Alcatel USA 8702-2 Digital Modulated Radio User Manual 00 Book I 6 fullTOC
Alcatel USA Marketing, Inc. Digital Modulated Radio 00 Book I 6 fullTOC
Contents
- 1. MDR8000 Users Manual
- 2. Complete Users Manual
- 3. Complete Users Manual Cont
Complete Users Manual Cont
MDR-8000/i/s/u Microwave Digital Radios Users Manual Alcatel Part Number 3EM15726AA Issue 2, June, 2004 Part 2 of 2 3400 West Plano Parkway Plano, Texas 75075-5813 U.S.A. 4 INITIAL TURNUP 4.1 SECTION INTRODUCTION This section describes the procedures required to turn up the MDR-8000 Microwave Digital Radios after installation. This provisioning part of the section describes provisioning options available with the MDR-8000 software application. Provisioning allows for the definition, editing, and storing of specific functions. The MDR-8000 provides the ability to provision equipment and facilities through a series of Windows™-based screens and messages. The Provisioning menu lists equipment and functions which may be provisioned. You should use only those provisioning screens that are applicable to your radio. Refer to the Users Guide section and applicable DS1/E1, DS3, or OC3 Initial Turnup section on the attached CD for more information. 4.2 RECOMMENDED SEQUENCE Perform the following initial turnup procedures in sequence: Install software on PC. Note Software installed at the factory before delivery should not be overwritten by downloading to the radio controller at initial turnup. Refer to Maintenance section on the attached CD for procedure to upgrade existing software. Establish communication between radio and USI computer. Note Saving provisioning on disk provides a reference for any future provisioning changes. Provision radio. See Figure 4-1. The radio has been properly aligned and tested at the factory before shipment eliminating the need for testing after initial turn-up. The only time testing and/or adjustment is required is after a maintenance action such as removal and replacement procedure and/or constant alarms requiring corrective maintenance action. The completed maintenance action procedure(s) will reference any required test procedure(s). 4-1 START FIG 4-2 DS1/E1, DS3, OC3 RADIO CONFIG PROVISIONING DS1/E1 DS3 OC3 FIG 4-3 DS1/E1 RADIO CONFIG PROVISIONING FIG 4-5 DS3 RADIO CONFIG PROVISIONING FIG 4-8 OC3 RADIO CONFIG PROVISIONING FIG 4-4 DS1/E1 FACILITIES PROVISIONING FIG 4-6 DS3 FACILITIES PROVISIONING FIG 4-9 OC3 FACILITIES PROVISIONING FIG 4-7 DS3 RADIO WAYSIDE DS1 FACILITIES PROVISIONING FIG 4-10 OC3 RADIO WAYSIDE DS1 FACILITIES PROVISIONING FIG 4-11 DS1/E1, DS3, OC3 RADIO SERVICE CHANNEL PROVISIONING FIG 4-12 DS1/E1, DS3, OC3 RADIO AUDIO PROVISIONING FIG 4-13 DS1/E1, DS3, OC3 RADIO MCS-11 PROVISIONING FIG 4-14 DS1/E1, DS3, OC3 RADIO MCS TRANSPORT/PPP TRANSPORT PROVISIONING FIG 4-15 DS1/E1, DS3, OC3 RADIO ELMC PROVISIONING FIG 4-16 DS1/E1, DS3, OC3 RADIO ELMC REMOTE TIME-OUT CONSTANT PROVISIONING FIG 4-17 DS1/E1, DS3, OC3 RADIO CONTROL NAMES PROVISIONING OPTIONAL ENTRY FIG 4-18 DS1/E1, DS3, OC3 RADIO STATION ALARM NAMES PROVISIONING OPTIONAL ENTRY END Figure 4-1 Provisioning Sequence 4-2 LMW-9038-sm 05/07/04 4.3 PROVISIONING RADIO Note Screen shown is for DS1 Radio. DS3 and OC3 radio configuration provisioning is similar. Changes to provisioning do not have to be made in any particular order. Open radio provisioning screens. On main screen, double click on tower icon. Status and alarm screen displays. Click on Provisioning. Check current provisioning and change as required. SELECT TERMINAL, REPEATER, RING TERMINAL OR RING REPEATER FROM DROP DOWN LIST. SELECT REPEATER IF TRAFFIC AND SERVICE CHANNEL (FOUR RAILS OF X/Y DATA) ARE BEING TRANSPORTED BETWEEN J314 OF BOTH SHELVES. DISPLAYS NUMBER OF LINES AVAILABLE AS DETERMINED BY CAPACITY KEY. CHANGING NUMBER OF LINES REQUIRES CHANGING CAPACITY KEY. BACKSPACE TO DELETE CURRENT ADDRESS AND ENTER 5-DIGIT REMOTE RACK ADDRESS. SEE FIGURE 6-11 FOR DETAILS. DISPLAYS MODULATION SCHEME. NOT PROVISIONABLE SELECT DISABLE OR DOUBLE CLICK TO ENABLE (00 DISPLAYS). ENTER 2-DIGIT NUMBER BETWEEN 00 AND 99 AS IDENTIFICATION FOR RADIO RCV/XMT PAIR. USE FOR FREQUENCY COORDINATION IN CONGESTED AREAS THAT HAVE NEARBY TRANSMITTERS AT SAME FREQUENCY WITH SAME MODULATION. ID MUST BE SAME AT BOTH ENDS OF HOP. IF RCV ID DOES NOT MATCH ID RECEIVED FROM FAR-END XMTR, A USI ALARM AND RACK ALARM ARE GENERATED. ENABLE OR DISABLE AUTOMATIC POWER CONTROL (ATPC) FUNCTION. SELECT ATPC Disable, ATPC Enabled, OR ATPC with Timeout FROM DROP DOWN LIST. SEE SHEET 2 0F 3 FOR DETAILS. DISPLAYS RADIO TYPE NOT PROVISIONABLE SYSTEM ID: RADIO TYPE: RADIO CONFIG: LMW-7084 Sheet 1 of 2 02/04/03 ELMC: RADIO LINK ID: TEST1 MDR-8000 DS1 Disable 16 LINES 128 TCM HS Tx/HS Rx TERMINAL ATPC Enabled A&B PA Present SYSTEM ALARM Visual/Audible Relays ON/NO RCV SWITCHING: RSL-Sw Enable Eye BER Disable OPTIONS: Option Key: Stat/Prov/WaySide SELECT RSL-Sw Enable TO ENABLE AUTOMATIC RECEIVER SWITCHING BASED ON RSL. WHEN ENABLED, RECEIVER SWITCHES IF: 1. ON-LINE RCV RSL IS BELOW RCV AGC THRESHOLD, AND 2. OFF-LINE RCV RSL IS ABOVE RCV AGC THRESHOLD. SELECT RSL-Sw Disable TO DISABLE AUTOMATIC RECEIVER SWITCHING. SELECT Major/Minor TO TRIGGER MAJOR ALARM ON ANY ALARM ON ON-LINE SIDE AND MINOR ALARM ON ANY ALARM ON OFF-LINE SIDE. SELECT Visual/ Audible TO TRIGGER RACK ALARM ON ANY ALARM ON ON-LINE SIDE. DISPLAYS ELMC OPTION KEY TYPE INSTALLED ON CONTROLLER. STAT (STATUS)/PROV (REMOTE PROVISIONING)/ WAYSIDE (WITH WAYSIDE DS1 MONITORING). NOT PROVISIONABLE. CHANGING DISPLAY REQUIRES CHANGING OPTION KEY. 6-8 GHz Station Alarm 13-16 RSL Alarm Enable SELECT Station Alarm 13-16 TO ENABLE STATION ALARM 13-16 INPUTS TO RELAY INTFC. WHEN EXTERNAL TBOS IS WIRED TO RADIO, SELECT TBOS Display 1-8 TO ENABLE TBOS DRIVERS ON CONTROLLER AND SELECT A TBOS DISPLAY (1-8) TO VIEW. SELECT A&B PA Present IF SHELF IS EQUIPPED WITH A&B PAs, A OR B PA ONLY IF SHELF IS EQUIPPED WITH ONLY ONE PA, OR NO PA IF SHELF IS NOT EQUIPPED WITH PA. UNEQUIPPED PA ALARMS ARE DISABLED. SELECT APPROXIMATE ERROR RATE AT WHICH EYE CLOSURE ALARM ACTIVATES AND SWITCHING OCCURS: EYE BER=1X10-5, 1X10-6, 1X10-7, 1X10-8 OR SELECT Eye BER Disable TO ACTIVATE ALARMS AT APPROXIMATELY 1X10-6 WITHOUT RECEIVERS SWITCHING. SELECT Relays ON/NO (NORMALLY OPEN-HIGH IMPEDANCE) OR Relays ON/NC (NORMALLY CLOSEDGROUND) ON ALARM FOR ALARM/STATUS OUTPUTS OR Relays OFF. REFER TO RELAY INTERFACE IN THEORY SECTION FOR DETAILS. Figure 4-2 DS1/E1, DS3, OC3 Radio Configuration Provisioning (Sheet 1 of 4) 4-3 Note Screen shown is for DS1 Radio. DS3 and OC3 radio configuration provisioning is similar. Changes to provisioning do not have to be made in any particular order. NOTES 1. ATPC T/O IS A CMD PATH FUNCTION PERFORMED AT XMTR. 2. ATPC TRACKS RCVR WITH HIGHEST LEVEL. 3. LOW POWER ATPC IS 10dB DOWN FROM HIGH POWER. SELECT ATPC OR ATPC T/O ENABLE AUTOMATIC XMT POWER CONTROL (ATPC) FUNCTION. WHEN PROVISIONED ATPC OR ATPC T/0, ONE RCVR OUT-OF-LOCK CAUSES HIGH POWER ATPC FOR 10 SECONDS EVERY ONE MINUTE. IF BOTH RCVRS ARE OUT-OF-LOCK, ATPC GOES TO HIGH POWER AND STAYS AT HIGH POWER UNTIL ONE RCVR (REVERTS TO ONE RCVR OUT-OF-LOCK MODE) OR BOTH RCVRS LOCK. WHEN PROVISIONED ATPC T/O (TIMEOUT), IF CMD PATH IS LOST, ATPC GOES TO HIGH POWER FOR FIVE MINUTES THEN GOES TO LOW POWER. THEN, EVERY HOUR, ATPC GOES HIGH FOR 10 SECONDS AND THEN GOES TO LOW POWER. THIS CONTINUES UNTIL THE CMD PATH IS RESTORED. SELECT DISABLE TO DISABLE ATPC FUNCTION. SYSTEM ID: RADIO TYPE: RADIO CONFIG: ELMC: RADIO LINK ID: TEST1 MDR-8000 DS1 Disable 16 LINES 128 TCM HS Tx/HS Rx TERMINAL ATPC Enabled A&B PA Present SYSTEM ALARM Visual/Audible RELAYS ON/NO RCV SWITCHING: Disable AGC BER Disable OPTIONS: Option Key: 6-8 GHz Station Alarm 13-16 RSL Alarm Enable Stat/Prov/WaySide LMW-7085 Sheet 2 of 2 06/04/02 SELECT RSL Alarm Enable TO ENABLE ALARM ON USI ALARM AND STATUS SCREEN WHEN RSL DROPS BELOW THRESHOLD. SELECT RSL Alarm Disable TO INHIBIT ALARM. Figure 4-2 DS1/E1, DS3, OC3 Radio Configuration Provisioning (Sheet 2 of 4) 4-4 Note MASTER RING CONFIGURATIONS – Master rings are networks that consist entirely of a loop of synchronous repeaters. All nodes in the same ring direction use the same clock timing. Timing may be different for each direction. All service channel data is passed synchronously around the ring. The status of the ring is monitored using messages in the ELMC channel. SUBTENDING RING CONFIGURATIONS – Subtending rings are networks that connect asynchronously to another ring at two locations (called primary and secondary connection points). The networks consist of a string of synchronous repeaters. All nodes in the same direction use the same clock timing. Timing may be different for each direction. All service channel data is passed synchronously within the subtending ring section and asynchronously to the main ring. Asynchronous connection must use LMC1 for the ELMC connection. Messages are sent on LMC1 by the subtending ring primary and secondary nodes to monitor for continuity of the synchronous connection. SELECT RING REPEATER MASTER AT ANY ONE RADIO IN THE RING, TO ENABLE THE CONFIGURATION THAT IS USED TO BREAK THE LOOP OF A SYNCHRONOUS RING. IN THIS CONFIGURATION, THE RF SERVICE CHANNEL AND REPEATER SYNC ARE DISABLED (NORMALLY ENABLED), PREVENTING THE RING FROM CLOSING ON ITSELF. WHEN A RING FAILURE OCCURS, THE MASTER RECEIVES A RING FAIL MESSAGE FROM THE FAILED RADIO AND RESPONDS BY ENABLING THE RF SERVICE CHANNEL AND REPEATER SYNC TO CONNECT THE SERVICE CHANNELS. THE FAILURE IS WHAT NOW BREAKS THE SERVICE CHANNEL LOOP, PREVENTING THE RING FROM CLOSING ON ITSELF. SYSTEM ID: RADIO TYPE: RADIO CONFIG: ELMC: MDR-8000 DS1 Disable 16 LINES 128 TCM 6-8 GHz HS Tx/HS Rx Ring TERMINAL Repeater Normal ATPC Enabled Terminal A&B PA Present Repeater Normal SYSTEM ALARM Visual/Audible RCV SWITCHING: RSL-SW Enable OPTIONS: RADIO LINK ID: TEST1 Option Key: Ring Terminal RELAYS ON/NO Ring Repeater Eye BER Disable Primary Secondary Station Alarm 13-16 Master Stat/Prov/WaySide LMW-9088 09/08/03 SELECT RING REPEATER NORMAL AT ALL RADIOS IN THE RING, EXCEPT THE ONE PROVISIONED MASTER. THIS ENABLES THE CONFIGURATION THAT ENABLES RF SERVICE CHANNEL AND REPEATER SYNC, ALLOWING SERVICE CHANNEL DATA TO PASS THROUGH THE RF AND REPEATER PORTS. WHEN A FAILURE IS DETECTED ON THE RF OR REPEATER PORT, THE ASSOCIATED RADIO SENDS A RING FAIL MESSAGE TO THE MASTER. SELECT RING REPEATER PRIMARY WHEN THE RADIO IS IN THE MIDDLE OF A SUBTENDING RING AND IS THE PRIMARY SERVICE CHANNEL CONNECTION POINT TO ANOTHER RING. IN THIS CONFIGURATION, THE RF SERVICE CHANNEL AND REPEATER SYNC ARE ENABLED, ALLOWING SERVICE CHANNEL DATA TO PASS THROUGH THE RF AND REPEATER PORTS. WHEN A FAILURE OCCURS, THE RF SERVICE CHANNEL AND REPEATER SYNC ARE DISABLED. SELECT RING REPEATER SECONDARY WHEN THE RADIO IS IN THE MIDDLE OF A SUBTENDING RING AND IS THE SECONDARY SERVICE CHANNEL CONNECTION POINT TO ANOTHER RING. IN THIS CONFIGURATION, THE RF SERVICE CHANNEL AND REPEATER SYNC ARE DISABLED. WHEN A FAILURE OCCURS, THE RF SERVICE CHANNEL IS ENABLED. Figure 4-2 DS1/E1, DS3, OC3 Radio Configuration Provisioning (Sheet 3 of 4) 4-5 RING TERMINAL MASTER – NOT USED SYSTEM ID: RADIO TYPE: RADIO CONFIG: ELMC: MDR-8000 OC3 HS Tx ATPC Enabled SYSTEM ALARM Visual/Audible RCV SWITCHING: Disable AGC OPTIONS: RADIO LINK ID: TEST1 Option Key: Disable OC-3 128 QAM HS Rx A&B PA Present RELAYS ON/NO BER Disable Ring Repeater Normal Terminal Normal Repeater Primary Ring Terminal Station Alarm 13-16 Ring Repeater Degrade Enable Secondary RSL Alarm Enable Master Stat/Prov/WaySide LMW-9089 09/08/03 SELECT RING TERMINAL NORMAL AT FIRST RADIO IN AN INCOMPLETE RING, WHEN BUILDING OUT A NEW RING. THIS PREVENTS HAVING TO GO BACK AND REPROVISION EACH RADIO WHEN THE RING IS COMPLETE. AS EACH NEW HOP IS ADDED, PROVISION THE RADIOS ON EACH END AS RING TERMINAL NORMAL AND PROVISION ALL RADIOS IN BETWEEN AS RING REPEATER NORMAL. IN THE RING TERMINAL NORMAL CONFIGURATION, THE REPEATER CABLE IS NOT INSTALLED. SYNC ALARMS ARE INHIBITED. THE RF SERVICE CHANNEL IS ENABLED, ALLOWING SERVICE CHANNEL DATA TO PASS THROUGH THE RF PORT. WHEN THE RING IS COMPLETE, PROVISION ONE RADIO RING REPEATER MASTER AND ALL OTHER RADIOS AS RING REPEATER NORMAL. SELECT RING TERMINAL NORMAL AT RADIOS AT ENDS OF STUBS OFF SUBTENDING RINGS. SELECT RING TERMINAL PRIMARY WHEN THE RADIO IS THE PRIMARY CONNECTION POINT TO THE MAIN RING. IN THIS CONFIGURATION, THE REPEATER CABLE IS NOT INSTALLED. SYNC ALARMS ARE INHIBITED. THE RF SERVICE CHANNEL IS ENABLED, ALLOWING SERVICE CHANNEL DATA TO PASS THROUGH THE RF PORT. THE RF SERVICE CHANNEL IS DISABLED WHEN A FAILURE OCCURS. SELECT RING TERMINAL SECONDARY WHEN THE RADIO IS THE SECOND CONNECTION POINT TO THE MAIN RING. IN THIS CONFIGURATION, THE REPEATER CABLE IS NOT INSTALLED. SYNC ALARMS ARE INHIBITED. THE RF SERVICE CHANNEL IS DISABLED. THE RF SERVICE CHANNEL IS ENABLED WHEN A FAILURE OCCURS ALLOWING SERVICE CHANNEL DATA TO PASS THROUGH THE RF PORT. Figure 4-2 DS1/E1, DS3, OC3 Radio Configuration Provisioning (Sheet 4 of 4) 4-6 SYSTEM ID: RADIO TYPE: RADIO CONFIG: ELMC: TEST1 MDR-8000 DS1 RADIO LINK ID: 16 LINES HS Tx/HS Rx TERMINAL ATPC Enabled A&B PA Present SYSTEM ALARM Visual/Audible RELAYS ON/NO RCV SWITCHING: Disable AGC BER Disable OPTIONS: Option Key: Disable 128 TCM 6-8 GHz Station Alarm 13-16 RSL Alarm Enable Stat/Prov/WaySide LMW-7100-SM 09/16/02 SELECT ONE: * NS Tx/NS Rx NS Tx/HS Rx * NS Tx/SD Rx * HS Tx/HS Rx * HS Tx/SD Rx FD TxA/Rx A FD TxA/Rx B NS = NON-STANDBY HS = HOT-STANDBY SD = SPACE DIVERSITY FQ = FREQUENCY DIVERSITY * ALTHOUGH THERE ARE A TOTAL OF 7 CONFIGURATIONS, ONLY 4 EXAMPLES ARE ILLUSTRATED. Figure 4-3 DS1/E1 Radio Configuration Provisioning 4-7 I RPTR CH RPTR CH I/O INTERFACE LBO DS1/E1 1-16 DS1/E1 1-16 XMTR RF PA DIPLEXER RF IN/OUT (OPTIONAL) RX RS RF RCVR LMW-5051-SM 09/16/02 DS1/E1 PROVISIONING EXAMPLE 1: NS Tx/NS Rx RPTR CH RPTR CH I/O INTERFACE LBO DS1/E1 1-16 DS1/E1 1-16 XMTR RF PA (OPTIONAL) XMT SW DIPLEXER RF IN/OUT RX RS RF RCVR I/O INTERFACE RX RS RCVR RF RCV FILTER RF IN FROM SECOND ANTENNA LMW-5050-sm 07/24/01 DS1/E1 PROVISIONING EXAMPLE 2: NS Tx/SD Rx 4-8 I RPTR CH RPTR CH I/O INTERFACE LBO DS1/E1 1-16 XMTR (OPTIONAL) XMT SW RF RF IN/OUT DIPLEXER RX DS1/E1 1-16 RS MX RF PA RF RCVR DX XMTR I/O INTERFACE PA (OPTIONAL) RX RS RF RCVR LMW-5049-sm 07/24/01 DS1/E1 PROVISIONING EXAMPLE 3: HS Tx/HS Rx RPTR CH RPTR CH I/O INTERFACE LBO DS1/E1 1-16 DS1/E1 1-16 PA RF (OPTIONAL) XMT SW RF IN/OUT DIPLEXER RX RS MX XMTR RCVR RF DX I/O INTERFACE LMW-5048-SM 09/16/02 XMTR PA RF (OPTIONAL) RX RS RCVR RF RCV FILTER RF IN FROM SECOND ANTENNA DS1/E1 PROVISIONING EXAMPLE 4: HS Tx/SD Rx 4-9 Note If installation at both ends of a hop are complete except for connecting to customer inputs/outputs and it is desirable to have an alarm-free system, alarm reporting on the incomplete connections can be disabled temporarily through provisioning. You can communicate over the hop even if you do not have the radio connected to customer DS1 inputs; however, you will alarm unless you select OFF to disable INSERT CHANNEL (located on the USI DS1 Facilities screen) for all equipped lines. Disabling the DS1 insert function disables both the lines and alarm reporting for the lines. After all customer connections are complete, alarm reporting can be restored to normal. To restore alarm reporting to normal, set INSERT CHANNEL on DS1 Facilities screen to ON. Note The term "LINE" is used to describe an input/output signal at DS1/E1 rate (1.544 MB/S 2.043 MB/S). The term "CHANNEL" is used to describe a multiplexed signal, at a higher rate than DS1/E1. The inserted channel is output of multiplexer circuit. The dropped channel is input to demultiplexer circuit. The multiplexer and demultiplexer circuits are located on I/O interface module. SELECTING ON INSERTS LOCAL DATA AND TURNS ON ALARM REPORTING. SELECTING NM (NOT MONITORED), DEFAULT SETTING, INSERTS LOCAL AIS DATA BUT TURNS OFF ALARM REPORTING. SELECTING OFF TURNS OFF LOCAL DATA INSERT AND TURNS OFF ALARM REPORTING. SELECT ON TO DROP ALL LINES OR OFF TO DISABLE ALL LINES AND ALARMS. SELECT ON FOR ALL LINES IN USE AT A TERMINAL OR DROPAND-INSERT REPEATER. SELECT NM FOR ALL LINES NOT USED AT A TERMINAL AND DROP-AND-INSERT REPEATER. SELECT OFF FOR ALL LINES AT A NON-STANDBY THROUGH REPEATER, OR SELECT OFF FOR LINES 1 THROUGH 4 AND NM FOR LINES 5 THROUGH 16 AT A PROTECTED REPEATER. LINES FOR EACH LINE, SELECT ON TO DROP LINE OR OFF TO DISABLE LINE AND ALARMS. INSERT CHANNEL ON ON OFF OFF OFF OFF OFF OFF DROP CHANNEL ON ON OFF OFF OFF OFF OFF OFF LINE CODING AMI AMI AMI AMI AMI AMI AMI AMI AIS INHIBIT OFF OFF OFF OFF OFF OFF OFF OFF LINE 10 11 12 13 14 15 16 INSERT CHANNEL OFF OFF OFF OFF OFF OFF OFF OFF DROP CHANNEL OFF OFF OFF OFF OFF OFF OFF OFF LINE CODING AMI AMI AMI AMI AMI AMI AMI AMI AIS INHIBIT OFF OFF OFF OFF OFF OFF OFF OFF AIS SIGNAL ALL ONES DS1 LINE LENGTH SELECT ALL 1s OR ALL 0s AIS DATA FORMAT FOR ALL LINES. SELECT AMI OR B8ZS CODING FOR EACH DS1 LINE. E1 LINE CODING IS ALWAYS HDB3. 