is by command frame input, suitable for automatic testing with computer supervision over a communication line. In this case, the command frame syntax is the user interface. This is not described in this document. The test program is operated using a console terminal, connected to the node, on which the result is displayed. A negative test result indicates a hardware fault, but a positive test result does not guarantee that the hardware is OK. It is not possible to test everything with this test program. 1.1 Field of Application There are four main applications for the FBTEST:
Acceptance control of the node hardware Validating a new node Trouble-shooting an existing node Set up of node specific Loader parameters. The FBTEST Reference Manual covers both the procedures required when calibrating the nodes components at the factory, and the on-site installation and commissioning procedures for the BRU1 and BRU3, respectively. Note:
The examples given in this document shows both BRU1 and BRU3, when they differ. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 4 (110) BRU1/BRU3 MANUAL The information applicable when commissioning shall take place is described in the following sections:
Set System Clock Menu Radio Control and Calibration Menu, alternatives 1-3 Status Overview Menu Modem Operation Menu Edit Loader Parameters Menu 1.2 Date and Time Window The date and time window in the upper right-hand corner shows the system clock, marked with SYS:. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 5 (110) 1.3 FBTEST Menu Overview Main Menu
----Board Test Menu
--------Do the test
--------Number of Test Cycles
--------Select/Unselect Boards Menu
--------Select Extended Test
--------Select Medium Test
--------Unselect all Tests
--------Set Test Parameters for FCB Menu vv-----Set Test Parameters for FRB Menu
--------Set Test Parameters for FNB Menu
--------Set Test Parameters for FMB Menu
--------Set Test Parameters for FIB Menu
--------Set Test Parameters for FPB Menu
--------Look at Test Results Menu
----Set Time Menu
----Radio Control and Calibration Menu
--------Transceiver Setup Menu
-------------Radio Setup
-------------Select Number or Frequency Mode
------------------Number Mode Menu
-----------------------Set TX Channel Number
-----------------------Set TX Power
-----------------------Set TX Modulation
-----------------------Set RX Channel Number
-----------------------Set Low Output Power Alarm Limit
-----------------------Set VSWR Alarm Limit
------------------Frequency Mode Menu
-----------------------Set TX Channel Frequency
-----------------------Set TX Power
-----------------------Set TX Modulation
-----------------------Set RX Channel Frequency
-----------------------Set Low Output Power Alarm Limit
-----------------------Set VSWR Alarm Limit BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 17 20 22 22 23 25 25 25 26 28 29 30 31 32 34 37 38 40 40 40 41 41 41 41 42 42 42 43 43 43 44 44 44 44 6 (110) BRU1/BRU3 MANUAL 45
--------Measurement Setup Menu 45
-------------Select Transmitter ON/OFF 46
-------------Save Test Data at Stop 46
-------------Set Test Time 47
--------Transceiver Control and Presentation Menu 47
-------------Select Transmitter ON/OFF 47
-------------Select Modulation ON/OFF 48
-------------Save Test Data at Stop 48
-------------Set Test Time 48
-------------Start 48
-------------Look at previous data 50
--------Radio Calibration Menu 52
-------------Bandgap Calibration Menu 52
------------------Increment 52
------------------Decrement 53
------------------Set Value 53
------------------Mark for Storage in EEPROM 54
-------------Temperature Sensor Calibration Menu 55
------------------Enter Temp. Index T1-T5 for Offset/Abs. Mode 55
------------------Enter Calibration Value for Offset/Abs. Mode 55
------------------Mark for Storage in EEPROM 56
-------------Reference Oscillator OCXO Calibration Menu 57
------------------Enter Temp. Ind. for OCXO in Offs./Abs. Mode 57
------------------Increment 57
------------------Decrement 58
------------------Set Value 58
------------------Mark for Storage in EEPROM 58
------------------Select Transmitter ON/OFF
-------------PF Output Power Calibration Menu 59
------------------Enter TX Power or PF Index P1-P8 for Offset/Abs. Mode 60 61
------------------Enter Temp. Index for PF in Offset/Abs. Mode
------------------Increment 61 61
------------------Decrement 61
------------------Set Value 61
------------------Mark for Storage in EEPROM
------------------Select Transmitter ON/OFF 61 BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 7 (110)
-------------PR Reflected Power Calibration Menu
------------------Select TX Power Ind. P1-P8 for Offs./Abs.Mode
------------------Enter Temp. Index T1-T5 for Offset/Abs. Mode
------------------Read and enter Calibr. Value for Offset Mode
------------------Mark for Storage in EEPROM
------------------Select Transmitter ON/OFF
------------------Slot Number
------------------Attenuation
-------------VCO Modulation Calibration Menu
------------------Enter Temp. Index T -T5 for Offset/Abs. Mode
------------------Increment
------------------Decrement
------------------Set Value
------------------Mark for Storage in EEPROM
------------------Select Transmitter ON/OFF
------------------Select Modulation
------------------Select Modulation ON/OFF
------------------Select Slot
------------------Select Slot Channel
-------------TCXO Modulation Calibration Menu
------------------Enter Temp. Index T1-T5 for Offset/Abs. Mode
------------------Increment
------------------Decrement
------------------Set Value
------------------Mark for Storage in EEPROM
------------------Select Transmitter ON/OFF
------------------Select Modulation
------------------Select Modulation ON/OFF
------------------VCO Modulation ON/OFF
-------------RSSI Calibration Menu
------------------Select RSSI Index S1-S10 for Offset/Abs. Mode
------------------Read and Enter Calibration Value
------------------Mark for Storage in EEPROM
-------------EEPROM Display Editor Menu
------------------Select Screen 1
------------------Select Screen 2
------------------Select Screen 3
------------------Select Screen 4 BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 62 63 63 63 64 64 64 64 65 66 66 67 67 67 67 67 67 68 68 69 71 71 71 71 71 71 72 72 72 73 74 74 74 75 75 76 77 78 8 (110) BRU1/BRU3 MANUAL
-------------Save Calibration in EEPROM
-------------Setup Radio Operation Parameters
-------------PA Bias and FDAC Calibration Menu
------------------PA Bias Driver
------------------PA Bias Final
------------------FDAC Rx
------------------FDAC Tx
------------------Setup Radio Operation Parameters
------------------Set Transmitter On/Off
--------Radio Register Editor Menu
-------------Read Radio Register
-------------Write Radio Register
--------Adjustment Menu
-------------OCXO Age Adjustment Menu
------------------Increment
------------------Decrement
------------------Set Value
------------------Mark for Storage in EEPROM
-------------Save Adjustment in EEPROM
--------Setup Menu
-------------Frequency Band
-------------Channel Spacing
-------------Radio Board ROA
-------------Default TX Channel Number
-------------Default RX Channel Number
-------------Load and Save Default Calibration Data
-------------Save Parameter in Physical EEPROM
----Modem Operation Menu
--------Line Speed on Modem Port
--------DTR Status
--------RTS Status
--------Transparent Mode Access
----Interface Board Menu
-------------Configuration Data Display Menu
----Status Overview Menu
----Edit Loader Parameters Menu
--------Node 0
--------Ports Menu
-------------Port 51 51 79 79 79 79 79 80 80 81 81 81 82 83 83 83 83 84 82 85 85 85 86 86 86 86 86 87 87 87 87 87 88 89 90 92 92 94 94 BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 9 (110)
-------------Unit Number
-------------Local Port Number
-------------Modem Parameter Menu
------------------Modem in use
------------------Control Type
------------------Prompt
------------------Bit rate
------------------Dial Timeout
------------------Answer Timeout
------------------Init Commands Menu
----------------- Dial Commands Menu
-------------X.25 Parameters Menu
--------Channels Menu
-------------X.25 Parameters Menu
--------Connections Menu
--------Read Parameters from FLASH Menu
--------Store Parameters to FLASH Menu 95 96 97 97 97 97 98 98 98 99 100 101 102 104 105 107 108 BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 10 (110) BRU1/BRU3 MANUAL 2 Installation Procedures Load FBTEST by using ZMODEM during the procedure of installing the node software. For details, see NTE Client Library/Node Software/Software Commissioning Procedure. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 11 (110) 3 Hardware, Equipment and Preparation The preparation work necessary for testing a node is kept at a minimum. A console terminal has to be attached to the Console Connector on the node, and if a test that requires external hardware is to be executed, special test cables are to be connected. 3.1 Configuration All terminal inputs and outputs are directed to the console. The console should be a VT100 terminal or the equivalent. The communication parameters should be as follows:
Baud rate 9600. 8 data bits. no parity. Most VT100-compatible terminals feature dumping the screen information to a hardcopy device, which may be very useful when logging the results from the tests. See the documentation of the actual terminal for more information. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 12 (110) BRU1/BRU3 MANUAL 3.2 External Tests requiring External Hardware Some of the external tests require external hardware. The external tests in question are:
Loopback Test of FNB Board Loopback Test of Ethernet in FIB Board (BRU1 only) RFTL Test of FRB Board Modem Tests (BRU3 only) A Loopback test is carried out of the FNB Board by using a 25 pin D-Sub plug. One of the physical ports is selected according to strapping alternative RS232 or RS422. For the BRU1, the corresponding serial interfaces are tested when testing the FIB board. Also for BRU1, a loopback test of Ethernet in FIB Board is carried out, using the external ethernet plug. An RFTL test is carried out of the FRB Board by using an external radio instrument. A predefined bit stream (Tx-signal) is transmitted from the node to the RFTL-adapted instrument, where the signal is measured and retransmitted as an RX-signal back to the node. A bit error count is carried out by comparing the signals. One modem test is carried out requiring a test modem and a connection cable to the nodes line port. Applicable to BRU3 only. 3.3 Start of FBTEST At the BOOT command prompt CMD>, type TE and then press <RETURN>. The FBTEST program will be loaded and the Main Menu will be displayed ready to accept commands from the user. To execute the command frame mode of FBTEST, set the SW2 dip switch on the FCB-board in the following position: SW2:4 (OEM-Strap) to Open. For more information, see Node Hardware Library/BRU3/BRU3 Mechanical Design/FB Computer Board - FCB and BRU3/BRU3 Logic and Radio System/
Modem Equipment. For BRU1 information, see corresponding documents in BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 13 (110) Node Hardware Library/BRU1. When the OEM-Strap is set to Open, BOOT will automatically start FBTEST, and FBTEST will automatically start its command frame mode. This procedure is not described in this document. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 14 (110) BRU1/BRU3 MANUAL 4 FBTEST User Modes FBTEST can be executed in two different user modes. One mode is implemented with menus while the other mode involves the use of a command frame protocol. The menu mode is interactive and the selected test is executed after set up of its parameters. The command frame mode is designed to allow control of execution from an external computer. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 15 (110) 5 User Interface Description This section describes all the menus that are used in the FBTEST. When the FBTEST program is loaded and started, the Main Menu is displayed on the console terminal. The program is then ready to accept commands. 5.1 Working with Menus The user interface is quite straight-forward but the following must be noted:
To choose a menu alternative:
Write the corresponding number and press <RETURN>. To change any number:
Write the number and press <RETURN>. If the number has to be entered in hexadecimal form, write 16#nnnnnnnn#, where nnnnnnnn is the hexadecimal value, e.g. 8A hex is entered as 16#8A#. When a batch test is running:
You can stop the test by pressing the Q key (<RETURN>). The test will stop when the current test cycle is completed, which may take up to several minutes. To temporary stop the printing on the screen:
<CTRL>S prevents scrolling
<CTRL>Q resumes printing. 5.1.1 Toggling Function Many menu alternatives are prefixed with a + or a -.
+ Active
- the test will be executed or this board will be tested.
Inactive - the test will not be executed or this board will not be tested. By selecting the number of such a menu alternative, the prefix will toggle. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 16 (110) BRU1/BRU3 MANUAL 5.1.2 Menu Displays For the various menu examples shown in this document the respective paths, i.e., the hierarchic structure is indicated, to facilitate the selection of the desired menus. See the example below:
[Main menu, Radio Operations, Calibration]
BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 17 (110) 6 Main Menu When the FBTEST program is started, the Main Menu is displayed on the screen, see Figure 1 Main menu (BRU3). and Figure 2 Main menu
(BRU1).. Depending on selected alternative, different submenus will be displayed, as described below the figure.
[Main menu]
Figure 1 Main menu (BRU3). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 18 (110) BRU1/BRU3 MANUAL Figure 2 Main menu (BRU1). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 19 (110) The selected alternative will display other menus as follows:
Alt. 1 Alt. 2 Alt. 3 BOARD TEST Displays the Board Test menu, Figure 3 for BRU3 and Figure 4 for BRU1. SET TIME Displays the Set System Clock menu, Figure 17. RADIO OPERATIONS Displays the Radio Control and Calibration menu, Figure 18. Alt. 4
(BRU3) MODEM OPERATIONS Displays the Modem Operation menu, Figure 47. Alt. 4
(BRU1) INTERFACE BOARD Displays the Interface Board (for BRU1 only), Figure 48. Alt. 5 STATUS OVERVIEW Displays the Status Overview menu, Figure 50for BRU3 and Figure 51 for BRU1. Alt. 6
(BRU3) EDIT LOADER PARAMETERS Displays the Edit Loader Parameters, Figure 52. Using the Exit alternative exists the FBTEST program and the node will be restarted. The second line from the top of the screen tells the user which test selection has been chosen. The test alternatives are Medium, Extended, No-tests or User-
defined. Medium is default. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 20 (110) BRU1/BRU3 MANUAL 6.1 Board Test Menu This menu is shown if alternative 1, Board Test, is selected in the Main Menu. From this menu, all tests can be configured and executed. The batch test sequence for each board type is chosen from the different board type menus, and so are all the interactive tests. Figure 3 Board Test menu (BRU3). and Figure 4 Board Test menu (BRU1). shows the Board Test Menu.
[Main menu, Board test]
Board Test menu Current test selection is MEDIUM SYS:yyyy-mm-dd hh:mm 1 2 3 4 5 6 7 8 9 10 11 12 Do the test Number of test cycles (0=Forever) Select/unselect boards Select extended test (External HW needed) Select medium test Unselect all tests Set test parameters for FCB Set test parameters for FRB Set test parameters for FNB Set test parameters for FMB Set test parameters for FPB Look at test results 0. Main menu Choose alternative:
Figure 3 Board Test menu (BRU3). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 21 (110) Board Test menu Current test selection is MEDIUM SYS:2004-01-13 0:27 1 2 1 3 4 5 6 7 8 10 12 Do the test Number of test cycles (0=Forever) Select/unselect boards Select extended test (External HW needed) Select medium test Unselect all tests Set test parameters for FCB Set test parameters for FRB Set test parameters for FIB Look at test results 0 Main menu Choose alternative:
Figure 4 Board Test menu (BRU1). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 22 (110) BRU1/BRU3 MANUAL 6.1.1 Alt. 1: Do the Test This alternative starts the batch test which will execute all selected tests on all selected boards. The tests is defined by:
number of cycles type of board test mode (extended, medium userdefined) selected boards selected tests for each board 6.1.2 Alt. 2: Number of Test Cycles This alternative will display the question Number of cycles: (1). Accordingly, the default value is 1. The alternative specifies how many cycles a batch test will execute. Legal values are 1-999 or 0. The value 0 means an indefinite test loop, which can be manually stopped by entering Q. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 23 (110) 6.1.3 Alt. 3: Select/Unselect Boards Displays a submenu, where all boards can be selected or unselected, and included in or excluded from the test by using the toggle function. Figure 5 Example of select/unselect menu (BRU3). and Figure 6 Example of select/unselect menu (BRU1). gives an example of this menu.
