SU245907A1 - DEVICE FOR MEASURING CURRENT - Google Patents

Description

Devices are known for measuring the current in a wire of a high-voltage line by the magnitude of the magnetic flux generated by a controlled current, containing an electromagnetic sensor with a horseshoe-shaped core. The proposed device differs from the known ones in order to improve the measurement accuracy by eliminating the influence of magnetic fields created by currents in other wires of the line, the sensor electromagnet is provided with two cores located on the side rods and differentially included, windings and is installed relative to the monitored wire that this wire is located along the core along its axis symmetrically with respect to both windings. On fng. 1 is a circuit diagram of the device described; in fig. 2 - the dependence of the effective value of ed. with. on the sensor winding on the angle of the sensor relative to the monitored wire; in fig. 3 - location of the magnetic sensor controlled phase relative to the wires of the high-voltage line. 4. The sensor consists of a steel horseshoe-shaped horo with two identical windings connected in opposite directions. In this case, the total ed. with. The two windings are directly proportional to the difference of the derivatives of the magnetic fluxes 01 and Fa. ;. dt where X is the proportionality coefficient. Pr: and the flow through the wire 1 of a sinusoidal alternating current I, the effective value of g depends on the current I, the distance between the wire and the sensor, and the angle φ. The dependence of the effective value of d on angle φ shows that, as the angle changes, the value of d also changes significantly. The magnetic sensor of phase A is positioned relative to the wire of phase A at an angle of 9 ° 0, and relative to the wires of phases B and C, respectively, at angles ΦV and CPC. In this case, the interference voltage, due to the influence of currents from adjacent wires, is much less. This is due to the fact that the magnetic flux proportional to the current flowing in phase A passes along the core (along its poles in opposite directions) and

inducts in both coils the same in size and anti-negative in sign e. d. And since the windings are connected counter, then their e. d. summed arithmetically, resulting in e. d. useful signal is equal to double e. d. useful signal in each coil.

Regarding wires with a stirrer, by their currents the sensor is located so that the magnetic flux, proportional to the interfering current, passes through both poles of the core in the same direction. In the windings induction ed. with. interferences of the same direction, and since the windings are connected in opposite, e. d. interference is equal to the difference ed with. interference induced in the windings of the sensor. Due to this, with a given ratio of the distances I and D, the interference coefficient for the sensor being described is much smaller than that of the solenoid type sensor.

The sensors described are simple in design and convenient in operation, since they do not require installation of equipment at high voltages. They are intended for nutrition.

simple control, protection, measurement and automation devices instead of high-voltage current transformers in networks with a voltage of 110 Kb or more. In this case, low power devices can be powered directly from sensors without an amplifier.

Subject invention

An apparatus for measuring current in a wire of a high voltage line by the magnitude of a magnetic flux generated by a controlled current, comprising an electromagnetic sensor with a horseshoe core, characterized in that, in order to improve measurement accuracy by eliminating the influence of magnetic fields generated by currents in other wires of the line, the sensor electromagnet Equipped with two cores located on the side rods and differentially connected windings and installed relative to the monitored wire so that the last located along the core along its axis symmetrically with respect to both windings.