4-10 SELECT AMI OR B8ZS CODING FOR ALL DSI LINES Select All Select All 0-150 SELECT ON OR OFF. WHEN SET TO ON, AIS INSERTION IS INHIBITED ON SELECTED DS1/E1. FOR ALL DS1 LINES, SELECT RANGE THAT MATCHES ACTUAL DISTANCE TO CROSS-CONNECT 0-150 (TEO OFF), 150-330 (TEO ON), 330-480 (TEO OFF) OR 480-660 (TEO ON) FT. FOR E1, NO DISTANCE IS DISPLAYED. Figure 4-4 DS1/E1 Facilities Provisioning SELECT ON TO INSERT ALL LINES OR OFF TO DISABLE ALL LINES AND ALARMS. SELECT ON TO INHIBIT AIS INSERTION ON ALL LINES. SELECT OFF TO ENABLE AIS INSERTION ON ALL LINES. LMW-3020-sm 12/16/03 SELECT Degrade Enable TO ACTIVATE APPROXIMATE ERROR RATE AT WHICH BER Deg Alm ALARM ACTIVATES AND SWITCHING OCCURS: 1X10-5, 1X10-6, 1X10-8, ON DS3 FACILITIES PROVISIONING SCREEN. SELECT Degrade Disable TO ACTIVATE BER Deg Alm AT SELECTED ERROR RATE WITHOUT RCVRS SWITCHING. SYSTEM ID: RADIO TYPE: RADIO CONFIG: ELMC: TEST1 MDR-8000 DS3 RADIO LINK ID: 3 LINES Disable 64 QAM HS Tx/HS Rx TERMINAL ATPC Enabled A&B PA Present SYSTEM ALARM Visual/Audible RELAYS ON/NO Station Alarm 13-16 RCV SWITCHING: Disable AGC BER Disable Degrade Enable OPTIONS: Option Key: RSL Alarm Enable Stat/Prov/WaySide LMW-7101-SM 09/16/02 SELECT ONE: * NS Tx/NS Rx NS Tx/HS Rx * NS Tx/SD Rx * HS Tx/HS Rx * HS Tx/SD Rx * FREQ DIV * HS Tx/NS Rx * SIMPLEX NS Tx SIMPLEX HS Tx * SIMPLEX NS Rx * SIMPLEX HS/SD Rx NS = NON-STANDBY HS = HOT-STANDBY SD = SPACE DIVERSITY FQ = FREQUENCY DIVERSITY * Although there are a total of 11 configurations available, only 9 examples are illustrated. Figure 4-5 DS3 Radio Configuration Provisioning 4-11 I RPTR CH DS3 1 OR 3 XMTR PA (OPTIONAL) I/O INTFC LBO DIPLEXER RF IN/OUT WAYSIDE DS1 1 OR 3 RCVR LMW-3124-sm 05/17/03 DS3 PROVISIONING EXAMPLE 1: NS Tx/NS Rx LBO 2ND MDR-8000 SHELF (RPTR) X-CONN (TERM) OR 2ND MDR-8000 SHELF (RPTR) SC/SYNC WAYSIDE DS1 RF DIPLEXER RF IN/OUT SC PA (OPTIONAL) I/O INTFC DS3 XMTR RCVR SYNC SPLITTER (XMT) COMBINER (RCV) I/O INTFC RCVR RF RCV FILTER RF IN FROM DIVERSITY ANTENNA LMW-3125-sm 05/17/03 DS3 PROVISIONING EXAMPLE 2: NS Tx/SD Rx 4-12 I RPTR CH DS3 1 OR 3 XMTR (OPTIONAL) I/O INTFC LBO XMT SW DIPLEXER WAYSIDE DS1 1 OR 3 SC PA RCVR RF IN/OUT SYNC XMTR PA (OPTIONAL) I/O INTFC RCVR LMW-3126-sm 05/17/03 DS3 PROVISIONING EXAMPLE 3: HS Tx/HS Rx RPTR CH DS3 1 OR 3 WAYSIDE DS1 1 OR 3 XMT SW SC PA (OPTIONAL) I/O INTFC LBO XMTR RCVR DIPLEXER RF IN/OUT SYNC I/O INTFC LMW-3127-sm 05/17/03 XMTR PA (OPTIONAL) RCVR RCV FILTER RF IN FROM SECOND ANTENNA DS3 PROVISIONING EXAMPLE 4: HS Tx/SD Rx 4-13 I RPTR CH DS3 1 OR 3 XMTR CIRCULATOR RF IN/OUT WAYSIDE DS1 1 OR 3 RCVR SC CIRCULATOR XMT FILTER (OPTIONAL) I/O INTFC LBO PA CIRCULATOR RCV FILTER SYNC XMTR I/O INTFC XMT FILTER CIRCULATOR (OPTIONAL) CIRCULATOR RCV FILTER RCVR LMW-3128-sm 05/17/03 PA DS3 PROVISIONING EXAMPLE 5: FREQ DIV LBO TO/FROM X-CONN DS3 DS3 WAYSIDE DS1 WAYSIDE DS1 XMTR RF PA (OPTIONAL) I/O INTFC XMT SW SC RF DIPLEXER RF IN/OUT RF RCVR SYNC I/O INTFC SPLITTER (XMT) COMBINER (RCV) XMTR PA RF (OPTIONAL) LMW-5061-sm 08/02/01 DS3 PROVISIONING EXAMPLE 6: HS Tx/NS Rx 4-14 FROM X-CONN 1 OR 3 DS3 1 OR 3 DS3 1 OR 3 WAYSIDE DS1 1 OR 3 WAYSIDE DS1 LBO I/O INTFC XMTR RF PA FILTER RF IN/OUT (OPTIONAL) LMW-5058-sm 05/17/03 DS3 PROVISIONING EXAMPLE 7: SIMPLEX NS Tx 1 OR 3 DS3 TO X-CONN 1 OR 3 DS3 1 OR 3 WAYSIDE DS1 LBO 1 OR 3 WAYSIDE DS1 I/O INTFC RCVR RF FILTER RF IN/OUT LMW-5057-sm 05/17/03 DS3 PROVISIONING EXAMPLE 8: SIMPLEX NS Rx 1 OR 3 DS3 TO X-CONN 1 OR 3 WAYSIDE DS1 1 OR 3 DS3 LBO 1 OR 3 WAYSIDE DS1 MAIN ANT I/O INTFC I/O INTFC RCVR RF FILTER DIVERSITY ANT RF IN RCVR RF FILTER RF IN LMW-5059-sm 07/09/03 DS3 PROVISIONING EXAMPLE 9: SIMPLEX HS/SD Rx 4-15 Note If installation at both ends of a hop are complete except for connecting to customer inputs/outputs and it is desirable to have an alarm-free system, alarm reporting on the incomplete connections can be disabled temporarily through provisioning. You can communicate over the hop even if you do not have the radio connected to customer DS3 and wayside DS1 inputs; however, you will alarm. On the DS3 Facilities screen, set XMT ALARM DISABLE and RCV ALARM DISABLE to ON to disable DS3 alarm reporting on the wayside DS1 Facilities screen, set ALARM Lockout to ON to disable alarm reporting for all equipped wayside DS1 lines. After all customer connections are complete, alarm reporting can be restored to normal. SELECT ON TO DISABLE VIOLATION MONITORING AND REMOVAL (VMR) ON LINE DUE TO LOSS OF UPSTREAM DS3 FRAME. DS3 PARITY ERRORS ARE NOT REMOVED AND ARE PASSED ON TO NEXT SECTION. SELECT OFF TO ENABLE VMR AND REMOVE DS3 PARITY ERRORS. SELECT OFF TO REPORT ALL ALARMS. SELECT ON TO DISABLE ALARMS FOR LINE. SELECT ON TO BRIDGE DS3 LINE 1 ONTO SELECTED LINE(S) 2 AND/OR 3 TO PREVENT ALARMS ON UNUSED LINE(S). SELECT OFF TO DISABLE FUNCTION. TX/RX INTERFACE A TX/RX INTERFACE B DS3 LINES INPUT LINE BRIDGE NA OFF OFF NA OFF OFF XMT ALARM DISABLE OFF OFF OFF OFF OFF OFF XMT VMR DISABLE ON ON ON ON ON ON RCV ALARM DISABLE OFF OFF OFF OFF OFF OFF RCV VMR DISABLE OFF OFF OFF OFF OFF OFF AIS SIGNAL DISABLE OFF OFF OFF OFF OFF OFF AIS SIGNAL TIMING 10/350 10/350 10/350 10/350 10/350 10/350 BIT ERROR RATE Select All DS3 DEGRADE=10E-5 WHEN Degrade Enable IS SELECTED ON RADO CONFIGURATION PROVISIONING SCREEN, SELECT APPROXIMATE ERROR RATE AT WHICH BER Deg Alm ALARM ACTIVATES AND RCVR SWITCHING OCCURS: 10E-5 (1X10-5), 10E-6 (1X10-6), 10E-7 (1X10-7), OR 10E-8 (1X10-8). WHEN Degrade Disable IS SELECTED, SELECT ERROR RATE AT WHICH BER Deg Alm ACTIVATES WITHOUT RCVRS SWITCHING. SELECT 10/350 TO INSERT AIS (BLUE SIGNAL) WHEN DS3 FRAME LOSS IS DETECTED FOR AT LEAST 10ms AND REMOVE AIS WHEN FRAME LOSS HAS CLEARED FOR 350ms. SELECT 3/3 TO INSERT AIS WITHIN 3ms OF DS3 FRAME LOSS DETECTION AND REMOVAL WITHIN 3ms AFTER FRAME LOSS CLEARS. SELECT ON TO DISABLE AIS (BLUE SIGNAL) INSERTION ON LINE WHEN LOSS OF UPSTREAM DS3 FRAME IS DETECTED. SELECT OFF TO INSERT AIS (BLUE SIGNAL) WHEN RADIO OR DS3 FRAME LOSS IS DETECTED. Figure 4-6 DS3 Facilities Provisioning 4-16 LMW-9039-sm 06/03/03 SELECT AMI OR B8ZS CODING FOR WAYSIDE DS1 LINE. SELECT ON TO DISABLE ALARM REPORTING FOR WAYSIDE DS1 LINE. SELECT OFF TO REPORT ALL ALARMS FOR THAT LINE. DS1 CARD A DS1 LINES DS1 CARD B ALARM LOCK OUT OFF OFF OFF OFF OFF OFF DS1 LINE CODING AMI AMI AMI AMI AMI AMI AIS INHIBIT OFF OFF OFF OFF OFF OFF AIS INSERT Select All SELECT 1 (ALL ONES) OR 0 (ALL ZEROES) FOR ALARM INDICATION SIGNAL (AIS) LINE CODE. LMW-3133C-sm 01/29/01 SELECT ON TO DISABLE AIS INSERTION ON WAYSIDE DS1 LINE WHEN LOSS OF UPSTREAM DS1 FRAME IS DETECTED. SELECT OFF TO INSERT AIS WHEN DS1 FRAME LOSS IS DETECTED. Figure 4-7 DS3 Radio Wayside DS1 Facilities Provisioning 4-17 SYSTEM ID: ELMC: TEST 1 RADIO TYPE: RADIO LINK ID: MDR-8000 OC3 RADIO CONFIG: OC3-3 HS Tx Visual/Audible RCV SWITCHING: Option Key: RELAYS ON/NO None NS Rx HS Rx SD Rx FD Rx NON-STANDBY HOT-STANDBY SPACE DIVERSITY SWITCHED RSL Alarm Enable BER Disable Stat/Prov/WaySide 2 Fiber 2 Fiber Switched 4 Fiber 4Fiber Switched Resulting Configurations (Provisioning Examples 7-1 thru 7-13) TO FIBER CONFIGURATION IS SELECTED ON OC3 FACILITIES PROVISIONING SCREEN (FIG 7-6). NS HS SD SW Station Alarm 13-16 SELECT FIBER CONFIGURATION SELECT ONE ON EACH None NS Tx HS Tx FD Tx TERMINAL A&B PA Present Disable AGC OPTIONS: 128 TCM HS Rx ATPC Enabled SYSTEM ALARM Disable None/ NS Rx/2 Fiber None/HS Rx/2 Fiber None/HS Rx/2 Fiber SW None/HS Rx/4 Fiber SW None/SD Rx/2 Fiber None/SD Rx/2 Fiber SW None/SD Rx/4 Fiber SW None/FD Rx/2 Fiber None/FD Rx/2 Fiber SW None/FD Rx/4 Fiber NS Tx/None/2 Fiber NS Tx/NS Rx/2 Fiber NS Tx/HS Rx/2 Fiber NS Tx/HS Rx/2 Fiber SW NS Tx/HS Rx/4 Fiber SW NS Tx/SD Rx/2 Fiber NS Tx/SD Rx/2 Fiber SW * NS Tx/SD Rx/4 Fiber SW HS Tx/None/2 Fiber HS Tx/None/2 Fiber SW * HS Tx/Hs Rx/2 Fiber * HS Tx/HS Rx/2 Fiber SW * HS Tx/HS Rx/4 Fiber SW * HS Tx/SD Rx/2 Fiber * HS Tx/SD Rx/2 Fiber SW HS Tx/SD Rx/4 Fiber SW FD Tx/None/2 Fiber FD Tx/None/2 Fiber SW FD Tx/None/4 Fiber FD Tx/None/4 Fiber SW * FD Tx/FD Rx/2 Fiber * FD Tx/FD Rx/2 Fiber SW * FD Tx/FD Rx/4 Fiber * FD Tx/FD Rx/4 Fiber SW Although there are a total of 34 configurations available, only 13 examples are illustrated. LMW-7033-sm 05/17/03 Figure 4-8 OC3 Radio Configuration Provisioning 4-18 Note If installation at both ends of a hop are complete except for connecting to customer inputs/outputs and it is desirable to have an alarm-free system, alarm reporting on the incomplete connections can be disabled temporarily through provisioning. You can communicate over the hop even if you do not have the radio connected to customer OC3 and wayside DS1 inputs; however, you will alarm. On the OC3 Facilities screen, set Alarm Disable TRANSMITTER (IN) A and/or B and RECEIVER (OUT) A and/or B to ON to disable OC3 alarm reporting for all equipped wayside DS1 lines. After all customer connections are complete, alarm reporting can be restored to normal. SELECT None TO DISABLE SECTION OVERHEAD (OH) DATA INSERT FUNCTION IN APPLICATIONS WHERE FRAME AND PARITY INSERT IS PERFORMED EXTERNALLY. SELECT Frame TO INSERT SECTION OVERHEAD DATA. SELECT Frame & B1 TO INSERT SECTION OVERHEAD DATA AND PARITY BIT. Alcatel User Interface – [Provisioning] File View Setup Options F3 F4 Prov. Save F5 Alarm Status F6 Analog Monitor F7 F8 Station Alarm Performance F9 User Control LOCAL OC3 PROVISIONING ELMC Address: R101 ELMC Description: OC3 6 GHz Top Radio Configuration Communicating*** Service Channel Fiber Configuration 4 Fiber Switched Section OH Insertion Frame & B1 WaySide DS1 Facilities OC3 Facilities TRANSMITTER (IN) RECEIVER (OUT) Select All BER Alarm Threshold 1X10-6 1X10-6 1X10-6 1X10-6 BER Switch Threshold 1X10-6 1X10-6 1X10-6 1X10-6 Alarm Disable OFF OFF OFF OFF Tuesday, June 3, 2003 Provisioning 5:20:04 AM SELECT ERROR RATE (1x10-5, 1x10-6, 1x10-7, OR 1x10-8) WHICH CAUSES OC3 INPUT TO BE SWITCHED OR SELECT DISABLE TO DISABLE OC3 INPUT SWITCHING. SELECT ERROR RATE (1x10-5, 1x10-6, 1x10-7, OR 1x10-8) AT WHICH XMTR BER ALARM ACTIVATES OR SELECT DISABLE TO DISABLE ALARM. USI Version R1.04 MDR-8000 OC3 Controller Version R1.4 SELECT ERROR RATE (1x10-5, 1x10-6, 1x10-7, OR 1x10-8) WHICH CAUSES OC3 OUTPUT TO BE SWITCHED OR SELECT DISABLE TO DISABLE OC3 OUTPUT SWITCHING. SELECT ERROR RATE (1X10-5, 1x10-6, 1x10-7, OR 1x10-8) AT WHICH RCVR BER ALARM ACTIVATES OR SELECT DISABLE TO DISABLE ALARM. SELECT OFF, TO ENABLE OC3 ALARMS. SELECT ON TO DISABLE ALARMS. LMW-4026-sm 06/03/03 Figure 4-9 OC3 Facilities Provisioning 4-19 Radio Configuration Service Channel OC3 Facilities SYSTEM ID: ELMC: 203R2 RADIO LINK ID: RADIO TYPE: MDR-8000 OC3 OC3-3 RADIO CONFIG: SYSTEM ALARM: NS Tx None ATPC NS Tx Enabled HS Tx FD Tx Major/Minor RCV SWITCHING: Disable AGC OPTIONS: Option Key: 128 TCM NS Rx None A&BRx PA Present NS HS Rx SD Rx ON/NO RELAYS FD Rx BER=1x10-6 Repeater TBOS Display 1 Service Channel OC3 Facilities 2 Fiber Frame B1 2 Fiber &Switched 4 Fiber 1:27:15 PM USI Version R1.00 4 Fiber Switched TRANSMITTER RECEIVER 1X10-6 1X10-8 1X10-8 1X10-8 BER Switch Threshold Disable 1X10-8 1X10-7 1X10-8 A OC3 I/O INTERFACE Tuesday, January 22, 2002 2:03:38 PM OR-1 LEGEND WaySide DS1 Facilities MDR-8000 OC3 Controller Version R1.00 BER Alarm Threshold CUSTOMER 2 FIBER RSL Alarm Disable 2 Fiber Fiber Configuration Tuessday, March 7, 2000 Disable Stat/Prov/WaySide Radio Configuration Section OH Insertion WaySide DS1 Facilities TRANSMITTER USI Version R1.00 OT-1 RECEIVER Select All DIPLEXER POWER RT-1 FILTER AMPLIFIER (OPTIONAL) MDR-8000 OC3 Controller Version R1.0 ANTENNA PORT RR-1 = SWITCH = LASER OR OT RR RT = OPTICAL RCV = OPTICAL XMT = RADIO RCV = RADIO XMT OC3 PROVISIONING EXAMPLE 1: NS Tx/NS Rx/2 Fiber 4-20 LMW-6023-sm 06/27/02 Radio Configuration Service Channel OC3 Facilities SYSTEM ID: ELMC: 203R2 RADIO LINK ID: RADIO TYPE: MDR-8000 OC3 OC3-3 RADIO CONFIG: SYSTEM ALARM: NS Tx None ATPC NS Tx Enabled HS Tx FD Tx Major/Minor RCV SWITCHING: Disable AGC OPTIONS: Option Key: 128 TCM SD Rx None A&BRx PA Present NS HS Rx SD Rx ON/NO RELAYS FD Rx BER=1x10-6 Repeater TBOS Display 1 Service Channel MDR-8000 OC3 Controller Version R1.00 RECEIVER BER Alarm Threshold 1X10-6 1X10-8 1X10-8 1X10-8 BER Switch Threshold Disable 1X10-8 1X10-7 1X10-8 OR-1 Tuesday, January 22, 2002 CUSTOMER 2 FIBER OT-1 2:03:38 PM USI Version R1.00 AUXILIARY INTERFACE MDR-8000 OC3 = LASER OT-2 DIPLEXER FILTER Controller Version R1.0 RT-1 RR-1 RR-2 RCV FILTER B OC3 I/O INTERFACE MAIN ANTENNA PORT RR-1 OR-1 OR-2 LMW-6024-SM 06/27/02 ALLOWABLE COMBINATIONS XMTR RCVR OC3 OUT OC3 IN LEGEND = SWITCH Select All POWER RT-1 AMPLIFIER (OPTIONAL) TRANSMITTER RECEIVER = OPTICAL RCV = OPTICAL XMT = RADIO RCV = RADIO XMT WaySide DS1 Facilities OC3 Facilities 2 Fiber Frame B1 2 Fiber &Switched 4 Fiber 1:27:15 PM USI Version R1.00 4 Fiber Switched TRANSMITTER A OC3 I/O INTERFACE OR OT RR RT RSL Alarm Disable 2 Fiber Fiber Configuration Tuessday, March 7, 2000 Disable Stat/Prov/WaySide Radio Configuration Section OH Insertion WaySide DS1 Facilities RECEIVER RR-2 OT-1 OT-1 DIVERSITY ANTENNA PORT OC3 PROVISIONING EXAMPLE 2: NS Tx/SD Rx/2 Fiber 4-21 Radio Configuration Service Channel OC3 Facilities SYSTEM ID: ELMC: 203R2 RADIO LINK ID: RADIO TYPE: MDR-8000 OC3 OC3-3 RADIO CONFIG: NS Tx None ATPC NS Tx Enabled HS Tx FD Tx Major/Minor SYSTEM ALARM: RCV SWITCHING: Disable AGC OPTIONS: Option Key: 128 TCM SD Rx None A&BRx PA Present NS HS Rx SD Rx ON/NO RELAYS FD Rx BER=1x10-6 Repeater TBOS Display 1 Service Channel RSL Alarm Disable WaySide DS1 Facilities OC3 Facilities 2 Fiber Switched Fiber Configuration Tuessday, March 7, 2000 Disable Stat/Prov/WaySide Radio Configuration Section OH Insertion WaySide DS1 Facilities 2 Fiber Frame B1 2 Fiber &Switched 4 Fiber 1:27:15 PM USI Version R1.00 4 Fiber Switched TRANSMITTER MDR-8000 OC3 Controller Version R1.00 RECEIVER BER Alarm Threshold 1X10-6 1X10-8 1X10-8 1X10-8 BER Switch Threshold Disable 1X10-8 1X10-7 1X10-8 A OC3 1 OR 2 I/O INTERFACE OR-1 Tuesday, January 22, 2002 OT-1 2:03:38 PM SPLITTER LMW-6027 06/27/02 RT-1 POWER AMPLIFIER (OPTIONAL) TRANSMITTER USI Version R1.00 Select All MDR-8000 OC3 RECEIVER RR-1 RECEIVER RR-2 DIPLEXER FILTER MAIN ANTENNA PORT Controller Version R1.0 AUXILIARY INTERFACE CUSTOMER 2 FIBER COMBINER OR-2 LEGEND = SWITCH OT-2 = LASER OR OT RR RT = OPTICAL RCV = OPTICAL XMT = RADIO RCV = RADIO XMT RCV FILTER B OC3 I/O INTERFACE ALLOWABLE COMBINATIONS OC3 IN XMTR RCVR OC3 OUT OR-1 OR-2 RT-1 RT-1 RR-1 RR-2 RR-2 RR-1 OT-1 OT-1 OT-2 OT-2 OC3 PROVISIONING EXAMPLE 3: NS Tx/SD Rx/2 Fiber Switched 4-22 DIVERSITY ANTENNA PORT Radio Configuration Service Channel OC3 Facilities SYSTEM ID: ELMC: 203R2 RADIO LINK ID: RADIO TYPE: MDR-8000 OC3 OC3-3 RADIO CONFIG: SYSTEM ALARM: HS Tx None ATPC NS Tx Enabled HS Tx FD Tx Major/Minor RCV SWITCHING: Disable AGC Option Key: OPTIONS: Radio Configuration Tuessday, March 7, 2000 Disable 128 TCM SD Rx None A&BRx PA Present NS HS Rx SD Rx ON/NO RELAYS FD Rx BER=1x10-6 Repeater TBOS Display 1 RSL Alarm Disable Stat/Prov/WaySide Service Channel WaySide DS1 Facilities OC3 Facilities 4 Fiber Switched Fiber Configuration Section OH Insertion WaySide DS1 Facilities 2 Fiber Frame B1 2 Fiber &Switched 4 Fiber 1:27:15 PM USI Version R1.00 4 Fiber Switched TRANSMITTER MDR-8000 OC3 Controller Version R1.00 RECEIVER Select All BER Alarm Threshold 1X10-6 1X10-8 1X10-8 1X10-8 BER Switch Threshold Disable 1X10-8 1X10-7 1X10-8 A OC3 I/O INTERFACE OR-1 Tuesday, January 22, 2002 2:03:38 PM LMW-6031-sm 06/27/02 POWER RT-1 AMPLIFIER (OPTIONAL) TRANSMITTER USI Version R1.00 MDR-8000 OC3 DIPLEXER FILTER Controller Version R1.0 OT-1 RECEIVER MAIN ANTENNA PORT RR-1 AUXILIARY INTERFACE CUSTOMER 4 FIBER OR-2 OT-2 LEGEND B OC3 I/O INTERFACE = SWITCH RECEIVER DIVERSITY ANTENNA PORT ALLOWABLE COMBINATIONS = LASER OR OT RR RT RCV FILTER RR-2 = OPTICAL RCV = OPTICAL XMT = RADIO RCV = RADIO XMT OC3 IN XMTR RCVR OC3 OUT OR-1 OR-2 RT-1 RT-1 RR-1 RR-2 OT-1, OT-2 OT-1, OT-2 OC3 PROVISIONING EXAMPLE 4: NS Tx/SD Rx/4 Fiber Switched 4-23 Radio Configuration Service Channel OC3 Facilities SYSTEM ID: ELMC: 203R2 RADIO LINK ID: RADIO TYPE: MDR-8000 OC3 OC3-3 RADIO CONFIG: SYSTEM ALARM: HS Tx None ATPC NS Tx Enabled HS Tx FD Tx Major/Minor RCV SWITCHING: Disable AGC OPTIONS: Option Key: 128 TCM HS Rx None A&BRx PA Present NS HS Rx SD Rx ON/NO RELAYS FD Rx BER=1x10-6 Repeater TBOS Display 1 Service Channel WaySide DS1 Facilities OC3 Facilities 2 Fiber Frame B1 2 Fiber &Switched 4 Fiber 1:27:15 PM USI Version R1.00 4 Fiber Switched TRANSMITTER MDR-8000 OC3 Controller Version R1.00 RECEIVER BER Alarm Threshold 1X10-6 1X10-8 1X10-8 1X10-8 BER Switch Threshold Disable 1X10-8 1X10-7 1X10-8 A OC3 I/O INTERFACE OR-1 Tuesday, January 22, 2002 CUSTOMER 2 FIBER RSL Alarm Disable 2 Fiber Fiber Configuration Tuessday, March 7, 2000 Disable Stat/Prov/WaySide Radio Configuration Section OH Insertion WaySide DS1 Facilities 2:03:38 PM LMW-6028-sm 06/27/02 DIPLEXER FILTER RF RT-1 RELAY POWER AMPLIFIER (OPTIONAL) TRANSMITTER USI Version R1.00 Select All MDR-8000 OC3 Controller Version R1.0 ANTENNA PORT OT-1 RECEIVER RR-1 AUXILIARY INTERFACE POWER AMPLIFIER RT-2 (OPTIONAL) TRANSMITTER LEGEND = SWITCH = LASER OR OT RR RT = OPTICAL RCV = OPTICAL XMT = RADIO RCV = RADIO XMT B OC3 I/O INTERFACE RECEIVER RR-2 9 dB DOWN FROM RR1 ALLOWABLE COMBINATIONS OC3 IN XMTR RCVR OC3 OUT OR-1 OR-1 RT-1 RT-2 RR-1 RR-2 OT-1 OT-1 OC3 PROVISIONING EXAMPLE 5: HS Tx/HS Rx/2 Fiber 4-24 Radio Configuration Service Channel OC3 Facilities SYSTEM ID: ELMC: 203R2 RADIO LINK ID: RADIO TYPE: MDR-8000 OC3 OC3-3 RADIO CONFIG: SYSTEM ALARM: HS Tx None ATPC NS Tx Enabled HS Tx FD Tx Major/Minor RCV SWITCHING: Disable AGC Option Key: OPTIONS: Radio Configuration WaySide DS1 Facilities Disable 128 TCM HS Rx None A&BRx PA Present NS HS Rx SD Rx ON/NO RELAYS FD Rx BER=1x10-6 Repeater TBOS Display 1 RSL Alarm Disable Stat/Prov/WaySide Service Channel WaySide DS1 Facilities OC3 Facilities 2 Fiber Switched Fiber Configuration Section OH Insertion Tuessday, March 7, 2000 2 Fiber Frame B1 2 Fiber &Switched 4 Fiber 1:27:15 PM USI Version R1.00 4 Fiber Switched TRANSMITTER MDR-8000 OC3 Controller Version R1.00 RECEIVER BER Alarm Threshold 1X10-6 1X10-8 1X10-8 1X10-8 BER Switch Threshold Disable 1X10-8 1X10-7 1X10-8 A OC3 I/O INTERFACE 2:03:38 PM USI Version R1.00 LMW-6025-SM 06/27/02 POWER RT-1 AMPLIFIER (OPTIONAL) TRANSMITTER OR-1 Tuesday, January 22, 2002 Select All MDR-8000 OC3 SPLITTER DIPLEXER FILTER Controller Version R1.0 OT-1 RECEIVER RF RELAY ANTENNA PORT OFF-LINE XMTR IS TERMINATED RR-1 AUXILIARY INTERFACE CUSTOMER 2 FIBER POWER AMPLIFIER RT-2 (OPTIONAL) TRANSMITTER COMBINER OR-2 OT-2 B OC3 I/O INTERFACE LEGEND RECEIVER RR-2 9 dB DOWN FROM RR1 ALLOWABLE COMBINATIONS = SWITCH = LASER OR OT RR RT = OPTICAL RCV = OPTICAL XMT = RADIO RCV = RADIO XMT OC3 IN XMTR RCVR OC3 OUT OR-1 OR-1 OR-2 OR-2 RT-1 RT-2 RT-2 RT-1 RR-1 RR-2 RR-2 RR-1 OT-1 OT-1 OT-2 OT-2 OC3 PROVISIONING EXAMPLE 6: HS Tx/HS Rx/2 Fiber Switched 4-25 Radio Configuration Service Channel OC3 Facilities SYSTEM ID: ELMC: 203R2 RADIO LINK ID: RADIO TYPE: MDR-8000 OC3 OC3-3 RADIO CONFIG: SYSTEM ALARM: HS Tx None ATPC NS Tx Enabled HS Tx FD Tx Major/Minor RCV SWITCHING: Disable AGC Option Key: OPTIONS: Radio Configuration WaySide DS1 Facilities Disable 128 TCM HS Rx None A&BRx PA Present NS HS Rx SD Rx ON/NO RELAYS FD Rx BER=1x10-6 Repeater TBOS Display 1 RSL Alarm Disable Stat/Prov/WaySide Service Channel WaySide DS1 Facilities OC3 Facilities 4 Fiber Switched Fiber Configuration Section OH Insertion Tuessday, March 7, 2000 2 Fiber Frame B1 2 Fiber &Switched 4 Fiber 1:27:15 PM USI Version R1.00 4 Fiber Switched TRANSMITTER MDR-8000 OC3 Controller Version R1.00 RECEIVER BER Alarm Threshold 1X10-6 1X10-8 1X10-8 1X10-8 BER Switch Threshold Disable 1X10-8 1X10-7 1X10-8 A OC3 I/O INTERFACE Tuesday, January 22, 2002 OR-1 2:03:38 PM TRANSUSI Version R1.00 MITTER Select All LMW-6030-sm 06/29/02 DIPLEXER RF FILTER POWER RT-1 RELAY AMPLIFIER MDR-8000 OC3 Controller Version R1.0 (OPTIONAL) ANTENNA PORT OT-1 RECEIVER CUSTOMER 4 FIBER RR-1 AUXILIARY INTERFACE POWER AMPLIFIER RT-2 (OPTIONAL) TRANSMITTER