[Main menu, Board Test, Select/Unselect Boards]
Select/unselect boards SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM Comment 1 +
2 +
3 +
4 +
5 +
Board type FCB FRB FNB FMB FPB 0. Board Test menu Choose alternative:
Figure 5 Example of select/unselect menu (BRU3). Alt. 1 - 5 A toggle function between + (select) and - (unselect) is used to include boards in or exclude boards from the test. Note:
+ = select
- = unselect BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 24 (110) BRU1/BRU3 MANUAL Select/unselect boards SYS:2004-01-13 0:28 Current test selection is MEDIUM 1 +
2 +
3 +
Board type FCB FRB FIB Comment 0. Board Test menu Choose alternative:
Figure 6 Example of select/unselect menu (BRU1). Note:
+ = select
- = unselect BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 25 (110) 6.1.4 Alt. 4: Select Extended Test The extended test is a quick-choice alternative to turn on all possible, not interactive tests, for those boards that are selected. External hardware is needed for certain tests. 6.1.5 Alt. 5: Select Medium Test The medium test is a quick-choice alternative to activate tests for selected boards, which do not require interactive operator involvement or external hardware. 6.1.6 Alt. 6: Unselect all Tests All test selections are deleted, except board selection. If this alternative is used, the user has to specify what is to be tested. 6.1.7 Alt. 7-11: Sets the Test Parameters for Each Board Each board has its own menu, where its functions can be selected or not selected for test. Some tests may require test parameters. See the following menu displays. Note that alt. 10 for a BRU1 differs from that of a BRU3. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 26 (110) BRU1/BRU3 MANUAL 6.1.8 Alt.7: Set Parameters for FCB FE Computer Board
[Main menu, Board Test, Set test parameters for FCB]
Test for FCB SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 2 3 4 5 6 7 8 9 DRAM test Exhaustive DRAM test DPRAM test Signal Processor test Communication IC Internal test FLASH Boot Memory test FLASH System Memory test Alarm test Ethernet Module test
0. Test menu Choose alternative:
Figure 7 Test for FCB FE Computer Board (BRU3). Alt. 1 - 9 A toggle function between + (select) and - (unselect), is used to include or exclude boards from the test. Note:
+ = select
- = unselect BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 27 (110) Test for FCB SYS:2004-01-13 0:29 Current test selection is MEDIUM 1 2 3 4 5 6 7 DRAM test Exhaustive DRAM test DPRAM test Signal Processor test Communication IC Internal test FLASH Boot Memory test FLASH System Memory test
0. Test menu Choose alternative:
Figure 8 Test for FCB FE Computer Board (BRU1). Alt. 1 - 8 A toggle function between + (select) and - (unselect), is used to include or exclude boards from the test. Note:
+ = select
- = unselect BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 28 (110) BRU1/BRU3 MANUAL 6.1.9 Alt. 8: Set Parameters for FRB FE Radio Board
[Main menu, Board Test, Set test parameters for FRB]
Test for FRB Current test selection is MEDIUM SYS:yyyy-mm-dd hh:mm 1 2 3
Alarm test EEprom test Radio Loopback test 0. Test menu Choose alternative:
Figure 9 Test for FRB FE Radio Board. Alt. 1 - 3 A toggle function between + (select) and - (unselect), is used to select the type of tests that should be performed. Note:
+ = select
- = unselect BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 29 (110) 6.1.10 Alt. 9: Set Parameters for FNB FE Connection Board
(BRU3 only)
[Main menu, Board Test, Set test parameters for FNB]
Test for FNB Current test selection is MEDIUM SYS:yyyy-mm-dd hh:mm 1 2
Serial Loopback - RS232 or RS422 Alarm Interface test 0. Test menu Choose alternative:
Figure 10 Test for FNB FE Connection Board. Alt. 1 - 2 A toggle function between + (select) and - (unselect), used to include or exclude boards from the test. Note:
+ = select
- = unselect BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 30 (110) BRU1/BRU3 MANUAL 6.1.11 Alt. 10 (BRU3): Set Parameters for FMB FE Modem Board
[Main menu, Board Test, Set test parameters for FMB]
Test for FMB Current test selection is MEDIUM SYS:yyyy-mm-dd hh:mm 1 2 3
Internal Modem test Local Loopback test Remote Loopback test 0. Test menu Choose alternative:
Figure 11 Test for FMBF FE Modem Board. Alt. 1 - 3 A toggle function between + (select) and - (unselect), is used to include or exclude boards from the test. Note:
+ = select
- = unselect BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 31 (110) 6.1.12 Alt. 10 (BRU1): Set Parameters for FIB - FE Interface Board
[Main menu, Board Test, Set test parameters for FIB]
Tests for FIB SYS:2004-01-13 0:29 Current test selection is USER_DEFINED 1 2 3 4 5
Ethernet Loopback test Alarm test Power Alarm test Temperature Alarm test Serial Loopback - RS232 or RS422 0. Test menu Choose alternative:
Figure 12 Test for FIB (BRU1). Alt. 1 - 5 A toggle function between + (select) and - (unselect), is used to include or exclude boards from the test. Note:
+ = select
- = unselect BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 32 (110) BRU1/BRU3 MANUAL 6.1.13 Alt. 11: Set Params for FPB FE Power Supply Board
(BRU3 only)
[Main menu, Board Test, Set test parameters for FPB]
Test for FPB Current test selection is MEDIUM SYS:yyyy-mm-dd hh:mm 1
Alarm test 0. Test menu Choose alternative:
Figure 13 Test for FPB FE Power Supply Board. Alt. 1 A toggle function between + (select) and -(unselect). Note:
+ = select
- = unselect BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 33 (110) 6.1.14 Alt.12: Look at Test Results When the batch tests are started, the Test Status is shown. It tells you how many faults have been detected for each board, and how many test cycles have been completed. If a 'Q' is pressed before the test is finished, the test is interrupted after the current cycle, and the user has the option to select the alternative Continue the test or stop the test by selecting the 0 alternative. When the test is completed, either by itself or when the user has pressed 'Q', it is possible to jump to the Examine Board screen for each board, by selecting the appropriate alternative in the menu. Figure 16 Example of Examine Board screen. shows an example of the Test Status menu when the test is finished. When selecting the Look at test result alternative (Alt. 12) in the Board test menu, the selection between NEW, OLD and OLDEST test has to be made. The three latest test results are stored and can be displayed. SELECT RESULT BUFFER: (1) NEW (2) OLD
(3) OLDEST BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 34 (110) BRU1/BRU3 MANUAL
[Main menu, Board Test, Look at test result]
Test Status : SECOND SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM Board 1. FCB 2. FRB 3. FNB 4. FMB 5. FPB NO_TEST NO_TEST NO_TEST Comment Errors 0 1 0. Board Test Menu Choose Alternative:
Figure 14 Test Status menu (BRU3). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 35 (110) Figure 15 Test Status menu (BRU1). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 36 (110) BRU1/BRU3 MANUAL The Examine Board Screen Select any menu alternative except 17 or 0 in the Test Status menu to get the Examine Board screen for the corresponding board. There is one Examine Board screen for each board which has been tested. This screen contains information about what kind of errors have been detected, and at which time. If there is a printer connected to the terminal, it is possible to get a hardcopy for each tested board. Figure 16 Example of Examine Board screen. shows an example of this screen.
[Main menu, Board Test, Look at Test Results]
TMB, Modem 1 **2 errors** SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1993-11-20 13:42 FCB:MEMORY ERROR H01FFF 1993-11-20 13:43 FCB:MEMORY ERROR H01FFF Press 0 to go back again Figure 16 Example of Examine Board screen. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 37 (110) 6.2 Set Time
[Main menu, Set Time]
Set the System Clock SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1. Change year (1901 - 2099). 2. Change month (1 - 12). 3. Change day (1 - 31). 4. Change hour (0 - 23). 5. Change minute (0 - 59). 0. Main menu Choose alternative:
Figure 17 Set System Clock menu. Alt. 1 modifies the year (entering 4-digit value) Alt. 2 modifies the month (entering value 1 - 12) Alt. 3 modifies the day (entering value 1 - 31) Alt. 4 modifies the hour (entering value 0 - 23) Alt. 5 modifies the minute (entering value 0 - 59) The default values are displayed within brackets. Enter the current value for the respective alternatives. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 38 (110) BRU1/BRU3 MANUAL 6.3 Radio Operations 6.3.1 Radio Control and Calibration Menu
[Main menu, Radio Operations]
Radio Control and Calibration Menu SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 2 3 4 5 6 7 TRANSCEIVER SETUP MENU MEASUREMENT SETUP MENU TRANSCEIVER CONTROL AND PRESENTATION MENU CALIBRATION RADIO REGISTER EDITOR ADJUSTMENT SETUP 0. Main menu Choose alternative:
Figure 18 Radio Control and Calibration Menu. Alt. 1 TRANSCEIVER SETUP MENU Displays the Transceiver Setup menu, Figure 19. Alt. 2 MEASUREMENT SETUP MENU Displays the Transceiver Measurement/Test Setup menu, Figure 21. Alt. 3 Alt. 4 TRANSCEIVER CONTROL AND PRESENTATION MENU Displays the Transceiver Control and Presentation menu, Figure 22. CALIBRATION Displays the Radio Calibration menu, Figure 23. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 39 (110) Alt. 5 RADIO REGISTER EDITOR Displays the Radio Register Editor menu, Figure 43. Alt. 6 ADJUSTMENT Displays the Radio Adjustment menu, Figure 44. Alt. 7 SETUP Displays the Radio Setup menu, Figure 46. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 40 (110) BRU1/BRU3 MANUAL 6.3.2 Transceiver Setup Menu
[Main menu, Radio Operations, Transceiver Setup]
Figure 19 Transceiver Setup Menu (NUMBER MODE). Alt. 1 SELECT NUMBER OR FREQUENCY MODE Displays the Transceiver Setup menu, (Number Mode in Figure 19 or Frequency Mode in Figure 20). This alternative is a toggle function between channel number mode and channel frequency mode. Conversion between these modes is done automatically. The menu text is changed at appropriate places between number and frequency. RADIO SETUP The radio type parameters are read from radio registers, showing FILTER, showing the transmitter power FREQBAND, high or low frequency band BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 41 (110) DIVERSITY, radio build with diversity function, YES (= 1) or NO (= 0). NUMBER MODE Alt. 2 SET TX CHANNEL NUMBER Displays TX_CHANNEL NUMBER, TXCH = (3840) This alternative sets the transmitter channel number. A check is made to eliminate incorrect channel values. Alt. 3 SET TX POWER Displays SELECT TX_POWER = - 21.0 PRESS Y TO SELECT N TO NEXT
[-21.0 (def), -18.0, -15.0, -12.0, -9.0, -6.0, -3.0, 0.0]
The transmitter power is set in the following steps: 0.0, -3.0, -6.0, -
9.0, -12.0, -15.0, -18.0, -21.0 dB. When this alternative is selected an operator procedure is activated where only these predefined values can be chosen by answering yes or no. Alt. 4 SET TX MODULATION Displays SELECT MODULATION = NONE PRESS Y TO SELECT N TO NEXT
[NONE (default), AC, LOW, HIGH, PRBS, PERIOD, SINE]
This alternative has the following choices, NONE, LOW, HIGH, AC, PRBS, PERIOD and SINE. The PERIOD alternative activates a question of how many HIGH and LOW values should be in the symmetrical sequence. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 42 (110) BRU1/BRU3 MANUAL Alt. 5 SET RX CHANNEL NUMBER Displays RX_CHANNEL NUMBER, RXCH = (3040) This alternative sets the receiver channel number. A check is made to eliminate incorrect channel values. Alt. 6 SET LOW OUTPUT POWER ALARM LIMIT Displays OUTPUT ALARM LIMIT = (10) This alternative sets the low output power limit. This value is transferred to the signal processor part, where it is checked against the calculated radio value. The alarm is activated if the LOW OUTPUT POWER ALARM value is 10 dB less than the set TX POWER value. Alt.7 SET VSWR ALARM LIMIT Displays VSWR = (1.5) This alternative sets the VSWR alarm limit. This value is transferred to the signal processor part, where it is checked against the calculated radio value. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 43 (110) FREQUENCY MODE
[Main menu, Radio Operations, Transceiver Setup]
Figure 20 Transceiver Setup Menu (FREQUENCY MODE). Alt. 2 SET TX CHANNEL FREQUENCY Displays TX IN Hz, > = 890 000 000: TXFRQ = (939 000 000) This alternative sets the transmitter channel frequency. A check is made to eliminate incorrect channel values. Input frequency values are given in Hz as the channel separation is 12.5 kHz. Alt.3 SET TX POWER Please refer to NUMBER MODE BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 44 (110) BRU1/BRU3 MANUAL Alt. 4 SET TX MODULATION Please refer to NUMBER MODE Alt. 5 SET RX CHANNEL FREQUENCY Displays RX IN Hz, > = 890 000 000: RXFRQ =(900 000 000) This alternative sets receiver channel frequency. A check is made to eliminate incorrect channel values. Alt. 6 SET LOW OUTPUT POWER ALARM LIMIT Please refer to NUMBER MODE Alt. 7 SET VSWR ALARM LIMIT Please refer to NUMBER MODE BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 45 (110) 6.4 Measurement Setup Menu
[Main menu, Radio Operations, Measurement Setup]
Transceiver Measurement/Test Setup Menu SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 -SELECT PF MEASUREMENT 2 -SELECT PR MEASUREMENT 3 -SELECT RSSI MEASUREMENT 4 -SELECT TEMPERATURE MEASUREMENT 5 -SELECT BIT ERROR RATE TEST 6 -SELECT LOOPBACK TEST 7 -SELECT ALARM STATUS 8 -SELECT DEVIATION MEASUREMENT 9 -SELECT TRANSMITTER ON/OFF 10 -SAVE TEST DATA AT STOP 11 SET TEST TIME: 0 IS FOREVERTEST CYCLES = 0 0. Radio Setup, Control and Calibration Menu Choose alternative: _ Figure 21 Transceiver Measurement/Test Setup Menu. Alt. 1 - 8. A toggle function between + (select) and - (), is used to select the type of measurements that should be performed. The results of these measurements are shown in the presentation menu. Alt. 9 SELECT TRANSMITTER ON/OFF A toggle function between + (ON) and - (OFF). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 46 (110) BRU1/BRU3 MANUAL Alt. 10:
SAVE TEST DATA AT STOP A toggle function between + (active) and - (inactive). This alternative, when active, stores test data when the test period is finished. This allows the operator to compare test data, while making test observations without saving, between the save instances. Alt. 11:
SET TEST TIME Displays ENTER TEST_CYCLES (0) The number of test cycles is set, which is translated in to the time domain, if needed. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 47 (110) 6.4.1 Transceiver Control and Presentation Menu
[Main menu, Radio Operations, Transceiver Control and Presentation]
Transceiver Control and Presentation Menu Current test selection is MEDIUM TX: OFF TXCH: 3840 PF: 0 TXSEND:OFF RXCH: 3040 SYS:yyyy-mm-dd hh:mm SELECT TRANSMITTER ON/OFF SELECT MODULATION ON/OFF SAVE TEST DATA AT STOP SET TEST TIME:0 IS INDEFINITE TEST CYCLES = 0 1-
2-
3-
4 5 START 6 LOOK AT PREVIOUS TEST DATA 0. Radio Setup, Control and Calibration Menu Choose alternative:
Figure 22 Transceiver Control and Presentation Menu (NUMBER MODE). Alt. 1 SELECT TRANSMITTER ON/OFF A toggle function between - (ON) and + (OFF). Alt. 2 SELECT MODULATION ON/OFF A toggle function between + (ON) and - (OFF). The set value for modulation is active when modulation is ON. OFF is equal to NONE. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 48 (110) BRU1/BRU3 MANUAL Alt. 3 SAVE TEST DATA AT STOP A toggle function between + (YES) and - (NO). Measurement data is saved when the test period is finished. Alt. 4 SET TEST TIME Displays ENTER TEST_CYCLES (10) The test period is set in cycles, which also correspond to time. A sampling rate of about 1 second is selected, but can be changed to a practical value if necessary. Alt. 5 START The start command starts the measurement. Alt. 6 LOOK AT PREVIOUS TEST DATA Displays SELECT BUFFER 1 = LAST, 2 = PREV. or 3 = OLD (1) Measurement data are stored in two buffers, i.e., the last and previous results can be analysed. When this command is used, a question is put to the operator as to which buffer to look at. These buffers are updated if the save condition is activated. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 49 (110) Operating conditions: TX: OFF TXCH: 3840 PF: 0 TXSEND: OFF RXCH:
3040 The status line, below the header, indicating the present operating conditions for the transceiver with the following meaning:
TX is the status of the transmitter, either OFF or ON. TXCH or TXFRQ is the transmitter channel frequency or number. PF is the transmitter power from 0 to -21 dB in 3 dB steps. TXSEND is the transmitter modulation, shown as OFF, NONE, LOW, HIGH, AC, PRBS or PERIOD. The OFF condition is shown when modulation is switched off. RXCH or RXFRQ is the receiver channel frequency or number. Measurement data These measurements that are selected as active, are presented on the following lines before operator alternatives for control. PF VALUE is the measured output power in dB. PR VALUE is the measured reflected power in dB. RSSI VALUE is the measured receive signal level in dBuVemf. TEMPERATURE VALUE is the measured temperature on the radio board in C. BER RX BITS is the number of received bits, RX ERR is the number of error bits and finally on this line, two bit error rates are shown as a percentage. The first value is the quotient (times 100) between the accumulated number of error bits and the number of received bits. i.e. 100*RX ERR/RX BITS. The second value (within brackets) is the same quotient, but for the received bits during the latest 1 s. (appr.). Example:
+BER Rx BITS: 588765 Rx ERR:
5687 0.966 (0.176)%
ALARM status is shown, with PF_LOW, VSWR and TEMP as YES or NO, i.e., whether the set limit is exceeded or not. RX DEVIATION VALUE is the receive frequency measurement deviation. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 50 (110) BRU1/BRU3 MANUAL 6.4.2 Radio Calibration Menu
[Main menu, Radio Operations, Calibration]
Figure 23 Radio Calibration Menu. Alt. 1 BANDGAP CALIBRATION Gives the Bandgap Calibration Menu, Figure 24. Alt. 2 TEMPERATURE SENSOR CALIBRATION Gives the Temperature Calibration Menu, Figure 25. Alt. 3 REFERENCE OCXO CALIBRATION Gives Reference Oscillator OCXO Calibration menu 1, Figure 27. Alt. 4 PF POWER CALIBRATION Gives PF Power Calibration menu 1, Figure 29. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 51 (110) Alt. 5 PR POWER CALIBRATION Gives PR Power Calibration menu 1, Figure 31. Alt. 6 VCO MODULATION CALIBRATION Gives VCO Calibration menu 1, Figure 33. Alt. 7 TCXO MODULATION CALIBRATION Gives TCXO Calibration menu 1, Figure 35. Alt. 8 RSSI CALIBRATION Gives RSSI Calibration menu 1, Figure 37. Alt. 9 EEPROM DISPLAY (EDITOR) This alternative selects a function that will display all calibration object values. This is an overview display with the purpose of showing how calibration objects depend on temperature. Please refer to Figure 38. Alt. 10 SAVE CALIBRATION IN EEPROM This alternative saves the calibration parameters in EEPROM if something is changed. This function is called when the exit command is used, to protect from accidental exit without saving calibration data. Alt. 11 SETUP RADIO OPERATION PARAMETERS Each calibration procedure requires the radio to operate with some specific frequency, modulation or power level. This alternative is a call to the same procedure as in the transceiver setup menu. Please refer to Figure 19. Alt. 12 PA BIAS AND FDAC CALIBRATION Gives the PA Bias and FDAC Calibration Menu, Figure 42. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 52 (110) BRU1/BRU3 MANUAL 6.4.3 Bandgap Calibration
[Main menu, Radio Operations, Calibration, Bandgap Calibration]
Bandgap Calibration Current test selection is MEDIUM CONNECT VOLTMETER TO BANDGAP VOLTAGE SIGNAL BANDGAP REFERENCE SET VALUE IS 128 NUM IS MEASURED VALUE EQUAL TO 2.5 V ?
