SU1307355A1 - Universal magnetomodulation contactless current instrument transducer - Google Patents

Abstract

This invention relates to a measurement technique. It can be used to measure constant, pulsating and pulsed currents. The purpose of the invention. This is an increase in the measurement accuracy and expansion of functionality due to the elimination of transformer EMF in the measuring winding of the converter. The device contains a magnetic conductor made of separate ferromagnetic cores 1., on which are wound sections of the modulation winding 2, section of the measuring winding 3, current-Bod 4. To achieve this goal, the ferromagnetic elements are made toroidal, and each of the modulation and measuring windings (EUT) sections alternately covers two nearby side of each pair of ferromagnetic, the EUT coils plane is parallel to the direction of the vector magnetic field strength generated by the controlled current. 1 il. (L 00 about SAD JV

Description

The invention relates to electrical measuring equipment and can be used to measure constant, pulsating and pulsed currents.

The purpose of the invention is to improve the measurement accuracy and enhance the functionality by eliminating the transformer EMF in the measuring winding of the converter.

The drawing shows schematically the proposed measuring current transducer.

The device contains a magnetic core,

W

at any time, the toroidal cores 1 magnetize in the places where the sections of the measuring winding 3 are located. As a result, the EMF of one of the sections in each pair shifts in phase with respect to the EMF of the other section, turned on in relation to the first counter, and at the output of the converter an output signal occurs that is equal to the value of the total emf of the E sections of the measuring

 Vl l

winding 3, which depends on the magnitude of the controlled current. If the current in the modulation winding 2 is absent

made of separate ferromagnets, then in the presence of a controlled

toroidal cores 1, on which the sections of the modulation winding 2 and the section of the measuring winding 3 are wound, alternating with each other. Each section simultaneously covers two nearby sides of each pair of adjacent toroidal cores 1. Modulation winding sections

2 are connected to each other in series in accordance with and connected to a source of stable alternating voltage (not shown). Sections of the measuring winding 3 are also interconnected in series and included in each follower one. For the other pair, the counter, with the plane of the turns of each section of the measuring winding

3 is parallel to the direction of the intensity H of the magnetic field generated by the controlled current flowing through the conductor 4. The output signal T (, 1k of the current transducer is taken from the extreme leads of the measuring winding 3.

The device works as follows.

When powering the modulation winding 2 from a source of stable change, a universal magnetic modulating non-contact measuring current transducer containing a magnetic core made of separate

voltage of the l / and and in the absence of ferromagnetic elements, on which

nymi henpy mpp mt ttypnnpy nfiMnr-

controlled current in the conductor in each section of the measuring winding 3 is induced by EMF. Due to the fact that in each pair the sections of the measuring winding 3 are connected in series with each other, their resulting emf is zero and, therefore, in this case the output signal E is also zero.

When a controlled current flows through a conductor 4, the intensity H of the magnetic field created by the controlled current changes its trajectory in such a way that it is

50

55

the modulation winding sections are wound, interconnected in series according to and connected to the AC source, and the measuring winding sections interconnected in series and connected in each pair of sections are opposite, characterized in that, in order to improve the accuracy and functionality, ferromagnetic the elements are made toroidal, and each of the modulation and measuring winding sections alternately covers two nearby

at any time, the toroidal cores 1 magnetize in the places where the sections of the measuring winding 3 are located. As a result, the EMF of one of the sections in each pair shifts in phase with respect to the EMF of the other section, turned on with respect to the first counter, and the output of the converter occurs output signal equal to the value of the total EMF E measuring sections

 Vl l

winding 3, which depends on the magnitude of the controlled current. If the current in the modulation winding 2 is absent, then in the presence of a controlled

0

five

the current in the conductor 4 creates a strength Hf, a magnetic field whose direction is parallel to the plane of the turns of the sections of the measuring winding 3. With this arrangement of the plane of the turns of the sections of the measuring winding 3 and the specified direction of the magnetic field, any change in the controlled current in time may be due to pulsations current or pulsed character of the controlled current, does not cause (does not induce) the transformer EMF in the measuring winding sections

3. Elimination of the indicated transformer EMF in the measuring winding 3 improves the measurement accuracy and expands the functionality of the device, since it allows using it not only for measuring direct current, but also for measuring pulsating and pulsed currents.

Claims (1)

Invention Formula A universal magnet-modulated non-contact measuring current transducer containing a magnetic core made of separate 0 ferromagnetic elements on which nymi henpy mpp mt ttypnnpy nfiMnr- 0 five the modulation winding sections are wound, interconnected in series according to and connected to the AC source, and the measuring winding sections interconnected in series and connected in each pair of sections are opposite, characterized in that, in order to improve the accuracy and functionality, ferromagnetic the elements are made toroidal, and each of the modulation and measuring winding sections sequentially covers two nearby 313073554 The sides of each pair of ferromagnetic particles lie parallel to the direction of the vector elements, with the plane of the turns of the magnetic field strength torus, the measuring winding sections being located by the controlled current.