OR-2 OT-2 B OC3 I/O INTERFACE LEGEND = SWITCH = LASER OR OT RR RT = OPTICAL RCV = OPTICAL XMT = RADIO RCV = RADIO XMT RECEIVER RR-2 9 dB DOWN FROM RR1 ALLOWABLE COMBINATIONS OC3 IN XMTR RCVR OC3 OUT OR-1 OR-1 OR-2 OR-2 RT-1 RT-2 RT-2 RT-1 RR-1 RR-2 RR-2 RR-1 OT-1 OT-1 OT-2 OT-2 OC3 PROVISIONING EXAMPLE 7: HS Tx/HS Rx/4 Fiber Switched 4-26 Radio Configuration Service Channel OC3 Facilities SYSTEM ID: ELMC: 203R2 RADIO LINK ID: RADIO TYPE: MDR-8000 OC3 OC3-3 RADIO CONFIG: HS Tx None ATPC NS Tx Enabled HS Tx FD Tx Major/Minor SYSTEM ALARM: RCV SWITCHING: Disable AGC OPTIONS: Option Key: 128 TCM SD Rx None A&BRx PA Present NS HS Rx SD Rx ON/NO RELAYS Repeater TBOS Display 1 WaySide DS1 Facilities OC3 Facilities 2 Fiber 2 Fiber Frame B1 2 Fiber &Switched 4 Fiber 1:27:15 PM USI Version R1.00 4 Fiber Switched TRANSMITTER MDR-8000 OC3 Controller Version R1.00 RECEIVER BER Alarm Threshold 1X10-6 1X10-8 1X10-8 1X10-8 BER Switch Threshold Disable 1X10-8 1X10-7 1X10-8 A OC3 I/O INTERFACE OR-1 Tuesday, January 22, 2002 CUSTOMER 2 FIBER RSL Alarm Disable BER=1x10-6 Service Channel Fiber Configuration Tuessday, March 7, 2000 Disable Stat/Prov/WaySide Radio Configuration Section OH Insertion WaySide DS1 Facilities 2:03:38 PM TRANSMITTER USI Version R1.00 OT-1 RECEIVER Select All LMW-6029-sm 06/27/02 DIPLEXER RF FILTER POWER RT-1 RELAY AMPLIFIER (OPTIONAL) MDR-8000 OC3 Controller Version R1.0 MAIN ANTENNA PORT RR-1 AUXILIARY INTERFACE POWER AMPLIFIER RT-2 (OPTIONAL) TRANSMITTER RCV FILTER LEGEND = SWITCH B OC3 I/O INTERFACE RECEIVER RR-2 = LASER OR OT RR RT = OPTICAL RCV = OPTICAL XMT = RADIO RCV = RADIO XMT DIVERSITY ANTENNA PORT ALLOWABLE COMBINATIONS OC3 IN XMTR RCVR OC3 OUT OR-1 OR-1 RT-1 RT-2 RR-1 RR-2 OT-1 OT-1 OC3 PROVISIONING EXAMPLE 8: HS Tx/SD Rx/2 Fiber 4-27 Radio Configuration Service Channel OC3 Facilities SYSTEM ID: ELMC: 203R2 RADIO LINK ID: RADIO TYPE: MDR-8000 OC3 OC3-3 RADIO CONFIG: SYSTEM ALARM: HS Tx None ATPC NS Tx Enabled HS Tx Major/Minor FD Tx SD Rx None A&BRx PA Present NS HS Rx SD Rx RELAYS ON/NO RCV SWITCHING: Disable AGC BER=1x10-6 Option Key: OPTIONS: Radio Configuration WaySide DS1 Facilities Disable 128 TCM Repeater TBOS Display 1 Stat/Prov/WaySide Service Channel RSL Alarm Disable WaySide DS1 Facilities OC3 Facilities 2 Fiber Switched Fiber Configuration 2 Fiber Frame B1 2 Fiber &Switched 4 Fiber 1:27:15 PM USI Version R1.00 4 Fiber Switched TRANSMITTER Section OH Insertion Tuessday, March 7, 2000 MDR-8000 OC3 Controller Version R1.00 RECEIVER BER Alarm Threshold 1X10-6 1X10-8 1X10-8 1X10-8 BER Switch Threshold Disable 1X10-8 1X10-7 1X10-8 A OC3 I/O INTERFACE OR-1 Tuesday, January 22, 2002 2:03:38 PM OT-1 RECEIVER F3 SPLITTER POWER RT-1 AMPLIFIER (OPTIONAL) TRANSMITTER F1 USI Version R1.00 Select All MDR-8000 OC3 DIPLEXER FILTER RF RELAY MAIN ANTENNA PORT Controller Version R1.0 OFF-LINE XMTR IS TERMINATED RR-1 AUXILIARY INTERFACE CUSTOMER 2 FIBER POWER AMPLIFIER RT-2 (OPTIONAL) TRANSMITTER F2 COMBINER OR-2 OT-2 B OC3 I/O INTERFACE RECEIVER F4 RCV FILTER RR-2 DIVERSITY ANTENNA PORT ALLOWABLE COMBINATIONS LEGEND = SWITCH = LASER OR OT RR RT = OPTICAL RCV = OPTICAL XMT = RADIO RCV = RADIO XMT OC3 IN XMTR RCVR OC3 OUT OR-1 OR-1 OR-2 OR-2 RT-1 RT-2 RT-2 RT-1 RR-1 RR-1 RR-2 RR-2 OT-1 OT-2 OT-2 OT-1 OC3 PROVISIONING EXAMPLE 9: HS Tx/SD Rx/2 Fiber Switched 4-28 LMW-6026-sm 07/01/04 Radio Configuration Service Channel OC3 Facilities SYSTEM ID: ELMC: 203R2 RADIO LINK ID: RADIO TYPE: MDR-8000 OC3 OC3-3 RADIO CONFIG: SYSTEM ALARM: HS Tx None ATPC NS Tx Enabled HS Tx FD Tx Major/Minor RCV SWITCHING: Disable AGC Option Key: OPTIONS: Radio Configuration WaySide DS1 Facilities Disable 128 TCM HS Rx None A&BRx PA Present NS HS Rx SD Rx ON/NO RELAYS FD Rx BER=1x10-6 Repeater TBOS Display 1 Stat/Prov/WaySide Service Channel Section OH Insertion Tuessday, March 7, 2000 2 Fiber Frame B1 2 Fiber &Switched 4 Fiber 1:27:15 PM USI Version R1.00 4 Fiber Switched TRANSMITTER MDR-8000 OC3 Controller Version R1.00 RECEIVER BER Alarm Threshold 1X10-6 1X10-8 1X10-8 1X10-8 BER Switch Threshold Disable 1X10-8 1X10-7 1X10-8 A OC3 I/O INTERFACE Tuesday, January 22, 2002 OR-1 2:03:38 PM Select All LMW-7023-sm 06/29/02 XMT FILTER F1 RT-1 POWER AMPLIFIER (OPTIONAL) TRANSMITTER USI Version F1 R1.00 CIRCULATOR ANTENNA PORT OT-1 RECEIVER F3 RR-1 RCV FILTER F3 AUXILIARY INTERFACE POWER AMPLIFIER RT-2 (OPTIONAL) TRANSMITTER F2 LEGEND WaySide DS1 Facilities OC3 Facilities 4 Fiber Switched Fiber Configuration CUSTOMER 2 FIBER RSL Alarm Disable B OC3 I/O INTERFACE RECEIVER F4 XMT FILTER F2 RR-2 RCV FILTER F4 = SWITCH ALLOWABLE COMBINATIONS = LASER OR OT RR RT = OPTICAL RCV = OPTICAL XMT = RADIO RCV = RADIO XMT OC3 IN XMTR RCVR OC3 OUT OR-1 RT-1, 2 RR-1 RR-2 OT-1 OT-1 OC3 PROVISIONING EXAMPLE 10: FD Tx/FD Rx/2 Fiber 4-29 Radio Configuration Service Channel OC3 Facilities SYSTEM ID: ELMC: 203R2 RADIO LINK ID: RADIO TYPE: MDR-8000 OC3 OC3-3 RADIO CONFIG: SYSTEM ALARM: HS Tx None ATPC NS Tx Enabled HS Tx FD Tx Major/Minor RCV SWITCHING: Disable AGC Option Key: OPTIONS: Radio Configuration Tuessday, March 7, 2000 Disable 128 TCM SD Rx None A&BRx PA Present NS HS Rx SD Rx ON/NO RELAYS FD Rx BER=1x10-6 Repeater TBOS Display 1 RSL Alarm Disable Stat/Prov/WaySide Service Channel OC3 Facilities WaySide DS1 Facilities 2 Fiber Switched Fiber Configuration Section OH Insertion WaySide DS1 Facilities 2 Fiber Frame B1 2 Fiber &Switched 4 Fiber 1:27:15 PM USI Version R1.00 4 Fiber Switched TRANSMITTER MDR-8000 OC3 Controller Version R1.00 RECEIVER BER Alarm Threshold 1X10-6 1X10-8 1X10-8 1X10-8 BER Switch Threshold Disable 1X10-8 1X10-7 1X10-8 A OC3 I/O INTERFACE OR-1 Tuesday, January 22, 2002 2:03:38 PM OT-1 RECEIVER F3 SPLITTER MDR-8000 OC3 Controller Version R1.0 RCV FILTER F3 POWER AMPLIFIER RT-2 (OPTIONAL) TRANSMITTER F2 COMBINER OR-2 OT-2 B OC3 I/O INTERFACE RECEIVER F4 CIRCULATOR ANTENNA PORT RR-1 AUXILIARY INTERFACE CUSTOMER 2 FIBER XMT FILTER F1 POWER RT-1 AMPLIFIER (OPTIONAL) TRANSMITTER F1 USI Version R1.00 Select All XMT FILTER F2 RCV FILTER F4 RR-2 LEGEND = SWITCH = LASER OR OT RR RT ALLOWABLE COMBINATIONS = OPTICAL RCV = OPTICAL XMT = RADIO RCV = RADIO XMT OC3 IN XMTR RCVR OC3 OUT OR-1 OR-2 RT-1, 2 RT-1, 2 RR-1 RR-2 OT-1, 2 OT-1, 2 LMW-7024-sm 07/01/04 OC3 PROVISIONING EXAMPLE 11: FD Tx/FD Rx/2 Fiber Switched 4-30 Radio Configuration Service Channel OC3 Facilities SYSTEM ID: ELMC: 203R2 RADIO LINK ID: RADIO TYPE: MDR-8000 OC3 OC3-3 RADIO CONFIG: SYSTEM ALARM: HS Tx None ATPC NS Tx Enabled HS Tx FD Tx Major/Minor RCV SWITCHING: Disable AGC Option Key: OPTIONS: Radio Configuration WaySide DS1 Facilities Disable 128 TCM HS Rx None A&BRx PA Present NS HS Rx SD Rx ON/NO RELAYS FD Rx BER=1x10-6 Repeater TBOS Display 1 RSL Alarm Disable Stat/Prov/WaySide Service Channel OC3 Facilities WaySide DS1 Facilities 4 Fiber Switched Fiber Configuration 2 Fiber Frame B1 2 Fiber &Switched Section OH Insertion 4 Fiber 1:27:15 PM Tuessday, March 7, 2000 USI Version R1.00 4 Fiber Switched TRANSMITTER MDR-8000 OC3 Controller Version R1.00 RECEIVER BER Alarm Threshold 1X10-6 1X10-8 1X10-8 1X10-8 BER Switch Threshold Disable 1X10-8 1X10-7 1X10-8 A OC3 I/O INTERFACE Tuesday, January 22, 2002 OR-1 2:03:38 PM Select All LMW-7021-sm 06/29/02 XMT FILTER F1 POWER RT-1 AMPLIFIER (OPTIONAL) TRANSMITTER USI Version R1.00 F1 CIRCULATOR OT-1 RECEIVER F3 CUSTOMER 4 FIBER ANTENNA PORT RR-1 RCV FILTER F3 AUXILIARY INTERFACE POWER AMPLIFIER RT-2 (OPTIONAL) TRANSMITTER F2 OR-2 XMT FILTER F2 OT-2 LEGEND B OC3 I/O INTERFACE RECEIVER F4 RR-2 RCV FILTER F4 = SWITCH = LASER OR OT RR RT = OPTICAL RCV = OPTICAL XMT = RADIO RCV = RADIO XMT ALLOWABLE COMBINATIONS OC3 IN XMTR RCVR OC3 OUT OR-1 OR-2 RT-1, 2 RT-1, 2 RR-1 RR-2 OT-1, 2 OT-1, 2 OC3 PROVISIONING EXAMPLE 12: FD Tx/FD Rx/4 Fiber 4-31 Radio Configuration Service Channel OC3 Facilities SYSTEM ID: ELMC: 203R2 RADIO LINK ID: RADIO TYPE: MDR-8000 OC3 OC3-3 RADIO CONFIG: SYSTEM ALARM: HS Tx None ATPC NS Tx Enabled HS Tx FD Tx Major/Minor RCV SWITCHING: Disable AGC Option Key: OPTIONS: Radio Configuration Tuessday, March 7, 2000 Disable 128 TCM HS Rx None A&BRx PA Present NS HS Rx SD Rx ON/NO RELAYS FD Rx BER=1x10-6 Repeater TBOS Display 1 RSL Alarm Disable Stat/Prov/WaySide Service Channel OC3 Facilities WaySide DS1 Facilities 4 Fiber Switched Fiber Configuration Section OH Insertion WaySide DS1 Facilities 2 Fiber Frame B1 2 Fiber &Switched 4 Fiber 1:27:15 PM USI Version R1.00 4 Fiber Switched TRANSMITTER MDR-8000 OC3 Controller Version R1.00 RECEIVER BER Alarm Threshold 1X10-6 1X10-8 1X10-8 1X10-8 BER Switch Threshold Disable 1X10-8 1X10-7 1X10-8 A OC3 I/O INTERFACE OR-1 Tuesday, January 22, 2002 2:03:38 PM Select All LMW-7022-sm 06/29/02 XMT FILTER F1 RT-1 POWER AMPLIFIER (OPTIONAL) TRANSMITTER F1 USI Version R1.00 CIRCULATOR ANTENNA PORT OT-1 RECEIVER F3 RR-1 RCV FILTER F3 AUXILIARY INTERFACE CUSTOMER 4 FIBER POWER AMPLIFIER RT-2 (OPTIONAL) TRANSMITTER F2 OR-2 XMT FILTER F2 OT-2 B OC3 I/O INTERFACE LEGEND RECEIVER F4 RR-2 RCV FILTER F4 = SWITCH = LASER OR OT RR RT ALLOWABLE COMBINATIONS = OPTICAL RCV = OPTICAL XMT = RADIO RCV = RADIO XMT OC3 IN XMTR RCVR OC3 OUT OR-1 OR-2 RT-1, 2 RT-1, 2 RR-1 RR-2 OT-1, 2 OT-1, 2 OC3 PROVISIONING EXAMPLE 13: FD Tx/FD Rx/4 Fiber Switched 4-32 SELECT SUPERFRAME (SF) OR EXTENDED SUPERFRAME (ESF) TO MATCH FRAMING ON WAYSIDE DS1 INPUT. SELECT ON TO DISABLE ALARM REPORTING FOR WAYSIDE DS1 LINE. SELECT OFF TO REPORT ALL ALARMS FOR LINE. DS1 LINES ALARM DISABLE OFF OFF OFF OFF OFF OFF FRAME FORMAT ESF ESF ESF ESF ESF ESF LINE CODING ESF OFF SF OFF OFF OFF OFF OFF LINE LENGTH 0-133 0-33 0-33 0-33 0-33 0-33 Select All 0-133 133-266 133-266 133-266 133-266 MDR-1018 05/05/04 SELECT DISTANCE IN FT. TO CROSSCONNECT: SELECT AMI OR B8ZS CODING FOR WAYSIDE DS1 LINE. 0-133 133-266 266-399 399-533 533-655 Figure 4-10 OC3 Radio Wayside DS1 Facilities Provisioning Note There are five connectors on the backplane to interface the three service channels. Connectors on backplane interface three functions: Audio, RS-232, and MCS. Each service channel is provisioned for a specific function. Audio and MCS can be put on any open service channel. RS-232-1 data can be put on Service Channel 1 and RS-232-2 data can be put on Service Channel 2. RS-232 data cannot be put on Service Channel 3. SERVICE CHANNEL: 1:AUDIO-1 -16/+7 Norm SELECT AUDIO–1 0/0 Norm, AUDIO–1 0/0 O/H, AUDIO–1 –16/+7 Norm, AUDIO–1 –16/+7 O/H, AUDIO–2 0/0 Norm, AUDIO–2 0/0 O/H, AUDIO 2 –16/+7 Norm, AUDIO–2 –16/+7 O/H, MCS OR RS232-1 FROM THE DROP DOWN LIST. 2:AUDIO-2 -16/+7 Norm 3:MCS SELECT AUDIO–1 0/0 Norm, AUDIO–1 0/0 O/H, AUDIO–1 –16/+7 Norm, AUDIO–1 –16/+7 O/H, AUDIO–2 0/0 Norm, AUDIO–2 0/0 O/H, AUDIO 2 –16/+7 Norm, AUDIO–2 –16/+7 O/H, OR MCS FROM THE DROP DOWN LIST. SELECT AUDIO–1 0/0 Norm, AUDIO–1 0/0 O/H, AUDIO–1 –16/+7 Norm, AUDIO–1 –16/+7 O/H, AUDIO–2 0/0 Norm, AUDIO–2 0/0 O/H, AUDIO 2 –16/+7 Norm, AUDIO–2 –16/+7 O/H, MCS OR RS232–2 FROM THE DROP DOWN LIST. LMW-3017B-sm 06/04/03 Figure 4-11 DS1/E1, DS3, OC3 Radio Service Channel Provisioning (Sheet 1 of 2) 4-33 ONE MUST BE SELECTED FOR FUNCTION TO DISPLAY. SERVICE CHANNEL: 1:RS232-I RS-232 Bridge Off 2:RS232-2 3: MCS SELECT FOR TERMINAL (ONE DIRECTION) AE-37( ) CONTROLLER SC MULDEM J343 J314 RCV SC DATA E TO/FROM I/O INTFC XMT SC DATA W DROP INSERT RS-232 RXD1 RS-232 TXD1 J312 DATA PATH NOT USED RS-232 Bridge On SELECT FOR REPEATER (TWO DIRECTIONS) AE-37( ) CONTROLLER SC MULDEM J343 RCV SC DATA E TO/FROM I/O INTFC XMT SC DATA W J314 XMT SC DATA E THRU DROP INSERT THRU INSERT RS-232 RXD1 RCV SC DATA W DROP RS-232 TXD1 J312 BRIDGED PATHS LMW-9007-SM 03/13/03 Figure 4-11 DS1/E1, DS3, OC3 Radio Service Channel Provisioning (Sheet 2 of 2) 4-34 Note The 2-wire handset is transported over Audio 1 only. Note Audio provisioning is required only if 4-wire audio equipment (external equipment not part of the radio) is supplied and the external audio equipment is connected to audio port 1 J316 or audio port 2 J317 on the radio backplane. These provisionable 4-wire audio functions should not be confused with the 2-wire audio handset. The handset is fully operational after it is connected to the TEL jack on the radio controller module, provided the radio is provisioned Audio 1. The most common audio provisioning is: 1:, 2:, or 3: AUDIO 1 0/0 Norm. SERVICE CHANNEL: 1:AUDIO-1 0/0 Norm NORM – MODE OF OPERATION SELECTED IS NORMAL. IN THIS MODE THE RADIO REQUIRES AN OFF HOOK SIGNAL FROM THE EXTERNAL AUDIO EQUIPMENT. THIS MEANS THAT THE AUDIO EQUIPMENT USED TO CONNECT TO THE RADIO MUST HAVE E AND M-LEAD SIGNALING CAPABILITY (MOST AUDIO EQUIPMENT DOES HAVE THIS CAPABILITY). IF THE EXTERNAL AUDIO EQUIPMENT DOES NOT HAVE E AND MLEAD SIGNALING CAPABILITY, SELECT O/H AND A CONSTANT OFFHOOK SIGNAL WILL BE PROVIDED AUTOMATICALLY BY THE RADIO CONTROLLER SOFTWARE. 0/0 – RADIO REQUIRES 0 dBm AUDIO INPUT SIGNAL AT CONNECTOR J316. THE RECEIVED AUDIO SIGNALS ARE NOT AMPLIFIED. THE RADIO OUTPUTS 0 dBm ON AUDIO 1 CONNECTOR J316. THIS SELECTION IS NORMALLY SUFFICIENT IF THE RADIO AND EXTERNAL AUDIO EQUIPMENT ARE LOCATED IN THE SAME SHELTER, ROOM AND EVEN BUILDING. LONGER DISTANCES (SUCH AS BETWEEN BUILDINGS) MAY REQUIRE AMPLIFICATION ON THE OUTPUT SIGNAL. IN THIS CASE, SELECT -16/+7 WHERE THE RADIO INPUT REQUIRED IS -16 dBm AND THE RADIO AMPLIFIES RECEIVED AUDIO SIGNALS TO PROVIDE A +7 dBm OUTPUT AT AUDIO 1 CONNECTOR J316. AUDIO 1 OR AUDIO 2 – AUDIO CHANNEL TO BE INSERTED INTO SERVICE CHANNEL 1 IS 1 OR 2. IF AUDIO CHANNEL 1 IS ALREADY IN USE, SELECT AUDIO 2. ALL ORDERWIRE IS PARTY-LINE. IF YOU WANT TO BE ABLE TO RING A PARTICULAR SITE YOU MUST USE DTMF ON AUDIO 1. DTMF ALLOWS YOU TO RING A DIALED SITE BUT ANYONE CAN PICK UP THE 4-WIRE TELEPHONE AND/OR 2-WIRE HANDSET AND LISTEN TO THE CONVERSATION AND TALK. WHATEVER IS SELECTED FOR SERVICE CHANNEL 1, IT MUST BE THE SAME END-TO-END. 1:, 2: OR 3: – THE 64 kb/s SERVICE CHANNEL TO BE INSERTED INTO RADIO OVERHEAD IS 1. IF SERVICE CHANNEL 1 IS ALREADY IN USE, SELECT SERVICE CHANNEL 2 (2:) OR SERVICE CHANNEL 3 (3:) FOR THE AUDIO CHANNEL. WHATEVER IS SELECTED FOR SERVICE CHANNEL 1, 2, OR 3, IT MUST BE THE SAME END-TOEND. LMW-9041-sm 09/15/03 Figure 4-12 DS1/E1, DS3, OC3 Radio Audio Provisioning (Sheet 1 of 2) 4-35 Note DTMF allows you to dialup and ring other sites using the 2-wire handset. Only the ringing is detected. Communication over the handset is party-line. DTMF addressing is a local function not a network function, therefore if one or more radios are assigned the same DTMF address, they will all ring when that address is dialed. To be able to use the DTMF function: 1. Audio 1 must be selected for 2-wire handset operation. 2. DTMF must be turned ON on the Audio provisioning screen. 3. 2-wire handset must be connected to TEL jack on controller module. 4. Radios must be provisioned with DTMF address. SELECT E-Lead-24Vdc OR E-Lead GND TO BE APPLIED TO SERVICE CHANNEL E-LEAD. DOUBLE CLICK TO ENABLE (000 DISPLAYS). ENTER 3-DIGIT STATION CALL NUMBER. OPERATOR CAN DIAL THIS NUMBER AND RING/ COMMUNICATE WITH THE STATION VIA ORDERWIRE. SELECT OFF TO DISABLE DTMF. AUDIO: DTMF: NOT USED OFF E-Lead-24Vdc All Call Ringer Off Auto Squelch On LMW-3120B-SM 03/29/03 WHEN All Call Ringer On IS SELECTED, ALL TELEPHONES RING WHEN CALL IS INITIATED. WHEN All Call Ringer Off IS SELECTED, TELEPHONE ASSOCIATED WITH RADIO WILL NOT RING. USEFUL IN SITUATIONS WHERE MULTIPLE RADIOS ARE CONNECTED AT ONE SITE. Figure 4-12 DS1/E1, DS3, OC3 Radio Audio Provisioning (Sheet 2 of 2) 4-36 SELECT MCS RSS ON TO ALLOW CONTROLLER TO RESPOND WHEN REMOTE STATION SCANNER (RSS) IS POLLED. IF THIS OPTION IS TURNED OFF, CONTROLLER DOES NOT RESPOND WHEN RSS IS POLLED. REMOTE STATION SCANNER OPERATION IS AVAILABLE ONLY IF MCS IS SELECTED IN ONE OF THE SERVICE CHANNELS. MCS ADDRESS–ALLOWS USER TO ENTER AN MCS ADDRESS IF MCS-11 HAS BEEN SELECTED IN ONE OF THE SERVICE CHANNELS. THE FOLLOWING LIST PROVIDES A VALID ADDRESS FOR EACH STATION: ALPHA NUMERIC ALPHA THROUGH THROUGH THROUGH 16 MCS-11: MCS: A1B SELECT MCS 11 J309 Termination On TO ENABLE RESISTIVE TERMINATION AT THE END OF AN MCS-11 "DAISY CHAIN". SELECT MCS 11 J309 Termination Off FOR STAND-ALONE APPLICATIONS OR WHEN MDR-8000 IS JUST A LINK IN A DAISY-CHAIN. MCS RSS Off J308 Input Clock J309 Termination On J310 Modem SELECT J308 Input Clock TO SYNC PORT TO INPUT CLOCK FROM EXTERNAL SOURCE. (RCV CLK, XMT CLK AND OUTPUT CLK ARE DISABLED). SELECT J308 Output Clock TO SEND A 64 KBS CLOCK TO EXTERNAL EQUIPMENT. (RCV CLK, XMT CLK, AND OUTPUT CLK ARE ENABLED). LMW-4025-sm 09/17/02 SELECT MCS-11 J310 Master/Junction TO ENABLE XMT, RCV, AND OUTPUT CLOCKS. SELECT MCS-11 J310 Modem TO DISABLE XMT AND RCV CLOCKS. ALL CLOCKS TO BE PROVIDED BY EXTERNAL MODEM. Figure 4-13 DS1/E1, DS3, OC3 Radio MCS-11 Provisioning 4-37 Note MCS-11 is enabled/disabled using the service channel 1-3 selections. MCS-11 must be enabled for MCS-11/PPP transport operation. SELECT PORTS ON I/O INTFC MODULE. SERVICE CHANNEL IS INSERTED/DROPPED. MCS 11: MCS: A1A MCS RSS On J308 Output Clock J309 Termination Off MCS Transport RF/Rptr J310 Master/Junction PPP Transport None RF Rptr RF/Rptr MCS-11 DATA None None RF Rptr RF/Rptr MCS-11 AND IP DATA LMW-7234A 02/08/04 Note Currently the only valid transport combinations (for terminal or repeater) are: Note For MCS-11 to operate properly, all radio controllers in a system interconnected by RF or RPTR must have the same MCS transport and PPP transport provisioning. Currently the only valid transport combinations (for terminal or repeater) are: MCS TRANSPORT PPP TRANSPORT REMARKS RF/RPTR NONE TMN INTFC MODULE IS NOT INSTALLED. COMPATIBLE WITH OLDER (PRE-TMN) SOFTWARE. RECOMMENDED FOR SYSTEM UPGRADES ONLY. RF/RPTR RF/RPTR MUST BE CHOSEN IF TMN INTERFACE MODULE IS INSTALLED. RECOMMENDED FOR ALL NEW SYSTEMS. Figure 4-14 MCS Transport/PPP Transport Provisioning 4-38 PROVISION ANY ONE OR ALL RADIOS AT A SITE, LOCALLY, USING FOLLOWING PROCEDURE: 1. SINGLE CLICK TO PLACE CURSOR HERE. ELMC SYSTEM ID: 6. TYPE IN DESCRIPTION (IF DESIRED). J7914 5. TYPE IN 5-CHARACTER ADDRESS. MUST MATCH ADDRESS IN STEP 1 EXACTLY. RADIO LINK ID: Disable 2. BACKSPACE TO DELETE CURRENT ELMC ADDRESS (IF ANY). 3. ENTER 5-CHARACTER ELMC ADDRESS. 