SYS:yyyy-mm-dd hh:mm 1 INCREMENT DECREMENT 2 3 SET VALUE 4 MARK FOR STORAGE IN EEPROM 0. Calibration Menu Choose alternative:
Figure 24 Bandgap Calibration menu. The BANDGAP REFERENCE SET VALUE is a digital variable to a DA converter, which should be set to give a BANDGAP_VOLTAGE of 2.5 V. The bandgap voltage is not temperature-dependent. Alt. 1 INCREMENT Increases the bandgap by 1 step to 129. Alt. 2 DECREMENT Decreases the bandgap by 1 step to 127. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 53 (110) Alt. 3 SET VALUE Displays VALUE (128) The value can be changed by increment, decrement or by set functions. Alt. 4 MARK FOR STORAGE IN EEPROM This alternative indicates that, this calibration object will be saved in EEPROM when the calibration procedure is finished. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 54 (110) BRU1/BRU3 MANUAL 6.4.4 Temperature Sensor Calibration
[Main menu, Radio Operations, Calibration, Temp. Sensor Calibration]
Temperature Calibration Current test selection is MEDIUM SYS:yyyy-mm-dd hh:mm 1 2 SET OFFSET CALIBRATION MODE SET ABSOLUTE CALIBRATION MODE 0. Calibration Menu Choose alternative: _ Figure 25 Temperature Sensor Calibration menu. Alt. 1-2 Will display the Temperature Calibration menu, Figure 26. Alt. 1 Offset mode Alt. 2 Absolute mode BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 55 (110)
[Main menu, Radio Operations, Calibration, Temp. Sensor Calibration. 2]
SYS:yyyy-mm-dd hh:mm Temperature Calibration Current test selection is MEDIUM TX: OFF TXCH: 3840 PF: 0 TXSEND:OFF RXCH: 3040 TEMPERATURE A/D VALUE: 141 TEMPERATURE INDEX: 2 T2 6.0 TDEG:
107 TNUM:
T1
-8.0 78 T5 48.0 195 T3 20.0 134 T4 34.0 163 1 2 3 ENTER TEMPERATURE INDEX T1 - T5 FOR OFFSET/ABSOLUTE MODE ENTER CALIBRATION VALUE FOR OFFSET/ABSOLUTE MODE MARK FOR STORAGE IN EEPROM 0. Calibration Menu Figure 26 Temperature Sensor Calibration menu, offset and absolute mode. Alt 1. ENTER TEMPERATURE INDEX T1 - T5 FOR OFFSET/
ABSOLUTE MODE Enter TEMPERATURE INDEX (2):
Alt 2. ENTER CALIBRATION VALUE FOR OFFSET/ABSOLUTE MODE Displays whether the temperature is OK or NOT. Alt. 3 MARK FOR STORAGE IN EEPROM This alternative indicates that this calibration object will be saved in EEPROM when the calibration procedure is finished. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 56 (110) BRU1/BRU3 MANUAL 6.4.5 Reference Oscillator OCXO Calibration
[Main menu, Radio Operations, Calibration, Reference OCXO Calibration]
Reference Oscillator OCXO Calibration SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 SELECT OFFSET CALIBRATION MODE 2 SELECT ABSOLUTE CALIBRATION MODE 0. Calibration Menu Choose alternative: _ Figure 27 Reference Oscillator OCXO Calibration - 1 menu. Alt. 1-2 Will display the Reference Oscillator OCXO Calibration menus in Figure 28. Alt. 1 Offset mode Alt. 2 Absolute mode BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 57 (110)
[Main menu, Radio Operations, Calibration, Reference OCXO Calibration]
Reference Oscillator OCXO Calibration SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM T2 6.0 80 TEMP INDEX: 2 TX: OFF TXCH: 3840 PF: 0 TXSEND:OFF RXCH: 3040 PF. INDEX: 2 T1 TDEG: -8.0 OCXO: 80 IS OCXO FREQUENCY OK ON EXTERNAL INSTRUMENT ?
1 2 5 6 -
ENTER TEMPERATURE INDEX FOR OCXO IN OFFSET/ABSOLUTE INCREMENT3 DECREMENT4 MARK FOR STORAGE IN EEPROM SELECT TRANSMITTER ON/OFF T5 48.0 81 T4 34.0 81 T3 20.0 81 SET VALUE MODE 0. Calibration Menu Figure 28 Reference Oscillator OCXO Calibration - 2 menu. Alt. 1 ENTER TEMPERATURE INDEX FOR OCXO IN OFFSET/
ABSOLUTE MODE Enter TEMPERATURE INDEX (2). Alt. 2 INCREMENT Increases the OCXO value in steps. Alt. 3 DECREMENT Decreases the OCXO value in steps. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 58 (110) BRU1/BRU3 MANUAL Alt. 4 SET VALUE Sets VALUE (xx) The value can be changed by increment, decrement or by the set function. Alt. 5 MARK FOR STORAGE IN EEPROM After some changes of the old value, the new value can be marked for storage in EEPROM, when the calibration procedure is finished. Alt. 6 SELECT TRANSMITTER ON/OFF A toggle function between + (ON) and - (OFF). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 59 (110) PF Output Power Calibration 6.4.6
[Main menu, Radio Operations, Calibration, PF Power Calibration]
PF Power Calibration SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 2 SELECT OFFSET CALIBRATION MODE SELECT ABSOLUTE CALIBRATION MODE 0. Calibration Menu Choose alternative:
Figure 29 PF Power Calibration menu. Alt. 1-2 Will display the PF Power Calibration menu in the next figure, Figure 30. Alt. 1 Offset mode Alt. 2 Absolute mode Warning!
The PF Power Calibration parameters may only be set by authorized personnel. If the value for the output power is set too high, the BRU1 will be damaged. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 60 (110) BRU1/BRU3 MANUAL
[Main menu, Radio Operations, Calibration, PF Power Calibration]
PF Power Calibration SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM TX: OFF TXCH: 3840 PF: 0 TXSEND:OFF RXCH: 3040 PF. INDEX: 2 T1
-8.0 TDEG PFNUM: 108 128 PFM:
1 PFSET: -21.0 PFNUM: 101 PFM 118 TEMP INDEX: 2 T3 20.0 107 124 3
-15.0 117 137 T2 6.0 107 126 2
-18.0 107 126 T5 48.0 106 117 5
-9.0 141 167 T4 34.0 107 121 4
-12.0 128 150 8 6
-6.0 -3.0 0.0 177 201 157 186 211 237 1 2 3 7 - SELECT TRANSMITTER ON/OFF ENTER TX POWER OR PF INDEX P1-P8 FOR OFFSET/ABSOLUTE MODE ENTER TEMPERATURE INDEX FOR PF IN OFFSET/ABSOLUTE MODE INCREMENT 4 DECREMENT 5 SET VALUE 6 MARK FOR EEPROM 7 0. Calibration Menu Choose alternative:
Figure 30 PF Power Calibration menu. Alt. 1 ENTER TX POWER OR PF INDEX P1-P8 FOR OFFSET/
ABSOLUTE MODE Displays SELECT TX_POWER = -21.0 PRESS Y TO SELECT N TO NEXT
[-21.0 (def), -18.0, -15.0, -12.0, -9.0, -6.0, -3.0, 0.0]
BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 61 (110) Alt. 2 ENTER TEMPERATURE INDEX FOR PF IN OFFSET/
ABSOLUTE MODE Displays TEMPERATURE INDEX (2) Alt. 3 INCREMENT Increases the value in steps. Alt. 4 DECREMENT Decreases the value in steps. Alt. 5 SET VALUE Displays VALUE (x) The alternatives, if the temperature check was OK, modify the output reference value. The measured output power on the external instrument is calibrated to the defined nominal value for the selected PF index. In offset calibration all reference values for the selected PF index are changed. Alt. 6 MARK FOR STORAGE IN EEPROM This alternative indicates that this calibration object will be saved in EEPROM when the calibration procedure is finished. Alt. 7 SELECT TRANSMITTER ON/OFF A toggle function between + (ON) and - (OFF). Operational conditions The transmitter and receiver conditions are shown, as described in the transceiver control and presentation menu. The operation conditions are changed in Radio Calibration Menu. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 62 (110) BRU1/BRU3 MANUAL 6.4.7 PR Reflected Power Calibration
[Main menu, Radio Operations, Calibration, PR Power Calibration]
PR Power Calibration SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 2 SELECT OFFSET CALIBRATION MODE SELECT ABSOLUTE CALIBRATION MODE 0. Calibration Menu Choose alternative:
Figure 31 PR Power Calibration - 1 menu. Alt. 1-2 Will display PR Power Calibration menu 2, Figure 32. Alt. 1 Offset mode Alt. 2 Absolute mode BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 63 (110)
[Main menu, Radio Operations, Calibration, PR Power Calibration]
Figure 32 PR Power Calibration - 2 menu. Alt. 1 SELECT TX POWER INDEX P1-P8 FOR OFFSET/ABSOLUTE MODE Displays SELECT TX_POWER = -21.0 PRESS Y TO SELECT N TO NEXT
[-21.0 (def), -18.0, -15.0, -12.0, -9.0, -6.0, -3.0, 0.0]
Alt. 2 ENTER TEMPERATURE INDEX T1-T5 FOR OFFSET/
ABSOLUTE MODE Displays TEMPERATURE INDEX (2) The temperature index is selected and the temperature check as described for temperature calibration is initiated. Alt. 3 READ AND ENTER CALIBRATION VALUE FOR OFFSET MODE BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 64 (110) BRU1/BRU3 MANUAL Alt. 4 MARK FOR STORAGE IN EEPROM This alternative indicates that this calibration object will be saved in EEPROM when the calibration procedure is finished. Alt. 5 SELECT TRANSMITTER ON/OFF A toggle function between + (ON) and - (OFF). Alt. 6 SLOT NUMBER [1-2]
Displays the selected slot number. Enter the desired slot number Alt. 7 ATTENUATION [1/10 dB]
Displays the attenuation for the selected slot (1/10 dB) Enter the desired cable loss in dB for slot 1 and 2 respectively. The slot number is selected in alternative 6. If the temperature check was OK these alternatives modify the output reference value. The measured output power is calibrated to the defined nominal value for the selected PF index. In offset calibration, all reference values for the selected PF index are changed. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 65 (110) 6.4.8 VCO Modulation Calibration
[Main menu, Radio Operations, Calibration, VCO Calibration]
VCO Calibration Current test selection is MEDIUM SYS:yyyy-mm-dd hh:mm 1 2 SELECT OFFSET CALIBRATION MODE SELECT ABSOLUTE CALIBRATION MODE 0. Calibration Menu Choose alternative: _ Figure 33 VCO Calibration - 1 menu. Alt. 1-2 Will display the VCO Calibration menu 2, Figure 34. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 66 (110) BRU1/BRU3 MANUAL
[Main menu, Radio Operations, Calibration, VCO Calibration]
VCO Calibration SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM TX: OFF TXCH: 3840 PF: 0 TXSEND:OFF RXCH: 3040 TEMP INDEX: 2 T1 TDEG: -8.0 212 VCO:
SLOT: 1 CHANNEL: 3800 T4 T2 6.0 34.0 201 182 T3 20.0 189 T5 48.0 179 DECREMENT4 ENTER TEMPERATURE INDEX FOR VCO IN OFFSET/ABSOLUTE MODE 1 INCREMENT3 2 MARK FOR STORAGE IN EEPROM 5 6 - SELECT TRANSMITTER ON/OFF SELECT MODULATION 7 8 - SELECT MODULATION ON/OFF SELECT SLOT 9 10 SELECT SLOT CHANNEL SET VALUE 0. Calibration Menu Choose alternative:
Figure 34 VCO Calibration - 2 menu. Alt. 1 ENTER TEMPERATURE INDEX T1-T5 FOR OFFSET/
ABSOLUTE MODE Displays TEMPERATUR INDEX (2) The temperature index is selected and the temperature check, as described for temperature calibration, is initiated. Alt. 2 INCREMENT Increases the value in steps. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 67 (110) Alt. 3 DECREMENT Decreases the value in steps. Alt. 4 SET VALUE Displays SET VCO (201) The value can be changed by increment, decrement or by set functions. Alt. 5 MARK FOR STORAGE IN EEPROM This alternative indicates that this calibration object will be saved in EEPROM when the calibration procedure is finished. Alt. 6 SELECT TRANSMITTER ON/OFF This alternative is a toggle function between + (ON) and -
(OFF). Alt. 7 SELECT MODULATION Displays SELECT MODULATION = NONE PRESS Y TO SELECT N FOR NEXT
[NONE (default), AC, LOW, HIGH, PRBS, PERIOD, SINE]
Alt. 8 SELECT MODULATION ON/OFF This alternative is a toggle function between + (ON) and -
(OFF). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 68 (110) BRU1/BRU3 MANUAL Alt. 9 SELECT SLOT Displays SLOT NUMBER [1-3] (1) 34xx:
For each slot the calibration has to be done at three different frequencies. The frequency band, selected in the Radio Operation Parameters in menu in Figure 23, shall be divided into the current number of slots. The number of slots is determined by the total frequency band covered by the BRU3 variant. 38xx and 39xx:
The calibration is done at one frequency. Enter SLOT NUMBER = 1. Alt. 10 SELECT SLOT CHANNEL Displays SLOT CHANNEL (3800) The SLOT CHANNEL is the upper limit of the channel number for current slot (slot 1, slot 2 or slot 3) 34xx:
The upper limit for slot 3 shall be set to -1 (=). 38xx and 39xx:
The upper limit for slot 1 shall be set to -1 (=). Reference values The VCO modulation gain parameters are shown for all temperature index values. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 69 (110) 6.4.9 TCXO Modulation Calibration
[Main menu, Radio Operations, Calibration, TCXO Calibration]
TCXO Calibration SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 2 SELECT OFFSET CALIBRATION MODE SELECT ABSOLUTE CALIBRATION MODE 0. Calibration Menu Choose alternative:
Figure 35 TCXO Calibration - 1 menu. Alt. 1-2 Displays TCXO Calibration menu 2, Figure 36. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 70 (110) BRU1/BRU3 MANUAL
[Main menu, Radio Operations, Calibrations, TCXO Calibration]
TCXO Calibration SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM TX: OFF TXCH: 3840 PF: 0 TXSEND:OFF RXCH: 3040 TEMP INDEX: 2 T1 TDEG: -8.0 TCXO: 234 T2 6.0 234 T3 20.0 234 T4 34.0 234 T5 48.0 234 1 2 5 6 -
7 8 -
9 -
DECREMENT4 ENTER TEMPERATURE INDEX FOR TCXO IN OFFSET/ABSOLUTE MODE INCREMENT3 MARK FOR STORAGE IN EEPROM SELECT TRANSMITTER ON/OFF SELECT MODULATION SELECT MODULATION ON/OFF VCO MODULATION ON/OFF SET VALUE 0. Calibration Menu Choose alternative:
Figure 36 TCXO Calibration - 2 menu. Operational conditions The transmitter and receiver conditions are shown, as described in the transceiver control and presentation menu. The operation conditions are changed in Radio Calibration Menu. Reference values The TCXO modulation gain parameter is shown for all temperature index values. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 71 (110) Alt. 1 ENTER TEMPERATURE INDEX T1-T5 FOR OFFSET/
ABSOLUTE MODE Displays TEMPERATURE INDEX (2) The temperature index is selected and the temperature check, as described for temperature calibration, is initiated. Alt. 2 INCREMENT Increases the value in steps. Alt. 3 DECREMENT Decreases the value in steps. Alt. 4 SET VALUE Display SET TCXO (215) If the temperature check was OK these alternatives modify the output gain value. The measured frequency deviation on the external instrument should be within specified limits. In offset calibration, all reference values are changed. Alt. 5 MARK FOR STORAGE IN EEPROM This alternative indicates that this calibration object will be saved in EEPROM when the calibration procedure is finished. Alt. 6 SELECT TRANSMITTER ON/OFF This alternative is a toggle function between + (ON) and -
(OFF). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 72 (110) BRU1/BRU3 MANUAL Alt. 7 SELECT MODULATION Selects the modulation Displays SELECT MODULATION = NONE PRESS Y TO SELECT NO FOR NEXT
[NONE (default), AC, LOW, HIGH, PRBS, PERIOD, SINE]
Alt. 8 SELECT MODULATION ON/OFF This function is a toggle function between + (ON) and - (OFF). Alt. 9 VCO MODULATION ON/OFF This function is a toggle function between + (ON) and - (OFF). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 73 (110) 6.4.10 RSSI Calibration
[Main menu, Radio Operations, Calibration, RSSI Calibration]
RSSI Calibration SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM TX: OFF TXCH: 3840 PF: 0 TXSEND:OFF RXCH: 3040 RSSI INDEX: 2 TDEG: -7.0 RSSI:
85 T3 T1 T2 3.0 13.0 126 108 T4 23.0 143 T5 33.0 164 T6 43.0 169 T7 53.0 169 T8 63.0 167 T9 T10 73.0 83.0 117 74 SET SIGNAL STRENGTH TO REFERENCE VALUE 1 2 3 SELECT RSSI INDEX S1 - S10 READ AND ENTER CALIBRATION VALUE MARK FOR STORAGE IN EEPROM 0. Calibration Menu Choose alternative: _ Figure 37 RSSI Calibration menu. Status Line:
Operational conditions The transmitter and receiver conditions are shown, as described in the transceiver control and presentation menu. The operation conditions are changed in Radio Calibration Menu. Reference values The measured input signal RSSI, is shown for reference points R1 - R10. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 74 (110) BRU1/BRU3 MANUAL Alt. 1 SELECT RSSI INDEX S1-S10 FOR OFFSET/ABSOLUTE MODE Displays RSSI SIGNAL INDEX (2) The RSSI index is selected. The measured RSSI value is entered at reference index point, when the signal strength is set to the defined value at the external instrument. Alt. 2 READ AND ENTER CALIBRATION VALUE Alt 3 MARK FOR STORAGE IN EEPROM This alternative indicates that this calibration object will be saved in EEPROM when the calibration procedure is finished. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 75 (110) 6.4.11 EEPROM Display Editor Menu
[Main menu, Radio Operations, Calibration, EEPROM Display Editor-1]
Figure 38 EEPROM Display menu - screen 1. Alt.1 SELECT SCREEN 1 This menu BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 76 (110) BRU1/BRU3 MANUAL Alt. 2 SELECT SCREEN 2
[Main menu, Radio Operations, Calibration, EEPROM Display Editor-2]
Figure 39 EEPROM Display menu - screen 2. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 77 (110) Alt. 3 SELECT SCREEN 3
[Main menu, Radio Operations, Calibration, EEPROM Display Editor-3]
Figure 40 EEPROM Display menu - screen 3. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 78 (110) BRU1/BRU3 MANUAL Alt. 4 SELECT SCREEN 4
[Main menu, Radio Operations, Calibration, EEPROM Display Editor-4]
Figure 41 EEPROM Display menu - screen 4. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 79 (110) 6.4.12 PA Bias and FDAC Calibration Menu
[Main menu, Radio Operations, Calibration, PA Bias and FDAC Calibration]
Figure 42 PA Bias and FDAC Calibration Menu. Alt. 1 SET PA BIAS DRIVER Shows the current setting of the driver bias (a). Alt. 2 SET PA BIAS FINAL Shows the current setting of the final bias (a). Alt. 3 SET FDAC RX Shows the current setting of the Rx syntheziser (a). Alt. 4 SET FDAC TX Shows the current setting of the Tx syntheziser (a). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 80 (110) BRU1/BRU3 MANUAL Alt. 5 SETUP RADIO OPERATION PARAMETERS Shows the current setting of the radio operation parameters (a). Alt. 6 SELECT TRANSMITTER ON/OFF Shows the current setting of the transmitter (a). Alt. 7 SAVE PA BIAS AT LOW POWER SLOT Saves the current setting of PA BIAS at low power slot. Alt. 8 SAVE PA BIAS AT HIGH POWER SLOT Saves the current setting of PA BIAS at high power slot.
