SU1019503A1 - Direct-to-alternating current inverter - Google Patents

Abstract

A DEVICE FOR TRANSFORMING DC TO AC VOLTAGE, containing current carrying tires and magnetic flux with two air gap-i and with a rectangular cut-out in one of the rods of the magnetic circuit, module-. The winding connected to the source of the modulating voltage, and the output winding, so that with the aim of evolving: accuracy and reliability, magnetically; There is a three-pronged, straight-angled cut-out made on the central rod, on which the modulating winding is located on its branches, and the output winding encompasses the central rod along with the cutout, and the current-carrying tires pass through the magnetic core windows.

Description

The invention relates to information and measurement technology and can be used as an element of automation, in particular, when regulating the uniformity of the current load of parallel branches of rectifiers.

A device for converting direct current into alternating current is known, containing a C-shaped magnetic circuit, on which a modulating winding is wound, a Hall element located in the air gap of the magnetic circuit, to the control electrodes of which the converted current £ 1} is supplied.

The closest to the invention in terms of technical essence is a device for converting direct current into alternating current, containing current-carrying buses and a magnetic circuit with two air gaps and with a rectangular cut in one of the rods of the magnetic * magnetic circuit, simulating a winding connected to a voltage source, and an output winding. £ 2J.

However, the known devices have low accuracy.

The aim of the invention is to improve * · the accuracy and reliability of the device. The set goal is achieved by the theme that in a device containing current-carrying buses and a magnetic circuit with two. air gaps and with a rectangular cutout in one of the cores of the magnetic circuit, the modulating winding connected to the source of modulating voltage 35, and the output winding, ' ^{1 the} magnetic line is made of three-cores, a rectangular cutout is more advantageous on the central core, on which the modulating winding is located on its branches and output winding, ohvatyvayu- _Λ · ι schaya central core with low-cut, and bus bars pass through a magnetic screen.

The drawing shows a structural diagram of the device. ’’

The device consists of extreme rods 1 and 2, a magnetic circuit, a central rod 3 with a cutout, two current-carrying wires 4 and 5, covered by these 50 rods, a modulating winding 6, powered by a modulating voltage source, and an output winding 7, covering the cutout along with the modulating winding ...

The principle of operation of the device is as follows.

With DC current '

On the buses 4 and 5 in the rods 1 and 2, magnetic fluxes appear proportional to the corresponding currents.

With the same direction of currents in the tires, magnetic fluxes Ф ₂ are closed along the extreme rods 1 and 2 and through the central rod 3 - in opposite directions. The output winding 7 is penetrated by the magnetic fluxes Ф ₄ and Ф _{2 of the} opposite direction.

I5 These streams are modulated by a modulating winding b, * readable from a modulating voltage source. If the currents in the tires are equal to zero, then the total flux Ф _х , penetrating the output winding, is equal to zero. If the current in one of the buses is greater, then the total flux is the difference between the fluxes Ф ₄ and Ф ^, and the corresponding voltage at the output of the output winding is determined. DERIVATIVE VARIATION OF FLOWS Ф | and: by time.

The value of the output voltage Oedx does not depend on the value of the modulating flux - Ф ^. this is due to the fact that the modulating flux f _m from each point, at each moment of time, in one part of the cutout is expressed with a constant current f ₄ , and in the other part it is calculated; is drawn from a constant flow of F ₄ ; as a result, the total flux Φ ^ is determined only by the difference between the fluxes Φ and φχ. ...

The sign of the output voltage indicates which bus has more current.

The use of magnetically modulating windings as a sensitive element makes it possible to increase the reliability of the device in comparison with the mouth; 'swarm on the Hall element.

Thus, the proposed device makes it possible to convert the difference in direct currents into alternating voltage with high accuracy and reliability.

The device can be used. as a primary sensor in the control and regulation of the uniformity of the current load of parallel branches of rectifier - converting installations.

Claims (1)

DEVICE FOR CONVERTING DIRECT CURRENT CURRENT TO AC VARIABLE, containing current-carrying busbars and a magnesium wire with two air gaps and with a rectangular cut-out in one of the cores of the magnetic circuit, modules -. a winding connected to a modulating voltage source, and an output winding, distinguishing it with that in order to increase. accuracy and reliability, the magnetic circuit A is made of a three-core, a rectangular cutout is made on the central rod, on which a modulating winding and an output winding covering the central rod along with the cutout are located on its branches, and current-carrying buses pass through the windows of the magnetic circuit. 0) CS