7. CLICK HERE TO ENTER NEW ADDRESS AND DESCRIPTION 4. OPEN ELMC ADDRESS SETUP SCREEN. Setup ELMC Address -- MDR-8000 Extended Link Monitor Channel (Elmc) Address J7914 ELMC: Description: -- DURANGO J7914 DURANGO Add Elmc=> Save Delete Elmc Cancel 8. CLICK HERE TO SAVE. DISPLAYS ENTERED ADDRESS DISPLAYS ENTERED ADDRESS LOCAL PROVISIONING ELMC Address: J7914 Description: DURANGO Communicating LMW-1019-sm 08/08/02 DISPLAYS ENTERED DESCRIPTION (IF ANY) Note Each network element controller with ELMC must first be locally provisioned with a unique ELMC or remote address. The ELMC address is not related to MCS-11. Any name can be entered as long as the name is a 5-character, alphanumeric word. The address is case sensitive. Space, dash, slash, asterisk, and underscored characters are not allowed. If small numbers are used as addresses, then it is necessary to fill higher order digits with zeros. For example, if the address is the value 1, then the address must be entered as 00001. No address, or the same address used on multiple network elements, prevents ELMC access to that/those network elements. The remote address can only be provisioned and changed locally. Service-affecting functions, including operation mode, radio configuration, and remote address, cannot be provisioned or changed remotely. Figure 4-15 DS1/E1, DS3, OC3 Radio ELMC Provisioning 4-39 SELECT TIME LOCALLY FOR ELMC RESPONSE TO A REQUEST FOR STATUS BEFORE TRYING AGAIN. SELECT SHORTER TIME (5 SECS) FOR SHORTER SYSTEMS (10 HOPS OR LESS). SELECT LONGER TIME (10 SECS) FOR SYSTEMS WITH 10 HOPS OR MORE. Remote Time-Out Constants -- MDR-8000 Select a value in the following list to change the current remote timeout 3 secs 4 secs 5 secs 6 secs 7 secs 8 secs 9 secs 10 secs Current time-out is 3 secs OK Cancel Alcatel User Interface - [Alarm Status -- MDR-8000 OC3] File View Setup Options F3 F4 ✓ Acknowledge F5 Alarm Status Analog Monitor F7 DURANGO Station Alarm Performance F9 User Control Provisioning Retrieving Provisioning LMW-4024A-SM 08/08/02 RECEIVER TRANSMIT STATUS F8 REMOTE STATUS ALARM ELMC Address [F8]: J7914 ELMC Description: F6 TRANSMITTER STATUS RECEIVER Note No Report If the time-out value selected is too short, there may not be enough time for the remote controller to respond before the requesting controller times out, resulting in a constant No Report. ELMC response time delay is a function of controller circuitry and is not linear. Always start with longer time-out, then reduce time to an acceptable value. COMMON STATUS I/O MESSAGE DISPLAYED FOR LENGTH PWR OF TIME SELECTED DURING TIME LOCAL RADIO IS ATTEMPTING TO COMMUNICATE WITH REMOTE ADDRESS VIA ELMC. MESSAGE DISPLAYED FOR LENGTH OF TIME SELECTED IF THERE IS NO RESPONSE TO REQUEST FOR STATUS/ CONTROL/PROVISIONING. Figure 4-16 DS1/E1, DS3, OC3 Radio ELMC Remote Time-Out Constant Provisioning 4-40 NOTE: DEFAULT CONTROL NAMES ARE USER CONTROL 1-6 1. OPEN USER CONTROL NAMES SETUP SCREEN 2. SELECT RADIO User Control Names Setup -- MDR-8000 CONTROL NAMES ELMC List RACK1 RACK2 RACK3 RACK4 ----- DURANGO DURANGO RED MTH PASS SILVERTON GEN START TWR LIGHT OVRD User Control #3 User Control #4 User Control #5 OK CLICK HERE TO SAVE CANCEL APPLY User Control #6 CLICK HERE TO CANCEL TRANSACTIONS BEFORE SAVE 3. SELECT CONTROL POINT 4. BACKSPACE TO DELETE AND TYPE IN NEW CONTROL NAME LMW-1021-SM 02/04/03 Figure 4-17 DS1/E1, DS3, OC3 Radio Control Names Provisioning 4-41 1. SELECT RADIO CLICK HERE TO SAVE Alcatel User Interface – [Provisioning MDR-8000 OC3] File View Setup Options F3 F4 Prov. Save F5 Alarm Status ELMC ADDRESS: F6 Analog Monitor S302 F7 Performance Station Alarm F8 F9 F11 Password User Control LOCAL DS3 PROVISIONING Communicating*** ELMC ADDRESS: DS301 -- MDR-8000 DS3 OK DS301 -- MDR-8000 DS3 ALARM # ALARM NAMES ALARM # ALARM NAMES [1] STATION ALARM #1 [13] STATION ALARM #13 [2] STATION ALARM #2 [14] STATION ALARM #14 [3] STATION ALARM #3 [15] STATION ALARM #15 [4] STATION ALARM #4 [16] STATION ALARM #16 [5] STATION ALARM #5 [6] STATION ALARM #6 [7] STATION ALARM #7 [8] STATION ALARM #8 [9] STATION ALARM #9 [10] STATION ALARM #10 [11] STATION ALARM #11 [12] STATION ALARM #12 Monday, August 6, 2001 2:11:32 PM MDR-8000 DS3 Cancel Apply ALARM # ALARM NAMES AVAILABLE IF RADIO IS PROVISIONED STATION ALARM 13-16 FOR SYSTEM ALARM ON RADIO CONFIGURATION PROVISIONING SCREEN. HIDDEN IF RADIO IS PROVISIONED TBOS DISPLAY 1-8. Controller Version R1.03 LMW-5068-sm 03/29/03 2. SELECT ALARM 3. BACKSPACE TO DELETE AND TYPE IN NEW ALARM NAME Figure 4-18 DS1/E1, DS3, OC3 Radio Alarm Names Provisioning Note DS3 screen is shown. DS1/E1 and OC3 alarm names provisioning is similar. 4-42 5 MAINTENANCE GENERAL This section contains information and procedures to aid in restoring the equipment to its proper operating condition after it has been determined that a problem exists. 5.1 The following warnings and cautions apply while operating, performance testing, troubleshooting, or repairing the MDR-8000 series radios. DANGER Possibility of Injury to Personnel Short circuits in low-voltage, low-impedance dc circuits can cause severe arcing that may result in burns or eye injury. Remove rings, watches, and other metal jewelry while working with primary circuits. Exercise caution to avoid shorting power input terminals. CAUTION Possibility of Service Interruption XMTR and RCVR crystals are soldered and tuned in an oscillator assembly board at the factory. Crystals are not replaceable components. CAUTION Possibility of Service Interruption Units with the electrostatic-sensitive (ESS) symbol contain ESS devices. Store these units in an antistatic container when not in use, and anyone handling a unit should observe antistatic precautions. Refer to the Special Precautions pages in the front of the instruction book for detailed handling information. 5-1 CAUTION Possibility of Service Interruption RF flex coaxial cable requires special consideration. The electrical characteristics of the coax can be affected if it is accidentally twisted or bent. Provide mechanical support to prevent any weight or strain to the coax and connector when connecting or disconnecting equipment. Loosen the connectors at both ends of a coax section if one end must be moved even slightly. SMA connectors should be secured in place fingertight, and then gently tightened using a torque wrench with a 5/16 in. head set for 7 to 9 inch-pounds. The connectors should not be left fingertight. Note Ensure that all antennas are properly aligned and waveguide is in good physical condition. Note Before performing procedures that might in any way affect transmission, it is recommended that the person performing the procedure understand the FCC Rules and Regulations pertaining to the equipment and be properly authorized to operate the equipment. 5.2 MAINTENANCE PHILOSOPHY This section provides information and procedures for equipment maintenance down to the module level. Module repair is not covered in this manual. A replacement procedure for the crystal oscillator subboard on the transmitter and receiver modules is provided to enable future use of the local oscillator at a different frequency in another application or at another location. Use the drawings in the appendix and those in the station drawing package to support the procedures in this section The use of maintenance procedures in this section may result from failure of a periodic check, an alarm indication, or unacceptable performance. These problems should normally be resolved as shown in the maintenance philosophy flow chart (Figure 5-1). 5-2 PERIODIC CHECK FAILURE* PERFORMANCE DOES NOT MEET ESTABLISHED STANDARDS ALARM INDICATION PERFORM TROUBLE ANALYSIS CHECKS AND ADJUSTMENTS REQUIRED* CAUSE OF ALARM MODULE REPLACEMENT REQUIRED REFER TO MODULE REPLACEMENT TABLE MODULE ADJUSTMENT REQUIRED NO YES PERFORM APPLICABLE CHECKS AND ADJUSTMENTS* MAINTENANCE COMPLETE YES PROBLEM RESOLVED NO PERFORM ADDITIONAL TROUBLESHOOTING USING THEORY AND DIAGRAMS SECTION AS REQUIRED TO RESOLVE PROBLEM *IF APPLICABLE MW300–0843–2 Figure 5-1 Maintenance Philosophy Flow Chart 5-3 5.3 SPECIAL TOOLS Refer to Table 5-1 for special tools required for maintenance. Similar tools can be substituted for those recommended; however, before substitution, check the minimum parameters. Table 5-1 Special Tools Required TOOL ESSENTIAL CHARACTERISTICS USED ON Torque Limiting Screwdriver Briggs-Weaver PN 8370-01880 #2 Phillips, 19 in-lb DS1/E1, DS3, OC3 #2 Phillips Bit Extension Briggs-Weaver PN 8528-27370 (for use with torque limiting screwdriver) DS1/E1, DS3, OC3 Torque Wrench, Utica Model CHA5 w/OP-102 5/16 in., 7-to-9 in-lb, sensing type DS1/E1, DS3, OC3 PERSONAL COMPUTER (PC) The PC is an on-line maintenance and troubleshooting tool. See Figure 5-2. Connect the RS-232 interface cable between USI connector on controller and the PC. 5.4 ALARM MONITORING AND INSPECTION Perform the following checks whenever a station is entered: 5.5 Verify that no alarms are lighted; only the green status indicators should be lighted. Momentarily press LAMP TEST switch. Verify all indicators light. Note Keeping records of errors and alarm history can be an aid to system troubleshooting. Note The local status alarms screen displays the alarms of the radio to which the USI is connected, either physically or addressed via the ELMC. 5-4 Using the USI computer, check local alarms on the Local Status Alarms screen. AE–37( ) CNTLR C1 MDR–8000 SHELF TO CONNECTOR J301 (CONNECTS TO AE–37 CONTROLLER) RS–232C INTERFACE CABLE USI TERMINAL RS–232C PORT MW211–0066–1 101598 Figure 5-2 USI Computer to Controller Interconnection 5-5 RECOMMENDED PERIODIC CHECKS Perform local oscillator frequency verification, receive local oscillator frequency verification, and transmitter output check 1 year after initial setting and at 5-year intervals thereafter to correct possible drift caused by aging. 5.6 TROUBLESHOOTING The digital radio system is equipped with alarm circuitry and automatic switching (in hotstandby, frequency diversity, and space diversity configurations) to provide protection against loss of traffic. This automatic switching, coupled with adaptive equalization of multipath distortion, provides protection against equipment outage and propagation variations. Because of the finite life of electronic equipment, failures occur. 5.7 5.7.1 Test Procedures All referenced test and check procedures are in Appendix E on attached CD. 5.7.2 Linear/Ring Radio Troubleshooting Troubleshoot linear and ring radio systems using alarm troubleshooting Figure 5-3 through Figure 5-14. Ring troubleshooting is further explained in the Maintenance section on the attached CD. After isolating the fault to the most probable cause, replace modules or repair as directed. The Module Replacement Matrix identifies the alignment procedures to be performed after a module has been replaced. 5-6 TRANSMITTER STATUS XMT OnLine XMT Provisioning Common Loss PA TEMPERATURE LIMITS PA Temperature EXCEEDED. CHECK PA Power MOUNTING SCREWS. Transmit Power ATPC High Power ATPC HAS BEEN ACTIVE ATPC Timeout FOR 5 MINUTES WITHOUT Sync Loss RETURNING TO NORMAL (DROPS BACK TO LOW POWER ONLY IF ATPC HAS BEEN ENABLED WITH TIMEOUT). SILENT FAILURE (NO ALARM ACTIVATED) AT TRANSMITTER. THE COMMON LOSS ALARM, GENERATED BY THE AE-37Y CONTROLLER, TRIGGERS WHEN BOTH A SIDE AND B SIDE DOWNSTREAM RECEIVERS HAVE A RADIO FRAME LOSS OR CHANNEL FAILURE. IN A HOT-STANDBY HOP, LOSS OF BOTH RECEIVERS INITIATES A REQUEST TO SWITCH TO STANDBY TRANSMITTER, EVEN THOUGH NO TRANSMIT ALARMS ARE PRESENT. IF THE PATH IS NOMINAL, THE TRANSMITTER SWITCHES IN 5 SECONDS. IF THE PATH IS IN A FADE (APC IS IN ACTIVE RANGE), THE TRANSMITTER SWITCHES IN 30 SECONDS. IF THE DOWNSTREAM ALARMS CLEAR WITHIN 5 SECONDS, A CLA IS INITIATED ON THE OFF-LINE SIDE TO INDICATE A SILENT TRANSMIT FAILURE. IF ALARMS STILL EXIST, THE TRANSMITTER CONTINUES TO SWITCH EVERY 30 SECONDS. THIS PROCESS CONTINUES UNTIL THE RECEIVE ALARMS CLEAR, BUT NO CLA IS ACTIVATED. Note In order to clear a CLA, it must be acknowledged locally (at radio indicating alarm) using front panel control on controller module. LMW-1027-sm (Page 1 of 2) 05/17/03 Figure 5-3 Troubleshooting DS1/E1 Radio XMT Alarms (Sheet 1 of 2) 5-7 LOSS OF XMT SIGNAL DETECTED AT OUTPUT OF PA. IF ANY OTHER ALARMS ARE RED, GO TO 1. IF NOT GO TO 2. 1. IF OFF NORMAL ALARM IS LIT, CHECK 10.5 V SWITCH ON POWER SUPPLY IS ON. IF NOT REMOVE/REPLACE PA MODULE. 2. MEASURE RF LEVEL AT RF MON CONNECTOR ON XMTR MODULE. IF LEVEL IS LOW, GO TO 3. IF NOT, GO TO 4. 3. MEASURE FREQUENCY AT XTAL MON CONNECTOR ON XMTR MODULE. IF FREQUENCY IS CORRECT, REMOVE/REPLACE XMTR MODULE. IF NOT REMOVE/REPLACE XTAL OSCILLATOR SUBBOARD. 4. REMOVE/REPLACE I/O INTERFACE MODULE. TRANSMITTER STATUS XMT On Line XMT Provisioning Common Loss PA Temperature PA Power Transmit Power ATPC High Power ATPC Timeout Sync Loss LOSS OF XMT SIGNAL DETECTED AT OUTPUT OF XMTR. IF I/O COMMON ALARM AND XMT SYNC LOSS ALARM ARE RED, GO TO 1. IF NOT GO TO 2. 1. REMOVE/REPLACE I/O INTERFACE MODULE. 2. MEASURE RF LEVEL AT RF MON CONNECTOR ON XMTR MODULE. IF LEVEL IS LOW, GO TO 3. IF NOT, GO TO 4. 3. MEASURE FREQUENCY AT XTAL MON CONNECTOR ON XMTR MODULE. IF FREQUENCY IS CORRECT, REMOVE/REPLACE XMTR MODULE. IF NOT, REMOVE/REPLACE XTAL OSCILLATOR SUBBOARD. 4. REMOVE/REPLACE I/O INTERFACE MODULE. IN PROTECTED SYSTEMS, INDICATES FAILURE IN SYNCHRONIZATION BETWEEN I/O INTERFACE MODULES. IF I/O INTERFACE MODULE IN-SERVICE IS NOT ACTIVE ON ALARMED SIDE, FAILURE IS BETWEEN A AND B I/O INTERFACE MODULES. IF I/O INTERFACE MODULE IN-SERVICE IS ACTIVE, FAILURE IS BETWEEN REPEATER RACKS OF SYNCHRONOUS REPEATER. 1. REPLACE A-SIDE I/O INTERFACE MODULE. 2. REPLACE B-SIDE I/O INTERFACE MODULE. LMW-1027 (Page 2 of 2) 10/27/99 Figure 5-3 Troubleshooting DS1/E1 Radio XMT Alarms (Sheet 2 of 2) 5-8 TRANSMITTER STATUS XMT On Line SEE DS1/E1 XMT ALARMS XMT PROV, FIG 5-3 XMT Provisioning DS3 I/O INTFC CANNOT RECOVER FRAMING FROM INCOMING DS3 SIGNAL OR THERE IS NO INPUT SIGNAL. IS DS3 AIS Detect ALARM ON? YES, TROUBLESHOOT UPSTREAM RADIOS AND EXTERNAL MUX Common Loss PA Temperature SEE DS1/E1 XMT ALARMS, FIG 5-3 EQUIPMENT. NO, CHECK INPUT SIGNAL. IF INPUT SIGNAL PA Power IS OK, REPLACE DS3 I/O INTFC. Transmit Power IF NOT, TROUBLESHOOT EXTERNAL ATPC High Power MUX EQUIPMENT. ATPC Timeout SYNC Loss DS3 INPUT TO DS3 I/O INTFC HAS EXCEEDED PROVISIONED BER THRESHOLD (HIGH ERROR DS3 Frame Loss CONDITION). DS3 Degraded TROUBLESHOOT EXTERNAL MUX EQUIPMENT. DS3 AIS Detect AIS (BLUE SIGNAL), INSERTED AT MUX (EXTERNAL TO THE RADIO) HAS BEEN DETECTED ON XMT INPUT TO DS3 I/O INTFC. TROUBLESHOOT EXTERNAL MUX EQUIPMENT. LMW-3131-sm 06/27/02 Figure 5-4 Troubleshooting DS3 Radio XMT Alarms 5-9 TRIGGERS WHEN BOTH A AND B RCVRS HAVE LOF. THIS INITIATES A REQUEST TO SWITCH XMTRS AT FAREND. WHEN RSL IS MORE POSITIVE THAN - 50 DBM, FAREND XMTR SWITCHES IN 5 SECONDS AND THEN SWITCHES EVERY 30 SECONDS UNTIL ALARM CLEARS. AFTER XMTR SWITCHES 10 TIMES, THE I/O INTERFACE MODULE SWITCHES. THIS SEQUENCE OF EVENTS CONTINUES UNTIL ALARM CLEARS. TROUBLESHOOT FAREND XMTRS. Note In order to clear a CLA, it must be acknowledged locally (at radio indicating alarm) using front panel control on controller module. TRANSMITTER STATUS Transmitter Fault SUMMARY ALARM FOR XMTR Transmitter On Line RF Common Loss OC3 I/O INTFC CANNOT RECOVER FRAMING FROM INCOMING OC3 SIGNAL OR THERE IS NO OPTICAL INPUT SIGNAL. IS OC3 AIS-L Detect ALARM ON? YES, TROUBLESHOOT UPSTREAM RADIOS AND EXTERNAL MUX EQUIPMENT. NO, CHECK OPTICAL INPUT SIGNAL. IF OPTICAL INPUT SIGNAL IS OK, REPLACE OC3 I/O INTFC. IF NOT, TROUBLESHOOT EXTERNAL MUX EQUIPMENT. PA Temperatore SEE DS1/E1 XMT ALARMS, FIG. 5-3 PA RF Power Transmitter RF Power ATPC High Power ATPC Timeout OC3 Input Online OC3 LOS OC3 LOF OC3 AIS-L Detect OC3 Degrade Monday, April 09, 2001 1:58:29 PM AIS (BLUE SIGNAL), INSERTED AT MUX (EXTERNAL TO THE RADIO) HAS BEEN DETECTED ON OC3 INPUT TO OC3 I/O INTFC. TROUBLESHOOT EXTERNAL MUX EQUIPMENT. OC3 INPUT TO OC3 I/O INTFC HAS EXCEEDED PROVISIONED BER THRESHOLD (HIGH ERROR CONDITION). TROUBLESHOOT EXTERNAL MUX EQUIPMENT. LMW-5034-sm 05/17/03 Figure 5-5 Troubleshooting OC3 Radio XMT Alarm 5-10 COMMUNICATION FAILURE BETWEEN CONTROLLER AND LOSS OF SIGNAL LOCK IN RCVR. RCVR. MAY BE CAUSED BY MISMATCH BETWEEN MAY BE DUE TO LOSS OF RCV SIGNAL CAPACITY KEYS. IF BOTH A AND B SIDES ARE ALARMED, OR LO OFF FREQUENCY REMOVE/REPLACE CONTROLLER. IF ONLY ONE SIDE IS 1. VERIFY RSL ON ANALOG MONITOR ALARMED, CHECK RCVR CAPACITY KEY ON FAILED SIDE. SCREEN. IF RSL IS OK, GO TO 2. IF NOT GO TO 3. 2. VERIFY RCVR XTAL FREQUENCY. IF FREQUENCY IS CORRECT, DEGRADED SIGNAL. NORMALLY REMOVE/REPAIR RCVR. IF NOT, THRESHOLD IS PROVISIONED TO REMOVE/REPLACE XTAL OSC PRECEDE CHANNEL FAIL ALARM. SUBBOARD NORMALLY ON IF CHANNEL FAIL 3. ON ANALOG MONITOR SCREEN VERIFY AND RADIO FRAME ARE ALARMED. RECEIVE LO VOLTAGE IS -3.0 ±0.5V dc. VERIFY RSL ON ANALOG MONITOR RECEIVER STATUS SCREEN. IF RSL IS OK, REMOVE/REPLACE RCVR. IF NOT: 1. CHECK FOR PATH FADING. 2. CHECK UPSTREAM XMTR. IF VOLTAGE IS CORRECT CHECK UPSTREAM XMTR. IF NOT, RCV On Line REMOVE/REPLACE XTAL OSC RCV Provisioning SUBBOARD. Channel Fail Radio Frame Loss LOW RSL ON ALARMED RCVR. Eye Closure ALARM ONLY FUNCTIONS IF RSL Status AGC SWITCHING THRESHOLD Path Distortion IS PROVISIONED ACTIVE. Radio Dade LOSS OF RADIO FRAME IN I/O INTERFACE. IF A AND B ARE ALARMED, REPLACE I/O INTERFACE. IF NOT, REPLACE ON LINE XMTR. 1. CHECK FOR PATH FADING. 2. CHECK UPSTREAM XMTR. OUT OF DADE RANGE. APPLICABLE TO HIGH LEVEL OF DISTORTION IN TDE DUE TO EXCESSIVE HOT-STANDBY RADIO. CHECK CABLE LENGTHS. MULTIPATH ACTIVITY. CHECK PATH FOR INTERFERENCE. LMW-1028 09/14/02 Figure 5-6 Troubleshooting DS1/E1 Radio RCV Alarms 5-11 RECEIVER STATUS RCV On Line SEE DS1/E1 RCV ALARMS RCV PROV, FIG 5-5 RCV Provisioning Channel Fail SEE DS1/E1 RCV ALARMS, FIG 5-5 Radio Frame Loss Eye Closure I/O INTERFACE CANNOT RECOVER FRAMING FROM SIGNAL FROM RCVR MODULE. 1. IS DS3 AIS Detect ALARM ON? YES, CHECK FOR UPSTREAM XMTR DS3 AIS Detect ALARM. IF XMTR DS3 AIS Detect ALARM IS ON, TROUBLESHOOT EXTERNAL MUX EQUIPMENT AT XMT END. IF NOT, TROUBLESHOOT UPSTREAM XMTR. NO, GO TO 2. 2. IS DS3 AIS Ins ALARM ON? YES, CHECK FOR UPSTREAM XMTR ALARMS. IF ANY XMTR ALARM IS ON, TROUBLESHOOT UPSTREAM XMTR. NO, GO TO 3. 3. IS RADIO HOT-STBY? YES A. ARE A AND B ALARMED? YES, TROUBLESHOOT XMTR NO, GO TO B B. REMOVE/REPLACE RCVR MODULE. C. REMOVE/REPLACE ALARMED DS3 I/O INTFC. RSL Status Path Distortion DS3 Frame Loss DS3 Degraded DS3 AIS Detect DS3 AIS Insert LOS HAS BEEN DETECTED AT RCV INPUT OF DS3 I/O INTFC AND AIS (BLUE SIGNAL) IS BEING INSERTED. CHECK FOR LOS AT XMTR END OF HOP. IF NOT, 1. CHECK FOR UPSTREAM XMTR ALARMS. ANY XMTR ALARMS? YES, TROUBLESHOOT XMTR. NO, GO TO 2. 2. REPLACE RCVR MODULE ON ALARMED SIDE. 3. REPLACE ALARMED DS3 I/O INTFC MODULE. SIGNAL FROM RCVR MODULE (INPUT TO DS3 I/O INTFC) HAS EXCEEDED PROVISIONED BER THRESHOLD (TYPICAL FADE CONDITION). IS DS3 Frame Alarm ALSO ON? YES, TROUBLESHOOT DS3 Frame Alarm. NO, AND NO-FADE CONDITION CONFIRMED 1. REPLACE RCVR MODULE. 