(a) When a new value is entered it takes effect on the radio board im-
mediately. The new value will be stored in the EEPROM after con-
firmation. The setting can be changed by entering a new value. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 81 (110) 6.4.13 Radio Register Editor Menu
[Main menu, Radio Operations, Radio Register Editor]
Radio Register Editor Menu SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 2 READ RADIO REGISTER WRITE RADIO REGISTER 0. Previous Menu Choose alternative: _ Figure 43 Radio Register Editor Menu. Alt. 1 READ RADIO REGISTER Displays ADDRESS = (1). enabling reading of the address number. Alt. 2 WRITE RADIO REGISTER Displays ADDRESS = (1). enabling writing of the register value. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 82 (110) BRU1/BRU3 MANUAL 6.4.14 Adjustment
[Main menu, Radio Operations, Adjustment]
Radio Adjustment Menu SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 2 OCXO AGE ADJUSTMENT SAVE ADJUSTMENT IN EEPROM 0. Radio Control and Calibration Menu Choose alternative: _ Figure 44 Radio Adjustment Menu. Alt. 1 OCXO AGE ADJUSTMENT Displays the menu in Figure 45. Alt. 2 SAVE ADJUSTMENT IN EEPROM Saves the adjustment in EEPROM. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 83 (110)
[Main menu, Radio Operations, Adjustment, OCXO Age Adjustment]
OCXO Age Adjustment Menu SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM CURRENT ADJUSTMENT VALUE IS 0 1 2 3 4 INCREMENT DECREMENT SET VALUE MARK FOR STORAGE IN EEPROM 0. Adjustment menu Choose alternative: _ Figure 45 OCXO Age Adjustment Menu. Alt. 1 INCREMENT Increases the CURRENT ADJUSTMENT VALUE in steps. Alt. 2 DECREMENT Decreases the CURRENT ADJUSTMENT VALUE in steps. Alt. 3 SET VALUE Displays VALUE (0) The CURRENT ADJUSTMENT VALUE can be set. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 84 (110) BRU1/BRU3 MANUAL Alt. 4 MARK FOR STORAGE IN EEPROM This alternative indicates that this calibration object will be saved in EEPROM when the calibration procedure is finished. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 85 (110) 6.4.15 Setup
[Main menu, Radio Operations, Setup]
Figure 46 Radio Setup Menu. Alt. 1 FREQUENCY BAND A toggle function between 400-1, 400-2, 800, 819 and 900 MHz. This alternative is used to choose between the 400-1 and 400-2 MHz, 800 and 819 MHz and 900 MHz bands. 400-2 equals the UK National frequency band. 400-1 equals all other 400 MHz frequency bands including the UK City frequency band. 800 and 819 MHz covers the 800 MHz band using different base frequencies for channel number 0. Alt. 2 CHANNEL SPACING Toggles channel spacing between 6.25 and 12.5 kHz. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 86 (110) BRU1/BRU3 MANUAL Alt. 3 RADIO BOARD ROA Toggles radio board between:
Unknown (old) ROA 1179842/1 (900 MHz) ROA 1179842/3 (800 MHz) ROA 117 8897 (400 MHz) Alt. 4 RADIO BOARD ROA REVISION Sets radio board revision number Alt. 5 DEFAULT TX CHANNEL NUMBER Displays DISPL. TX CHAN. (3840) Sets the transmitter channel number. Alt. 6 DEFAULT RX CHANNEL NUMBER Displays DISPL. RX CHAN. (3040) Sets the receiver channel number. Alt. 7 LOAD AND SAVE DEFAULT CALIBRATION DATA Sets the default data for the current radio board and frequency board. Alt. 0 SAVE PARAMETER IN PHYSICAL EEPROM This alternative indicates that this calibration object will be saved in EEPROM when the calibration procedure is finished. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 87 (110) Modem Operation Menu (BRU3 only) 6.5
[Main menu, Modem Operations]
Modem Operation SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1. Line Speed on Modem port 2. DTR status 3. RTS status 4. Transparent Mode access 9600 OFF OFF 0. Main menu Choose alternative:
Figure 47 Modem Operation menu. Alt. 1 LINE SPEED ON MODEM PORT This toggle function provides a step-by-step increase of the transmission rate starting with 1200 and further 2400, 4800, 7200, 9600, 14400, 19200 up to 38400 bps from where the cycle will repeat itself. DTR STATUS A toggle function between ON and OFF. RTS STATUS A toggle function between ON and OFF. TRANSPARENT MODE ACCESS Transparent access to modem. Return from this mode is achieved by pressing CTRL + C three times. Alt. 2 Alt. 3 Alt. 4 BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 88 (110) BRU1/BRU3 MANUAL 6.6 Interface Board Parameters Menu (BRU1 only)
[Main menu, Interface Board Parameters]
Figure 48 Interface Board Parameters menu (BRU1 only). Alt. 1 Alt. 2 Alt. 3 SERIAL PORT IN USE In BRU1 the serial port in use is set here, instead of the strap used in BRU3. ETHERNET DUPLEX Sets Ethernet duplex. DISPLAY CONFIGURATION DATA Displays the Configuration Data Display in Figure 49. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 89 (110) 6.6.1 Configuration Data Display
[Main menu, Interface Board Parameters, Display Configuration Data]
Figure 49 Configuration Data Display menu. (BRU1 only) BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 90 (110) BRU1/BRU3 MANUAL 6.7 Status Overview Menu
[Main menu, Status Overview]
Figure 50 Status Overview menu (BRU3). Figure 50 Status Overview menu (BRU3). and Figure 51 Status Overview menu (BRU1). shows an example of the Status Overview menu. Status Line DAA Status will display the current country code. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 91 (110) Figure 51 Status Overview menu (BRU1). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 92 (110) 6.8 BRU1/BRU3 MANUAL Edit Loader Parameters Menu (BRU3 and System Release R14 only)
[Main menu, Edit Loader Parameters]
Edit Loader Parameters SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1. Node 0 2. Ports 3. Channels 4. Connections 5. Read parameters from Flash 6. Store parameters to Flash 0. Main menu Choose alternative:
Figure 52 Edit Loader Parameters menu. Note:
Normally, an edit session starts with the selection of alt 5., to read in the present values from Flash. Otherwise a default set of parameters is used. Alt. 1 NODE 0. For example if node number alternative 1 is selected the program will ask for a node number between 0 - 99999. Displays Own node number [0 - 99999]: (0) The required Own node number should be entered. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 93 (110) Alt. 2 PORTS Displays the Define Ports menu in Figure 53. Alt. 3 CHANNELS Displays the Define Channels menu in Figure 59. Alt. 4 CONNECTIONS Displays the Define Connections menu in Figure 62. Alt. 5 READ PARAMETERS FROM FLASH Reads the parameters stored in flash. Alt. 6 STORE PARAMETERS TO FLASH Saves the parameters in FLASH. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 94 (110) BRU1/BRU3 MANUAL 6.8.1 Ports
[Main menu, Edit Loader Parameters, Ports]
Define ports Current test selection is MEDIUM SYS:yyyy-mm-dd hh:mm 1. Port 2. Not in use
: 1 0. Previous menu Choose alternative:
Figure 53 Define Ports - Not in use menu. Alt. 1 PORT Displays Port number [1-1]:(1) The desired physical port can only be set to 1 as only one port is available on the BRU3. Alt. 2 NOT IN USE Selects between Not in use or In use by toggling. The select In use displays the menu in Figure 54. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 95 (110)
[Main menu, Edit Loader Parameters, Ports]
Define ports SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 Port 2 In use 3 Unit number 4 Local port number 5 Modem parameters 6 X25 parameters
: 1
: 0
: 1 0. Previous menu Choose alternative: _ Figure 54 Define Ports - In use menu. Alt. 1 PORT Choose alternative: Port number [1 - 1]: (1) Alt. 2 IN USE Selects between Not in use or In use by toggling. The select In use displays the menu in Figure 54. Alt. 3 UNIT NUMBER Choose alternative: Unit number [0 - 0]: (0) As only one unit is available on the node, the set value should be 0. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 96 (110) BRU1/BRU3 MANUAL Alt. 4 LOCAL PORT NUMBER Choose alternative: Local port number [1 - 1] (1) As only one local port is available on the node, the set value should be 1. Alt. 5 MODEM PARAMETERS Displays the Port - Modem Parameter menu in Figure 55. Alt. 6 X.25 PARAMETERS Displays the Port - X.25 Parameter menu in Figure 58. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 97 (110)
[Main menu, Edit Loader Parameters, Ports, Modem Parameters]
Define modem parameters SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 Modem in use 2 Control type 3 Prompt 4 Bitrate 5 Dial timeout 6 Answer timeout 7 Init commands 8 Dial commands
: YES
: ATHAYES
: OK
: 9600
: 60
: 60 0. Previous menu Choose alternative:
Figure 55 Edit Modem Parameters menu. Alt. 1 MODEM IN USE A toggle function between YES or NO. CONTROL TYPE Alt. 2 A toggle function, selection between ATHAYES, ATHAYES_LL, V25BIS and NO_CONTROL can be made.The alternative ATHAYES_LL gives Alt. 6 Retry timeout. PROMPT Alt. 3 The PROMPT: question should be set to OK. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 98 (110) BRU1/BRU3 MANUAL Alt. 4 BIT RATE A toggle function between bit rates 1200, 2400, 4800, 9600 and 14400, where the bit rate normally should be set to 9600, but it is possible to select other rates by toggling. Note: This bit rate setting is related to asynchronous communication
(sending initiation commands to the modem). DIAL TIMEOUT Alt. 5 The Dial Timeout in seconds should be entered. Dial timeout [sec][0 - 500]: (0) The value should normally be 60 sec. ANSWER TIMEOUT Alt. 6 The Answer Timeout in seconds should be entered. Answer timeout [sec][0 - 500]: (0) The value should normally be 60 sec. RETRY TIMEOUT The (Answer) Retry Timeout in (milliseconds) seconds should be entered. Answer timeout [sec][0 - 600000]: (0) The value should normally be 600000. RETRY TIMEOUT is used when control type ATHAYES_LL has been selected. The value controls how often the modem tries to connect to the leased line. The established dial-up connection is disconnected during theses attempts. INIT COMMANDS Alt. 7 Displays the Prompt - Modem Parameter - Init Command menu in Figure 56. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 99 (110) Alt. 8 DIAL COMMANDS Displays the 10 Dial Command sequences, please refer to the menu in Figure 57.
