A method for testing a multicore cable including not less than three insulated wires to identify a correspondence relationship between one end portion and an other end portion of the insulated wires exposed from both ends of the multicore cable. The method includes inputting a test signal, by capacitive coupling, to an end portion of the tested insulated wire among end portions of the insulated wires exposed at one end of the multicore cable, inputting a phase-inverted test signal in an opposite phase to that of the test signal, by capacitive coupling, to an end portion of the insulated wire, other than the end portion of the tested insulated wire, and measuring voltages of output signals output respectively from end portions of the insulated wires exposed at the other end of the multicore cable to identify an other end portion of the tested insulated wire based on the measured voltages.

A portable current injection test apparatus for injecting a predetermined amount of current through an electrical conductor includes an encasement which houses a first transformer having primary and secondary windings, the secondary winding coupled to a pair of output terminals, and a variable transformer having primary and secondary windings and a control switch. The variable transformer's primary winding is electrically coupled to a power source and its secondary winding is electrically coupled to the primary winding of the first transformer. The variable transformer switch manually controls power output at the secondary winding of the first transformer. First and second probes are connected to the output terminals and their distal ends are configured to inject the predetermined amount of current through the electrical conductor. A short circuit condition is defined across the secondary winding of the first transformer while the predetermined amount of current is injected through the electrical conductor.

A portable current injection test apparatus for injecting a predetermined amount of current through an electrical conductor includes an encasement which houses a first transformer having primary and secondary windings, the secondary winding coupled to a pair of output terminals, and a variable transformer having primary and secondary windings and a control switch. The variable transformer's primary winding is electrically coupled to a power source and its secondary winding is electrically coupled to the primary winding of the first transformer. The variable transformer switch manually controls power output at the secondary winding of the first transformer. First and second probes are connected to the output terminals and their distal ends are configured to inject the predetermined amount of current through the electrical conductor. A short circuit condition is defined across the secondary winding of the first transformer while the predetermined amount of current is injected through the electrical conductor.

The present invention relates to a measurement or inspection apparatus which can be adjusted depending on a color of a plugged-in cable. In this manner the display of measurement values and the colour of the plugged-in cable can be coordinated to each other such that a simple assignment between measurement values and cable can be performed.

An electrical phase (e.g., a phase from among three-phase power) connected to an electrical meter may be determined. In one example of the techniques, changes in energy or power (e.g., a derivative or differences) may be determined based at least in part on measurements from each of a plurality of meters. Changes in energy or power may be determined based at least in part on electrical transmissions measured at each of the phases of a feeder. A meter may be selected from among the plurality of meters. For each of the plurality of electrical phases, the changes in energy or power measured by the meter may be compared or correlated to the changes in energy or power measured at the feeder. A phase that is connected to the meter may be determined, from among the plurality of electrical phases, based at least in part on the comparisons or correlations.

A system for use in locating and testing a cable having a first end connected to a first connector and a second end connected to a second connector where the second connector is one of a plurality of connectors within a patch panel. The system includes a first device having a first cable certification and test circuitry which is couplable to the first connector and a second device having a second cable certification and test circuitry which is couplable to the second connector. One of the first device and the second device further includes circuitry for generating a tone signal that is to be applied to the cable and the other one of the first device and the second device further includes a probe for receiving the tone signal and for generating an output indicative of a strength of the received tone signal.

The present disclosure relates to non-clamping method and apparatus for identification of dead underground power utility cable. The method comprises: forming a complete circuit by connecting a transmitter to two of a plurality of conductors of a target dead power cable at a first end thereof; short-circuiting and grounding the plurality of conductors at a second end of the dead power cable; injecting an audio frequency current signal from the transmitter into the complete circuit; within a pit which at least partially exposes a plurality of underground power cables: detecting a first audio frequency magnetic flux signal on a surface of a random first one of the underground power cables; detecting a second plurality of audio frequency magnetic flux signal on respective surfaces of some of the underground power cables being spatially-adjacent to the first one of the underground power cables; identifying the first one of the underground power cables as the target dead power cable if a peak amplitude of the first audio frequency magnetic flux signal as displayed on a display device exceeds any peak amplitude of the second plurality of audio frequency magnetic flux signals as displayed on the display device by more than about 50%.

A wire tracing system includes a voltage output source having a director circuit with a plurality of output channels. Each of the output channels outputs a unique voltage signature. A voltage reader/data recorder includes a conductive probe and a data memory that is partitioned into a plurality of data bins. Each of the data bins in the voltage reader/data recorder is associated with one of the voltage signatures output via the output channels of the director circuit, and each of the data bins is configured to store information associated with each of a plurality of wires to which the output channels are respectively connectable. The system and method permit a single individual to rapidly discover the identities of individual wires and cables without having to repeatedly travel back and forth between those extremities.

A device for determining an electrical wire bundle, in which, when the electrical wire bundle includes even one test electrical wire which conducts electricity to a terminal device, the electrical wire bundle is given an A-rating indicating an electrical wire bundle to be used for a test; when the electrical wire bundle includes at least one electrical wire which conducts electricity to the terminal device but is not the test electrical wire, the electrical wire bundle is given a B-rating indicating that the electrical wire bundle is not allowed to be disconnected; and when the electrical wire bundle includes only electrical wires that do not conduct electricity to the terminal device, the electrical wire bundle is given a C-rating indicating an electrical wire bundle not to be used for the test.

Examples disclose a computing system comprising a host device with a connection socket to support multiple types of cables by detecting a first key position and a second key position for determination of the type of cable. Further, the computing system comprises a switching circuit to determine a logic state of each of the key positions. Additionally, the switching circuit is to deliver power associated with the type of cable based on the logic states of the key positions.