2. REPLACE ALARMED DS3 I/O INTFC MODULE. AIS (BLUE SIGNAL), INSERTED AT MUX (EXTERNAL TO THE RADIO) HAS BEEN DETECTED BY DS3 I/O INTFC RCV CIRCUITS. TROUBLESHOOT EXTERNAL MUX EQUIPMENT (FAULT IS NOT IN RADIO). Figure 5-7 Troubleshooting DS3 Radio RCV Alarms 5-12 LMW-3132 07/17/02 I/O CONDITIONER CANNOT RECOVER FRAMING FROM SIGNAL FROM RCVR MODULE. 1. IS OC3 AIS-L Detect ALARM ON? YES, CHECK FOR UPSTREAM XMTR OC3 AIS-L Detect ALARM. IF XMTR OC3 AIS Detect ALARM IS ON, TROUBLESHOOT EXTERNAL MUX EQUIPMENT AT XMT END. RECEIVER STATUS SUMMARY ALARM FOR RCVR. Receiver Fault IF NOT, TROUBLESHOOT UPSTREAM XMTR. NO, GO TO 2. 2. IS RADIO HOT-STBY? YES Receiver On Line Channel Fail Eye Closure SEE DS1/E1 RCV ALARMS, FIGURE 5-5 Low RSL A. ARE A AND B ALARMED? YES, TROUBLESHOOT XMTR NO, GO TO B B. REMOVE/REPLACE RCVR MODULE. C. REMOVE/REPLACE ALARMED OC3 I/O INTFC. Path Distortion Radio Frame Loss AIS (BLUE SIGNAL), INSERTED AT MUX (EXTERNAL FUTURE USE OC3 Output Online TO THE RADIO) HAS BEEN DETECTED BY OC3 I/O OC3 Common Loss INTFC RCV CIRCUITS. OC3 LOF TROUBLESHOOT EXTERNAL MUX EQUIPMENT OC3 AIS-L Detect (FAULT IS NOT IN RADIO). OC3 Degrade SIGNAL FROM RCVR MODULE (INPUT TO OC3 I/O INTFC) HAS EXCEEDED PROVISIONED BER THRESHOLD (TYPICAL FADE CONDITION). IS OC3 LOF ALSO ON? YES, TROUBLESHOOT OC3 LOF. NO, AND NO-FADE CONDITION CONFIRMED 1. REPLACE RCVR MODULE. 2. REPLACE ALARMED OC3 I/O INTFC MODULE. LMW-5035-SM 06/27/02 Figure 5-8 Troubleshooting OC3 Radio RCV Alarms 5-13 COMMUNICATION FAILURE BETWEEN CONTROLLER AND ONE OR MORE DS1/E1 INTERFACE ASICS ON I/O INTERFACE MODULE. 1. IF A AND B ALARMS ARE ACTIVE, REPLACE CONTROLLER. 2. REPLACE I/O INTERFACE. VOLTAGE REGULATION FAILURE OR EXCESSIVE LOAD. 1. CYCLE POWER 2. CHECK FUSE 3. CHECK OUTPUT POWER 4. REPLACE POWER SUPPLY COMMON STATUS CLICK HERE, DROP DOWN LIST DISPLAYS ONE OR MORE MESSAGES. TROUBLESHOOT AS FOLLOWS. I/O On Line DS1 Provisioning Power Regulator Command Path CONTROLLER MODULE FAILURE. 1. RESEAT CONTROLLER. 2. REPLACE CONTROLLER. Off Normal Controller CONTROLLER PROVISIONING DOES NOT MATCH MODULE PROVISIONING. REPROVISION TO MEET SYSTEM REQUIREMENTS. Inventory Prov. Mismatch MODULE IS PRESENT, BUT CANNOT COMMUNICATE WITH CONTROLLER ON I2C BUS. 1. REMOVE AND REPLACE MODULE INDICATING READ FAIL ON INVENTORY SCREEN. 2. REMOVE AND REPLACE CONTROLLER. LOSS OF COMMUNICATION BETWEEN CONTROLLER AND FAREND CONTROLLER. 1. VERIFY RCVR OPERATION. 2. REPLACE CONTROLLER. Radio ID DS1 PROV RADIO IDs AT EACH END OF HOP MUST BE THE SAME. Ring Broke Previous Section EQUIPMENT MALFUNCTION WITHIN RING FAILURE OF RCVR IN PREVIOUS SECTION OF SYNCHRONOUS REPEATER CONFIGURATION. MESSAGE MEANING ACTION A/B SIDE LIO SPI FAIL LOST COMMUNICATION BETWEEN CONTROLLER AND I/O INTERFACE REMOVE/REPLACE 1) I/O INTERFACE 2) CONTROLLER A/B SIDE RCV SPI FAIL LOST COMMUNICATION BETWEEN CONTROLLER AND I/O INTERFACE/RCVR REMOVE/REPLACE 1) RCVR 2) I/O INTERFACE 3) CONTROLLER A/B SIDE DS1 SPI FAIL LOST COMMUNICATION BETWEEN CONTROLLER AND I/O INTERFACE REMOVE/REPLACE 1) I/O INTERFACE 2) CONTROLLER FAN ALARM FAN OR FAN CONTROL MODULE FAILED REMOVE/REPLACE FAN/FAN ASSEMBLY LIO/DS1 LOOPBACK ON A/B HIGH/LOW POWER LOCK FUNCTION ENABLED ON CONTROL SCREEN DISABLE FUNCTION ON CONTROL SCREEN A/B TX/RX/OR I/O OVERRIDE FUNCTION ENABLED ON CONTROL SCREEN OR FRONT PANEL ON CONTROLLER DISABLE FUNCTION ON CONTROL SCREEN OR CONTROLLER FRONT PANEL EEPROM PROV DOES NOT MATCH MODULE PROV PROVISIONING ON CONTROLLER DOES NOT MATCH PROVISIONING SCREEN PROVISION TO MATCH PROPER SYSTEM REQUIREMENTS LMW-1029 09/14/02 Figure 5-9 Troubleshooting DS1/E1 Radio Common Alarms 5-14 VOLTAGE REGULATION FAILURE OR EXCESSIVE LOAD. 1. CYCLE POWER 2. CHECK FUSE 3. CHECK OUTPUT POWER 4. REPLACE POWER SUPPLY MISMATCH BETWEEN PROVISIONING DATA WRITTEN TO I/O INTERFACE BY CONTROLLER AND THEN READ BY CONTROLLER. 1. REPROVISION AND SAVE. 2. REPLACE I/O INTERFACE MODULE. CLICK HERE, DROP DOWN LIST DISPLAYS ONE OR MORE MESSAGES. TROUBLESHOOT AS FOLLOWS. COMMON STATUS I/O On Line DS1 Provisioning LOSS OF COMMUNICATION BETWEEN CONTROLLER AND FAREND CONTROLLER. 1. VERIFY RCVR OPERATION. 2. REPLACE CONTROLLER. Power Regulator Command Path CONTROLLER MODULE RESET. CONTROLLER PROVISIONING DOES NOT MATCH MODULE PROVISIONING. REPROVISION TO MEET SYSTEM REQUIREMENTS. 1. IF A AND B I/O INTERFACE ALARMS ARE ACTIVE, REPLACE CONTROLLER. 2. REPLACE I/O INTERFACE. Off Normal Controller Inventory MODULE IS PRESENT, BUT CANNOT COMMUNICATE WITH CONTROLLER ON I2C BUS. 1. REMOVE AND REPLACE MODULE INDICATING READ FAIL ON INVENTORY SCREEN. 2. REMOVE AND REPLACE CONTROLLER. Prov. Mismatch Radio ID Ring Broke EQUIPMENT MALFUNCTION WITHIN RING MISMATCH BETWEEN LOCAL PROVISIONED RADIO ID AND FAR END RADIO ID. MESSAGE MEANING ACTION A/B SIDE LIO SPI FAIL LOST COMMUNICATION BETWEEN CONTROLLER AND I/O INTERFACE REMOVE/REPLACE 1) I/O INTERFACE 2) CONTROLLER A/B SIDE RCV SPI FAIL LOST COMMUNICATION BETWEEN CONTROLLER AND I/O INTERFACE/RCVR REMOVE/REPLACE 1) RCVR 2) I/O INTERFACE 3) CONTROLLER A/B SIDE DS1 SPI FAIL LOST COMMUNICATION BETWEEN CONTROLLER AND I/O INTERFACE REMOVE/REPLACE 1) I/O INTERFACE 2) CONTROLLER FAN ALARM FAN OR FAN CONTROL MODULE FAILED REMOVE/REPLACE FAN/FAN ASSEMBLY DS3 LOOPBACK ON A/B HIGH/LOW POWER LOCK FUNCTION ENABLED ON CONTROL SCREEN DISABLE FUNCTION ON CONTROL SCREEN A/B TX/RX/OR I/O OVERRIDE FUNCTION ENABLED ON CONTROL SCREEN OR FRONT PANEL ON CONTROLLER DISABLE FUNCTION ON CONTROL SCREEN OR CONTROLLER FRONT PANEL EEPROM PROV DOES NOT MATCH MODULE PROV PROVISIONING ON CONTROLLER DOES NOT MATCH PROVISIONING SCREEN PROVISION TO MATCH PROPER SYSTEM REQUIREMENTS LMW-1029B 02/27/02 Figure 5-10 Troubleshooting DS3 Radio Common Alarms 5-15 SUMMARY ALARM FOR I/O INTERFACE MODULE IS PRESENT, BUT CANNOT COMMUNICATE WITH CONTROLLER ON I2C BUS. 1. REMOVE AND REPLACE MODULE INDICATING READ FAIL ON INVENTORY SCREEN. 2. REMOVE AND REPLACE CONTROLLER. COMMON STATUS I/O Interface Fault LOSS OF COMMUNICATION BETWEEN CONTROLLER AND FAREND CONTROLLER. 1. VERIFY RCVR OPERATION. 2. REPLACE CONTROLLER. Power Supply Inventory CLICK HERE, DROP DOWN LIST DISPLAYS ONE OR MORE MESSAGES. TROUBLESHOOT AS FOLLOWS. VOLTAGE REGULATION FAILURE OR EXCESSIVE LOAD. 1. CYCLE POWER 2. CHECK FUSE 3. CHECK OUTPUT POWER 4. REPLACE POWER SUPPLY Command Path Off Normal Controller Repeater LOSS OF SIGNAL AT RPTR PORT. 1. CHECK RPTR CABLE 2. REPLACE I/O INTERFACE CONTROLLER MODULE RESET. MESSAGE MEANING ACTION OVERRIDE SWITCH ACTIVE OVRD CONTROL ON CONTROLLER MODULE IS ACTIVATED. DISABLE OVERRIDE PA POWER SUPPLY ALARM PA ON/OFF SWITCH ON POWER SUPPLY IS SET TO ON. SET PA ON/OFF SWITCH TO OFF CONTROLLER/POWER SUPPLY PROVISION MISMATCH PROVISIONING DATA STORED IN MEMORY ON CONTROLLER DOES NOT MATCH PROVISIONING DATA STORED IN MEMORY ON THE A-SIDE POWER SUPPLY. CAN'T PROVISION A POWER SUPPLY CAN NOT DOWNLOAD PROVISIONING DATA FROM CONTROLLER TO A-SIDE POWER SUPPLY. REMOVE/REPLACE 1) A-SIDE POWER SUPPLY 2) CONTROLLER A&B TX CAP-KEY MISMATCH CAPACITY KEY ON A-SIDE XMTR HAS DIFFERENT PAST NUMBER THAN CAPACITY KEY ON B-SIDE XMTR. VERIFY CAPACITY KEY REQUIREMENTS. REPLACE A/B SIDE CAPACITY KEY AS REQUIRED. ATPC LOCKED HIGH OR LOW ATPC LOCK FUNCTION ON USI CONTROL SCREEN IS ENABLED. DISABLE ATPC OR UNLOCK ATPC LOCK FUNCTION ON CONTROL SCREEN. FAN ALARM FAN OR FAN CONTROL MODULE FAILED. REMOVE/REPLACE FAN/FAN ASSEMBLY LMW-5033-SM 06/28/02 Figure 5-11 Troubleshooting OC3 Radio Common Alarms 5-16 LOSS OF INPUT SIGNAL TO I/O INTERFACE, INABILITY TO RECOVER CLOCK ON ALARMED LINE, OR BIPOLAR VIOLATION DETECTION A B 1. CHECK PRESENCE AND QUALITY OF DS1/E1 INPUT TO RADIO. DS1 LINE # 2. REPLACE I/O INTERFACE MODULE. SIDES TX SIG TRANSMIT HARDWARE FAILURE OR BUFFER SPILLS TX ALM ON ALARMED LINE. RX ALM 1. VERIFY QUALITY OF TX INPUT DATA. 2. REPLACE I/O INTERFACE MODULE. LOSS OF RECEIVE CLOCK, BUFFER SPILLS, OR ALARM INSERTION SIGNAL ON THE ALARMED LINE. MAY ALSO BE CAUSED BY DS1 DRIVER FAILURE. REPLACE I/O INTERFACE MODULE. LMW-1030-SM 10/27/99 Figure 5-12 Troubleshooting DS1/E1 Radio Alarms LOS HAS BEEN DETECTED AT RCV INPUT OF I/O CONDITIONER AND AIS (ALL ONES OR ZEROS) IS BEING INSERTED. CHECK FOR LOS AT XMT END OF HOP. IF NOT, 1. CHECK FOR UPSTREAM XMTR ALARMS. ANY XMTR ALARMS? YES, TROUBLESHOOT XMTR. NO, GO TO 2. 2. REPLACE ALARMED DS3 I/O INTFC. LOSS OF INPUT SIGNAL TO I/O INTERFACE, INABILITY TO RECOVER CLOCK ON ALARMED LINE, OR BIPOLAR VIOLATION DETECTION. 1. CHECK PRESENCE AND QUALITY OF DS1/E1 INPUT TO RADIO. 2. REPLACE I/O INTERFACE MODULE. DS1 ALARMS DS1 Inuput Loss DS1 XMT ALARM DS1 AIS INSERT TRANSMIT HARDWARE FAILURE OR BUFFER SPILLS ON ALARMED LINE. 1. VERIFY QUALITY OF TX INPUT DATA. 2. REPLACE I/O INTERFACE MODULE. DS1 RCV ALARM LOSS OF RECEIVE CLOCK, BUFFER SPILLS, OR ALARM INSERTION SIGNAL ON THE ALARMED LINE. MAY ALSO BE CAUSED BY DS1 DRIVER FAILURE. REPLACE I/O INTERFACE MODULE. LMW-3134 06/27/02 Figure 5-13 Troubleshooting DS3 Radio Wayside DS1 Alarms 5-17 LOSS OF INPUT SIGNAL TO I/O INTFC. 1. CHECK PRESENCE OF DS1 INPUT TO RADIO. 2. REPLACE I/O INTFC MODULE. WAYSIDE DS1 INABILITY TO RECOVER CLOCK OR BIPOLAR VIOLATION DETECTED ON DS1/E1 INPUT TO RADIO. 1. CHECK QUALITY OF DS1 INPUT TO RADIO. 2. REPLACE I/O INTFC MODULE. Xmtr/Rcvr On Line 1 2 3 1 2 3 Xmtr LOS 1 2 3 1 2 3 Xmtr LOF 1 2 3 1 2 3 Xmtr AIS Detect 1 2 3 1 2 3 Rcvr LOF 1 2 3 1 2 3 Rcvr AIS Detect 1 2 3 1 2 3 AIS DETECTED ON DS1 INPUT TO RADIO. FAULT IS EXTERNAL TO RADIO. CHECK EXTERNAL MUX SUPPLYING DS1/E1 TO RADIO. INABILITY TO RECOVER CLOCK OR BIPOLAR VIOLATION DETECTED ON OUTPUT OF RADIO RCVR. 1. CHECK XMTR END OF HOP FOR ALARMS. 2. REPLACE ALARMED I/O INTFC MODULE. AIS HAS BEEN DETECTED ON OUTPUT OF RADIO RCVR. FAULT IS NOT IN THIS RADIO. CHECK UPSTREAM XMTR/HOPS FOR ALARMS. LMW-5032 07/17/02 Figure 5-14 Troubleshooting OC3 Radio Wayside DS1 Alarms 5.7.3 Ring Radio Troubleshooting The four ring status LEDS on the front panel of the controller module are useful in determining the status of the ring radios. The four LEDs are divided into two groups: Command LEDs and Idle LEDs. Each group has an LED for the RF path and a LED for the repeater link. The command LEDs use a flashing pattern to determine the status of the ring. The Idle leds are used to determine if ring commands are being received on the corresponding port. Refer to ring trouble shooting on the attached CD for details. 5-18 5.8 MODULE REPLACEMENT WARNING Possibility of Damage to Equipment Modules screwed to heat sink must be screwed securely before power is turned on. WARNING Possibility of Damage to Equipment Units with the electrostatic-sensitive (ESS) symbol contain ESS devices. Store these units in an antistatic container when not in use, and anyone handling a unit should observe antistatic precautions. Damage to the unit may result if antistatic protection is not maintained. Refer to the Special Precautions pages in the front of the instruction book for detailed handling information. WARNING Possibility of Damage to Equipment RF flex coaxial cable requires special consideration. The electrical characteristics of the coax can be affected if it is accidentally twisted or bent. Provide mechanical support to prevent any weight or strain to the coax and connector when connecting or disconnecting equipment. Loosen the connectors at both ends of a coax section if one end must be moved even slightly. SMA connectors should be secured fingertight, and then gently tightened using a torque wrench with a 5/16 in. head set for 7 to 9 inch-pounds. The connectors should not be left fingertight. CAUTION Possibility of Service Interruption XMTR Crystals should never be shipped as replacements without being soldered and tuned up in an oscillator assembly board at the factory. 5-19 CAUTION Possibility of Service Interruption Modules may be removed or installed with shelf power applied. However, exercise reasonable care to prevent contacting adjacent modules. If clearances are narrow, consider setting the power supply to OFF while the module is being removed or replaced. (Before setting any switch to OFF, verify that traffic has been protected.) Before replacing any module, refer to Table 5-2 to determine the actions, other than physical replacement, required. If the module has any options (switches, subboards, etc.), refer to the removed module so that the replacement module can be set up the same way. Any module installed in the card cage, except those having front-panel cable connections, can be removed by grasping the module handle(s) and pulling firmly outward. Modules with front-panel interconnects can be removed in the same manner after disconnecting the cable from the module being removed and moving the cable out of the way. To install a module in the card cage, insert the module card connector edge into the appropriate card slot. Engage module handles in card cage and press on module handles until they are latched and the card is fully seated. After installing a module with front-panel interconnections, reconnect the cable(s) to the front-panel connector(s). 5-20 Table 5-2 Module Replacement Matrix MODULE/UNIT REMOVAL/REPLACEMENT PROCEDURE CHECKS/ADJUSTMENTS PROCEDURE AE-27AF Relay Interface No Special Procedure Required None Required AE-37Y Controller Chart 2 None Required CE-16BB Power Supply Chart 1 None Required Fuse No Special Procedure Required. Refer to Operations Section for Location. DX-35M DS1/E1 I/O Interface Chart 3 None Required DX-35N DS3 I/O Interface Chart 3 Appendix E DX-35P OC3 I/O Interface Chart 3 None Required UD-35( ) Transmitter Chart 4 Appendix E Crystal Oscillator Subboard Figure 5-17 The crystal oscillator subboard and crystal part numbers define this unit. The crystal is soldered to the oscillator subboard and factory tuned to the customers requirements. Capacity Key Figure 5-18 UD-36( ) Receiver Chart 5 Appendix E Crystal Oscillator Subboard Figure 5-19 The crystal oscillator subboard and crystal part numbers define this unit. The crystal is soldered to the oscillator subboard and factory tuned to the customers requirements. Capacity Key Figure 5-20 UD-51( ) Power Amplifier Chart 6 Appendix E LBO/AUX Interface Chart 7 in the Maintenance section on the attached CD No Special Procedure Required RF Switch Chart 8 in the Maintenance section on the attached CD No Special Procedure Required (1) (2) If ATPC is in use, it must be provisioned disabled or locked high before removing controller. Appendix E is on attached CD. 5-21 5.9 CHANGING FREQUENCY CAUTION Possibility of Service Interruption Crystals are soldered and tuned up in a crystal oscillator subboard at the factory. Changing frequencies requires changing the crystal on the crystal oscillator subboard in the transmitter and receiver modules. Changing out the crystal requires tuning the crystal oscillator subboard. Tuning the crystal oscillator subboard is a factory procedure. An RF frequency change of ±2 MHz requires re-tuning the diplexer. Re-tuning the diplexer is a factory procedure. 5.10 CLEANING CAUTION Possibility of Service Interruption Do not use acid, alcohol, or brushes to clean modules because damage to the silkscreen labeling and antistatic coating can result. Cleaning should be confined to the removal of dust and dirt using a damp cloth. Cleaning should normally be confined to the removal of dust and dirt using a soft bristled (natural fiber) brush and a low velocity blower (such as a vacuum cleaner with a plastic blower nozzle). Do not use acid or synthetic bristled brushes to clean modules that contain electrostatic-sensitive components. 5-22 Chart 1 Power Supply Removal and Replacement PURPOSE Use this procedure to remove and replace CE-16BB Power Supply. SPECIAL TOOLS REQUIRED Torque Screwdriver STEP PROCEDURE WARNING Possibility of Damage to Equipment Wear ground straps according to local office procedures. WARNING Possibility of Damage to Equipment Ensure the two mounting screws, accessible through the front panel, are loosened before attempting to remove power supply from shelf to prevent breaking handle. WARNING Possibility of Damage to Equipment Mounting surfaces on both power supply and heatsink must be clean to ensure proper heat transfer. Mounting screws must be torqued to 19 in. lbs. CAUTION Possibility of Service Interruption This is an out-of-service procedure when on a nonstandby (unprotected) system. On a hot-standby or frequency diversity system, switch traffic on the channel under test to protect. 5-23 STEP PROCEDURE, CONTINUED Is radio protected (hot-standby or frequency diversity)? If yes, go to step 2. If no, go to step 3. Use front panel OVRD controls on AE-37( ) Controller to switch and lock on-line opposite side XMTR, RCVR, and I/O to opposite side from failed power supply. Do you want to remove or install power supply module? If remove, go to step 4. If install, go to step 7. REMOVE: On failed power supply, set PA ON/OFF switch to OFF. On failed power supply, set POWER ON/OFF switch to OFF. Perform removal steps shown on Figure 5-15. INSTALL: Perform installation steps shown on Figure 5-15. Was XMTR, RCVR, and I/O switched (step 2)? If yes, go to step 9. If no, go to step 10. On AE-37( ) Controller, toggle OVRD switch to disable override (unlocks on-line XMTR, RCVR, and I/O and restores automatic switching functions). Note If radio is not equipped with power amplifiers and the PA ON/OFF switch on the power supply is accidently turned on, the OFF NORM alarm on the power supply and the Off Normal alarm on the USI Status Alarm screen will light. The off normal message on the USI Status Alarm screen will be blank. 5-24 STEP 10 PROCEDURE, CONTINUED Is radio equipped with optional PA? If yes, go to step 11. If no, go to step 16. 11 On power supply, set PA ON/OFF switch to ON. Note DS3 and OC3 radios have provisioning data stored on both the controller and A-side power supply. When provisioning is saved through downloading, the provisioning data is stored on both modules. If the radio is non-standby and the A-side power supply fails, the radio must be reprovisioned after the module is replaced and the reprovisioned data downloaded and saved. If the radio is hot-standby, the provisioning data stored on the controller is automatically copied to the replacement A-side power supply when provisioning is saved. 12 is radio DS3/OC3 non-standby? If yes, go to step 13. If no, go to step 16. 