[Main menu, Edit Loader Parameters, Ports, Modem Parameters, Init Commands]
Modem Initial Command for Port 1 Current test selection is MEDIUM SYS:yyyy-mm-dd hh:mm 1 Command 1 : ATE0 2 Command 2 : AT&D2 3 Command 3 : AT&M1 4 Command 4 :
5 Command 5 :
0. Previous menu Choose alternative: _ Figure 56 Edit Modem Parameters menu, Init Commands. Note:
Commands 1 5 above are used differently depending on the selected control type. If ATHAYES is selected, commands 1 5 are sent to the modem for initialization, followed by the telephone numbers specified in Figure 57 Edit Modem Parameters menu, Dial Commands.. If ATHAYES_LL is selected, commands 1 3 are sent to the modem to initialize it for leased-line mode. If this does not work and the modem attempts to established a dial-up connection, commands 4 5 are sent to the modem for initialization, followed by the telephone numbers specified in Figure 57. Prior to an attempt to establish a connection, the loader program will send the above defined init commands to the modem. It is possible to define additional init commands in 4 and 5. For more information about modem settings, see Node Hardware/BRU3/Telephone Modem Settings. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 100 (110) BRU1/BRU3 MANUAL
[Main menu, Edit Loader Parameters, Ports, Modem Parameters, Dial Commands]
Modem Dial Command for Port 1 SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 Command 1 : ATD543301 2 Command 2 : ATD543302 3 Command 3 :
4 Command 4 :
5 Command 5 :
6 Command 6 :
7 Command 7 :
8 Command 8 :
9 Command 9 :
10 Command 10 :
0. Previous menu Choose alternative: _ Figure 57 Edit Modem Parameters menu, Dial Commands. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 101 (110)
[Main menu, Edit Loader Parameters, Ports, X.25 Parameters]
X25 parameters for port 1 SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 Local address 2 Packet size 3 Window size 4 Bitrate 5 Ltc channel 6 Htc channel 7 Network 8 Network ID 0. Previous menu
: 1
: 512
: 2
: 9600 bps
: 1
: 8
: X25 Network
: 255 Choose alternative:
Figure 58 Edit X.25 Parameters menu. Alt 1. Enter the LOCAL ADDRESS:
Enter your own X.25 address. Enter the PACKET SIZE [-1 - 512]:(512) Enter the WINDOW SIZE [-1 - 7]:(2) Enter the bit rate, a toggle function between 1200 bps, 2400, 4800, 9600, 14400, 19200, 48000, 56000, 64000 bps, External 115 and External 114. Default External 115. Enter the Ltc channel [0 - 255]:(1), 2 if PVC Enter the Htc channel [0 - 255]:(8), Normally 8 A toggle function between X.25 Network or No Network. Enter the Network ID [0 - 9999]:(255) the X.25 ID if X.25 Network. Alt 2. Alt 3. Alt 4. Alt 5. Alt 6. Alt 7. Alt 8. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 102 (110) BRU1/BRU3 MANUAL 6.8.2 Channels Alt. 3 Channels in the Edit Loader Parameters Menu displays the following menu:
[Main menu, Edit Loader Parameters, Channels]
Define channels SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1. Channel 2. Not in use
: 1 0. Previous menu Choose alternative: _ Figure 59 Define Channels menu. If alternative 1 is selected, the Choose alternative will change to:
Channel number [1 - 5]: (1). BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 103 (110)
[Main menu, Edit Loader Parameters, Channels]
Define channels SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1. Channel 2. In use 3. Port 4. Local channel number 5. X.25 Parameters
: 1
: 1
: 1 0. Previous menu Choose alternative: _ Figure 60 Define Channels menu. Alt 1. Enter the Channel number [1 - 5]:(1), select the channel number to be edited. Alt 3. Enter the Port number [1 - 1]:(1) Alt 4. Enter the Local channel number [0 - 255]:(1) Alt 5. Displays the menu X.25 parameters for channel 1 in Figure 61. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 104 (110) BRU1/BRU3 MANUAL
[Main menu, Edit Loader Parameters, Channels, X.25 Parameters]
X.25 parameters for channel 1 SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1. Remote address 2. Packet size 3. Window size 4. Connection type 5. Logical channel 6. Request rev chg 7. Accept rev chg 8. Accept empty addr 0. Previous menu
: 00000
: 128
: 2
: VC
: -1
: No
: Yes
: No Choose alternative: _ Figure 61 X.25 Parameters for Channel 1 menu. Alt 1. Enter the Remote address: The Address for the MOX. Alt 2. Enter Packet size [-1 - 512]:(128) Alt 3. Enter Window size [-1 - 7]:(2) Alt 4. Alt 5. Enter the Connection type:
A toggle function between VC and PVC type. VC - mode:
Not alterable in VC-mode. Press any key to continue:
PVC - mode:
LOGCHAN [1 - 4095]:(1) Alt 6-8 A toggle function between YES and NO. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 105 (110) 6.8.3 Connections Alt. 4 Connections in the Edit Loader Parameters Menu displays the following menu:
[Main menu, Edit Loader Parameters, Connections]
Define connections SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1. Connection 2. Not in use
: 1 0. Previous menu Choose alternative:
Figure 62 Define Connection menu. Alt 1. Enter the Connection number [1 - 5]:(1) Alt 2. A choice between NOT IN USE and IN USE. The in use alternative gives the menu in Figure 63. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 106 (110) BRU1/BRU3 MANUAL
[Main menu, Edit Loader Parameters, Connections]
Define connections Current test selection is MEDIUM SYS:yyyy-mm-dd hh:mm 1. Connection 2. In use 3. Remote node 4. Priority 5. Channel 0. Previous menu
: 1
: 0
: 0
: 1 Choose alternative: _ Figure 63 Edit Loader Parameters menu - selection of connection. Alt 1. Enter the Connection number [1 - 5]:(0) Alt 2. Enter the Remote node number [0 - 99999]:(0) Alt 3. Enter the Priority [0 - 255]:(0) Alt 4. Enter Channel [1 - 5]:(1) BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 107 (110) 6.8.4 Read Parameters from FLASH
[Main menu, Edit Loader Parameters, Read Parameters from FLASH]
Edit loader parameters SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 Node XXXXX 2 Ports 3 Channels 4 Connections 5 Read parameters from Flash 6 Store parameters to Flash 0. Main menu Choose alternative:
Figure 64 Edit Loader Parameters menu - selection of parameters. Alt 1. Alt 2. Alt 3. Alt 4. Alt 5. Alt 6. Note:
Enter your own node number [0 - 9999]: (xxxxx) Gives the menu in Figure 54. Gives the menu in Figure 60. Gives the menu in Figure 65. Reads the parameters from Flash. Stores the parameters in Flash. Alternative 6 should now be selected! If alternative 5 is selected, the result will be that the newly entered or modified parameter values will be overwritten by the values stored in the Flash PROM. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 108 (110) BRU1/BRU3 MANUAL 6.8.5 Store Parameters in FLASH The messages Storing data in Flash, followed by Data stored successfully in Flash will be briefly displayed. The menu will then return to normal display:
[Main menu, Edit Loader Parameters, Store Parameters in FLASH]
Edit loader parameters SYS:yyyy-mm-dd hh:mm Current test selection is MEDIUM 1 Node XXXXX 2 Ports 3 Channels 4 Connections 5 Read parameters from Flash 6 Store parameters to Flash 0. Main menu Choose alternative:
Figure 65 Edit Loader Parameters menu - selection of parameters. BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 FBTEST REFERENCE MANUAL 109 (110) Index Adjustment Menu Bandgap Calibration Menu Board Test Menu Channels Menu Connections Menu Edit Loader Parameters Menu EEPROM Display Editor Menu Frequency Mode Menu Interface Configuration Menu Main Menu Measurement Setup Menu Modem Operation Menu Modem Parameters Menu Number Mode Menu OCXO Age Adjustment Menu PA Bias and FDAC Calibration Menu PF Output Power Calibration Menu PF Reflected Power Calibration Menu Radio Calibration Menu Radio Control and Calibration Menu Radio Register Editor Menu Read Parameters from FLASH Menu Reference Oscillator OCXO Calibration Menu RSSI Calibration Menu Select/Unselect Boards Menu Set Test Parameters for FCB Menu Set Test Parameters for FIB Menu Set Test Parameters for FMB Menu Set Test Parameters for FNB Menu Set Test Parameters for FPB Menu Set Test Parameters for FRB Menu Set Time Menu Status Overview Menu Store Parameters in FLASH Menu Store Parameters to FLASH Menu TCXO Modulation Calibration Menu Temperature Sensor Calibration Menu Transceiver Control and Presentation Menu Transceiver Setup Menu VCO Modulation Calibration Menu BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19 82 52 20 102 105 92 75 43 88 17 45 87 97 41 83 79 59 62 50 38 81 107 56 73 23 26 31 30 29 32 28 37 90 108 108 69 54 47 40 65 110 (110) BRU1/BRU3 MANUAL X.25 Parameters Menu 101, 104 BRU1/BRU3 MANUAL, Doc.no: b3fb_ref Uen Rev PJ5, 2004-02-19
1 | Introduction and Product Specification | Users Manual | 555.44 KiB | / September 04 2004 |
Introduction and Product Specification Contents 1 General ........................................................................................................ 3 2 About the BRU1 Manual............................................................................. 4 3 Using the BRU1 Manual ............................................................................. 5 3.1 Safety Instructions............................................................................ 5 3.2 Site Requirements and Installation Instructions............................... 5 3.3 Commissioning Procedure ............................................................... 6 3.4 FBTEST Reference Manual............................................................. 6 3.5 Operation and Maintenance ............................................................. 6 4 Technical Data............................................................................................. 7 4.1 Power Requirements and Dimensions ............................................. 7 4.2 Radio Parameters ............................................................................. 8 4.3 Environmental Classifications ......................................................... 9 4.4 Electromagnetic Compliance and Radio Standards ....................... 10 4.5 Electrical Safety ............................................................................. 10 BRU1 MANUAL, Doc.no: b1intro Uen Rev PA2, 2004-02-17 BRU1 MANUAL The contents of this document are subject to revision without notice due to continued progress in methodology, design and manufacturing. Ericsson shall have no liability for any errors or damages of any kind resulting from the use of this document. BRU1 MANUAL, Doc.no: b1intro Uen Rev PA2, 2004-02-17 INTRODUCTION 3 (10) 1 General Radio Base Unit 1 (BRU1) is a complete one-channel compact radio base station which uses 8 kbps data signalling. The BRU1, which is intended for indoor operation, is a link between the mobile terminals (MOB) and the area exchanges (MOX) in the Mobitex Network. A v e R 4 0 2 1 0 4 E Z L
4 2 4 1 Figure 1 The front of Base Radio Unit 1 (BRU1).
4 9 BRU1 MANUAL, Doc.no: b1intro Uen Rev PA2, 2004-02-17 4 (10) BRU1 MANUAL 2 About the BRU1 Manual The BRU1 Manual is designed for engineering personnel who are familiar with data communications terminology and protocols and who will work on site with the BRU1. The Manual is intended for:
Operation and Maintenance personnel System engineers Training Installation and Commissioning personnel BRU1 units may be damaged by mismanagement. Therefore, read the documents included in this manual carefully before you start operating the BRU1, especially the Safety Instructions document. It is important that this manual be available to all personnel working with the BRU1, and that the BRU1 is operated only by trained personnel. Introduction and Product Specification (this document) Safety Instructions Site Requirements and Installation Instructions The manual provides the necessary information for installation, commissioning and operation of the BRU1, and contains the following documents:
Commissioning Procedure FBTEST Reference Manual - complementary to the Commissioning Procedure. Operation and Maintenance Instructions End of Life Treatment BRU1 MANUAL, Doc.no: b1intro Uen Rev PA2, 2004-02-17 INTRODUCTION 5 (10) 3 Using the BRU1 Manual Before using the BRU1 manual, you should have an overall understanding of how the Mobitex system operates as a wide-area packet switching network. If not, first refer to the NTE Client Library/System Library/System Manual. 3.1 Safety Instructions The Safety Instructions document contains safety instructions for handling the BRU1 during installation and maintenance. It is recommended to read this document prior to reading the other documents, or starting any kind of installation or maintenance work. 3.2 Site Requirements and Installation Instructions The Site Requirements and Installation Instructions document covers both the site preparations required, in terms of space, power, environment, cables, etc., and information required for a safe installation of the BRU1. BRU1 MANUAL, Doc.no: b1intro Uen Rev PA2, 2004-02-17 6 (10) BRU1 MANUAL 3.3 Commissioning Procedure The Commissioning Procedure document includes two parts, the hardware and the software commissioning procedures. Hardware Commissioning describes how to put the BRU1 into operation after installation has been completed. Software Commissioning gives the necessary information for the commissioning of the BRU1 software. 3.4 FBTEST Reference Manual The FBTEST Reference Manual describes the FBTEST test program which is used for the BRU1 hardware commissioning and some maintenance operations. 3.5 Operation and Maintenance The Operation and Maintenance Instructions document informs about first-line operation and maintenance of the BRU1. The Design, Function and Operation chapter describes the design, function and operation of the BRU1 and its constituent parts. The Maintenance chapter describes how to carry out visual and preventive maintenance on the BRU1. The Troubleshooting chapter describes how to act if problems occur when operating the BRU1. Trouble shooting is always carried out in agreement with the NCC operator personnel. BRU1 MANUAL, Doc.no: b1intro Uen Rev PA2, 2004-02-17 INTRODUCTION 7 (10) 4 Technical Data 4.1 Power Requirements and Dimensions Power Requirements Title Product No. Rated Voltage
(V DC) Power Consumption
(W) 19 BRU1 19-D HRB 10472/9 21 - 32
<50 Dimension Height (mm) Width (mm) Depth (mm) Weight (kg) 19 285 (TBC) 344(TBC) 101(TBC)
<4.5 BRU1 MANUAL, Doc.no: b1intro Uen Rev PA2, 2004-02-17 8 (10) BRU1 MANUAL 4.2 Radio Parameters Radio data transmission speed Modulation Traffic mode Channel bandwidth Duplex spacing IF1 frequency IF2 frequency IF3 frequency Rx frequency range Sensitivity Receiver adjacent channel rejection Spurious rejection Blocking level Intermodulation response Tx frequency range Adjacent channel power Anrtenna output power Antenna impedance
= 8 kbps
= Modified GMSK, BT = 0.3
= Duplex
= 12.5 kHz 39MHz 77.25 kHz 450 kHz 42.31 kHz 896 - 902 MHz
= -113 dBm at 1% BER
> 55dB
> 60dB
> 90dB
> 70dB 935 -941 MHz
> 55dB 1W 50 ohm BRU1 MANUAL, Doc.no: b1intro Uen Rev PA2, 2004-02-17 INTRODUCTION 9 (10) 4.3 Environmental Classifications Weather Protected Locations:
class IP 40 according to IEC-EN 60529 ETS 300 019-1-3: Environmental Class 3.1, with extended temperature range . 19:
-0 C to +45 C Humidity:
10 - 85%
Storage:
-40 C to +60 C ETS 300 019-1-1: Class 1.2 for storage. Transport:
ETS 300 019-1-2: Class 2.3 for public transportation when packed in Ericsson supplied packaging material or equivalent. BRU1 MANUAL, Doc.no: b1intro Uen Rev PA2, 2004-02-17 10 (10) 4.4 BRU1 MANUAL Electromagnetic Compliance and Radio Standards 19:
FCC part 68, FCC part 90 4.5 19:
Electrical Safety UL60950 or equivalent BRU1 MANUAL, Doc.no: b1intro Uen Rev PA2, 2004-02-17
1 | Operation and Maintenance Instructions | Users Manual | 776.80 KiB | / September 04 2004 |
Operation and Maintenance Instructions Contents 1 Design, Function and Operation.................................................................. 3 1.1 General ............................................................................................. 3 1.2 BRU1 connections and indicators.................................................... 4 1.3 Start-Up and Shutdown Procedures ................................................. 6 Start-Up Procedure ............................................................... 6 1.3.1 1.3.2 Shutdown Procedure ............................................................. 6 1.3.3 Restarting the BRU1 (Warm Start)....................................... 7 1.3.4 Manual Restart of the BRU1 ................................................ 7 1.4 Network Connections....................................................................... 8 1.4.1 General.................................................................................. 8 1.5 Alarms.............................................................................................. 9 2 Maintenance .............................................................................................. 10 2.1 General ........................................................................................... 10 2.2 Equipment Required....................................................................... 11 2.3 Documentation Required ............................................................... 11 2.4 Maintenance to be Performed ........................................................ 12 2.4.1 Visual and Preventive Maintenance ................................... 12 2.5 Function Check .............................................................................. 14 2.5.1 General................................................................................ 14 2.5.2 Equipment Required ........................................................... 14 2.5.3 FBTEST Board Test ........................................................... 15 2.5.4 Channel Unit Output Power................................................ 16 2.5.5 Transmitter Deviation ......................................................... 17 2.5.6 Bit Errors at high Signal Levels.......................................... 19 2.5.7 Receiver Sensitivity ............................................................ 21 2.5.8 Receiver Sensitivity at Frequency Deviation...................... 23 2.5.9 Antenna input Signal .......................................................... 25 2.5.10 Hardware Alarm Status....................................................... 26 3 Troubleshooting......................................................................................... 28 3.1 General ........................................................................................... 28 3.2 Troubleshooting guide ................................................................... 29 BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 BRU1 MANUAL 3.2.1 LED indicators.....................................................................29 The contents of this document are subject to revision without notice due to continued progress in methodology, design and manufacturing. Ericsson shall have no liability for any errors or damages of any kind resulting from the use of this document. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 3 (30) 1 Design, Function and Operation 1.1 General Base Radio Unit 1 (BRU1) is a complete one-channel compact radio base station which uses 8 kbps data signalling. The BRU1, which is intended for indoor operation, is a link between the mobile terminals and the area exchanges in the Mobitex Network. All parts are integrated in the unit, see Figure 1. A v e R 4 0 2 1 0 4 E Z L
4 2 4 1
4 9 Figure 1 BRU1 This section describes the design, function and operation of the BRU1. During normal operation, all actions necessary for the operation and check of the BRU1 are carried out at the Network Control Centre (NCC). When operating the BRU1 on site, the following equipment is required:
BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 4 (30) BRU1 MANUAL Portable PC including VT-100 emulation software. Console Cable TSRA 902 0190 (or equivalent) for connection of the terminal to the BRU1 connector "CONSOLE". FBTEST For a description on how to connect the portable PC to the BRU1, please refer to chapter 1.3.2 Shutdown Procedure. 1.2 BRU1 connections and indicators 1 2 3 4 5 6 7 RS232 RS422 CONSOLE FUSE POWER 3 A F
+24 VDC SYSTEM OK ERROR RS232 RS422 Rx L 10BaseT A v e R n e U 4 0 2 Figure 2 BRU1 external connections and indicators. 1 0 4 E Z L
4 2 4 1
5 9 Ethernet Connection (and ethernet LED indicators) 1. 2. Modem Connection RS232C 3. Modem Connection RS422B 4. 5. 6. 7. Console Connection LED indicators Fuse Power connector BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 5 (30) The table below gives a brief description of the BRU1 connections used. The position numbers found in the Position column refer to the corresponding position numbers in Figure 2. Pos. Connector Type of Connector Description 1 2 3 4 5 6 7 Ethernet RJ-45 Connection to superior node via Ethernet RS-232C RS-422B Console 25p DSUB female 25p DSUB female 9p DSUB female Quad LED indicator
Fuse holder Connection to superior node via RS232 Connection to superior node via RS422B Connection used for Nodop terminal System OK (green) Internal H/W Error (red) RS232 (yellow) RS422 (yellow) Power connector 2p DSUB DC power input. +24V, 2A. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 6 (30) BRU1 MANUAL 1.3 Start-Up and Shutdown Procedures Note:
When starting up the BRU1 after installation, follow the instructions in Node Hardware Library/BRU1/Commissioning Procedure. 1.3.1 Start-Up Procedure When starting up the BRU1, do the following:
1. 2. Connect the power cable to the BRU1. Check that the System OK green LED is lit. This indicates that all the internal power supply is OK. Check, after a few seconds, that the Internal H/W Error red LED is not lit. This inicates that no severe internal hardware alarm have been raised. Note:
The warm-up time for the BRU1 is required to be at least 10 minutes, before the transmitter is activated. Specifications for the BRU1 are valid after this period. 1.3.2 Shutdown Procedure To ensure minimal traffic and data loss when the power to the node has to be shut down, always perform the following shutdown procedure:
