SU114949A1 - Support element for current and voltage regulators - Google Patents

Description

The proposed basic element of the prediaziachts stab; 1.B of the current and voltage, in which a permanent magnet is used as a reference.

Converting a constant magnet flux to an electrical voltage in the proposed support element is obtained in a known manner by varying the magnetic permeability of the magnetic core with the aid of a magnetic flux perpendicular to the main magnetic flux of this magnetic conductor, not occurring, means :; Koropcii excites alternating current.

The reference element is a choke that is magnetized by an alternating or pulsating current that creates a magnetic flux, locking in a plane perpendicular to the plane of the main magnetic flux created by the measured current.

The peculiarity of the proposed support element, which makes it possible to combine the reference and the comparison circuit in it, is that the throttle magnetic circuit is bent around the ring and provided with a gap with a permanent magnet placed in it, the flow of which is directed towards the indicated main flow and modulated by the bias jio current, and the output the alternating voltage is removed from the winding flowed by the measured current.

FIG. 1 is a schematic diagram of the proposed support member; in fig. 2 - two variants of its constructive implementation, each in three projections.

In the gap of the ring-bent magnetic circuit 1 of the throttle of the litter, the permanent tycoon 2, which is a standard and creates a magnetic flux Ф ,,. On the magnetic core / imposed winding W ,. connected to input voltage U ,,. and streamlined by the measured constant current com. This current creates in the magnetic field of the main magneti; the flux „directed oppositely to the magnetic flux F.

No. 114949

The excitation winding W creates a pulsating magnetic flux FD, whose frequency is equal to the frequency of the excitation voltage. This magnetic flux changes the magnetic permeability of the magnetic circuit /, which entails a pulsation of the differential flux AF F, - F ,, with the same frequency.

As a result, an emf is induced in the measuring winding W. whose frequency is equal to the excitation frequency, and the amplitude is proportional to the difference in fluxes.

A resistance R is connected to the measuring winding circuit W, which serves to reduce the shunt effect of the source of the measured voltage Li on the output voltage f /. Proper selection of this resistance value ensures mutual temperature compensation of the measuring winding and magnet.

A diode in the excitation circuit produces a pulsating current in the winding of the output, which is passed around to create a pulsating flow.

A diode in the excitation circuit can be excluded from the circuit, the output of which in this case forms a double frequency voltage with an amplitude proportional to AF F., - Fz.

This circuit, compared to the circuit shown in FIG. 1, has greater sensitivity and stability, but causes difficulty in using its output voltage and, moreover, has a significant delay.

The proposed support element, regardless of the incorporation scheme, can be made in a single-sided design.

In the embodiment shown in FIG. 2, the magnetic circuit is formed by four semi-rings 3 of a magnetically soft material (preferably an oxyfer, to increase the permissible operating frequency) with a groove in which the excitation winding W is placed during assembly. The permanent magnet consists of two identical thin plates 4 of magnetically hard material that can be magnetized both before assembly and after.

The measuring winding W is wound outside on the magnetic core and forms a toroid.

In the embodiment of the support element shown in FIG. 3, the magnetic core is made in the form of a ring 5 (also from an oxyfer) with a groove for the measuring winding W „. A washer 6 of a magnetic-hard material was used as a permanent magnet. Wg excitation winding in this variant is located outside. This option is more technological than the first one, but it requires large ampere turns of the measuring winding and is more susceptible to the influence of external magnetic fields.

Subject invention

The reference element for current and voltage stabilizers, which is a choke, is magnetized by an alternating or pulsating current, creating a magnetic flux, closed in a plane perpendicular to the circuit plane of the main magitite flux created by the measured current, characterized in that combination in the reference element of the standard and the comparison circuit, the magnetic core of the throttle is bent around the ring and provided with a gap with a permanent magnet placed in it, the flow of which is directed opposite to the specified axis ovnomu flux and magnetizing flux modulated and the output AC voltage is removed from the winding streamlined emym measured current. L S FZ Ufosl

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