KR20210109068A - Direct current measuring method and apparatus - Google Patents

Abstract

The present invention relates to a non-contact direct current (DC) measurement method and an apparatus thereof and, more specifically, to a method for measuring a DC using a flux gate in a non-contact and an apparatus thereof. According to the present invention, the DC measurement method comprises the following steps: measuring the magnitude of a magnetic flux excited in a magnetic core surrounding a conductor through which a current to be measured of a predetermined magnitude flows to generate an electrical signal having a predetermined voltage; generating an offset current generating a second magnetic flux, which is a magnetic flux for canceling the magnetic flux, on the basis of the electrical signal and applying the second magnetic flux to the conductor to cancel the magnetic flux of the conductor; and determining the magnitude of a DC current flowing through the conductor on the basis of a predetermined correction value determined according to the magnitude of the offset current and the magnetic characteristics of the magnetic core. Unlike the prior art, the DC is acquired by using a preset correction value according to various magnetic characteristics of the magnetic core, thereby providing an advantage of removing difficulty of correcting parameter values of a circuit according to the magnetic core.

Description

DC current measurement method and device { DIRECT CURRENT MEASURING METHOD AND APPARATUS }

The present invention relates to a method and an apparatus for measuring a non-contact direct current, and more particularly, to a method and an apparatus for measuring a direct current in a non-contact method using a flux gate.

As a method of measuring the current flowing in a conductor, the direct measurement method is measured by directly connecting a current measuring device to the conductor, and the current in the conductor is measured by detecting the electromagnetic field generated in the vicinity by the current of the conductor with a current measuring instrument. There is an indirect measurement method.

Here, the direct measurement method is cumbersome and difficult to connect a measuring instrument, and there are constraints such as not being able to separate it in a circuit.

Representatively, as the indirect measurement method, there is a method of measuring a current by a flux gate method, and as related prior arts, there is Korean Patent Registration No. 10-1329240.

According to the prior art, an oscillation signal for magnetizing two cores with opposite polarities is applied to detect a DC component by a change in the oscillation signal, but an LC oscillation circuit using the inductance of a coil wound around one core as it is The DC component is detected by applying the LC oscillation signal to the coil wound on the other core.

However, as described above, the prior art has a disadvantage in that the structure is complicated as a plurality of oscillation circuits for magnetizing the plurality of cores must be provided according to the use of the plurality of cores. There is a problem that the parameter of the meeting must be changed.

Republic of Korea Patent No. 10-1329240

The technical problem to be solved by the present invention is to provide an apparatus and method for measuring a direct current using only one magnetic core surrounding a conductor to be measured without using a plurality of magnetic cores.

In addition, the technical problem to be solved by the present invention is to set the correction value according to the magnetic core in advance without changing the values of the parameters of the circuit (for example, resistance, inductance, capacitance, etc.) according to the characteristics of the magnetic core so that the magnetic characteristics are improved. An object of the present invention is to provide a DC current measuring method and apparatus applicable to a plurality of changing magnetic cores.

The DC current measuring device according to the present invention for solving the above technical problems is wrapped around a predetermined conductor 100, so that the first magnetic flux, which is a magnetic flux of a predetermined size, is excited by the DC current flowing through the conductor 100, , the magnetic core 200 discontinuously formed in a partial section, a second magnetic flux that is located across both ends of the discontinuous section of the magnetic core 200 and is a magnetic flux that cancels the first magnetic flux of the magnetic core 200 is generated. The canceling magnetic flux generating unit 300, which is located in the center of the discontinuous section of the magnetic core 200, is disposed so as not to come into contact with the magnetic core 200, and the first magnetic flux and the second magnetic flux of the magnetic core 200 are A voltage generator 400 that generates and outputs an electric signal having a predetermined voltage according to the magnitude of the remaining magnetic flux after the two magnetic fluxes are canceled, receives the electric signal generated from the voltage generator 400 and receives the electric signal based on this The offset current generator 500 generates an offset current necessary for generating the second magnetic flux in the offset magnetic flux generator 300 and supplies it to the offset magnetic flux generator 300, the magnetic properties of the magnetic core 200 Accordingly, information on the magnitude of the offset current is provided from the correction value storage unit 600 and the offset magnetic flux generator 300 for storing a predetermined correction value, and a predetermined correction value is provided from the correction value storage unit and a measured current value conversion unit 700 for obtaining the current magnitude of the DC current flowing through the conductor based on the received.