1. 2. Connect the portable PC via the console cable, TSRA 902 0190, to the port
"CONSOLE" of the BRU1. Press <RETURN> to get the NODOP prompt NODOP>
Note:
If the node has just started, it will take a little while before NODOP is functioning. To ignore requested username and password, press <RETURN>. 3. Give the command SET CONSOLE ON on the NODOP terminal. 4. Give the command HALT 120 on the NODOP terminal. 5. When you are asked to verify the command, enter Y. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 7 (30) 6. The shutdown procedure will stop all incoming traffic and close all open files. A message will be displayed on the console terminal when the node may be switched off. 1.3.3 Restarting the BRU1 (Warm Start) Restart (RESET) of the entire node can be performed. By command from an NCC operator. By the NODOP command BOOT MASTER 10 YES using a terminal. Note:
Restarting a node may result in traffic and data loss, make sure to take appropriate precautions. 1.3.4 Manual Restart of the BRU1 A manual restart (reset) of the BRU1 can only be performed by disconnecting/
connecting of the power. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 8 (30) BRU1 MANUAL 1.4 Network Connections 1.4.1 General There are three alternative line interfaces for connection to a superior node:
Ethernet (10Base-T, 10 MBps) balanced serial interface V.11 (RS422B) unbalanced serial interface V.28 (RS232C). The choice between Ethernet and serial interface is a config parameter in NCC, whereas the choice between balanced serial interface and unbalanced serial interface, is made in FBTEST. For serial interface selection see Node Hardware Library/BRU1/FBTEST Reference Manual The selected serial communication type is indicated by the two yellow Network Leds. See table below Function RS422 LED RS232 LED RS422 RS232 ON OFF OFF ON Note that the serial communication type does not reflect whether or not Ethernet/serial communication is selected. This selection is performed in NCC
(Config parameter). There are two LED indicators which are integrated in the Ethernet connector Function Green LED Yellow LED LINK RX On = Good link Off = No link
Ethernet acivity on RX BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 9 (30) 1.5 Alarms The BRU1 includes the following hardware alarms:
Alarm Description Temp alarm HIGH ambient temp. exceeds +40 C. Temp alarm LOW ambient temp. is below +5C. Temp alarm HIGH SHUTOFF Temp alarm LOW SHUTOFF DC alarm 5V DC alarm 8V DC alarm 15V Reflection alarm ambient temp. exceeds +45 C (radio transmitter turned off) ambient temp. is below 0C (radio transmitter turned off) Internal DC failure on 5V Internal DC failure on 8V Internal DC failure on 15V Output RF power/Voltage Standing Wave Ratio exceeding alarm limit set. Radio OFF Unspecified Transmitter or Receiver failure. Low output power alarm Output power below alarm limit set. External alarm 1 For customer use. Note:
If the ambient temperature exceeds +55 C the internal DC/DC power supply is switched off. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 10 (30) BRU1 MANUAL 2 Maintenance 2.1 General This section describes how to carry out scheduled, visual and preventive maintenance on the BRU1 on site. The scheduled, visual and preventive maintenance is carried out to increase the operational reliability of the electrical and mechanical parts of the BRU1. If any problems occur while following the procedures in this section, please refer to 3 Troubleshooting. For BRU1 model 19 maintenance is carried out every:
6 Months (Radio Unit Reference Oscillator) Note:
If the BRU1 has to be switched off, the shutdown procedure described in 1.3 Start-Up and Shutdown Procedures, must be followed before power-off is performed. If not, important data may be lost and the subsequent start-up time may be significantly increased. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 11 (30) 2.2 Equipment Required To carry out maintenance on the BRU1 on site, the following equipment is required:
Portable PC including VT-100 emulation software Console cable TSRA 902 0190 (or equivalent) for connection of the PC to the BRU1 "CONSOLE" port Frequency counter 1 GHz Degree of accuracy: 0.01 ppm FBTEST software (normally installed in the BRU1) RF Power Meter Multimeter RF Attenuator 1 GHz, 30-50 dB Mobitex radio modem Note:
The antenna connector of the BRU1 is an SMA RF connector. 2.3 Documentation Required To carry out maintenance on the BRU1 on site, the following documentation is required:
BRU1 Manual (Mobitex NTE Client Library/Node Hardware Library/
BRU1) Node Software Library (Mobitex NTE Client Library/Node Software Library) BRU1 - Site documentation Note:
The Site Documentation is not included in the electronically published version of the Mobitex NTE Client Library but is delivered on paper together with the hardware. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 12 (30) BRU1 MANUAL 2.4 Maintenance to be Performed 2.4.1 Visual and Preventive Maintenance Radio Unit Reference Oscillator In the BRU1, the reference oscillator checks the channel unit frequency. Thus, adjustment check of the reference oscillator, in accordance with the following procedure, implies check of the channel unit frequency accuracy. Note:
Only authorized personnel are allowed to adjust the frequency of the reference oscillator. Requirements The measurement must be carried out on the correct carrier frequency for the site. The carrier wave must not have a frequency error exceeding 0.1 ppm. The reference oscillator must have been powered up at least 30 minutes before the test is started. Test equipment Portable PC including VT-100 emulation software Console cable TSRA 902 0190 or equivalent FBTEST software Frequency counter 1 GHz (degree of accuracy: 0.01 ppm) RF attenuator 1 GHz, 30-50 dB. Test procedure 1. Put the BRU1 in command mode by pressing !!! when the following text appears:
REVISION : BOOT R1B Virtual thumb wheel position: Command mode CPU type: MC68030 Press !!! within 5 seconds, to change current thumb wheel value:
0 - Normal position operation BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 13 (30) 1 - Test (should not be used) 2 - Boot from RAM-disks (MS-DOS format) 3 - Not defined, reserved 4 - Boot from SCSI-disks 5 - Boot from PROM-disks 6 - Boot from old PROM-disk 7 - Command position operation 8 - Not defined, reserved Enter choice (0..8): 7 2. Connect the frequency counter via the RF attenuator to the BRU1 antenna. connection. 3. Use FBTEST to set the transmitter carrier frequency to correct value for the site. Please refer to Node Hardware Library/BRU1/FBTEST Reference Manual. 4. 5. Select the power corresponding to 0 dB attenuation of the transmitter. Start the transmitter. Read the frequency measured on the frequency counter display. Check the result against the requirements specified. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 14 (30) BRU1 MANUAL 2.5 Function Check 2.5.1 General The Function Check includes checking BRU1 boards, transmitter, receiver, antenna and hardware alarms. Furthermore, the Function Check may be used as an extended hardware commissioning test, as a complement to the hardware commissioning procedure. 2.5.2 Equipment Required To carry out the Function Check, the following equipment is required:
Power meter Multimeter RF signal generator 1 GHz with a built-in GMSK-modulator.
(Alternatively, you may use a RF signal generator 1 GHz together with the Ericsson test modem LPBA 109 08. See chapter 2.5.6 Bit Errors at high Signal Levels for more information.) 1 pc of Radio Communication test set, including
- RF signal generator 1GHz, with external FM DC input
- Modulation Meter. FBTEST software BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 15 (30) 2.5.3 FBTEST Board Test Check of BRU1 boards Requirements It is recommended that a Medium board test of all BRU1 boards should be carried out before taking the BRU1 into operation. Test equipment Portable PC including VT-100 emulation software Console cable TSRA 902 0190 or equivalent FBTEST software. Test procedure 1. Use FBTEST to set up two test cycles. 2. 3. Run the test cycles. Check the result on the terminal display. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 16 (30) BRU1 MANUAL 2.5.4 Channel Unit Output Power Check of the transmitter channel unit output power Requirements For tolerances, please refer to the tables below:
900 MHz, 1W version:
Power 900 MHz 1.0W 0.5W 250mW 125mW 0
-3
-6
-9 Attenuation (dB) Tolerance (+dB) Tolerance (-dB) 1.5 1.5 2.0 2.0 1.5 1.5 3.0 3.0 Measurements must be carried out on the correct carrier frequency for the site. Test equipment Portable PC including VT-100 emulation software Console cable TSRA 902 0190 or equivalent FBTEST software Output power meter 19, 1W version: 20 mW - 5W Degree of accuracy: better than 0.5 dB Coaxial cable. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 17 (30) Test procedure 1. Connect the output power meter to the BRU1 antenna connection. 2. Use FBTEST to set the correct transmitter carrier frequency for the site. 3. Use FBTEST to select the desired power level. 4. 5. Start the transmitter. Read the power measured on the output power meter display. Check the result against the requirements specified. Note that cabel attenuation must also be considered. 6. Select a new power level and repeat the measurement procedure. Note:
This adjustment of power level is only temporary. Normally the adjustment of output power is set via a configuration file. 2.5.5 Transmitter Deviation Check of transmitter frequency deviation Requirements The sine wave 1 kHz shall give the frequency deviation of 2.0 kHz + 5.0%. The measurements must be carried out on the correct carrier frequency for the site. Test equipment Portable PC including VT-100 emulation software Console cable TSRA 902 0190 or equivalent FBTEST software Deviation meter 900 MHz Degree of accuracy: better than 3.0%. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 18 (30) BRU1 MANUAL Test procedure 1. Connect the deviation meter to the BRU1 antenna connection. 2. Use FBTEST to set the correct transmitter carrier frequency for the site. 3. 4. 5. 6. Select the power level to -6 dB attenuation of the transmitter. Select modulation test sequence. Start the transmitter. Read the deviation frequency measured on the deviation meter display. Check the result against the requirements specified. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 19 (30) 2.5.6 Bit Errors at high Signal Levels Check of the bit error rate at high signal levels Requirements The measurement should be carried out within a time period of 60 seconds. The RF signal level to the receiver should be -81 dBm. The tolerated failure rate during the test period is set to 0 or 1 error. The measurement should be repeated with a RF signal of -31 dBm. The above measurements must be carried out on the correct carrier frequency for the site. Test equipment Portable PC including VT-100 emulation software Console cable TSRA 902 0190 or equivalent FBTEST software Alternative 1 or 2 described below. Alternative 1 Ericsson test modem LPBA 109 08 RF signal generator 1 GHz. The RF signal generator must include an input for external modulation with a lower limiting frequency of 0 Hz. The frequency must be able to modulate with DC voltage. Degree of frequency accuracy: 0.01 ppm. The RF output signal level must be adjustable between
-123 dBm and -3 dBm. Accuracy: Better than 1 dB. Alternative 2 RF signal generator 1 GHz with a built-in GMSK-modulator. The generator must be able to generate the 511 bit PRBS signal used when measuring the bit error rate. (Using this alternative excludes the Ericsson test modem specified above.) Accuracy: Better than 1 dB. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 20 (30) BRU1 MANUAL Test procedure 1. Connect the signal generator to the BRU1 antenna connection. 2. Use FBTEST to set the receiver channel number corresponding to the correct carrier frequency. 3. Set the signal generators carrier frequency to the receivers nominal carrier frequency. The GMSK modem supplies the RF signal generator with an analog pseudo-random signal which matches the test signal called M2 in the ETSI specification. This signal modulates the RF signal generator. (In case the RF signal generator is equipped with a built-in GMSK modem the external GMSK modem is excluded.) The receiver demodulated signal BER, is calculated by the BRU1 logic. 4. Start the bit error measurement using FBTEST. 5. Adjust the RF signal level sent to the receiver to -81 dBm. Check the bit error rate during a period of one minute. 6. 7. Check the result against the requirements specified. Set a new (- 31 dB) RF signal level on the signal generator and the BRU1, and repeat the measurement procedure. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 21 (30) 2.5.7 Receiver Sensitivity Check of the receiver sensitivity Requirements The receiver sensitivity is defined as the RF level on the receiver antenna connection which generates a BER value of 1%. The RF signal sent to the receiver should be modulated with the M2 test signal with a frequency deviation of 2.00 kHz. At 1% BER, the signal level to the receiver should be -113 dBm, or better. At a signal level of -107 dBm to the receiver antenna connection, the BER value should be better than 0.01%. The above measurements must be carried out on the correct carrier frequency for the site. Test equipment Portable PC including VT-100 emulation software Console cable TSRA 902 0190 or equivalent FBTEST software Alternative 1 or 2 described below. Alternative 1:
Ericsson test modem LPBA 109 08 RF signal generator 1 GHz. The RF signal generator must include an input for external modulation with a lower limiting frequency of 0 Hz. The frequency must be able to modulate with DC voltage. Degree of frequency accuracy: 0.01 ppm. The RF output signal level must be adjustable between
-123 dBm and -3 dBm. Accuracy: Better than 1 dB. Alternative 2:
RF signal generator 1 GHz with a built-in GMSK modulator. The generator must be able to generate the 511 bit PRBS signal used when measuring bit errors. (Using this alternative excludes the Ericsson test modem specified above. Accuracy: Better than 1 dB.) BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 22 (30) BRU1 MANUAL Test procedure 1. Connect the signal generator to the BRU1 antenna connection. 2. Use FBTEST to set the receiver channel number corresponding to the correct carrier frequency. 3. Set the signal generators carrier frequency to the receivers nominal carrier frequency. The GMSK modem supplies the RF signal generator with an analog pseudo random signal matching the test signal M2. This signal modulates the RF signal generator. (In case the RF signal generator is equipped with a built-in GMSK modem the external GMSK modem is excluded.) The receiver-demodulated signal BER, is calculated by the BRU1 logic. 4. Start the bit error measurement using FBTEST. 5. Adjust the RF signal level sent to the receiver until the BER value is stabilized to 1.0%
6. 7. 8. Check the result against the requirements specified. Repeat the measurement procedure and adjust the RF signal level sent to the receiver until the BER value is stabilized to 0.01%. Check the results. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 23 (30) 2.5.8 Receiver Sensitivity at Frequency Deviation Check of the receiver sensitivity when the incoming RF signal deviates from the requirements specified Requirements The RF signal sent to the receiver must be modulated with the M2 test signal. The frequency deviation should rate 95% of the normal deviation, 1.90 kHz. The RF signal frequency offset should be 1.45 kHz. The measurement should be performed with both positive and negative offset on the centre frequency. At 1% BER, the RF signal level sent to the receiver should be -113 dBm, or better. The above measurements must be carried out on the correct carrier frequency for the site. Test equipment Portable PC including VT-100 emulation software Console cable TSRA 902 0190 or equivalent FBTEST software Alternative 1 or 2 described below. Alternative 1:
Ericsson test modem LPBA 109 08 RF signal generator 1 GHz. The RF signal generator must include an input for external modulation with a lower limiting frequency of 0 Hz. The frequency must be able to modulate with DC-voltage. Degree of frequency accuracy: 0.01 ppm. The RF output signal level must be adjustable between
- 123 dBm and -3dBm. Accuracy: Better than 1 dB. Alternative 2:
RF signal generator 1GHz with a built-in GMSK-modulator. The generator must be able to generate the 511 bit PRBS signal used when measuring bit errors. (Using this alternative excludes the need of the Ericsson test modem specified above.) Accuracy: Better than 1 dB. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 24 (30) BRU1 MANUAL Test procedure 1. Connect the signal generator to the BRU1 antenna connection. 2. Use FBTEST to set the receiver channel number corresponding to the correct carrier frequency. 3. Set the signal generators carrier frequency to the receivers nominal carrier frequency, including offset. The GMSK modem supplies the RF signal generator with an analog pseudo-random signal that matches the test signal M2. This signal modulates the RF signal generator. (In case the RF signal generator is equipped with a built-in GMSK modem, the external GMSK modem is excluded.) The receiver demodulated signal BER, is calculated by the BRU1 logic. 4. Start the bit error measurement using FBTEST. 5. Adjust the RF signal level sent to the receiver until the BER value is stabilized to 1.0%
6. 7. Check the result against the requirements specified. Set a new receiver frequency on the signal generator and the BRU1, and repeat the measurement procedure. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 25 (30) 2.5.9 Antenna input Signal Check of the receiver signal strength level Requirements The RF signal generator must be unmodulated. Measurement range: -113 dBm to -53 dBm, in steps of 10dB. The measured accuracy on the RSSI-signal may deviate by up to 5dB. The above measurement must be carried out on the correct carrier frequency for the site. Test equipment Portable PC including VT-100 emulation software Console cable TSRA 902 0190 or equivalent FBTEST software RF signal generator 1 GHz. Degree of frequency accuracy: 0.01 ppm. The RF output signal level must be adjustable between -123 dBm and -3 dBm, with an accuracy of 1dB. Test procedure Note:
The transmitter has to be switched off before starting the test procedure. 1. Connect the signal generator to the BRU1 antenna connection. 2. Use FBTEST to set the receiver channel number corresponding to the correct carrier wave frequency. 3. 4. 5. Set the signal generators carrier wave frequency to the receivers nominal carrier wave frequency. The signal generator carrier wave must be modulated. Change the RF signal generator output level throughout the measurement range in steps of 10 dB. Check the result against the requirements specified. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 26 (30) BRU1 MANUAL 2.5.10 Hardware Alarm Status Check of alarm status in BRU1 Requirements All alarms shall be in NORMAL mode, defined as follows:
Alarm Status External alarm 1 DC alarm 15V DC alarm 8V DC alarm 5V Temp alarm LOW SHUTOFF Temp alarm HIGH SHUTOFF Temp alarm LOW Temp alarm HIGH Radio OFF Reflection alarm Low output power alarm For customer use INACTIVE (OFF) INACTIVE (OFF) INACTIVE (OFF) INACTIVE (OFF) INACTIVE (OFF) INACTIVE (OFF) INACTIVE (OFF) INACTIVE (OFF) INACTIVE (OFF) INACTIVE (OFF) Test equipment Portable PC including VT-100 emulation software Console cable TSRA 902 0190 or equivalent FBTEST software. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 27 (30) Test procedure 1. 2. Select "STATUS OVERVIEW" on the Main Menu of FBTEST. Read the alarm status obtained on the terminal screen. Check the result against the requirements specified. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 28 (30) BRU1 MANUAL 3 Troubleshooting 3.1 General This section provides information on the measures to be taken if errors should be found in the BRU1. The section describes the measures to be taken on site. Most of the measures carried out during troubleshooting generate alarms at the NCC, and also, will effect the nodes function. Therefore, the NCC operator shall always be consulted before any measure is carried out on site. The service personnel must be familiar with the BRU1 units before using this section. For information about each unit, please refer to 1 Design, Function and Operation. Should the instructions herein not sufficiently provide the requested help in order to locate and/or remedy the error, please contact your local Field Support Centre (FSC). For information regarding how to trouble-shoot software errors, please refer to the Node Software User's Guide in the Node SW - Operation and Maintenance module. Note:
If the BRU1 has to be switched off, the shutdown procedure described in 1.3 Start-Up and Shutdown Procedures, must be followed before power off is performed. If not, important data may be lost and the subsequent start-up time may be significantly increased. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 OPERATION AND MAINTENANCE, BRU1 29 (30) 3.2 Troubleshooting guide 3.2.1 LED indicators The BRU1 has 6 LED indicators which can be used for troubleshooting:
LED Status SYSTEM OK ERROR RS232 RS422 LINK (RJ-45 Connector) RX (RJ-45 Connector) ON = power ok OFF = internal DC failure FLASHING = FBTEST running ON = Internal H/W error OFF = No failure ON or OFF depending on configuration ON or OFF depending on configuration LINK indicator for Ethernet ON = Good link;
OFF = No link Ethernet activity on RX BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20 30 (30) BRU1 MANUAL At power-up or software reset the Quad LED indicators are lit with a certain pattern which can be used for basic troubleshooting:
SYSTEM OK OFF OFF ON OFF ERROR RS232 RS422 Possible cause/Action ON OFF ON ON OFF ON Severe hardware error, CPU or data bus error: Replace unit. OFF OFF Check power source and fuse.
