SU161413A1 - - Google Patents

Description

The invention relates to known devices for measuring large electric currents, which contain a magnetic core that is worn on a controlled current-carrying wire and that has a gap in which magnetically sensitive semiconductor element is placed.

The aim of the invention is to increase the sensitivity of the measuring device. This is achieved by the fact that the magnetically sensitive element is composed of two semiconductor triodes, included as arms of an electric bridge and located in the core gap in such a way that the diffusion current density vector of one of the triodes is parallel and the other perpendicular to the magnetic field in the core gap.

FIG. 1 schematically shows the block scheme of the proposed device; in fig. 2 - its basic electrical circuit.

The device consists of a magnetic / gap, measuring bridge 2 AC, the sensitive element 3 of which is placed in the gap of the magnetic circuit, generator 4 at one fixed frequency (1000 Hz), amplifier 5 of alternating current transistors and dial indicator 6.

The generator is assembled on the triode T (Fig. 2). The emitter follower on the triode T acts as a buffer cascade. The signal from the generator is in phase supplied to the bases of the TS and T triodes, which together with the transformer Tr

form an ac measuring bridge. The G3 and T triodes are enclosed in a shell of a nonmagnetic material and placed in the magnetic core gap so that the diffusion current density vector of one triode is parallel to the magnetic power lines of the gap, and the other is perpendicular to them.

In the absence of current in the bus 7, the bridge is balanced, and the signal to the semiconductor amplifier is not received. When current flows in the panel, a magnetic field is created in the gap of the magnetic circuit - the gain of one triode increases and the other decreases, and a signal appears at the output of the bridge that is proportional to the current in the bridge. This signal, amplified by a semiconductor amplifier assembled on triodes T, T and T, is fed to a microammeter with a rectifier on four diodes ().

The device can be used to measure direct and alternating current. By selecting the material of the magnetic circuit, it is possible to achieve that the device operates on a linear portion of the magnetization curve. The use of a non-linear region is taken into account when calibrating the gauges of the gauge.

The magnitude of the gap of the magnetic circuit, you can measure a large range of currents. The upper limit of measurement is limited only by the difficulty of counting the dispersion fluxes. Since the magnetic core can be made detachable, it is not necessary to measure

pre-disconnect the bus in which the current is measured.

In order to measure current, the device is powered up. The toggle switch B) is moved to position B and the required voltage of the generator is set with potentiometer H1. Then the toggle switch Sj is shifted to position A, and the toggle switch B-2 is shifted to position B and the required gain factor is set using potentiometer P-2. After that, the toggle switch BZ is also transferred to position A and the potentiometer I balances the measuring bridge. Now the device is ready to work. The switch instrument does not require setting a zero scale, since the AC voltage is not supplied to the diodes until a signal is received at the input of the amplifier.

The device can be powered by two batteries.

for flashlight type KBS-L-0.50 (4.5b each).

Subject invention

A device for measuring large electric currents containing its magnetic core worn on a controlled current-carrying wire, with a magnetically sensitive semiconductor element placed in its gap, characterized in that, in order to increase the sensitivity, the magneto-sensitive element is composed of two semiconductor triodes that are included as shoulders electric bridge and located in the gap of the core so that the diffusion current density vector of one of the triodes is parallel, and th - perpendicular to the direction of the magnetic field in the gap of the core.