SU455430A1 - Device to control the converter - Google Patents

Description

one

This invention relates to the field of converter technology.

Phase shifters are known that use a rotating magnetic field, such as inductive phase shifters.

In these devices, the phase shift is created by rotating the magnetic circuit with the output windings relative to the fixed magnetic circuit with the power windings. Known devices cannot control using an input electrical signal, and also have moving parts, reducing their reliability.

The proposed device for controlling the converter, comprising a branched composite closed magnetic circuit with excitation, control and output windings, does not have these disadvantages due to the fact that the control winding is located on the central rod of the closed magnetic circuit perpendicular to the plane of the magnetic core, in the holes of which the AC windings are located Which are the output windings of the device.

The drawing shows the described device.

The device is a branched composite closed magnetic circuit consisting of sections 1 and 2.

Section 1 is assembled from sheets of ferromagnetic material, in which the rectangularity of the magnetization curve is quite clearly expressed. A winding 3 is placed in the holes of section I of a branched magnetic circuit, which, when connected to a w-phase AC network, creates a ppm whose vector rotates in space with a constant speed of 0. Magnetic lines of force created by the winding 3 are closed in section 1. Section 2 is made of a massive ferromagnetic material and has an outer ring, a central rod perpendicular to the plane of section I, and a closing plate parallel to the plane of section 1. The central rod of this magnetowire is located control windings 4.. The magnetic power lines created by the winding 4 are closed along a composite magnetic circuit (sections 1 and 2).

In section 1 there are output windings 5. Caleda winding 5 covers section 1, which is the radial sector. In this sector, there is a summation of ppm. windings 3 and 4. The sectors axes are shifted

2g. .

one is relative to another at an angle (where

P

n is the number of output windings). Let the winding 3 be powered from the T-phase AC source, and the winding 4 bears a DC control DC. Then the MDS, operating in the radial sectors covered by the windings 5, will be the sum of the m. windings 3 and 4.

The mode of operation of the device is selected in such a way that the arithmetic sum is ppm. significantly more ppm required to saturate the corresponding radial sector of section 1. Due to this, the process of remagnetization of the radial sector occurs in the vicinity of the crossing point through the zero curve of the total ppm generated by windings 3 and 4.

Change the value of ppm control windings, it is possible to shift the point of transition through the zero curve of the total m / s. regarding

a fixed value and, shift the phase of the emf pulse in the output winding 5.

Prev m e..t .. inventions

A device for controlling a converter, comprising a branched composite magnetic circuit with excitation windings, control and output, characterized in that, in order to simplify the construction and increase reliability of operation, the control winding is located on the central rod of a closed magnetic circuit, perpendicular to the magnetic circuit plane, in the hole which the AC windings are located, which are the output windings of the device.

 -BUT