Internal hardware error: If possible check failure cause in FBTEST Internal DC/DC failure: Replace unit. BRU1 MANUAL, Doc.no: b1opmain Uen Rev PA3 2004-02-20
1 | Safety Instructions | Users Manual | 182.63 KiB | / September 04 2004 |
Safety Instructions Contents 1 Introduction ................................................................................................. 3 2 Safety Instructions ....................................................................................... 4 3 Precautions .................................................................................................. 6 3.1 Radio Frequency Exposure .............................................................. 6 3.1.1 RF Exposure Assessment by Calculation ............................. 7 3.2 Electro Static Discharge (ESD)........................................................ 8 3.3 Electrical Hazards ............................................................................ 8 3.3.1 High Voltage......................................................................... 8 Power Supply........................................................................ 8 3.3.2 3.4 Earthquakes...................................................................................... 9 3.5 Thunderstorms.................................................................................. 9 4 Rules and Requirements - US/Canada ...................................................... 10 4.1 FCC - Rules and Requirements...................................................... 10 4.2 BRU1 Classification....................................................................... 10 4.3 BRU1 Interference ......................................................................... 10 4.4 BRU1 Changes or Modifications................................................... 11 BRU1 MANUAL, Doc.no: b1saf_en Uen Rev PA1, 2004-02-20 BRU1 MANUAL The contents of this document are subject to revision without notice due to continued progress in methodology, design and manufacturing. Ericsson shall have no liability for any errors or damages of any kind resulting from the use of this document. BRU1 MANUAL, Doc.no: b1saf_en Uen Rev PA1, 2004-02-20 SAFETY INSTRUCTIONS 3 (12) 1 Introduction This section contains Safety Instructions for handling the Mobitex Base Radio Unit 1 (BRU1) during installation and maintenance work. Please read the Safety Instructions before starting any kind of installation or maintenance work. BRU1 MANUAL, Doc.no: b1saf_en Uen Rev PA1, 2004-02-20 4 (12) BRU1 MANUAL 2 Safety Instructions Note:
Reduce the risk of accidents by studying all the instructions carefully before starting work. If questions arise regarding the safety instructions, contact your supervisor or the local Ericsson company. Read and follow all warning notices and instructions found on the product or included in the BRU1 manual. Ericsson takes no responsibility if the labels have disappeared from a BRU1 due to accident or age. Where local regulations exist, these are to be followed. The safety information in this manual is a supplement to local regulations. It is the responsibility of the local project manager to make certain that local regulations are known and followed. The relevant manual (including this safety information) and specific instructions supplied by Ericsson must be followed in any work performed on the Ericsson products or systems. Sufficient knowledge of English or of any of the other languages in which the manuals or instructions are printed is necessary. The safety information in the relevant manuals presupposes that any person performing work on Ericsson products or systems has the necessary education, training and competence required in order to perform that work correctly. For certain work, additional training or special training may be required. For more precise information on the amount and content of the general and/or special training required for work on Ericsson products or systems, please contact the supervisor or the local Ericsson company. The slots and openings in the bottom of the BRU1 are provided for ventilation. To ensure reliable operation of the product and to protect it from overheating, these slots and openings must not be blocked or covered. When installed in the final configuration, the BRU1 must comply with the applicable safety standards and regulatory requirements of the country in which it is installed. If necessary, consult with the appropriate regulatory agencies and inspection authorities to ensure compliance. Definition of Expressions The following definitions of hazard degree are used in this document:
BRU1 MANUAL, Doc.no: b1saf_en Uen Rev PA1, 2004-02-20 SAFETY INSTRUCTIONS 5 (12) DANGER!
Expresses a hazard that, if neglected, could be either fatal or cause life-long injuries to a human being, and/or destroy the equipment. WARNING!
Expresses a hazard that, if neglected, could cause severe injuries to a human being, and/or severe damage to the equipment. CAUTION!
Expresses a hazard that, if neglected, could cause injuries to a human being, or damage to equipment. BRU1 MANUAL, Doc.no: b1saf_en Uen Rev PA1, 2004-02-20 6 (12) BRU1 MANUAL 3 Precautions 3.1 Radio Frequency Exposure DANGER!
The BRU1 is delivered with an antenna. Every installation of a BRU1 must maintain safety distances between radiating parts (for example, the antenna) and general public in order to meet applicable radio frequency exposure requirements under all circumstances of normal operation and service work being performed. BRU1 installation, and antenna connection should be performed only by professional personnel, with suitable qualification to assess potential radio frequency hazards. The BRU1 output power shall be considered. For RF safety considerations, users are not allowed to approach close to the antenna (see chapter 3.1.1 below) WARNING!
To avoid discomfort due to the local heating effect of radio frequency, do not touch the antenna when the BRU1 is transmitting DANGER!
Do not operate the BRU1 in an explosive atmosphere. Operating where explosive gas is present may result in an explosion. BRU1 MANUAL, Doc.no: b1saf_en Uen Rev PA1, 2004-02-20 SAFETY INSTRUCTIONS 7 (12) 3.1.1 RF Exposure Assessment by Calculation BRU1 base stations mounting instructions assume fixed indoor mounting of the base station with an antenna mounted on the base station chassis. Relevant distances for RF exposure in practice exceed the range of the RF near-field range, thus MPE (not SAR) is addressed. TX maximum output power is 1W (30 dBm) at 100% duty cycle. According to formula [1] below, power density at R=1 m distance is approximately 0.013 mW / cm2 << 0.6 mW / cm2, assuming 2.15dB gain over isotropic antenna and ideal feed line (losses). The product is marketed with a chassis antenna and it is to be installed by professional personnel. The installation manual contains a warning note requiring the installation responsible to maintain an antenna safety distance from general public to meet RF exposure limits, considering feeder loss and antenna gain in every case. Above example shows margin to the commissions exposure limit(1) in excess of 16 dB. Any installation using higher than 16 dB combined antenna gain and feeder loss arrangements and/or closer distances than 1 m to general public shall require the installation responsible to prove RF exposure performance of his installation meets applicable limits.
(1) Regulative reference: CFR 47, chapter 1, part 1, subpart I, item 1.1310, Radio frequency radiation exposure limits, table1 part (B) Limits for maximum permissible exposure Limits for general population, uncontrolled exposure Power density f [MHz] /1500 [mW / cm2] = 900 / 1500 = 0.6 [mW / cm2]
BRU1 MANUAL, Doc.no: b1saf_en Uen Rev PA1, 2004-02-20 8 (12) BRU1 MANUAL 3.2 Electro Static Discharge (ESD) CAUTION!
All types of electronic components, particularly integrated circuits, are in some way sensitive to Electro Static Discharge (ESD). Damage caused by ESD is a common reason for faults in electronic equipment. The total operating time between failures can be extended considerably by avoiding ESD damage during installation and maintenance work. This has become more important as electronic components decrease in size and increase in sensitivity. The following ESD basic rules have to be followed when working with electronic components. Avoid materials or clothes that easily create electrostatic charges. Always wear a wrist strap connected to ground when connecting cables or power to the unit. 3.3 Electrical Hazards High Voltage 3.3.1 DANGER!
Under adverse conditions, even voltages below 50 volts can be potentially fatal. The electrical installation must be carried out according to local regulations. These regulations may require the work to be carried out by a qualified and authorized electrician. Power Supply 3.3.2 WARNING!
The equipment is to be connected to an external power supply source providing double or reinforced insulation. BRU1 MANUAL, Doc.no: b1saf_en Uen Rev PA1, 2004-02-20 SAFETY INSTRUCTIONS 9 (12) 3.4 Earthquakes CAUTION!
If the area is affected by earthquakes, ensure that the mounting bracket is fastened securely to the wall and that the BRU1 unit is mounted properly. (see installation instruction). 3.5 Thunderstorms DANGER!
Avoid working on electrical installations during thunderstorms. Thunderstorms can create strong electric fields. For that reason, and to avoid direct strokes of lightning do not perform any installation/maintenance during thunderstorms. BRU1 MANUAL, Doc.no: b1saf_en Uen Rev PA1, 2004-02-20 10 (12) BRU1 MANUAL 4 Rules and Requirements - US/Canada 4.1 FCC - Rules and Requirements After the tests, the BRU1 has been classified as a Class B digital device by the Federal Communication Commission (FCC). Please note the following notices regarding classification, interference, changes or modifications, government requirements and equipment return valid for the BRU1. 4.2 BRU1 Classification The BRU1 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. The BRU1 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. 4.3 BRU1 Interference The BRU1 complies with part 15 of the FCC rules. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) This device must accept any interference received, including interference that may cause undesired operation. TO USERS OF THE BRU1 IN CANADA:
The BRU1 does not exceed the Class B limits for radio noise emissions from digital apparatus set in the radio interference regulations of the Canadian Department of Communications. BRU1 MANUAL, Doc.no: b1saf_en Uen Rev PA1, 2004-02-20 SAFETY INSTRUCTIONS 11 (12) 4.4 BRU1 Changes or Modifications The authority to operate the BRU1 is conditioned by the requirement that no changes or modifications will be made to the BRU1 equipment unless the changes or modifications are expressly approved by Ericsson. BRU1 MANUAL, Doc.no: b1saf_en Uen Rev PA1, 2004-02-20 12 (12) BRU1 MANUAL BRU1 MANUAL, Doc.no: b1saf_en Uen Rev PA1, 2004-02-20
1 | Site Requirements and Installation Instructions | Users Manual | 875.87 KiB | / September 04 2004 |
Site Requirements and Installation Instructions Contents 1 Introduction ................................................................................................. 3 1.1 BRU1 Presentation........................................................................... 3 2 The BRU1 Delivery Specification............................................................... 4 2.1 Standard Installation Equipment ...................................................... 4 2.2 Storage.............................................................................................. 4 2.3 Transport .......................................................................................... 4 3 Site Requirements........................................................................................ 5 3.1 The Right Location .......................................................................... 5 3.2 Environmental .................................................................................. 5 3.3 RF Environment ............................................................................... 5 3.4 Maintenance ..................................................................................... 6 3.5 Space Required................................................................................. 7 3.5.1 General.................................................................................. 8 3.5.2 Above the BRU1................................................................... 8 3.5.3 Below the BRU1................................................................... 8 4 Preparations Before Installation .................................................................. 9 4.1 Not Included Installation Material (Provided by the Installation Contractor) ................................................................................................ 9 4.2 Site Inspection................................................................................ 10 5 Installation of the BRU1............................................................................ 11 Installation of the BRU1 on a Wall................................................ 11 6 Cables and External Connections.............................................................. 15 6.1 General ........................................................................................... 15 7 Connecting Power ..................................................................................... 16 8 Connecting Network Communication....................................................... 17 8.1 General ........................................................................................... 17 8.2 Connecting the Ethernet Port ......................................................... 17 8.2.1 Ethernet Port Pinout and Characteristics ............................ 18 8.3 Connecting the RS232C Line......................................................... 19 8.3.1 RS232 Port Pinout and Characteristics............................... 19 5.1 BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 BRU1 MANUAL 8.4 Connecting the RS422B Line .........................................................21 8.4.1 RS422B Port Pinout and Characteristics.............................21 9 Connecting the Console Port......................................................................23 9.1 RS232C (Console) Port Pinout and Characteristics .......................23 10 Connecting an External Alarm...................................................................25 11 Before Leaving the Site..............................................................................27 The contents of this document are subject to revision without notice due to continued progress in methodology, design and manufacturing. Ericsson shall have no liability for any errors or damages of any kind resulting from the use of this document. BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 SITE REQUIREMENTS AND INSTALLATION INSTRUCTIONS 3 (28) 1 Introduction This document covers information about how to make the site preparations and how to install the Mobitex Base Radio Unit 1 (BRU1). Before installation takes place the site must be prepared, this is important not only for a correct and safe installation, but also for saving time. 1.1 BRU1 Presentation Base Radio Unit 1 (BRU1) is a complete one-channel compact radio base station which uses 8 kbps data signalling. The BRU1, which is intended for indoor operation, is a link between the mobile terminals and the area exchanges in the Mobitex Network. All parts are integrated in the unit, see Figure 1 BRU1. A v e R 4 0 2 1 0 4 E Z L
4 2 4 1
4 9 Figure 1 BRU1 BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 4 (28) BRU1 MANUAL 2 The BRU1 Delivery Specification All BRU1 deliveries are packed according to the BRU1 - Site Documentation for the site. Note:
The Site Documentation is not included in the electronically published version of the Mobitex NTE Client Library but is delivered on paper together with the hardware. 2.1 Standard Installation Equipment The BRU1 is delivered with an installation bracket which comprises all the parts needed to install the BRU1 on a wall, except for the installation material listed in chapter 4.1 Not Included Installation Material (Provided by the Installation Contractor). 2.2 Storage The delivery package for the BRU1 meets standard ETS 300 019-1-1, class 1.2 for storage. However, it is recommended to have any plans for long term storage verified by Ericsson. 2.3 Transport The BRU1 is to be transported in accordance with the ETSI EN 300 019-1-2 standard, class 2.3 for public transportation. BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 SITE REQUIREMENTS AND INSTALLATION INSTRUCTIONS 5 (28) 3 Site Requirements 3.1 The Right Location The right location for the BRU1 is where the following conditions can be met:
Environmental requirements RF environment requirements Maintenance requirements 3.2 Environmental The unit shall be located in a well-ventilated area protected from extreme temperature fluctuations, dust and water. The unit shall also be protected against direct sunlight. To allow proper airflow around the unit, please follow the recommendation in this chapter. 3.3 RF Environment The unit shall be located in a position where good radio coverage can be provided. For safety reason it is important that users cannot touch the antenna or approach the antenna near field. If another antenna than the delivered is used, please keep in mind that the BRU1 is an indoor equipment only. Do not mount the antenna outdoor, where it can be exposed to lightning. Warning:
To satisfy the FCC RF exposure requirements for base station transmitting devices, a separation distance should be maintained between the antenna of this device and persons during device operation as described in Node Hardware Library/BRU1/Safety Instructions. Changes or modifications violating these instructions can void the users authority to operate the equipment. Note:
The equipment has been tested and found to comply with the limits of a Class B digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 6 (28) BRU1 MANUAL against harmful interference in a residental installation. The equipment generates, uses and can generate radio frequency energy, and if not installed and used in accordance with the instructions, may cause harmful interferencce to radio communications. However, there is no guarantee that interference will 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 on and off, the user is encouraged to try to correct the interference by one or more of the following measures:
- Increase the separation by relocating the unit or the transmitting antenna.