13 Go to applicable DS3/OC3 initial turnup section and reprovision radio. Note A mismatch between software revisions on the controller and the replacement A-side power supply causes a flashing controller fail alarm when the spare power supply is plugged in. 14 Observe Alarm LED on controller. Is controller alarm flashing (software/ firmware mismatch indicated)? If yes, go to step 15. If no, go to step 16. 15 Go to applicable DS3/OC3 initial turnup section and download and save current provisioning. 16 STOP. This procedure is complete. 5-25 P/O SHELF INSTALL: (INSTALL STEPS ARE PREFIXED BY LETTER "I"). REMOVE: (REMOVE STEPS ARE PREFIXED BY LETTER "R"). ALARM R1. SET PA POWER SWITCH TO OFF. OFF NORM I1. VERIFY JOINING SURFACES ON POWER SUPPLY AND HEATSINK ARE CLEAN. I2. INSERT POWER SUPPLY IN SHELF AND LATCH TOP AND BOTTOM INSERTION AND EXTRACTION HANDLES. I3. TIGHTEN SCREWS. TORQUE SCREWS TO 19 IN. LBS. I4. SET POWER SWITCH TO ON. ON 1 POWER R2. SET POWER SWITCH TO OFF. OFF 0 +10.5V R3. LOOSEN MOUNTING SCREWS. +12V –5V –12V NOTE R4. UNLATCH TOP AND BOTTOM INSERTION AND EXTRACTION HANDLES AND REMOVE POWER SUPPLY FROM SHELF. IF PA IS NOT EQUIPPED, SETTING PA POWER SWITCH TO ON WILL TURN ON OFF NORM ALARM. GND I5. ON SET PA POWER SWITCH TO ON (IF EQUIPPED). PA OFF CAUTION: TIGHTEN MOUNTING SCREWS BEFORE APPLYING POWER 2 PLACES MARKED P/O SHELF Figure 5-15 Power Supply Removal/Installation 5-26 LMW-6092-SM 06/04/02 Chart 2 Controller Removal and Replacement PURPOSE Use this procedure to remove and replace AE-37Y Controller. SPECIAL TOOLS REQUIRED None STEP PROCEDURE WARNING Possibility of Damage to Equipment Wear ground straps according to local office procedures. CAUTION Possibility of Service Interruption This is an in service procedure, however protection switching is disabled. If another failure occurs during the performance of the procedure, service will be interrupted. Do you want to remove or install controller module? If remove, go to step 2. If install, go to step 6. REMOVE: Is controller installed in an OC3 radio? If yes, go to step 3. If no, go to step 5. On front panel of controller module, press and hold ACO LT/OVRD switch in ACO LT (lamp test) position until TX, RX, and I/O ON LINE LEDs on front of controller flash (approximately 5 seconds wait). Release ACO LT/OVRD switch. Remove controller module from shelf. 5-27 STEP PROCEDURE, CONTINUED INSTALL: See Figure 5-16 and follow step-by step procedure to install controller module. LBO/OC3 AUX INTFC 1 REMOVE FAILED CONTROLLER J2 2 REMOVE ELMC OPTION KEY (IF EQUIPPED) 3 INSTALL REMOVED ELMC OPTION KEY FROM STEP 2 ON REPLACEMENT CONTROLLER. 4 INSTALL REPLACEMENT CONTROLLER IN SHELF. Figure 5-16 Controller Module Installation (Sheet 1 of 4) 5-28 LMW-5062-SM 06/04/02 Note A replacement controller that is loaded with the same firmware load as the controller that is being replaced (i.e.: controller for DS3 radio is replacing a DS3 radio controller) is automatically rebooted and provisioned to match the module it is replacing. If the replacement controller is for a different type of radio (i.e.; controller for a DS3 radio is being used to replace a controller in a DS1 or OC3 radio), the controller alarm will flash when the replacement module is installed in the shelf. The flashing alarm prompts the user that the wrong firmware is installed. VERIFY ALARM LED IS NOT FLASHING AND REBOOT IS IN PR OGR ESS. (R EBOOT I S I N D I C AT E D B Y A L L L E D S F L A S H I N G IN PROGRESSION. IS CONTROLLER ALARM FLASHING? Y E S , GO TO STEP 6 . NO, IS REBOOT IN PROGRESS? Y E S , S TO P. T H I S P R O C E D U R E I S C O M P L E T E . N O , R E P L A C E M E N T C O N T R O L L E R H A S FA I L E D . L M W- 5 0 6 3 06/04/02 Figure 5-16 Controller Module Installation (Sheet 2 of 4) 5-29 6 CLICK HERE PROVISIONING HOLD MESSAGE DISPLAYS. 7 CLICK HERE Alcatel User Interface File View Setup Options Communication Options F6 F5 F4 New Controller Alarm Status F7 Performance Station Alarm F8 F9 User Control Provisioning Firmware Upgrade LOCAL MAIN ELMC Address Diagnostics ELMC Descriptions Communicating*** Prov. Hold TDE Chip Receive Provisioning NOTE PROVISIONING HOLD MESSAGE IS DISPLAYED ON ALL SCREENS. THE MESSAGE IS REMOVED WHEN PROVISIONING IS SAVED. Figure 5-16 Controller Module Installation (Sheet 3 of 4) 5-30 LMW-5065-SM 08/10/01 8 CLICK HERE 10 CLICK HERE 9 CLICK HERE Alcatel User Interface File View Setup Options Communication Options F6 F5 F4 New Controller Alarm Status F7 Performance Firmware Upgrade F8 Station Alarm User Control Download LOCAL MAIN ELMC Address Diagnostics ELMC Descriptions F9 Provisioning Prov. Hold Communicating*** TDE Chip Receive Provisioning Please Select a Filename in the Following Drive Directory before Downloading CSS0038.DAT 38.DAT CSS00 c: 12 c:\ windnld CLICK ON LATEST FILE (HIGHEST NUMBER) 11 CLICK HERE 0% The Current Select File Is: c:\windnld\CSS00_38.DAT 13 CLICK HERE Start Down Load PROGRESS BAR DISPLAYS % OF DATA LOADED 100% Downloading at 38400 Baud 0% VERIFY PROGRESS BAR DISPLAYS % OF DATA VERIFIED 100% Verify Down Load NOTE AFTER AUTOMATICALLY REBOOTING, THE CONTROLLER WILL START RUNNING, PROVISIONING PREVIOUSLY STORED IN THE CONTROLLER WILL BE LEFT UNCHANGED BY THE DOWNLOAD PROGRAM. LMW-5064-SM 08/10/01 14 GO TO THE INITIAL TURNUP SECTION AND CHECK PROVISIONING/REPROVISIONING AS REQUIRED. NOTE AFTER PROVISIONING IS SAVED, THE CONTROLLER WILL BOOT UP WITHIN 20 SECONDS. 15 STOP. THIS PROCEDURE IS COMPLETE. Figure 5-16 Controller Module Installation (Sheet 4 of 4) 5-31 Chart 3 I/O Interface Removal and Replacement PURPOSE Use this procedure to remove and replace DX-35( ) I/O Interface module. SPECIAL TOOLS REQUIRED None STEP PROCEDURE WARNING Possibility of Damage to Equipment Wear ground straps according to local office procedures. CAUTION Possibility of Service Interruption This is an out-of-service procedure when on a nonstandby (unprotected) system. On a hot-standby or frequency diversity system, switch traffic on the channel under test to protect. Is radio protected (hot-standby or frequency diversity)? If yes, go to step 2. If no, go to step 3. Use front panel OVRD controls on AE-37( ) Controller to lock on-line XMTR, RCVR, and I/O (opposite side from failed I/O) on line. Do you want to remove or install I/O interface module? If remove, go to step 4. If install, go to step 9. REMOVE: Is I/O interface module DX-35P OC3 I/O Interface? If yes, go to step 7. If no, go to step 8. 5-32 STEP PROCEDURE, CONTINUED On front panel of controller module, press and hold ACO LT/OVRD switch in ACO LT (lamp test) position until TX, RX, and I/O ON LINE LEDs on front of controller flash (approximately 5 seconds wait). Release ACO LT/OVRD switch. Disconnect fiber optic cables. Remove I/O interface module from shelf. INSTALL: 10 Install I/O interface module in shelf. Is I/O interface module DX-35P OC3 I/O Interface? If yes, go to step 11. If no, go to step 15. 11 Connect fiber optic cables. 12 Is I/O interface module DX-35N DS3 I/O Interface? If yes, go to step 13. If no, go to step 15. 13 Perform Radio DADE. Refer to Appendix E. 14 Perform DS3 Line DADE. Refer to Appendix E. 15 Was I/O locked on line (step 2). If yes, go to step 16. If no, go to step 17. 16 On AE-37( ) Controller, toggle OVRD switch to disable override (unlocks on-line XMTR and restores automatic switching functions). 17 STOP. This procedure is complete. 5-33 Chart 4 XMTR Removal and Replacement CAUTION Possibility of Service Interruption XMTR Crystals should never be shipped as replacements without being soldered and tuned up in an oscillator assembly board at the factory. PURPOSE Use this procedure to remove and replace UD-35( ) XMTR and/or: to replace a faulty crystal oscillator subboard to change out the crystal oscillator subboard to change frequency to move oscillator to a replacement XMTR to replace a faulty capacity key to change DS1/E1 or DS3 capacity to move capacity key to a replacement XMTR SPECIAL TOOLS REQUIRED None STEP PROCEDURE WARNING Possibility of Damage to Equipment This is an out-of-service procedure when on a nonstandby (unprotected) system. On a hot-standby or frequency diversity system, switch traffic on the channel under test to protect. 5-34 STEP PROCEDURE, CONTINUED WARNING Possibility of Damage to Equipment Wear ground straps according to local office procedures. Do you want to remove or install XMTR module? If remove, go to step 2. If install, go to step 8. REMOVE: Is radio protected (hot-standby or frequency diversity)? If yes, go to step 3. If no, go to step 4. Use front panel OVRD controls on AE-37( ) Controller to lock on-line XMTR (opposite side from failed XMTR) on line. On XMTR module, disconnect cable from RF OUT connector. CAUTION Possibility of Service Interruption Removing XMTR module from card cage causes SYNC LOSS and I/O PROV alarms. Remove XMTR module from card cage. On XMTR module being replaced, remove XMTR crystal oscillator subboard. Retain for installation on replacement module. On XMTR module being replaced, remove XMTR capacity key. Retain for installation on replacement module. 5-35 STEP PROCEDURE, CONTINUED INSTALL: On replacement XMTR module, install XMTR crystal oscillator subboard. See Figure 5-17. On replacement XMTR module, install XMTR capacity key. See Figure 5-18. 10 Install replacement XMTR module in card cage. 11 Perform XMT Crystal Oscillator Frequency Checks and Adjustment procedure. Refer to Appendix E. 12 Is radio equipped with optional PA? If no, Perform XMTR Output Level Checks and Adjustment (No PA) procedure. Refer to Appendix E. If yes, Perform PA Output Level Checks and Adjustment procedure. Refer to Appendix E. 13 Perform XMTR Carrier Null Adjustment procedure. Refer to Appendix E. 14 Was XMTR locked on-line on step 3. If yes, go to step 15. If no, go to step 16. 15 On AE-37( ) Controller, toggle OVRD switch to disable override (unlocks on-line XMTR and restores automatic switching functions). 16 STOP. This procedure is complete. 5-36 REMOVE: (REMOVE STEPS ARE PREFIXED BY LETTER “R”). R1. REMOVE TRANSMITTER FROM CARD CAGE. R2. REMOVE 8 SCREWS FROM CR YSTAL OSC SUBBOARD COVER, AND REMOVE COVER. XMTR- RIGHT SIDE VIEW R3. DISCONNECT RIBBON CABLE FROM J8. R4. REMOVE 3 MOUNTING SCREWS, AND REMOVE CRYSTAL OSC SUBBOARD. INSTALL (INSTALL STEPS ARE PREFIXED BY LETTER “I”). I1. PLACE CRYSTAL OSC SUBBOARD IN MOUNTING CAVITY Note J8 CRYSTAL OSC SUBBOARD Ensure board edge does not make contact with chassis wall. I2. INSTALL 3 MOUNTING SCREWS. I3. CONNECT RIBBON CABLE TO CONNECTOR J8. I4. INSTALL COVER WITH 8 SCREWS. I5. INSTALL XMTR IN CARD CAGE. MDR-1021 06/08/04 Figure 5-17 XMTR Crystal Oscillator Subboard Removal/Installation 5-37 CAUTION Possibility of Service Interruption REMOVE: (REMOVE STEPS ARE PREFIXED BY THE LETTER "R"). This is an out-of-service procedure when on a nonstandby (unprotected) system. On a hotstandby or frequency diversity system, switch traffic on the channel under test to protect. R1. REMOVE TRANSMITTER FROM CARD CAGE. R2. REMOVE 13 SCREWS FROM CAPACITY KEY AND REMOVE CAPACITY KEY. INSTALL: (INSTALL STEPS ARE PREFIXED BY THE LETTER "I"). I1. I2. INSTALL CAPACITY KEY ON THREE CONNECTORS. INSTALL 13 SCREWS. XMTR-RIGHT SIDE VIEW Figure 5-18 XMTR Capacity Key Removal/Installation 5-38 LMW-6016-SM 09/12/02 Chart 5 RCVR Removal and Replacement CAUTION Possibility of Service Interruption XMTR Crystals should never be shipped as replacements without being soldered and tuned up in an oscillator assembly board at the factory. PURPOSE Use this procedure to remove and replace UD-36( ) RCVR and/or: to replace a faulty crystal oscillator subboard to change out the crystal oscillator subboard to change frequency to move oscillator to a replacement RCVR to replace a faulty capacity key to change DS1/E1 or DS3 capacity to move capacity key to a replacement RCVR SPECIAL TOOLS REQUIRED None STEP PROCEDURE DANGER Possibility of Injury to Personnel Exposure to energy radiated at microwave frequencies can cause eye injury and eventual blindness. Do not operate the system with a waveguide port unterminated. 5-39 STEP PROCEDURE, CONTINUED WARNING Possibility of Damage to Equipment Wear ground straps according to local office procedures. CAUTION Possibility of Service Interruption This is an out-of-service procedure when on a nonstandby (unprotected) system. On a hot-standby, space diversity, or frequency diversity system, switch traffic on the channel under test to protect. Is radio protected (hot-standby or frequency diversity)? If yes, go to step 2. If no, go to step 3. Use front panel OVRD controls on AE-37( ) Controller to switch and lock opposite side RCVR (opposite side from failed RCVR) on line. Do you want to remove or install RCVR module? If remove, go to step 4. If install, go to step 8. REMOVE: On RCVR module, disconnect cable from RF In connector. CAUTION Possibility of Service Interruption Removing RCVR module from card cage causes CHANNEL FAIL, EYE CLOSURE, RADIO FRM LOSS, and RCV PROV alarms. 5-40 Remove RCVR module from card cage. STEP PROCEDURE, CONTINUED On RCVR module being replaced, remove RCVR crystal oscillator subboard. See Figure 5-19. Retain for installation on replacement module. On RCVR module being replaced, remove RCVR capacity key. See figure 2. Retain for installation on replacement module. INSTALL: On replacement RCVR module, install RCVR crystal oscillator subboard. See Figure 5-19. On replacement RCVR module, install RCVR capacity key. See Figure 5-20. 10 Install replacement RCVR module in card cage. 11 Is RCVR equipped with front panel FREQ CONT? If yes, go to step 12. If no, go to step 13. 12 Perform RCV Crystal Oscillator Frequency Checks and Adjustment procedure. Refer to Appendix E. Note Optional performance checks, including RSL, BER and RCVR Threshold are provided in Appendix E. 13 Was RCVR switched on step 2? If yes, go to step 14. If no, go to step 17. 14 On AE-37( ) Controller, toggle OVRD switch to disable override (unlocks on-line RCVR and restores automatic switching functions). 15 Open Control screen. 16 On Control screen, under heading IN-SERVICE, highlight A RCVR On Line or B RCVR On Line and select Yes on confirmation message to force opposite side RCVR off line. 17 STOP. This procedure is complete. 5-41 REMOVE: (REMOVE STEPS ARE PREFIXED BY LETTER “R”). R1. REMOVE RECEIVER FROM CARD CAGE. R2. REMOVE 8 SCREWS FROM CR YSTAL OSC SUBBOARD COVER, AND REMOVE COVER. RCVR–RIGHT SIDE VIEW R3. DISCONNECT RIBBON CABLE FROM J8. R4. REMOVE 3 MOUNTING SCREWS, AND REMOVE CRYSTAL OSC SUBBOARD. INSTALL: (INSTALL STEPS ARE PREFIXED BY LETTER “I”). I1. PLACE CRYSTAL OSC SUBBOARD IN MOUNTING CAVITY. J8 CRYSTAL OSC SUBBOARD Note Ensure board edge does not make contact with chassis wall. I2. INSTALL 3 MOUNTING SCREWS. I3. CONNECT RIBBON CABLE TO CONNECTOR J8. I4. INSTALL COVER WITH 8 SCREWS. I5. INSTALL RECEIVER IN CARD CAGE. MDR-1022 06/08/04 Figure 5-19 RCVR Crystal Oscillator Subboard Removal/Installation 5-42 REMOVE: (REMOVE STEPS ARE PREFIXED BY LETTER ‘R’). R1. REMOVE RCVR FROM CARD CAGE. R2. REMOVE 13 SCREWS FROM CAPACITY KEY AND REMOVE CAPACITY KEY. INSTALL: (INSTALL STEPS ARE PREFIXED BY LETTER ‘I’). RCVR–RIGHT SIDE VIEW I1. INSTALL CAPACITY KEY ON THREE CONNECTORS. MW211–0069–1 101598 I2. INSTALL 13 SCREWS. Figure 5-20 RCVR Capacity Key Removal/Installation 5-43 Chart 6 PA Removal and Replacement PURPOSE Use this procedure to remove and replace UD-51( ) PA. SPECIAL TOOLS REQUIRED None STEP PROCEDURE DANGER Possibility of Injury to Personnel Exposure to energy radiated at microwave frequencies can cause eye injury and eventual blindness. Do not operate the system with a waveguide port unterminated. WARNING Possibility of Damage to Equipment Wear ground straps according to local office procedures. CAUTION Possibility of Service Interruption This is an out-of-service procedure when on a nonstandby (unprotected) system. On a hot-standby or frequency diversity system, switch traffic on the channel under test to protect. Is radio protected (hot-standby or frequency diversity)? If yes, go to step 2. If no, go to step 3. 5-44 STEP PROCEDURE, CONTINUED Use front panel OVRD controls on AE-37( ) Controller to lock on-line XMTR (opposite side from failed XMTR) on line. Do you want to remove or install PA module? If remove, go to step 4. If install, go to step 6. REMOVE: WARNING Possibility of Damage to Equipment Check to ensure that the three mounting screws securing the PA to the heatsink are loose before attempting to remove the PA to prevent damage to the module. Remove PA from shelf. See Figure 5-21. WARNING Possibility of Damage to Equipment To prevent monitor point errors, use caution to ensure that the front panel removed from the PA is replaced on that same PA. No two monitor point levels labeled on PAs are the same. Erroneous output levels can result from installing the wrong front panel and calibrating the PA to the level labeled on that front panel. 5-45 STEP PROCEDURE, CONTINUED INSTALL WARNING Possibility of Damage to Equipment The PA to heatsink mounting is critical. The three screws securing the PA to the heat sink must be tightened to 19 in-lbs using a torque wrench and not over/under-tightened. Improper mounting will cause over-heating and alarm and shut off power to the PA. This will result in loss of traffic on unprotected systems. On protected systems, a switch to the off-line PA will occur. Install PA in shelf. See Figure 5-21. Perform PA Checks and Adjustment procedure. Refer to Appendix E. Was XMTR locked on line (step 2). If yes, go to step 8. If no, go to step 9. On AE-37( ) Controller, toggle OVRD switch to disable override (unlocks on-line XMTR and restores automatic switching functions). STOP. This procedure is complete. 