Operation Manual
Table Of Contents
- 1 SYSTEM DESCRIPTION
- 1.1 System Overview
- 1.2 Abbreviations
- 2 Technical specifications
- 2.1 Signal Minimum Performance GP
- 2.2 Environmental characteristics
- 2.3 EMC characteristics
- 2.4 Mechanical characteristics
- 2.5 Power supply
- 3 Main cabinet
- 3.1 Power on/off
- 3.2 Local Control Operation
- 3.3 Local Keyboard/Display Operation
- 3.3.1 The menu structure.
- 3.3.2 Handling the different menuscreens.
- 3.3.2.1 The menu screen
- 3.3.2.2 The readout screen
- 3.3.2.3 The toggle screens
- 3.3.2.4 Input/Store screen
- 3.3.2.5 The quick read screens
- 3.3.3 The access levels.
- 3.3.3.1 Level 2
- 3.3.3.2 Level 3
- 3.3.3.3 Leaving the access levels
- 3.3.4 Function listing
- 3.3.4.1 Level 1
- 3.3.4.2 Level 2
- 3.3.4.3 Level 3
- 3.3.5 The menu tree
- 4 Tower Equipment
- 4.1 Remote Control Operation
- 4.2 Remote Slave Operation
- 4.3 Interlock Switch Operation
- 5 Remote Maintenance and Monitoring Software
- 5.1 Introduction
- 5.2 User interface components
- 5.3 Shortcuts
- 5.4 Configuring the RMM system
- 5.5 Setting up ILS stations
- 5.6 Connecting to an ILS station
- 5.7 Monitor measurements and status
- 5.8 Monitor settings
- 5.9 TX settings
- 5.10 Power scaling
- 5.11 Front panel operation
- 5.12 Get historical data
- 5.13 Continuous data logging
- 5.14 Events
- 5.15 Test DDM
- 5.16 Set ILS date/time
- 5.17 User administration
- 5.18 ILS Modem settings
- 5.19 Upload configuration to ILS
- 5.20 Write configuration to file
- 5.21 Lamp mappings
- 5.22 Medium storage sample interval
- 5.23 Displaying stored measurements
- 5.24 DIAGNOSTICS
- 5.25 Exporting data
- 5.26 Printing reports
- 5.27 Print screen
- 5.28 Technical note - Leased line SETUP (USRobotics)
- 5.29 Technical note - Dial up connection SETUP (USRobotics)
- 5.30 Technical note - Leased line SETUP (WESTERMO)
- 5.31 Technical note - dial up SETUP (WESTERMO)
- 6 Periodic maintenance CAT I and II
- 6.1 Weekly inspections
- 6.2 Monthly inspections
- 6.3 Quarterly inspections
- 6.4 Annual inspections
- 6.4.1 RF Frequency check.
- 6.4.1.1 Course Transmitter Frequency
- 6.4.1.2 Clearance Transmitter Frequency
- 6.4.2 LF Frequency check.
- 6.4.3 Transmitter waveforms checks.
- 6.4.3.1 PHASE CORR. check.
- 6.4.3.2 SBO waveform checks.
- 6.4.3.3 RF Phase
- 6.4.3.4 CSB waveform check. LF phase
- 6.4.3.5 DDM and SDM check.
- 6.4.3.6 Not in use
- 6.4.4 (Not in use)CSB output power.
- 6.4.5 Monitor Alarm Limit checks.
