SU1101745A1 - Ac shunt - Google Patents

Abstract

1. AC SHUNT, containing a resistive element connected to the current leads by bifilar potential leads and a compensation winding connected to the circuit of one of the potential leads, in order to increase the accuracy current conversion, the compensation winding is made in the form of a coil: wound on a frame of a nonmagnetic open conductor, grabbing a resistive element and connected in series with the coil. 2. According to claim 1, that is, and the fact that the resistive element is designed as a set of plates or rods. (L 4 cl

Description

The invention relates to electrical measuring equipment and is intended for use in the implementation of the measurement of current strength in units, tens and hundreds of thousands of amperes. An alternating current shunt is known that contains a resistive element in the form of a bifipedly folded tape connected with current clamps to bifilar current leads, potential wiring mounted on the outer surface of said tape l The disadvantage of this device lies in the significant frequency error caused by the residual inductance of the resistive element of the shunt and its parasitic capacitance. The closest technical solution to the invention is an AC shunt, containing a resistive element in the form of a bifillary folded tape, connected with current clamps to bifilar current leads, bifilar potential leads and connected to one of the potential: compensation terminals winding, the turns of which cover one of the current leads 2j. The disadvantage of the known device also manifests itself in significant j, conversion error, predetermined by the dependence of the compensating voltage on mutual arrangement of the compensation winding and the power supply, which it covers, as well as the current leads of the forward and reverse directions. The purpose of the invention is to improve the accuracy of current conversion. The goal is achieved by the fact that, in an AC shunt containing an oisist element connected by its ends to current leads, bifilar potential leads and a compensation winding connected to the circuit of one of the potential leads, the compensation winding is made in the form of a coil non-magnetic open conductor encircling the resistive element and connected in series with the coil. In this case, the resistive element is designed as a set of plates or rods. The drawing shows a schematic view of the proposed AC shunt. The device contains a resistive element, made in the form of a set of plates (rods) 1 connected to the current leads 2 and 3, bifillary potential leads 4 and 5 and a compensation winding connected to the circuit of one of the potential leads (in this case, pin 4) and made in the form of a coil 6, we have a secret and flexible frame 7 made of a non-magnetic open conductor (for example, of copper enameled wire), grabbing a resistive element 1 and connected in series with the coil 6. To connect a shunt to the current-conducting circuit Odes 2 and 3 have openings 8 for bessing. The frame 7 may also be non-conductive (e.g. cardboard). In this case, an additional conductive coil is inserted into the device, embracing a set of plates (rods) 1 in the immediate vicinity of coil 6 and connected again in series with it. The device works as follows. A shunt is connected to the measured current circuit by means of tokens 2 and 3. When an alternating current flows through a set of plates (rods) 1 between potential terminals 4 and 5, a voltage equal to the voltage drop across the complex resistance of the plates set (rods) arises 1. Simultaneously, under the action of a flowing current, a voltage is induced, firstly, in the turns of coil 6, secondly, in the turn formed by the wire of the coil b around a set of plates (rods 1 and covering a significant area through which the power lines and a strong side magnetic field created by conductors supplying current to the shunt, and current leads 2 and 3 supplying current to the set of plates (rods) 1, and, thirdly, in the copper conductor of the frame 7 (or the reverse coil laid next to the coil b) connected in series with a coil 6 and enclosing a set of plates (rods) 1 in the opposite direction compared to it. Since the copper conductor of the frame 7 (or the reverse coil) engages a set of plates (rods) 1 in the immediate proximity to coil b, yoke magnetic field, create The conductors supplying current to the shunt, and the current leads 2 and 3, induce a voltage in it, which at any position of the shunt relative to the conductors, which supply current to it, and the coil 6, are about. the coils relative to the set of plates (rods) 1 almost completely compensate for the voltage induced by the side magnetic field in the turn formed by the coil wire b around the set of plates (rods) 1. Consequently, the voltage is induced in the coils of the coil and in the compensation winding proportional to the measured current and its frequency, and shifted relative to it

3-1101745 4

in phase at an angle of close to 90, the voltage across the plate set

practically at any positions of the shun- (rods) 1 is compensated for the voltage relative to the conductors, with the feed induced in the coil 6. The current flowing to it is. Due to the sequential accuracy of the compensation of the half-turn inclusion of the compensation part, by changing the cross section of the winding, consisting of a sequence of 7 and the number of turns of the coil 6.. but included coil 6 and coil. The proposed shunt of the alternating current (frame 7), in the potential circuit, is characterized by an increased output point 4 of the shunt, which is a current conversion geometry, since the sum of the voltage drop is acceptable.

on the multiplexed resistance of a set of reactive components of the fall of npplastin (rods) 1 shunt with a voltage across the set of plates (rods)

by induction in coil 6, it remains almost unchanged.

wherein the reactive component is pa in a wide range of current variation.

Claims (2)

1. AC DC SHUNT, containing a resistive element connected to the current leads by ends, bifilar potential leads and a compensation winding included in the circuit of one of the potential leads, characterized in that, in order to increase the accuracy of current conversion, the compensation winding is made in in the form of a coil wound on a frame of non-magnetic open conductor, wrapping a resistive element and connected in series with the coil. 2. Shunt by π. 1, with the fact that the resistive element is made in the form of a set of plates or rods. About sl