5-46 This page intentionally left blank. FRONT PANEL P/O SHELF REMOVE: (REMOVE STEPS ARE PREFIXED BY LETTER 'R'). DC MON INSTALL: (INSTALL STEPS ARE PREFIXED BY LETTER 'I'). GND PWR ALM R3. LOOSEN MOUNTING SCREWS AND SLIDE PA TOWARD FRONT OF CARD CAGE TO ACCESS RF OUT CONNECTOR TEMP ALM DC MON ADJ PWR ALM ADJ 10.5V DC POWER AMPLIFIER R1. DISCONNECT CABLE FROM XMTR RF OUT CONNECTOR. RF MON RF IN I1. INSTALL REPLACEMENT PA IN SHELF AND TIGHTEN MOUNTING SCREWS (TORQUE TO 19 IN. LBS). I2 CONNECT RF OUT CABLE. I3. CONNECT RF IN CABLE TO XMTR RF OUT CONNECTOR. I4. REINSTALL PA FRONT PANEL AND TIGHTEN THUMBSCREWS P/O SHELF RF OUT R2. LOOSEN THUMBSCREWS AND REMOVE FRONT PANEL R4. DISCONNECT RF OUT CABLE. R5. TILT TOP OF PA FORWARD APPROX 45 TO CLEAR RF OUT CONNECTOR. R6. REMOVE PA FROM CARD CAGE. LMW-7099-SM 04/29/03 Figure 5-21 UD-51( ) Power Amplifier Removal and Replacement 5-47 Chart 7 Changing System Software PURPOSE This procedure provides instructions to change previously loaded software to a newer version. The procedure is written for DS3 but applies to DS1, DS3, and OC3 software and radios. TOOLS REQUIRED PC RS-232 interface cable PN 695-7848 GENERAL The system operating software for the AE-37( ) Controller can be changed through the USI port using the laptop computer. The system software in remotely located AE-37( ) Controllers can also be changed remotely using the ELMC function. Note For DS1 controller loads R1.04 or earlier, refer to Issue 5 of the MDR-8000 instruction book. STEP PROCEDURE CAUTION Possibility of Service Interruption When upgrading system software, the load must be for the specific radio type, e.g., DS1 for a DS1 radio, DS3 for a DS3 radio, and OC3 for an OC3 radio. Use of incorrect software will result in a controller alarm and a software types mismatch message on the computer screen (see Figure 5-22). The mismatch message asks “Do you want to continue with the download?” Click Cancel and load the correct software. MAY DISTURB TRAFFIC Download file and controller software types mismatch. Do you want to continue with the download? OK Cancel LMW-7049 07/20/02 Figure 5-22 Mismatch Message 5-48 STEP PROCEDURE, CONTINUED Insert CD ROM disk into PC. On Windows desktop, double click on My Computer icon. My Computer window displays. In My Computer window, click on CD ROM icon. Files window displays. DOWNLOAD SOFTWARE TO PC See Figure 5-23. Follow directions to download software to PC. 020604_0736 (Z:) File File Edit View Help STEP Release Docume... setup.exe Setup.lst DOUBLE CLICK (WILL LOAD FILES) CLICK OK (COPYING FILES) CLICK ON SETUP ICON (STARTS DOWNLOAD) CLICK OK WHEN COMPLETED win12_16.CAB MDR-8000 DS3 USI Setup 1 object(s) selected 136KB Welcome to the MDR-8000 DS3 USI installation program. Setup cannot install system files or update shared files if they are in use. Before proceeding, we recommend that you close any applications you may be running. MDR-8000 DS3 USI Setup Begin the installation by clicking the button below. OK Exit Setup Click this button to install MDR-8000 DS3 USI software to the specified destination directory. Directory: c:\Winusi12\ Change Directory MDR-8000 DS3 USI Setup Destination File: C:\Winusi12\win12_16.exe Exit Setup 99% Cancel MDR-8000 DS3 USI Setup MDR-8000 DS3 USI Setup was completed successfully. OK LMW-7044-SM 07/16/02 Figure 5-23 Download Software to PC 5-49 STEP PROCEDURE, CONTINUED DOWNLOAD SOFTWARE TO RADIO CONTROLLER CAUTION Possibility of Service Interruption While the system software is being changed, all alarm monitoring and protection switching functions are suspended. If the system software change is interrupted before completion, the change is aborted and operation under the previous software resumes. Connect RS-232 interface cable between USI port on controller and laptop computer. Open Download screen (Start>Programs>WinUSI). Will download be to a local or remote radio? If local, go to step 8. If remote, go to step 9. LOCAL DOWNLOAD CONTROLLER See Figure 5-24. Follow directions to install program on local controller. REMOTE DOWNLOAD TO CONTROLLER Is the remote controller equipped with ELMC option key with provisioning? If yes, go to step 10. If no, stop. Remote downloading requires that the ELMC option key with provisioning be installed on controller module. 10 5-50 See Figure 5-25. Follow directions to install program on remote controller. Alcatel User Interface File File View Setup Options F4 Communication F6 OptionsF6 F7 F8 F9 New Controller Alarm Status Analog Monitor Performance Firmware Upgrade Station Alarm User Control Provisioning Download LOCAL MAIN ELMC Address: 200R2 Description: Rack-A - bottom radio Communicating*** COM 1 200R2 Alcatel User Interface File File View Setup Options F4 F6 Alarm Status ELMC Address: Description: F6 Analog Monitor Performance F7 F8 Station Alarm F9 User Control Provisioning LOCAL DOWNLOAD Tuesday, June 25, 2002 2:16:15 PM USI VersionR1.06 Communicating* Rack-A - bottom radio 200R2 MDR-8000 3DS3 C:\windnld\8000 DS3\css12_16.dat c: STEP c:\ windnld 8000 DS3 Controller Version R1.05 css12_12.dat css12_14.dat css12_15.dat css12_16.dat Start Download Stop Download Click Options/Firmware Upgrade/Download Double click directory to display all files Click latest file (highest number) Click Start Down Load Communicating at 38400 Baud Alcatel User System Interface Tuesday, June 25, 2002 2:16:15 PM USI VersionR1.06 MDR-8000 3DS3 Controller Version R1.05 Download Successful! OK Note After automatically re-booting, the controller will start running, provisioning previously stored in the controller will be left unchanged by the download program. LMW-7045-SM 07/16/02 Figure 5-24 Download Software From PC to Local Radio Controller 5-51 STEP Alcatel User Interface File File View Setup Options DOUBLE CLICK TO OPEN F4 ELMC LIST F6 F6 F7 F8 F9 DOUBLE CLICK TO SELECT 1 Status Alarm REMOTE RADIO SELECT OPTIONS/FIRMWARE UPGRADE/DOWNLOAD Analog Monitor ELMC Address: 200R2 Description: Rack-A - bottom radio Performance Station Alarm User Control Provisioning LOCAL MAIN ELMC ADDRESS LIST Communicating*** DOUBLE CLICK TO SELECT Double Click on the Elmc to Select ADDRESS: DIRECTORY AND DISPLAY ALL FILES CLICK ON DIRECTORY AND LATEST FILE (HIGHEST NUMBER) CLICK TO DOWNLOAD COM 1 Alcatel User Interface File File View Setup Options F4 F6 F6 F7 Communication Options 3AlarmNew Controller Status Analog Monitor 201R2 Description: Rack-B - top radio F9 Exit Performance Firmware Upgrade ELMC Address: F8 [LOCAL] [FAREND]200R1 -- Rack A - top radio 200R2 -- Rack A - bottom radio 201R1 -- Rack B - top radio 201R2 -- Rack B - bottom radio 202R1 -- Rack C - top radio 202R2 -- Rack C - bottom radio 203R1 -- Rack D - top radio 200R2 Station Alarm User Control Provisioning Download REMOTE MAIN Communicating*** Thursday June 27, 2002 2:16:15 PM USI VersionR1.06 MDR-8000 3DS3 Controller Version R1.05 Alcatel User Interface File File View Setup Options F4 F6 Alarm Status F6 Analog Monitor F7 Performance F8 Station Alarm F9 User Control Provisioning COM 1 REMOTE DOWNLOAD ELMC Address: 200R2 Description: Rack-A - bottom radio 200R2 Communicating* Please select a file from the Drive/Directory before Downloading c: Alcatel User Interface File File View Setup Options c:\ css11_12.dat Start Download windnld F4 F6 F6 F7 F8 F9 4000 Tuesday, June 25, 2002 2:16:15 PM USI VersionR1.06 MDR-8000 3DS3 Controller Version R1.05 8000 DS3 8000OC3 Alarm Status Analog Monitor Performance Station Alarm User Control Provisioning Details LOCAL DOWNLOAD 200R2 ELMC Address: Description: Communicating* Rack-A - bottom radio C:\windnld\8000 DS3\css12_16.dat c: Communicating at 38400 Baud c:\ Tuesday, June 25, 2002 11:16:15windnld PM USI VersionR1.06 8000 DS3 css12_12.dat css12_14.dat MDR-8000 3DS3 css12_15.dat css12_16.dat Start Download Controller Version R1.06 Stop Download Alcatel User System Interface Download Successful! OK Communicating at 38400 Baud Tuesday, June 25, 2002 2:16:15 PM USI VersionR1.06 MDR-8000 3DS3 Controller Version R1.05 Note LMW-7046 07/16/02 After automatically re-booting, the controller will start running, provisioning previously stored in the controller will be left unchanged by the download program. Figure 5-25 Download Software From PC to Remote Radio Controller 5-52 A CommPak INDOOR SHELF The MDR-8000 CommPak indoor shelf (Figure A-1) is a reduced-size package for non-standby radio configurations. The CommPak indoor shelf operates the same as the MDR-8000 hot-standby shelf configured as a non-standby radio using the same software and equipped with the same modules with two exceptions: LBO and fan assembly. Figure A-1 Typical MDR-8000 CommPak Indoor Shelf This appendix describes the differences between the MDR-8000 hot-standby shelf and the CommPak indoor shelf. Refer to the applicable sections in the Users Manual for descriptions of functions common to both types of shelves. Refer to the instruction book for details of functions not covered in the Users Manual. COMPONENT LOCATIONS AND OPTIONS See Figure A-2 for component locations and options. A.1 A-1 CE-16BB PWR SUPPLY AE-37Y CNTR UD-36A( ) RCVR FAN ASSY LBO/OC3 AUX INTFC UD-51( ) PWR AMP UD-35A( ) XMTR DX-35M DS1/E1 I/O INTFC ALM ON LINE SYNC ALM ALM ON LINE COMMON LOSS ALM DX-35N DS3 I/O INTFC 01 XMT AUX SC ALM RCVR ON RAD LOF WYSD DS1 WYSD ALM 56 RAD DADE DS3 ALIGN 234 SELECT I/O INTFC MODULES BY DATA RATE 789 DX-35P OC3 I/O INTFC ALM WYSD ON INSVC OC3 IN WYSD ALM OC3 ALM OC3 OUT LMW-9080 08/29/03 Figure A-2 Typical MDR-8000 CommPak Indoor Shelf Component Locations and Options (Sheet 1 of 3) A-2 CE-16BB PWR SUPPLY AE-37Y CNTR FAN ASSY UD-51( ) PWR AMP UD-35A( ) XMTR UD-36( ) SINGLE RCVR EYE CLOSURE CHAN ALM ON LINE AFC MON EYE MON RSL MON GND RECEIVER XTAL MON RF IN SELECT RVCR BY FUNCTION UD-36( ) DUAL RCVR ON LINE CHANNEL ALM EYE CLOSURE M AFC I EYE N RSL MN DV AFC V RSL EYE R GND RF IN DV XTAL DV RF IN MN XTAL MN DUAL RECEIVER AE-27AF RELAY INTFC AE-37AA TMN INTFC ALM PPP SELECT ONE OR NONE LMW-9079 08/29/03 Figure A-2 Typical MDR-8000 CommPak Indoor Shelf Component Locations and Options (Sheet 2 of 3) A-3 DS1/E1 LBO DS3 LBO OC3 AUX INTFC J26 J21 J202 J202 J23 J22 J25 J401 J305 J306 J303 J24 J314 J304 J203 J201 J201 SELECT LBO/AUX INTFC BY DATA RATE CE-16BB PWR SUPPLY AE-37Y CNTR UD-36A( ) RCVR FAN ASSY DX-35( ) I/O INTFC UD-35( ) XMTR UD-51( ) PWR AMP SELECT XTAL OSCILLATOR SUBBOARD BY CRYSTAL FREQUENCY. SELECT CAPACITY KEY BY DATA RATE. OC3 DS3 DS1/E1 SELECT OC3 CAPACITY KEY BY NUMBER OF LINES – 1 OR 3 LINES. SELECT DS3 CAPACITY KEY BY NUMBER OF LINES – 1, 2, OR 3 LINES. SELECT DS1/E1 CAPACITY KEY BY CAPACITY AND MODULATION SCHEME 2, 4, 8, 12, 16 DS1/E1 AND 32 OR 128 TCM. LMW-9078-SM 02/15/04 Figure A-2 Typical MDR-8000 CommPak Indoor Shelf Component Locations and Options (Sheet 3 of 3) A-4 A.1.1 External Fan Assembly See Figure A-3. The external fan assembly PN 3EM11901ABAA is required for cooling the CommPak indoor unit equipped with high-power amplifiers, for specific frequency bands, as follows: Radio Output Power MDR-8505u +30 dBm MDR-8506 +31 and +33 dBm MDR-8510/8511 +29 dBm The external fan assembly is wired to the CommPak indoor shelf internal fan assembly PN 3EM14510AAAA via cable. The internal fan assembly passes +12 Vdc operating power to the external fan assembly, and the internal fan assembly passes 12C and alarms from the external fan assembly. The external fan assembly mounts to the rack rails directly below the heatsink on the CommPak indoor shelf with four screws. The external fan assembly cools by blowing air between the vanes on the heatsink. Fan revolutions are monitored and an alarm occurs if any one or more fans loses rpm. MDR-1025 06/12/04 Figure A-3 External Fan Assembly INTERCONNECT This part of the section gives the location and describes strapping, power connections, signal connections, status and alarm connections and service channel connections for the CommPak indoor shelf. A.2 A.2.1 Power Cable Assembly See Figure A-4 for power cable assembly installation procedures. The MDR-8000 is internally wired to accept 20.5 to 60 V dc input power with positive or negative ground. To protect maintenance personnel from lightning strikes, the ground system must be integrated by bonding station ground and dc battery return together. The dc power connectors J1 and J2 are located on the rear of the back panel. Install power cables as shown. A-5 DANGER Possibility of Injury to Personnel Short circuiting low-voltage, low-impedance dc circuits can cause arcing that may result in burns or eye injury. Remove rings, watches, and other metal jewelr y while working with primary circuits. Exercise caution to avoid shorting input power terminals. DANGER Possibility of Injury to Personnel To protect maintenance personnel from antenna tower lightning strikes, the ground system must be integrated by bonding frame ground and dc battery return together. WARNING Possibility of Damage to Equipment Do not apply battery power until it is determined that A and B battery cables with isolated returns and power cables are wired correctly. With power applied, reverse polarity on wiring (+batt wired to -batt pin on connector) can cause power supply fuse to blow. Note Grounding of pole, antenna, customer interfaces, and all entrances to the building interior shall meet local electrical code and standard business practices. Note Grounding of pole, antenna, customer interfaces, and all entrances to the building interior shall meet local electrical code and standard business practices. A-6 PIN 1 POS PIN 2 GND PIN 3 NEG J1 PWR CABLE ASSEMBLY PN695-7845-005 RED ORN SLIDE-ON LUG BLK CONNECT + BATT WIRE TO + RACK GND FOR POS GND INSTALLATIONS ORN 12 AWG CONNECT – BATT WIRE TO – RACK GND FOR NEG GND INSTALLATIONS BLK 12 AWG + BATT RED 12 AWG CHASSIS GND – BATT LMW-7224 01/22/04 Figure A-4 Power Cable Assembly Installation A-7 A.2.2 External Fan Assembly See Figure A-5 for interconnect details. INT. FAN CARD P105 J1 P1 FAN CABLE ASSY PN 3EM15115ABAA P302 FAN ALM CARD MDR-1027 06/16/04 Figure A-5 External Fan Assembly Interconnect Diagram (Sheet 1 of 2) A-8 FAN CABLE ASSY PN 3EM15115ABAA P302 J302 +12 VDC GND FAN ALM CARD J1 P1 FAN ALM P105 J105 EXT FAN ASSY PN 3EM11901ABAA FAN CARD (ON CommPak INDOOR SHELF) PN 3EM14508ABAA FAN CABLE ASSY PIN-OUT AND COLOR CODE FAN ALM J302 J305 WIRE COLOR RED BLK BLU MDR-1024 06/09/04 Figure A-5 External Fan Assembly Interconnect Diagram (Sheet 2 of 2) A.2.3 SHELF/RACK ALARM CONNECTION Each MDR-8000 rack equipped with the Power Distribution Unit (PDU) 695-6200-001/002 has a visual rack alarm indicator to report a shelf failure. In order to activate a rack alarm visual indicator on the PDU, the shelf alarm output from each MDR-8000 shelf must be hardwired to connector J1 on the PDU. The shelf alarm is provided on alarm connector J305 pin 24 (major/visual alarm). A wire-wrap adapter (PN 695-4171-002) for connector J305 is available. Insulated 22-gauge solid copper wire is recommended for connecting to the wire-wrap adapter. To attach to J1 (2-pin connector) on the PDU, use 2-position socket housing PN 372-0114-140 and socket contact PN 372-0114-390. See Figure A-6 for shelfto-rack alarm wiring. Each MDR-8000 rack equipped with PDU 3EM13317AA has a blown fuse alarm visual indicator and a Form C relay alarm output (J4, J5, and J6) for connection to customer alarm equipment. An optional Fuse and Shelf alarm plug-in assembly is available to provide shelf alarm connections requiring Form C relays. The alarm inputs (major and minor) must be hard wired to J3 on the PDU. The alarms are provided on alarm connector J305 pin 24 (major/visual alarm) and pin 50 (minor/audible alarm) of each shelf. A wire-wrap adapter (PN 695-4171-002) for connector J305 is available. Insulated 22-gauge solid copper wire is recommended for connecting to the wire-adapter and also to J3 on the PDU. Alarm outputs are transmitted to customer equipment via Form C relay outputs (J4, J5, J6, relays 1 through 8). This option also includes the blown fuse alarm indicator and Form C relay alarm output (J4, J5, and J6 – relay 9). See Figure A-6 for typical shelf to PDU alarm wiring. A-9 RACK GND 20 AMP 20 AMP 20 AMP 10 AMP FUSES E13 E14 E15 E16 E17 E18 1 AMP E25 E26 E27 E28 E29 E30 20 AMP 10 AMP E7 E8 E9 E10 E11 E12 10 AMP 1 AMP 1 AMP 1 AMP 10 AMP 20 AMP FUSES 20 AMP 20 AMP 20 AMP FUSE ALARM INDICATOR RACK GND E31 E32 E33 E34 E35 E36 WIRE WRAP ALARM INPUT ALARM OUTPUT J4 J5 J6 CUSTOMER OUTPUTS FUSE ALM J3 MAJOR 1 MINOR 1 MAJOR 2 MINOR 2 MAJOR 3 MINOR 3 MAJOR 4/AUX MINOR 4/AUX UNUSED NC COM NO PDU 24 CommPak 1 50 CommPak 2 50 24 PIN 1 WIRE WRAP ADAPTER LMW-7225 01/22/04 Figure A-6 Typical Shelf Alarm Wiring PDU (695-6200-001/002) A-10 A.2.4 DS1 LBO Connections A.2.4.1 DS1 Cable Connections Recommended connectorized cable assembly – PN 695-7806-021 through -025 (22 AWG 12 pair shielded, jacketed cable with 25-pin D-type connector on one end). See Figure A-7 for shelf connector location and pinout. Refer to Table A-1 for mating cable wiring and color code. J314 25 PIN 1 26 50 FRONT VIEW J314 J314 REPEATER J304 J304 DS1/E1 LINES 9-16 IN J303 J303 DS1/E1 LINES 1-8 IN J306 J306 DS1/E1 LINES 9-16 OUT J305 J305 DS1/E1 LINES 1-8 OUT 13 25 14 LMW-7223 01/21/04 Figure A-7 DS1 LBO Connector Location and Pinouts A-11 Table A-1 DS1 IN J303 and DS1 OUT J304 Mating Cable CONNECTOR PIN NUMBER WIRE COLOR SIGNAL NAME 14 15 16 17 18 19 20 21 N/A N/A N/A N/A N/A N/A N/A N/A WHITE–BLUE BLUE–WHITE WHITE–ORANGE ORANGE–WHITE WHITE–GREEN GREEN–WHITE WHITE–BROWN BROWN–WHITE WHITE–SLATE SLATE–WHITE RED–BLUE BLUE–RED RED–ORANGE ORANGE–RED RED–GREEN GREEN–RED RED–BROWN BROWN–RED RED–SLATE SLATE–RED BLACK–BLUE BLUE–BLACK BLACK–ORANGE ORANGE–BLACK CHAN 1 TIP CHAN 1 RING CHAN 2 TIP CHAN 2 RING CHAN 3 TIP CHAN 3 RING CHAN 4 TIP CHAN 4 RING CHAN 5 TIP CHAN 5 RING CHAN 6 TIP CHAN 6 RING CHAN 7 TIP CHAN 7 RING CHAN 8 TIP CHAN 8 RING CUTBACK CUTBACK CUTBACK CUTBACK CUTBACK CUTBACK CUTBACK CUTBACK CABLE PAIR NUMBER 10 11 12 A.2.4.2 DS1 Repeater Cable Connections Note The DS1 repeater cable carries clocks, DS1 data, and overhead for two directions. If the 314 cable is not used, the embedded data in the overhead must also be cabled individually. In this case, individual cables must be run for MCS–11, audio, RS-232, and ELMC. Recommended connectorized cable assembly – PN 695-7836-001/005 (25 pair shielded cable with 50 pin Amp connectors) (SCSI). See Figure A-7 for shelf connector location and pinout. Note Use repeater cables for cabling repeater shelf 1 to repeater shelf 2 (eastbound/westbound data/clock) A-12 DS3 LBO CONNECTIONS A.2.5 The DS3 LBO compensates for the distance to the cross-connect for DS3 and wayside DS1 outputs. See Figure A-8 for connector locations. LINE 3 IN TIP GND LINE 2 IN TIP LINE 1 IN TIP LINE 1 IN RING LINE 2 IN RING LINE 3 IN RING J201 INPUT TOP VIEW J201 WAYSIDE DS1 IN J202 WAYSIDE DS1 OUT J202 J201 J2 LINE 1 DS3 IN J1 LINE 1 DS3 OUT 25 J401 50 LINE 3 OUT TIP GND LINE 2 OUT TIP LINE 1 OUT TIP LINE 1 OUT RING LINE 2 OUT RING LINE 3 OUT RING J4 LINE 2 DS3 IN J3 LINE 2 DS3 OUT J5 LINE 3 DS3 OUT J21 J23 J25 J26 J24 J22 J6 LINE 3 DS3 IN J202 OUTPUT J401 REPEATER J401 TOP VIEW PIN 1 26 FRONT VIEW LMW-7221-SM 01/21/04 Figure A-8 DS3 LBO Connector Location and Pinouts A-13 A.2.5.1 DS3 Cable Connections Recommended connectorized cable assembly for all applications except repeaters, PN 632-4429-096/180 (8/15 ft RG-59B/U coax cable with straight male BNC connector on one end and right angle male BNC connector on other end). For repeater applications, recommend PN 632-4288-096/180 (8/15 ft RG-59B/U coax cable with straight male BNC connector on each end). See Figure A-8 for locations. A.2.5.2 Wayside DS1 Cable Connections Recommended connectorized cable assembly – PN 695-4125-041 (26 AWG 5 pair shielded, jacketed cable with 9-pin D-type connector on one end). See Figure A-8 for shelf connector location and pinout. Refer to Table A-2 for mating cable wiring and color code. Table A-2 DS1 LBO Wayside DS1 Connector Mating Cable – Wiring and Pinout J201 (INPUTS) 202 (OUTPUTS) FUNCTION END 1 WIRE COLOR WIRE COLOR END 2 FUNCTION LINE 1 TIP IN 01 BLACK BLACK 01 LINE 1 TIP OUT LINE 1 RING IN 06 RED RED 06 LINE 1 RING OUT LINE 2 TIP IN 02 BLACK BLACK 02 LINE 2 TIP OUT LINE 2 RING IN 07 WHITE WHITE 07 LINE 2 RING OUT LINE 3 TIP IN 04 BLACK BLACK 04 LINE 3 TIP OUT LINE 3 RING IN 08 GREEN GREEN 08 LINE 3 RING OUT NOT USED 05 BLACK BLACK 05 NOT USED NOT USED 09 BLUE BLUE 09 NOT USED GND 03 BLACK GND 03 NOT USED NOT USED 10 YELLOW YELLOW 10 NOT USED A.2.5.3 DS3 Repeater Cable Connections Note The DS3 repeater cable carries clocks, data, and overhead for two directions. It does not carry DS3 or wayside DS1 traffic. DS3 and wayside DS1 cables must be run separately. If the 401 cable is not used, the embedded data in the overhead must also be cabled individually. In this case, individual cables must be run for MCS-11, audio, RS-232, and ELMC. A-14 Recommended connectorized cable assembly – PN 695-7836-001/005 (25 pair shielded cable with 50 pin Amp connectors) (SCSI). See Figure A-8 for shelf connector location and pinout. Note Use repeater cables for cabling repeater shelf 1 to repeater shelf 2 (eastbound/westbound data/clock) A.2.6 Fiber Optic Cable Connections DANGER Possibility of Injury to Personnel This system normally operates as a Class I Laser Product (no hazard), however during servicing operations, when optical connectors are being connected, disconnected, or handled without dust covers, it is possible to be exposed to Class IIIB laser radiation which can cause eye damage. WARNING Possibility of Damage to Equipment Fiber optic connectors are delicate and can be damaged easily by dirt or debris on the end of the connector. Keep fiber optic connectors free of dust and debris by cleaning the connector before and after use. Carefully clean the fiber optic connector and cable ends with a cotton swab dipped in alcohol or an alcohol wipe. Keep safety cap on connectors when not in use. Note The OC3 radio repeater cable carries DS1 clocks, data, and overhead for two directions. OC3 fiber optic cables must be run separately. If the repeater cable is not used, the embedded data in the overhead must also be cabled individually. In this case, separate cables must be run for MCS-11, audio, RS-232, and ELMC. A-15 Refer to Table A-3 for recommended fiber optic jumpers. Table A-3 Fiber Optic Jumpers JUMPER TYPE PART NO. APPLICATION FC to LC 3EM07651AA-AK TERMINAL SC TO LC 3EM07646AA-AK TERMINAL LC TO LC 3EM07641AA-AK REPEATER A.2.7 OC3 AUX Interface Board Connections A.2.7.1 Wayside DS1 Terminal Recommended connectorized cable assembly – PN 695-4125-041 (26 AWG 5 pair shielded, jacketed cable with 9-pin D-type connector on one end). See Figure A-9 for location. A.2.7.2 Wayside DS1 Repeater Recommended connectorized cable assembly – PN 695-4125-051 (26 AWG 5 pair shielded, jacketed cable with 9-pin D-type connector on each end). See Figure A-9 for location. A.2.7.3 OC3 Repeater Cable Connections Note The OC3 radio repeater cable carries wayside clocks, data, and overhead for two directions. It does not carry OC3 traffic. OC3 fiber optic cables must be run separately. If the repeater cable is not used, the embedded data in the overhead must also be cabled individually. In this case, separate cables must be run for MCS-11, audio, RS-232, and ELMC. Recommended connectorized cable assembly – PN 695-4125-007/013 (26 AWG 5 pair shielded, jacketed cable). See Figure A-9 for shelf connector location and pinout. Note Use repeater cables for cabling repeater shelf 1 to repeater shelf 2 (eastbound/westbound data/clock). A-16 GND RPTR DS1 OUT TIP RPTR DS1 IN TIP J203 RPTR DS1 IN RING RPTR DS1 OUT RING FRONT VIEW J203 REPEATER J203 J202 J201 J202 WAYSIDE DS1 OUT J201 WAYSIDE DS1 IN LINE 3 OUT TIP GND LINE 2 OUT TIP LINE 1 OUT TIP LINE 1 OUT RING LINE 2 OUT RING LINE 3 OUT RING FRONT VIEW J202 OUTPUT LINE 3 IN TIP GND LINE 2 IN TIP LINE 1 IN TIP LINE 1 IN RING LINE 2 IN RING LINE 3 IN RING J201 INPUT FRONT VIEW LMW-7222-SM 01/21/04 Figure A-9 OC3 AUX Interface Connector Location and Pinouts A-17 Controller Cable Connection (J301) A.2.8 Recommended connectorized cable assembly – PN 695-7848-001 through 004 (24 AWG 6 pair shielded, jacketed cable with DEMM-9P connector on each end). See Figure A-10 for controller connector location and pinout. USI RI CTS RTS DSR J301 DCD RxD TxD DTR GND J305 FRONT VIEW J315 J1 J318 J307 J316 J308 J317 J309 J312 J310 J301 LMW-7214 01/21/04 Figure A-10 Controller USI Connector J301 Location and Pinout A.2.9 Audio Cable Connections Recommended cable – PN 424-0305-030 (26 AWG 5 pair shielded, jacketed cable with 9-pin D-type connector on each end). See Figure A-11 for pinout. A-18 GND CALL DETECT AUDIO TIP OUT M LEAD AUDIO TIP IN J316/J317 AUDIO RING IN E LEAD AUDIO RING OUT CALL COMMON J305 FRONT VIEW J315 J1 J318 J307 J316 J308 J317 J309 J312 J310 J301 LMW-7215 01/21/04 Figure A-11 Audio Connectors J316 and J317 Location and Pinout A.2.10 RS-232 Cable Connections Recommended connectorized cable assembly – PN 695-4125-021 through 025 (26 AWG 5 pair shielded, jacketed cable with 9-pin D-type connector on each end). See Figure A-12 for shelf connector locations and pinout. A-19 GND RS232-2 OUT RS232-1 IN RS232-1 OUT J312 RS232-2 IN J305 FRONT VIEW J315 J1 J318 J307 J316 J308 J317 J309 J312 J310 J301 LMW-7216 01/21/04 Figure A-12 RS-232 Connect J312 Location and Pinout A.2.11 MCS-11 Cable Connections When MCS is selected to be placed on one of the three service channels and then RSS is enabled and properly addressed, applicable ports on the controller module are enabled. This allows the user to interface external MCS-11 Monitor and Control System equipment at any or all four connectors on the backplane (J307, J308, J309, and J310). Two connectors (J308 and J309) are synchronous, parallel, data ports and provide CLK outputs. Connectors J307 and J310 are asynchronous ports. A-20 A.2.11.1 MCS-11 Master (J307) Cable Connection Note If the radio is provisioned Repeater, port 2 on the controller, that connects to J307, is disabled. At a repeater, you can use J310 in lieu of J307 for connecting the TSM polling engine to the radio. MCS-11 connector J307 is used to connect to a TSM (-2500, -3500, or -8000) polling engine at a master terminal. Recommended connectorized cable assembly – PN 695-4126-007/009/012 (26 AWG 8 pair shielded, jacketed cable). See Figure A-13 for shelf connector location and pinout. XMT DATA + RTN CLK + XMT CLK + RCV DATA + RCV CLK + J307 15 RCV CLK RCV DATA XMT CLK RTN CLK XMT DATA - J305 FRONT VIEW J315 J1 J318 J307 J316 J308 J317 J309 J312 J310 J301 LMW-7218 01/21/04 Figure A-13 MCS-11 Connector J307 Location and Pinout A-21 A.2.11.2 MCS-11 Repeater-to-Spur Daisy Chain Connection (J308/J309) Note MCS-11 must be provisioned MCS-11 J310 Master/Junction to enable XMT, RCV, and OUTPUT clocks. If an external modem is being used, provision MCS-11 for MCS-11 J310 Modem. This selection disables XMT, RCV,OUTPUT clocks and all MCS-11 clocks must now be provided by the external modem. MCS-11 connector J308/J309 is typically used to connect a repeater to a spur or multiple spurs in a daisy chain system configuration. Either repeater shelf 1 or repeater shelf 2 may feed the spur shelf. The first connection out of the repeater must be crosswired from J308 to J308. Then, every shelf from the spur must be wired 1:1, J309 to J308, in a daisy-chain fashion. CROSSWIRED CABLE ASSEMBLY – Recommended connectorized cable assembly – PN 695-7837-001 through -005 (26 AWG 8 pair shielded, jacketed cable with 15-pin D-type connector on each end). See Figure A-14 for shelf connector J308 location and pinout. See Figure A-14 for shelf connector J309 location and pinout. DAISY CHAIN CABLE ASSEMBLY – Recommended connectorized cable assembly – PN 695-7837-021 through -025 (26 AWG 8 pair shielded, jacketed cable with 15-pin D-type connector on each end, wired 1:1). A-22 OFF HOOK + XMT DATA + CLK OUT + XMT CLK + RCV DATA + RCV CLK + J308 15 OFF HOOK + XMT DATA + 15 RCV CLK RCV DATA XMT CLK RTN CLK XMT DATA OFF HOOK - J305 J1 J318 J307 J316 J308 J317 J309 J312 J310 RCV CLK – RCV DATA – XMT CLK – FRONT VIEW FRONT VIEW J315 XMT CLK + RCV DATA + RCV CLK + J309 XMT DATA – OFF HOOK – J301 MDR-1010 04/08/04 Figure A-14 MCS-11 Connector J308 and J309 Location and Pinout A-23 A.2.11.3 MCS-11 Spur Connection (J310) MCS-11 connector J310 can be used to connect to a spur shelf and is the preferred connection to the DMX-3003N MUX. Recommended connectorized cable assembly – PN 695-4126-031 through -035 (26 AWG 8 pair shielded, jacketed cable with 15-pin D-type connector on each end). See Figure A-15 for shelf connector J310 location and pinout. XMT DATA + RTN CLK + XMT CLK + RCV DATA + RCV CLK + J310 15 RCV CLK RCV DATA XMT CLK RTN CLK XMT DATA - J305 FRONT VIEW J315 J1 J318 J307 J316 J308 J317 J309 J312 J310 J301 LMW-7220 01/21/04 Figure A-15 MCS-11 Connector J310 Location and Pinout A.2.12 ELMC Cable Connections The Extended Link Monitor Channel (ELMC) function allows provisioning, alarms, status information, and control commands for the local radio and, with the exception of wayside DS1, alarms, status information, control commands for addressable remote radios as a standard feature. For wayside DS1 status, the ELMC option key (695-5647019 or -020) must be installed on the AE-37Y Controller. For remote provisioning and downloading capability, the ELMC option key (695-5647-018 or 695-5647-020) must be installed on the AE-37Y Controller. A-24 Recommended connectorized cable assembly – PN 695-4125-006/013 (26 AWG 5 pair shielded, jacketed cable). See Figure A-16 for shelf connectors locations and pinout. Note ELMC 1 connector J318 and ELMC 2 connector J315 are wired in parallel. You can connect J315 to J315, J315 to J318, or J318 to J318. GND XMT + RCV + J315/J318 RCV XMT - J305 FRONT VIEW J315 J1 J318 J307 J316 J308 J317 J309 J312 J310 J301 LMW-7217 01/21/04 Figure A-16 ELMC Connectors J315 and J318 Location and Pinout A.2.13 Foreign Alarm Interface (J305) Recommended connectorized cable assembly – PN 695-4121-001/003 (24 AWG 25 pair cable). See Figure A-17 for shelf connector location and pinout. or Recommended wirewrap cable – PN 424-0429-020 (22 AWG 30-pair twisted cable) for use with wirewrap adapter PN 695-4171-002. A-25 Note TBOS connections on J305 share pins with station alarms 13 through 16 and either TBOS or station alarms 13 through 16 is selected (provisioned) on the USI Radio Configuration Provisioning screen. J305 50 25 26 PIN 1 FRONT VIEW LMW-7227-50pin 01/23/04 Figure A-17 Alarm/Status/TBOS Connector J305 Location and Pinout A-26 A.2.14 Station Alarm Wiring See Figure A-18. Use wire wrap adapter PN 695-4171-002 to connect station alarm inputs to the AE-27A Relay Interface module, via connector J305, in each rack. A typical connection scenario is shown. The station/shelf alarm for MCS-11 address A1A (MCS-11 alarm point 1) is connected by software. The station alarms for MCS-11 address A1B and A1C are assigned to MCS-11 Alarm points 2 and 3, respectively. RACK ALM 50 25 NOTE SOFTWARE AUTOMATICALLY CONNECTS RACK ALM OUTPUT FROM CONTROLLER J305-25 TO #1 STATION ALM INPUT J305-34. 36 J305 PDU 35 34* STATION ALM #2 50 PIN 25 RACK ALM 26 PIN 1 STATION ALM #3 J305 MCS-11 ADDRESS A1A CommPak 1 25 *STATION ALM #1 (SEE NOTE) 26 PIN 1 50 J305 MCS-11 ADDRESS A1B CommPak 2 26 MCS-11 ADDRESS A1C CommPak 3 PIN 1 WIRE WRAP ADAPTER (PN 695-4171-002) LMW-7228 01/26/04 Figure A-18 Alarm and Status Relays/TBOS Interconnect A-27 MAINTENANCE This part of the appendix provides information and procedures that are different for the hot-standby shelf and the CommPak indoor shelf. A.3 A.3.1 Warnings and Cautions All Warnings and Cautions outlined in the Maintenance section of the main book apply while operating, performance testing, troubleshooting, or repairing the MDR-8000 series radio. A.3.2 Troubleshooting Refer to the Maintenance section in the main book. A.3.3 Module Replacement Before replacing any module refer to Table A-4 to determine the actions, other than physical replacement, required. If the module has any options (switches, subboards, etc.), refer to the removed module so that the replacement module can be set up the same way. Table A-4 Module Replacement Matrix MODULE/UNIT REMOVAL/REPLACEMENT PROCEDURE CHECKS/ADJUSTMENTS PROCEDURE AE-27AF Relay Interface No Special Procedure Required None Required AE-37Y Controller Chart 2 (Maintenance Section in main book) None Required CE-16BB Power Supply Chart 1 (Maintenance Section in main book) None Required Fuse No Special Procedure Required. Refer to Operations Section in main book for location. DX-35M DS1/E1 I/O Interface Chart 3 (Maintenance Section in main book) No Special Procedure Required DX-35N DS3 I/O Interface Chart 3 (Maintenance Section in main book) Chart 10 and 11 in Appendix E on attached CD UD-35( ) Transmitter Chart 4 (Maintenance Section in main book) Applicable Charts 1 through 5 in Appendix E on attached CD Crystal Oscillator Subboard Chart 4 (Maintenance Section in main book) Capacity Key Chart 5 (Maintenance Section in main book) UD-51( ) Power Amplifier Paragraph A.4.1 (This Section) Applicable Charts 6 through 8 in Appendix E on attached CD DS1/E1 LBO Paragraph A.4.2 (This Section) No Special Procedure Required DS3 LBO Paragraph A.4.3 (This Section) No Special Procedure Required OC3 AUX Intfc Paragraph A.4.4 (This Section) No Special Procedure Required (1) A-28 If ATPC is in use, it must be provisioned disabled or locked high before removing controller. A.3.3.1 PA Module Removal and Replacement Remove and replace the PA using the following procedure: WARNING Possibility of Damage to Equipment Before starting removal procedure, loosen cable connected to RF OUT connector on PA. Semirigid coaxial cable requires special consideration. The electrical characteristics of the semirigid coax can be affected if it is accidentally twisted or bent. Provide mechanical support to prevent any weight or strain to the coax and connector when connecting or disconnecting equipment. Loosen the connectors at both ends of a semirigid coax section if one end must be moved even slightly. SMA connectors should be secured in place fingertight, and then gently tightened using a torque wrench with a 5/16 in. head set for 7 to 9 inch-pounds. The connectors should not be left fingertight. FRONT BOTTOM VIEW 1. USING OPEN-END 5/16 WRENCH LOOSEN CABLE CONNECTOR ON RF OUT CONNECTOR ON PA. MDR-1001 03/08/04 A-29 2. DISCONNECT CABLE FROM RF OUT CONNECTOR ON XMTR. MDR-1004 03/08/04 A-30 WARNING Possibility of Damage to Equipment Check to ensure that the three mounting screws securing the PA to the heatsink are loose before attempting to remove the PA to prevent damage to the module. 4. LOOSEN THREE CAPTIVE MOUNTING SCREWS SECURING PA TO HEAT SINK. LEFT BRACKET 6. ANGLE PA TO LEFT AND PULL OUT ON RIGHT SIDE OF PA UNTIL LEFT SIDE OF CHASSIS COVER CLEARS BRACKET. 5. PULL STRAIGHT OUT ON PA UNTIL CHASSIS COVER MEETS LEFT BRACKET ON CARD CAGE. 2. DISCONNECT CABLE FROM RF OUT CONNECTOR ON XMTR. 3. REMOVE PA FRONT PANEL AND PLACE OUT OF THE WAY. MDR-1002 03/08/04 A-31 Note You must continually feed RF cable through bottom entrance hole in cardcage as you pull out PA, being cautious to not damage or overbend cable. 7. STRAIGHTEN AND PULL PA OUT UNTIL EDGE OF PA IS RESTING ON EDGE OF CARDCAGE. MDR-1003 03/08/04 8. WHILE HOLDING PA, DISCONNECT PA RF OUT CABLE. WARNING Possibility of Damage to Equipment To prevent monitor point errors, use caution to ensure that the front panel removed from the PA is reinstalled on that same PA. No two monitor levels labeled on PAs are the same. Erroneous output levels can result from installing the wrong front panel and calibrating the PA to the level labeled on that front panel. A-32 A.3.3.2 DS1/E1 LBO Module Removal and Replacement Remove and replace the DS1/E1 LBO using the following procedure: 1. UNLOCK AND DISCONNECT CABLE FROM DS1/E1 LINES 1-8 OUT CONNECTOR J305. 2. UNLOCK AND DISCONNECT CABLE FROM DS1/E1 LINES 9-16 OUT CONNECTOR J306. 3. UNLOCK AND DISCONNECT CABLE FROM DS1/E1 LINES 1-8 IN CONNECTOR J303. 4. UNLOCK AND DISCONNECT CABLE FROM DS1/E1 LINES 9-16 IN CONNECTOR J304. 5. PULL CABLE THROUGH OPENING. MDR-1005 03/09/04 A-33 6. USING HANDLES ON MODULE, UNLATCH DS1/E1 LBO AND PULL OUT OF CARDCAGE TO FULLY EXTENDED POSITION WITH EDGE OF LBO RESTING ON EDGE OF CARDCAGE. 7. WHILE HOLDING LBO, UNLOCK AND DISCONNECT CABLE FROM RPTR CONNECTOR J314. PRESS PRESS MDR-1006 03/08/04 A-34 A.3.3.3 DS3 LBO Module Removal and Replacement Remove and replace the DS3 LBO using the following procedure: 1. PULL DS3 LBO OUT OF CARDCAGE UNTIL EDGE OF MODULE IS RESTING ON EDGE OF CARDCAGE. 2. DISCONNECT DS3 CABLES. 3. UNLOCK AND DISCONNECT RPTR CABLE. 4. DISCONNECT WAYSIDE DS1 CABLES. MDR-1008 03/09/04 A-35 A.3.3.4 OC3 AUX Interface Board Removal and Replacement Remove and replace the OC3 AUX interface board using the following procedure: 1. PULL OC3 AUX INTFC BOARD OUT OF CARDCAGE UNTIL EDGE OF MODULE IS RESTING ON EDGE OF CARDCAGE. 2. DISCONNECT WAYSIDE DS1 CABLES. 3. UNLOCK AND DISCONNECT RPTR CABLE. MDR-1007 03/09/04 A-36 CAPACITY UPGRADE DS1 TO DS3 OR DS3 TO OC3 Upgrading a DS1 radio to DS3 or DS3 radio to OC3 requires changing straps on the LBO adaptor, located behind the I/O interface module. Use the following procedure before starting upgrade from DS3 to OC3. A.4 1. REMOVE I/O AND RCVR INTFC. J315 J1 J318 J307 J316 J308 J317 J309 J312 J310 POWER SUPPLY CONTROLLER J315 I/O INTFC LBO FAN UNIT RECEIVER TMN / RELAY SSPA TRANSMITTER P1 P2 P3 DS3 DS1/OC3 SHOWN IN DEFAULT POSITION FOR DS1/OC3 3. STRAP LBO ADAPTER. 2. REPLACE I/O INTFC AND RCVR. MDR-1015 06/15/04 CHANGING SYSTEM SOFTWARE Refer to the Maintenance section in the main book. A.5 A-37 A-38 This page intentionally left blank.
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