- 6.4.5.1 CL DDM ALARM
- 6.4.5.2 CL SDM ALARM
- 6.4.5.3 CL RF ALARM
- 6.4.5.4 DS DDM ALARM
- 6.4.5.5 NF DDM ALARM
- 6.4.5.6 CLR DDM ALARM
- 6.4.5.7 CLR SDM ALARM
- 6.4.5.8 CLR RF ALARM
- 6.4.6 Near Field Monitor delay
- 6.4.7 20 seconds inhibit
- 6.4.8 Battery maintenance
- 6.4.9 Final check GP
- 7 Corrective maintenance
- 7.1 Overview
- 7.2 Diagnostic functions
- 7.3 LRU change procedures
- 7.4 Detailed description of the automatic diagnostic algorithms
- 7.4.1 Overview
- 7.4.2 Possible diagnostic solutions
- 7.4.3 Current data diagnostics
- 7.4.3.1 I2C read error on any board implies a failure on that board
- 7.4.3.2 Maintenance parameter warnings
- 7.4.3.2.1 External power supply tests
- 7.4.3.2.2 Power supply 1 and 2 tests
- 7.4.3.2.3 Maintenance warnings without follow-errors
- 7.4.3.2.4 Power amplifier tests
- 7.4.3.2.5 Monitor 1 and 2 frontend tests
- 7.4.3.2.6 Remote control tests
- 7.4.3.2.7 Transmitter control tests
- 7.4.3.2.8 Standby monitor tests
- 7.4.3.2.9 Standby monitor frontend tests
- 7.4.3.2.10 User defined parameters
- A Monitor and Maintenance Parameters
- A.1 Monitor Alarm Parameters
- A.2 Maintenance Parameters
- B Factory default configuration settings
- B.1 Cat I monitor LIMIT configuration
- B.1.1 Description of the FFM EXE AL limits
- B.1.2 Description of the CL IDENT and CLR IDENT limits
- B.2 Cat II monitor LIMIT configuration
- B.3 Cat III monitor LIMIT configuration
- B.4 Executive Monitor delay configuration
- B.5 Maintenance parameter configuration
- B.6 Oscillator 1 and 2 (OS 1221)
- B.6.1 LF generator 1 and 2 (LF 1223)
- B.6.2 TX 1 and 2, Course and Clearance
- B.6.3 RF frontends for monitor 1, 2 and standby monitor (MF 1211/1219)
- B.6.4 Monitor 1, 2 and standby (MO 1212)
- B.6.5 Transmitter control board (TCA 1216)
- B.6.6 Remote monitoring board (RMA 1215)
- B.6.7 Power supply 1 and 2 (PS 1227)
- B.6.8 External power
- B.6.9 User defined inputs
- B.7 Maintenance delay configuration
- B.8 Morse code configuration
- B.9 Typical TX Adjustments values
- B.10 User administration configuration
- B.11 Frequency configuration strap settings
- B.11.1 OS1221B strap settings for 2-frequency GP
- C Maintenance Procedures
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6.4.5.4 DS DDM ALARM
Apply a test signal from the RF Signal Generator to the DS input connector in the back of the
cabinet.(Disconnect first the signal cable from the Monitor network). Adjust the signal to the
same RF level and frequency as the normal signal applied to the monitor.
Modulation shall be: 17.5%DDM, 80.0%SDM.
Verify modulation setting (DDM, SDM) by checking the test signal with the Field Test Set.
Use the Local Display and Keyboard or the RMM Program to display the measured values
for DS DDM.
• Increase DDM from the generator slowly above nominal value until a point where the letter
A (indicates that monitor has an ALARM for the displayed parameter) is shown beside the
measured parameter for Monitor 1.
• Check the new generator DDM value with the Field Test Set.
• Record in
Table 6-14
line
d
).
• Decrease DDM from the generator slowly below nominal value until a point where the letter
A (indicates that monitor has an ALARM for the displayed parameter) is shown beside the
measured parameter for Monitor 1.
• Check the new generator DDM value with the Field Test Set.
• Record in
Table 6-14
line
dd)
.
Repeat the procedure for Monitor 2.
6.4.5.5 NF DDM ALARM
Apply a test signal from the RF Signal Generator to the NF input connector in the back of the
cabinet.(Disconnect first the signal cable from the Near Field Antenna). Adjust the signal to
the same RF level and frequency as the normal signal applied to the monitor.
Modulation shall be: 0.0% DDM, 80.0% SDM.
Verify modulation setting (DDM, SDM) by checking the test signal with the Field Test Set.
Use the Local Display and Keyboard or the RMM Program to display the measured values
for NF DDM
• Change DDM from the generator slowly towards 150 Hz dominance until a point where the
letter A (indicates that monitor has an ALARM for the displayed parameter) is shown
beside the measured parameter for Monitor 1.
• Check the new generator DDM value with the Field Test Set.
• Record in Table 6-14 line
e
).
• Change DDM from the generator slowly towards 90 Hz dominance until a point where the
letter A (indicates that monitor has an ALARM for the displayed parameter) is shown
beside the measured parameter for Monitor 1.
• Check the new generator DDM value with the Field Test Set.
• Record in Table 6-14 line
ee
).
Repeat the procedure for Monitor 2.
6.4.5.6 CLR DDM ALARM
Apply a test signal from the RF Signal Generator to the CLR input connector in the back of the
cabinet.(Disconnect first the signal cable from the Monitor network). Adjust the signal to the