Also, the correction value stored in the correction value storage unit 600 of the DC current measuring apparatus according to the present invention may be determined according to the magnetic permeability of the magnetic core 200 .

Also, the voltage generator 400 of the DC current measuring device according to the present invention may be a Hall sensor.

The method for measuring direct current according to the present invention comprises the steps of measuring the magnitude of a magnetic flux excited in a magnetic core surrounding a conductor through which a current to be measured of a predetermined size flows and generating an electrical signal having a predetermined voltage, based on the electrical signal. canceling the magnetic flux of the conductor by generating a second magnetic flux, which is a magnetic flux that cancels the magnetic flux, and applying the second magnetic flux to the conductor; and calculating the magnitude of the DC current flowing through the conductor based on a predetermined correction value.

According to the present invention, unlike the prior art, it is possible to measure the direct current using only one magnetic core surrounding the conductor to be measured.

In addition, according to the present invention, unlike the prior art, the difficulty of correcting the parameter values of the circuit according to the magnetic core can be solved by obtaining the direct current using preset correction values according to the various magnetic characteristics of the magnetic core, and more precisely. It is possible to measure direct current.

1 is a diagram showing the configuration of a DC current measuring device according to the present invention.
2 is a flowchart illustrating a method for measuring a direct current according to the present invention.
3 is a circuit diagram of an embodiment of a DC current measuring device according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art to which the present invention pertains can easily carry out the present invention. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein.

Hereinafter, the present invention will be described in detail with reference to the drawings. 1 is a diagram showing the configuration of a DC current measuring device according to the present invention, FIG. 2 is a flowchart showing a DC current measuring method according to the present invention, and FIG. 3 is a circuit diagram of an embodiment of the DC current measuring device according to the present invention. am.

First, referring to FIG. 1 , the DC current measuring device according to the present invention includes a magnetic core 200 , an offsetting magnetic flux generator 300 , a voltage generator 400 , an offsetting current generator 500 , and a correction value storage. It includes a unit 600 and a measured current value conversion unit 700, and in FIG. 1, reference numeral 10 exemplifies the magnetic flux generated by the current flowing by the conductor 100, and reference numeral 20 denotes the conductor It is illustrated by exemplifying the magnetic flux that cancels the magnetic flux flowing in (100).

The magnetic core 200 surrounds a predetermined conductor 100 so that the first magnetic flux, which is a magnetic flux of a predetermined size, is excited by the DC current flowing through the conductor 100, and is formed discontinuously in some sections, and the discontinuity In the case of the section, it is preferable that both ends of the magnetic core 200 face each other.

The canceling magnetic flux generating unit 300 is located across both ends of the discontinuous section of the magnetic core 200 and performs a function of generating a second magnetic flux that is a magnetic flux that cancels the first magnetic flux of the magnetic core 200 . Here, the offsetting magnetic flux generator 300 may be configured in the shape of a coil wound around both ends of the magnetic core 200 .

The voltage generator 400 is located at the center of the discontinuous section of the magnetic core 200 , is disposed so as not to contact the magnetic core 200 , and the first magnetic flux and the second magnetic flux of the magnetic core 200 . It performs a function of generating and outputting an electric signal having a predetermined voltage according to the magnitude of the magnetic flux remaining after the cancellation. Here, the voltage generator 400 may be configured as a Hall sensor.

The canceling current generating unit 500 receives the electric signal generated from the voltage generating unit 400 and generates an offset current necessary for generating the second magnetic flux in the canceling magnetic flux generating unit 300 based on this. It performs a function of supplying to the offset magnetic flux generating unit (300). The canceling current generating unit 500 supplies the generated canceling current to the canceling magnetic flux generating part so that the magnetic flux existing in the magnetic core is canceled and its magnitude converges to zero.

The correction value storage unit 500 stores a predetermined correction value according to the magnetic characteristics of the magnetic core 200 . Here, the correction value may be determined by experimentally measuring magnetic properties affected by the magnetic permeability, physical size, or shape of the material of the magnetic core 200 .

