SU1529136A1 - Device for measuring strong direct currents - Google Patents

Abstract

The invention relates to electrical measuring equipment and can be used to measure large direct currents. The purpose of the invention is to improve the measurement accuracy. The device contains a detachable magnetic core made of ferromagnetic elements 1, on which sections 5 of the measuring winding are placed, and ferromagnetic elements 2 equipped with sections 3 of the modulation winding and sections 4 of the measuring winding, and meter 6. Ferromagnetic elements 1 and 2 are arranged in parallel planes that, with the same perimeter of the detachable magnetic circuit, allows an increase in the number of magnetometric converters in the integration circuit and, accordingly, increase the measurement accuracy. 2 Il.

Description

FIG. one

The invention relates to electrical measuring equipment and can be used to measure large direct currents.

The purpose of the invention is to improve the measurement accuracy by increasing the number of magnetometer converters in the integration circuit.

FIG. 1 shows the proposed device for measuring large direct currents; in fig. 2 is an electrical diagram of the output circuit of the device. The device contains (FIG. I) a detachable magnetic core, made of individual ferromagnetic elements 1 and 2 with longitudinal and transverse gaps between them. The ferromagnetic elements 1 and 2 are similarly arranged in parallel planes, forming two Rus of the combined ferromagnetic elements. Ferromagnetic elements 2 have through holes through which sections 3 of the modulation winding are wound, interconnected in series and connected to a nepeMeiiporo current source (shown in Fig. I) Over sections 3 of the modulation winding evenly between the through holes on the ferromagnetic elements 2 are placed sections 4 measuring windings. Identical sections 5 of the measuring winding are likewise placed on the ferromagnetic elements 1. Sections 4 and 5 of the measuring winding in each successive pair of ferromagnetic elements are connected (Fig. 2) in series to the counter, and the meter 6 is connected to the output of the measuring winding The process of measuring direct current in bus 7 should be covered by a detachable magnetic core of the device.

A device for measuring large direct currents operates as follows.

When powering sections 3 of the modulation winding with an alternating current, alternating magnetic fluxes are created in each ferromagnetic element 2, directed in space of section 4 of the measuring winding according to. In this case, the signal at the output of the measuring winding due to its uniform deposition between the through holes of the ferromagnetic elements 2 is absent. After covering the bus 7 with a constant current detachable magnetic core in the latter,

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five

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five

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five

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five

two identical operating magnetic fluxes, one of which is closed through the ferromagnetic elements 1, and the other through the ferromagnetic elements 2.

The working magnetic flux penetrating the ferromagnetic elements 2, due to modulation of their magnetic permeability by an alternating modulation field, induces an emf in sections 4 of the measuring winding, depending on the value of the measured direct current, and its value is recorded. In the case of measuring DC currents containing a variable component, the latter creates two variable magnetic fluxes, inducing transformer EMFs in sections 4 and 5 of the measuring winding, which are successively connected and counter-connected to the identical sections 4 and 5 of the measuring winding and do not cause a change in the output signal of the measuring winding fixed by meter 6.

Similar placement of ferromagnetic elements I and 2 in parallel planes in a detachable magnetic conductor with the formation of two Rus combined ferromagnetic elements with the same perimeter of the magnetic circuit provides a twofold increase compared to the prototype number of magnetometric transducers along the length of the closed integrating circuit, as The ferromagnetic elements 1 without modulation windings in the prototype, in the proposed device are located ferromagnetic elements 2 with modulation about otkami, is propelling magnetometric converters, which improves its accuracy measurement compared with the prior art.

Claims (1)

Invention Formula A device for measuring large direct currents containing a detachable magnetic core made of separate ferromagnetic elements with gaps between them, some ferromagnetic elements have through holes through which sections of the modulation winding are interconnected in series and connected to an AC source, and sections measuring winding evenly spaced through openings of ferromagnetic elements, and other ferromagnetic elements are equipped with identical sections of the measuring winding, with sections of the measuring winding in the clalada of the following one after the other pairs (ferromagnetic elements are connected in series-counter, and the outermost conclusions of the measuring winding formed by its sequence The connected sections are connected to a meter, different In order to improve measurement accuracy, ferromagnetic elements equipped with measuring winding sections are placed in a plane parallel to the plane in which ferromagnetic elements with through holes having modulation and measuring windings are located, and are arranged similarly to the next l, Image with them are two Rus combined ferromagnetic elements. f1 / e.2 h