- Connect the equipment into an outlet with a separate circuit (if an AC/DC converter is used). 3.4 Maintenance For maintenance reason it is important to have easy access to the connectors. Please follow the recommendations in this chapter. BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 SITE REQUIREMENTS AND INSTALLATION INSTRUCTIONS 7 (28) 3.5 Space Required When deciding where to install the BRU1, it is important to keep the following in mind:
The BRU1 must be installed where the delivered antenna gives a good indoor coverage. Accessibility must be maintained to allow installation and maintenance. The site shall provide an ambient temperature preventing the BRU1 to exceed its maximum operation temperature. The ambient temperature shall be measured 100 mm below the BRU1. The space required for a BRU1 is shown in Figure 2 Space required.. Also refer to the text below for further information. 300 mm 300 mm 300 mm A v e R 4 0 2 1 0 4 E Z L
4 2 4 1
6 9 300 mm Figure 2 Space required. BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 8 (28) BRU1 MANUAL 3.5.1 General The space specified in this document is a minimum to allow an adequate airflow around the equipment. The customer decides if any additional working space is needed around the BRU1. The BRU1 can be mounted in two directions, either with the antenna facing up, or with the antenna facing down. The building material in the walls and ceiling may interfere with the antenna and the position of the BRU1 must therefore be made carefully. 3.5.2 Above the BRU1 Minimum: 300 mm A minimum of 300 mm free space is necessary above the case. 3.5.3 Below the BRU1 Minimum: 300 mm To be able to run the cables safely, 300 mm of free space is necessary below the case. The distance also allow an adequate airflow around the equipment. BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 SITE REQUIREMENTS AND INSTALLATION INSTRUCTIONS 9 (28) 4 Preparations Before Installation Generally, the BRU1 can be installed at most indoor locations. However, it is important that the BRU1 is always mounted for optimal indoor coverage and good ventilation. On delivery, all mounting components except screws are delivered together with the BRU1. 4.1 Not Included Installation Material (Provided by the Installation Contractor) Make sure that the following required installation material is available before the installation work is started. Check as follows:
3 pcs of screws for installation of the BRU1 Base Plate. Size of screws/plugs depending on wall material. Please consider the BRU1 weight of 4 kg. A +24V power connection/cable. BRU1 - Site Documentation. 1 pc of console cable. 1 pc of network cable (RS232/RS422 or Ethernet) Note:
The Site Documentation is not included in the electronically published version of the Mobitex NTE Client Library but is delivered on paper together with the hardware. BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 10 (28) BRU1 MANUAL 4.2 Site Inspection Before the installation can begin the site must have been prepared according to chapter 3 Site Requirements in this document. Check that the BRU1 site is prepared for installation. Check that the required +24V, 2A, connection is available. Check that all cables provided by the customer are in position and ready to be connected to the BRU1. Check that the site network connection has been routed to the BRU1. BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 SITE REQUIREMENTS AND INSTALLATION INSTRUCTIONS 11 (28) 5 Installation of the BRU1 5.1 Installation of the BRU1 on a Wall 1. Unpack the BRU1 equipment. Tick off all parts against the delivery note. Please report missing or damaged parts to the shipper. 2. Mark the positions of three holes using the base plate. Drill the three holes in the wall with an appropriate dimension, see Figure 4. A v e R 4 0 2 1 0 4 E Z L
4 2 4 1 Figure 3 BRU1 base plate.
3 8 BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 12 (28) BRU1 MANUAL 6 (3x) 1 0 0 2 0 A v e R n e U 4 0 2 38,75 171,25 278,75 Figure 4 BRU1 base plate dimensions. 1 0 4 E Z L
4 2 4 1
8 9 3. Install the base plate on the wall (type of screws and plugs depends on the wall material and the BRU1 weight of 4 kg.). Note:
Base plate measurements are given in millimeters. BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 SITE REQUIREMENTS AND INSTALLATION INSTRUCTIONS 13 (28) A A v e R n e U 4 0 2 1 0 4 E Z L
4 2 4 1 4 8
Figure 5 Antenna SMA connector. 4. Install the delivered antenna to the SMA connector (A) of the BRU1. (See Figure 5). Warning:
If the delivered antenna is replaced or relocated with an antenna device with different characteristics please follow the instructions given in chapter 3.3 RF Environment. BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 14 (28) BRU1 MANUAL 5. Lift the BRU1 (see Figure 6). Put the two hook-up plastic wheels (B) into the openings in the base plate and let the BRU1 slide down into position. C B A v e R n e U 4 0 2 1 0 4 E Z L
4 2 4 1 Figure 6 Mounting instruction. 6. Fasten the locking pin (C).
5 8 BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 SITE REQUIREMENTS AND INSTALLATION INSTRUCTIONS 15 (28) 6 Cables and External Connections 6.1 General All cables provided by the customer must be in position and ready to be connected to the BRU1 before the installation takes place. Only one of the line communication cables may be used. Figure 7 BRU1 external connections. shows where to connect the BRU1 cables. Use the figure to plan the cable arrangements. The types of connector mentioned in the following sections always correspond to the cable connector of the BRU1. 1 2 3 4 5 RS232 RS422 CONSOLE FUSE POWER 3 A F
+24 VDC SYSTEM OK ERROR RS232 RS422 Rx L 10BaseT A v e R n e U 4 0 2 1 0 4 E Z L
4 2 4 1
7 9 Figure 7 BRU1 external connections. Pos. 1 2 3 4 5 Function Ethernet RJ-45 connector Modem connection RS 232C Modem connection RS 422B Console connection (incl. one external alarm) Power connection BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 16 (28) BRU1 MANUAL 7 Connecting Power RS232 RS422 CONSOLE FUSE POWER 3 A F
+24 VDC SYSTEM OK ERROR RS232 RS422 Rx L 10BaseT A v e R n e U 4 0 2 1 0 4 E Z L
4 2 4 1 1 9
Figure 8 Power connector. The BRU1 power connector is a 2-pin Mixed DSUB connector. A power cable with connector type F2W2SC-0439 from FCT Electronics may be used. Locate the power connector (see Figure 8) and connect the power. Connector Specification:
Pin Signal Description 1 2
+24V GND
+24V Ground
+24 VDC PIN 1 POWER Figure 9 Detail of pin location on the BRU1. A v e R n e U 4 0 2 1 0 4 E Z L
4 2 4 1
0 0 1 BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 SITE REQUIREMENTS AND INSTALLATION INSTRUCTIONS 17 (28) 8 Connecting Network Communication 8.1 General There are three network connection alternatives for connecting the BRU1 to the Mobitex Area Exchange (MOX). One of the following shall be used:
Ethernet (10Base-T) RS232C line connection RS422B line connection 8.2 Connecting the Ethernet Port RS232 RS422 CONSOLE FUSE POWER 3 A F
+24 VDC SYSTEM OK ERROR RS232 RS422 Rx L 10BaseT A v e R n e U 4 0 2 1 0 4 E Z L
4 2 4 1
7 8 Figure 10 Ethernet (10Base-T) port. Locate the Ethernet RJ-45 connector (see Figure 10) and connect the Ethernet cable. BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 18 (28) BRU1 MANUAL 8.2.1 Ethernet Port Pinout and Characteristics Electrical:
10Base-T (using twisted pair cable) BRU1 end connector: RJ-45 Max. dist. 50 m with AWG 24 cable (164 ft) Connector Specification:
Pin Twist Function Description a a b b 1 2 3 4 5 6 7 8 Transmit +
Transmit -
Receive +
Receive -
TX+
TX-
RX+
NC NC RX-
NC NC BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 SITE REQUIREMENTS AND INSTALLATION INSTRUCTIONS 19 (28) 8.3 Connecting the RS232C Line RS232 RS422 CONSOLE FUSE POWER 3 A F
+24 VDC SYSTEM OK ERROR RS232 RS422 Rx L 10BaseT A v e R n e U 4 0 2 1 0 4 E Z L
4 2 4 1
8 8 Figure 11 RS232C connector. Locate the RS232 connector (see Figure 11) and connect the cable. 8.3.1 RS232 Port Pinout and Characteristics Synchronous, serial Max. 19.200 bps V.28 V.24 Communication:
Speed:
Electrical:
Logical:
BRU1 end connector: D-SUB 25-pole, female Max. dist. to DCE:
17 m (50 ft) BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 20 (28) BRU1 MANUAL Connector Specification:
Only the pins that are used are shown below. Pin Twist Signal Description 1 2 3 4 7 8 15 17 20 24 a b c a c d e f f GND (101) Protective Ground TX (103) RX (104) RTS (105) SGND (102) DCD (109) TC (114) RC (115) DTR (108) ETC (113) Transmit Data Receive Data Request to Send Signal Ground Data Carrier Detect Transmit Clock Receive Clock Data Terminal Ready Ext. Transmit Clock BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 SITE REQUIREMENTS AND INSTALLATION INSTRUCTIONS 21 (28) 8.4 Connecting the RS422B Line RS232 RS422 CONSOLE FUSE POWER 3 A F
+24 VDC SYSTEM OK ERROR RS232 RS422 Rx L 10BaseT A v e R n e U 4 0 2 1 0 4 E Z L
4 2 4 1
9 8 Figure 12 RS422 connector. Locate the RS422 connector (see Figure 12) and connect the cable. 8.4.1 RS422B Port Pinout and Characteristics Synchronous, serial Communication:
Max. 64.000 bps Speed:
V.11 (EIA-422-A) Electrical:
Logical signals:
V.24, RS-530 standard BRU1 end connector: D-SUB 25-pole, female Max. dist. to DCE:
A few kilometres, depending on transmission speed and type of cable. BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 22 (28) BRU1 MANUAL Connector Specification:
Only the pins that are used are shown below. Pin Twist Signal Description 1 2 3 4 7 8 9 10 11 12 14 15 16 17 19 20 23 24 a b c i d f d h e a e b f c g g h GND (101) TX_A (103) RX_A (104) Protective Ground Transmit Data A Receive Data A RTS_A (105) Request to Send A SGND (102) Signal Ground DCD_A (109) Data Carrier Detect A RC_B (115) Receive Clock B DCD_B (109) Data Carrier Detect B ETC _B(113) External Transmit Clock B TC_B (114) TX_B (103) TC_A (114) RX_B (104) RC_A (115) Transmit Clock B Transmit Data B Transmit Clock A Receive Data B Receive Clock A RTS_B (105) Request to Send B DTR_A (108) Data Terminal Ready A DTR_B (108) Data Terminal Ready B ETC _A(113) External Transmit Clock A BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 SITE REQUIREMENTS AND INSTALLATION INSTRUCTIONS 23 (28) 9 Connecting the Console Port RS232 RS422 CONSOLE FUSE POWER 3 A F
+24 VDC SYSTEM OK ERROR RS232 RS422 Rx L 10BaseT A v e R n e U 4 0 2 1 0 4 E Z L
4 2 4 1 0 9
Figure 13 9 pin console connector. Locate the 9 pin RS232C connector (see Figure 13) and connect the cable. 9.1 RS232C (Console) Port Pinout and Characteristics Asynchronous, serial Max. 115 200 bps V.28 V.24 Communication:
Speed:
Electrical:
Logical:
BRU1 end connector: D-SUB 9-pole, female Max. dist. to DCE:
17 m (50 ft) BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 24 (28) BRU1 MANUAL Connector Specification:
Only the pins that are used are shown below. Pin Signal Description 1 2 3 4 5 7 8 9 GND RX TX DTR SGND Protective Ground Receive data Transmit data Data Terminal Ready (+12V) Signal Ground PROD_TEST For Ericsson internal use AL -
AL +
External alarm -
External alarm +
BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 SITE REQUIREMENTS AND INSTALLATION INSTRUCTIONS 25 (28) 10 Connecting an External Alarm It is possible to connect one external alarm to the BRU1. The connecting procedure depends on whether the current loop is supplied with power from the BRU1 or from an external power supply. Internal Resistance = 16.4 kohm The following alarm connection data are given:
Type Current = 0.5 mA Minimum Current = 0.1 mA Voltage = 12 V Connect the external alarm according to the following two alternatives:
Alternative 1: Connection of external alarm with current loop powered by using the DTR pin in the console cable. Strap connector pins according to the drawing below. VCC DTR (+12V) Alarm 8K2 8K2 4 9 8 5 Figure 14 Passive external alarm connection. BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 A v e R n e U 4 0 2 1 0 4 E Z L
4 2 4 1
2 9 26 (28) BRU1 MANUAL Alternative 2: Connection of external alarm with current loop powered by external power supply. The diagram below show how the alarm loop can be used. VCC Alarm 8K2 8K2 9
+ 12V 8 GND Figure 15 Active external alarm connection. A v e R n e U 4 0 2 1 0 4 E Z L
4 2 4 1 3 9
BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 SITE REQUIREMENTS AND INSTALLATION INSTRUCTIONS 27 (28) 11 Before Leaving the Site The BRU1 installation is now completed. Please continue with the hardware and software commissioning procedures described in Node Hardware Library/
BRU1/Commissioning Procedure. BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19 28 (28) BRU1 MANUAL BRU1 MANUAL, Doc.no: b1sitreq Uen Rev PA5, 2004-02-19
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2004-04-09 | 935 ~ 941 | TNB - Licensed Non-Broadcast Station Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2004-04-09
|
||||
1 | Applicant's complete, legal business name |
Ericsson AB
|
||||
1 | FCC Registration Number (FRN) |
0009323809
|
||||
1 | Physical Address |
Mobitex
|
||||
1 |
SE 417 56 Gothenborg, N/A
|
|||||
1 |
Sweden
|
|||||
app s | TCB Information | |||||
n/a | ||||||
app s | FCC ID | |||||
1 | Grantee Code |
OSB
|
||||
1 | Equipment Product Code |
BRU19
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
R****** R********
|
||||
1 | Title |
Project Manager
|
||||
1 | Telephone Number |
+46-3********
|
||||
1 | Fax Number |
+46-3********
|
||||
1 |
R******@ericsson.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
Ericsson AB
|
||||
1 | Name |
C**** S******
|
||||
1 | Physical Address |
Lindholmspiren 11
|
||||
1 |
Gothenburg, SE-417 56
|
|||||
1 |
Sweden
|
|||||
1 | Telephone Number |
+46-3********
|
||||
1 | Fax Number |
+46-3********
|
||||
1 |
C******@ericsson.com
|
|||||
app s | Non Technical Contact | |||||
1 | Firm Name |
Ericsson AB
|
||||
1 | Name |
C****** S********
|
||||
1 | Physical Address |
Lindholmspiren 11
|
||||
1 |
Gothenburg, SE-417 56
|
|||||
1 |
Sweden
|
|||||
1 | Telephone Number |
+46-3********
|
||||
1 | Fax Number |
+46-3********
|
||||
1 |
C******@ericsson.com
|
|||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | TNB - Licensed Non-Broadcast Station Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | BRU19 Mobitex Base Station | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | For outdoor use. The antenna(s) used for this transmitter must be fixed-mounted on outdoor permanent structures. RF exposure compliance is addressed at the time of licensing, as required by the responsible FCC Bureau(s), including antenna co-location requirements of 1.1307(b)(3). For indoor use: the antenna(s) used for this transmitter are to be fixed-mounted on indoor permanent structures providing a separation distance of at least 1 m from all persons during normal operation. The maximum radiated output power at each antenna, must satisfy the MPE Categorical Exclusion Requirements of 2.1091. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
n/a | ||||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 90 | 935.00000000 | 941.00000000 | 1.0000000 | 100.0000000000 Hz | 12K2F1D |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC