User's Manual
Table Of Contents
- 1. Getting started
- 2. Introduction
- 3. Preparation
- 4. About the terminal
- 5. Mounting and installing the terminal
- 6. Connecting to the terminal
- 7. Managing the terminal
- 8. Configuring the terminal
- 9. Configuring the traffic interfaces
- 10. Cross Connections
- Embedded cross connect switch
- The Cross Connections application
- The Cross Connections system requirements
- Installing the Cross Connections application
- Opening the Cross Connections application
- The Cross Connections page
- Setting the terminal's address
- Management and user ethernet capacity
- Setting card types
- Getting cross connection configuration from the terminals
- Creating cross connections
- Sending cross connection configuration to the terminals
- Saving cross connection configurations
- Using existing cross connection configurations
- Printing the cross connection configuration
- Deleting cross connections
- Configuring the traffic cross connections
- Cross connection example
- Symmetrical Connection Wizard
- 11. Protected terminals
- 12. In-service commissioning
- What you will need
- Checking the antenna polarization
- Visually aligning antennas
- Accurately aligning the antennas
- Synchronizing the terminals
- Checking performance
- Checking the receive input level
- Checking the fade margin
- Checking long-term BER
- Bit Error Rate tests
- Additional tests
- Checking the link performance
- Viewing a summary of the link performance
- What you will need
- 13. Maintenance
- 14. Troubleshooting
- 15. Interface connections
- 16. Alarm types and sources
- 17. Country specific settings
- 18. Specifications
- Ethernet interface
- QJET Quad E1 / T1 interface
- Q4EM Quad 4 wire E&M interface
- DFXO Dual foreign exchange office interface
- DFXS Dual foreign exchange subscriber interface
- QV24 Quad V.24 asynchronous data interface
- HSS Single high speed synchronous data interface
- External alarm interfaces
- Auxiliary interfaces
- AC Power supply
- DC Power supply
- Power consumption
- MHSB protection
- Ethernet interface
- 19. Product end of life
- 20. Abbreviations
- 21. Acknowledgments and licensing
- 22. Commissioning Forms
- 23. Index
Alarm types and sources | 230
Receiver alarms
Ref Type Explanation
B1 rxADCChEightHi The AGC voltage is high
B2 rxADCChEightLo The AGC voltage is low
B3 rxRSSIHi The receiver maximum input level has been exceeded
B4 rxRSSILo The RSSI is below the alarm threshold setting (see page 73)
B5 rxADCChSixHi The synthesizer tuning voltage is high
B6 rxADCChSixLo The synthesizer tuning voltage is low
B7 rxADCChSevenHi The -1.5 VDC power supply is high
B8 rxADCChSevenLo The -1.5 VDC power supply is low
B9 rxADCChTwoHi The 3.3 VDC power supply is high
B10 rxADCChTwoLo The 3.3 VDC power supply is low
B11 rxADCChOneHi The digital 5 VDC power supply voltage is high
B12 rxADCChOneLo The digital 5 VDC power supply voltage is low
B13 rxADCChZeroHi The 9 VDC power supply voltage is high
B14 rxADCChZeroLo The 9 VDC power supply voltage is low
B15 rx12VFail The 12 VDC power supply has failed
B16 rxSynthLD The synthesizer frequency is not set
B17 rxEEFail The on-board memory has failed
B18 rxADCChNineHi The 28 VDC power supply voltage is high
B19 rxADCChNineLo The 28 VDC power supply voltage is low
B20 rxOff The receiver is off
B21 rxADCChFiveHi The receiver temperature is too high
B22 rxMibFail The receiver MIB is corrupt in EEPROM
MUX alarms
Ref Type Explanation
C1 muxInit A MUX card failed to program
C2 muxMibEEFail The MIB EEROM is corrupt
C3 muxCharEEFail The character data is corrupt
Modem alarms
Ref Type Explanation
D1 mdLOS The modem has loss of synchronization with the far end
D2 mdDemodAlignmentLost The modem is unable to synchronize to the payload framing
D3 mdTdmAlignmentLost The modem is unable to synchronize to the system bus timing
D4 mdRefAFail The modem reference clock A has failed
D5 mdRefBFail The modem reference clock B has failed
D6 mdClkSyncFail The modem is unable to synchronize to the system clock
D7 mdEEFail The modem EEPROM is corrupt