The measured current value conversion unit 600 receives information on the magnitude of the offset current from the canceling magnetic flux generating part 300, receives a predetermined correction value from the correction value storage part, and flows through the conductor based on the received information. It performs the function of finding the current magnitude of DC current.

2 is a flowchart illustrating a method for measuring a direct current according to the present invention. The method for measuring direct current according to the present invention comprises the steps of measuring the magnitude of a magnetic flux excited in a magnetic core surrounding a conductor through which a current to be measured of a predetermined size flows and generating an electrical signal having a predetermined voltage (S100), the electrical signal generating an offset current for generating a second magnetic flux that is a magnetic flux for canceling the magnetic flux based on The method may include determining the magnitude of the DC current flowing through the conductor based on a predetermined correction value determined in advance according to the magnetic characteristics of the magnetic core (S300).

Here, as a method of obtaining a voltage according to the magnitude of the magnetic flux excited in the conductor, the voltage can be obtained by using a Hall sensor, and the correction value is a magnetic field that changes under the influence of the magnetic permeability, physical size and shape of the material of the magnetic core. The correction can be determined by measuring the characteristic by an experimental method.

3 is a circuit diagram of an embodiment of a DC current measuring device according to the present invention. The circuit diagram of FIG. 3 is merely one embodiment of the present invention, and it is possible to configure various types of hardware as needed.

As described above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited to the above embodiments, and various modifications and variations are possible from these descriptions by those skilled in the art to which the present invention pertains. will do

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the following claims as well as the claims and equivalents.

100: conductor, 200: magnetic core,
300: canceling magnetic flux generating unit, 400: voltage generating unit,
500: offset current generation unit, 600: correction value storage unit,
700: measured current value conversion unit,
10: direction of magnetic flux generated by DC current flowing through conductor 100
20: canceling magnetic flux generated by the canceling magnetic flux generating unit 300

Claims (4)

a magnetic core 200 wrapped around a predetermined conductor 100 so that a first magnetic flux, which is a magnetic flux having a predetermined magnitude, is excited by a DC current flowing through the conductor 100, and is discontinuously formed in some sections;
an offset magnetic flux generating unit 300 positioned across both ends of the discontinuous section of the magnetic core 200 and generating a second magnetic flux that is a magnetic flux that cancels the first magnetic flux of the magnetic core 200;
It is located in the center of the discontinuous section of the magnetic core 200 , is disposed so as not to come in contact with the magnetic core 200 , and the size of the magnetic flux remaining after the first magnetic flux and the second magnetic flux of the magnetic core 200 are canceled a voltage generator 400 for generating and outputting an electrical signal having a predetermined voltage according to the voltage;
Receives the electrical signal generated from the voltage generator 400 and generates an offset current required to generate the second magnetic flux in the offset magnetic flux generator 300 based on this to the offset magnetic flux generator 300 . an offset current generating unit 500 for supplying;
a correction value storage unit (600) for storing a correction value predetermined according to the magnetic characteristics of the magnetic core (200); and
A measurement current for receiving information about the magnitude of the offset current from the canceling magnetic flux generator 300 and receiving a predetermined correction value from the compensation value storage unit to obtain the current magnitude of the DC current flowing through the conductor based on the received information DC current measuring device including a value conversion unit (700). According to claim 1,
The correction value stored in the correction value storage unit (600) is a DC current measuring device that is determined according to the magnetic permeability of the magnetic core (200). According to claim 1,
The voltage generator 400 is a Hall sensor, a DC current measuring device. generating an electric signal having a predetermined voltage by measuring the magnitude of magnetic flux excited in a magnetic core surrounding a conductor through which a current to be measured of a predetermined size flows (S100);
generating an offset current for generating a second magnetic flux, which is a magnetic flux for canceling the magnetic flux based on the electrical signal, and applying the second magnetic flux to the conductor to cancel the magnetic flux of the conductor (S200); and
and calculating (S300) the magnitude of the DC current flowing through the conductor based on a predetermined correction value determined in advance according to the magnitude of the offset current and the magnetic characteristics of the magnetic core.

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