Isolating Faults Using Test Equipment

Testing and Fault Mitigation
The complexity of E1 testing certainly parallels or possibly exceeds that of RF tests at a cell site. Shadowing efforts and customer expression have shown that most cell site technicians reduce the complexities of backhaul E1 testing down into a series of well-defined steps. These tests are often not comprehensive but are often sufficient to determine the continuity of an E1 circuit with a high degree of confidence. Often times the test sequence is developed by an experienced technician and is determined by finding the shortest path to an adequate measurement on a particular piece of readily available equipment. E1 testing often involves one technician on each end of a circuit. In the case of wireless, the technician at the switch end, very experienced at backhaul testing, is often working with a field technician that has a broader-based set of knowledge and is often less experienced in backhaul testing. The switch technician quickly develops a test procedure that involves the least amount of verbal instructions with the field technician.

E1 Facility Summary
This next section describes the elements in a typical E1 backhaul facility. Based on this information, typical fault conditions and what procedures are typically followed to restore service to the E1 span.
With almost no exception all circuits leased from the TELCO are routed through at least one central office facility. If this were not the case, planning and managing the repeaters needed for E1 transmission would be an onerous task.

Isolating Faults Using Test Equipment
Test equipment can be used to generate and monitor alarms and errors. Test equipment is connected to the E1 facility in a variety of ways. BNC jacks are often available on the equipment. When the plug is inserted into the jack the circuit is interrupted. Sometimes a monitor jack is available. When a plug is inserted into the monitor jack the circuit is not interrupted and a -20 dB signal is available at the jack. When none of these is available the signal may be monitored at a connection block, sometimes referred to as a "punch-down block". The table below, "E1 Facility Access Methods," describes the three typical access methods.
E1 Facility Access Methods

Access method
Test set configuration
Notes

Test Jacks
Terminated
Circuit is broken when plug is inserted into jack. The test equipment is normally set to "Terminate" and provides 75 Ohm termination.

Monitor Jacks
Monitor
The circuit is not interrupted when the plug is inserted into the jack. The test set, when set to "Monitor", provides a 75 Ohm connection, and expects the signal to be 20 dB lower than the original signal.

Direct Connection to "Punch Down Block".
Bridged
The circuit is not interrupted in this mode. The test set impedance is greater than 1000 Ohms so that the circuit is minimally affected. Test set is set to "Bridged."

WARNING: It is important to remember that 90 volts DC may exist between the transmit and receive pair. This voltage can be lethal!


Access method	Test set configuration	Notes
Test Jacks	Terminated	Circuit is broken when plug is inserted into jack. The test equipment is normally set to "Terminate" and provides 75 Ohm termination.
Monitor Jacks	Monitor	The circuit is not interrupted when the plug is inserted into the jack. The test set, when set to "Monitor", provides a 75 Ohm connection, and expects the signal to be 20 dB lower than the original signal.
Direct Connection to "Punch Down Block".	Bridged	The circuit is not interrupted in this mode. The test set impedance is greater than 1000 Ohms so that the circuit is minimally affected. Test set is set to "Bridged."