SU93799A1 - Device for measuring alternating current - Google Patents

Description

The subject of the invention is a device for measuring small alternating currents p stresses with an electrodynamic instrument. Measurement of small values of alternating current and voltage by electrodynamic devices is difficult because these devices have a large amount of their own electrical energy consumption and their scales in the initial part have a large division price. Therefore, usually, when measuring small alternating currents, either fairly complex methods are used (using a thermoelement, a cathode instrument, etc.) or methods requiring calculations (watt etpe, compensation, etc.). It is also known to measure alternating currents using an electrodynamic device according to the compensation method; In this case, the device is simultaneously measured by alternating current and auxiliary direct current, creating a torque that compensates for the moment created by the measured current. The known devices of this type, however, have the disadvantage that they require a special implementation of an electrodynamic device — with two mobile systems. The measuring device made according to the invention does not have this disadvantage: it uses a conventional electrodynamic device with one moving system. For this purpose, the stationary and movable coils of an electrodynamic device are included in the adjacent arms of the measuring bridge, in which the two other arms are formed by two sections of the secondary winding of a transformer powered by the measured current, last one. Instead of a transformer, resistances can be applied (bypass, heat meter) which are connected to the circuit of the measured alternating current. The schematic diagram of the device for measuring small alternating currents according to the invention is shown in the drawing.

The direct current source 1 is through, potentiometer 2 is included in the diagonal of the measuring bridge, the two arms of which are formed by the fixed and sliding motors of electrodynamic device 3, and the other two by sections of the secondary winding of the transformer 4, the primary winding of which is flowing around the non-temporal current. In addition to the diagonal of the bridge, next to potentiometer 2, a milliammeter 5 of the magnetoelectric system is included to eliminate the current value. If it is possible to admit the conductive connection of the source / direct current to the alternating current circuit, then the separator el transformer 4 will be replaced and | This is 6 or a potentiometer 7, the average derived point.

Positions 8.9 and 10 on the bridge diagram indicate the points to which the same terminals of the shunt 6 or potentiometer 7 are connected if the latter are replaced by transformer 4.

If the impedance of the shoulder of the bridge is equalized, the non-alternating current voltage at the ends of the diagonal will be zero, and the direct current will flow along both sides of the secondary winding of transformer 4 in opposite directions without creating additional constant magnetic flux.

The directions of the flow of currents in the scheme are shown in the drawing by arrows: dotted for the measured alternating current and diverted for the compensating direct current.

The alternating current, but the coils of the electrodynamic device 3, creates a torque in the device. Equally, the direct current flowing through the same coils of the device 3 creates a moment, but only in the opposite direction.

By varying the resistance of the potentiometer 2, the compensating direct current is adjusted so that the needle of the electrodynamic device 3 takes up the zero position.

In this position, a small value of an alternating current can be accurately counted by the appropriately calibrated uniform magnet of a magnetoelectric milliammeter 5.

In order to exclude the influence of a constant zero zempogo magnetism, two comparisons of the measured current with the state are made: one when the negative pole of the source / direct current is connected to point 9 and the second when the positive zero is connected to the same point. The average of both measurements is taken as actual.

Subject and title

1. Device for measuring AC currents by the compensation method using a zero indicator — an electrodynamic measuring device fed by both measured alternating current and direct current, creating in Nribor a false moment, compensating the moment created by measuring the current, characterized in that, in order to simplify the device by using an electrodynamic device with only one moving system, the fixed and movable coils of this device are included in the adjacent arms of the measuring bridge In which the two other arm formed by the two sections of the transformer secondary obmotkn fed emym measured current, and a source connected in series diagonal kompensiruyuHiero pnogo constant current and device measures the size of the latter.

2. Video device notion 1. 1, characterized in that instead of a transformer, used as or resistance sensors, but with which the measured alternating current flows, are used as two shoulders of the bridge.