Adtran TRC4305 Manual Do Utilizador
TRACER 4305 System Manual
Section 4, Troubleshooting Guide
612804305L1A-1A
© 2002 ADTRAN, Inc.
55
4. Attach the RF coaxial cables to be used in the permanent installation to the N-type connectors on
the base of the TRACER 4305 unit. Attach the other end of the coaxial cable(s) to an RF power
meter or spectrum analyzer if either is available. The power measured by the meter/analyzer will
be the RF power available at the input of the antenna. The TRACER 4305 unit is programmed at
the factory to output approximately 100 mW (20 dBm) of 5.8 GHz RF power. The actual power
level measured by the meter/analyzer will be less than 100 mW due to RF losses through the
coaxial cable, and is a function of cable type and length of cable being used. In any event, the
power level at the output of the coaxial cable should be a significant fraction of 100 mW. A power
meter/analyzer reading that is not on the order of at least tens-of-milliwatts could be an indication
of any combination of either unsuitable RF, faulty, or unreasonably long coaxial cable.
meter or spectrum analyzer if either is available. The power measured by the meter/analyzer will
be the RF power available at the input of the antenna. The TRACER 4305 unit is programmed at
the factory to output approximately 100 mW (20 dBm) of 5.8 GHz RF power. The actual power
level measured by the meter/analyzer will be less than 100 mW due to RF losses through the
coaxial cable, and is a function of cable type and length of cable being used. In any event, the
power level at the output of the coaxial cable should be a significant fraction of 100 mW. A power
meter/analyzer reading that is not on the order of at least tens-of-milliwatts could be an indication
of any combination of either unsuitable RF, faulty, or unreasonably long coaxial cable.
5. Resolve all RF coaxial cabling errors before proceeding.
6. Attach the RF coaxial cables to a 5.8 GHz attenuator, if possible. If you do not have an attenuator,
attach the coaxial cables to the antennas to be used in the permanent installation. If the installation
antennas are not available, small, inexpensive dipole or patch antennas can be used for verification
purposes. If an adjustable attenuator is being used, dial in the amount of attenuation that
corresponds to the path loss value expected for the microwave link in which the TRACER
hardware will be installed. The path loss value can be calculated from a knowledge of the path
length, or provided by a path study. Remember to subtract both antenna gain values from the
attenuator level if these values have not already be accounted for.
antennas are not available, small, inexpensive dipole or patch antennas can be used for verification
purposes. If an adjustable attenuator is being used, dial in the amount of attenuation that
corresponds to the path loss value expected for the microwave link in which the TRACER
hardware will be installed. The path loss value can be calculated from a knowledge of the path
length, or provided by a path study. Remember to subtract both antenna gain values from the
attenuator level if these values have not already be accounted for.
7. After setting up the RF pieces, examine the
RF DOWN
LED on the front panel of each TRACER
4305 unit. If the
RF DOWN
LED is illuminated (red), the corresponding TRACER 4305 is not
receiving a suitable RF signal from the other TRACER 4305 unit. In this case, the receiving
TRACER 4305 is either receiving a very weak signal, or no signal at all. If the
TRACER 4305 is either receiving a very weak signal, or no signal at all. If the
RF DOWN
LED is
not illuminated, then the TRACER 4305 units are receiving a suitable RF signal. Suitable RF
power levels for low error rate communication will range from -30 dBm to -78 dBm measured at
the N-type connector input on the TRACER 4305 unit.
power levels for low error rate communication will range from -30 dBm to -78 dBm measured at
the N-type connector input on the TRACER 4305 unit.
8. Resolve any signal level issues before proceeding.
9. Examine the
RF LOW
LED on the front panel of each TRACER 4305. If this LED is illuminated,
then the TRACER 4305 is receiving a relatively weak signal, however if the
RF DOWN
LED is
not illuminated, the received signal is being suitably processed by the TRACER system. If you are
receiving a weak signal (
receiving a weak signal (
RF LOW
is
ON
), please verify that the weak signal is not being caused by
a faulty cable, an insufficiently tightened cable, or some other installation-related problem. Also,
make sure an unreasonably large attenuation value has not been selected if you are using an
attenuator on a work bench setup.
make sure an unreasonably large attenuation value has not been selected if you are using an
attenuator on a work bench setup.
Use the tables in Section 3, Microwave Path Engineering Basics, of this manual to select the
proper free-space attenuation value (in dB) based on the estimated length of the microwave path.
Remember to subtract out both antenna gains (local and remote) from the attenuator setting.
proper free-space attenuation value (in dB) based on the estimated length of the microwave path.
Remember to subtract out both antenna gains (local and remote) from the attenuator setting.
10. Command a link loopback in one TRACER 4305 unit and run pattern from the connected DS3
equipment. This will verify data path between the DS3 equipment and the TRACER 4305 unit.
External pattern generators are required to test data path integrity. A DS3 BERT tester is
suggested.
suggested.