SU1064394A1 - Ferromagnetic frequency multiplier by six - Google Patents

Abstract

A ferromagnetic frequency inverter containing magnetic cores with input windings located on them connected to a star, the ends of which are connected to terminals for connecting a three-phase power supply source, output windings connected to a circuit connected to output terminals, additional windings connected via a capacitor to a series a closed circuit, and control windings connected in series to a circuit connected through a filter plug to a constant voltage source, differing In order to improve the shape of the output voltage by reducing the level of side harmonics in its spectrum and improving the mass and dimensional parameters, three magnetic cores are used, each of which is made with two windows in orthogonal directions, one of which has one input and one additional winding, and in the other, one control winding and one output winding.

Description

The invention relates to electrical engineering and can be used as an energy source of increased frequency in various areas of technology.

A ferromagnetic frequency tester, based on the principle of separate multiplication, is known, which consists of a combined, cascaded multiplication circuit of a ferromagnetic frequency tripler, a bridge frequency doubler and matching transformers 1J.

The disadvantage of this device is an increased level of side harmonics in the output voltage spectrum.

Closest to the proposed ferromagnetic, frequency frequency tester, containing magnetic cores with input windings located on them, connected to a star, the ends of which are connected to terminals for connecting a three-phase supply voltage source, output windings connected to a circuit, connected to output terminals, additional windings connected via a capacitor in a series closed circuit, and control windings connected in series to a circuit connected through a filter box to a constant source voltage 2.

The disadvantage of a L1-known ferromagnetic frequency misgammer is that the output voltage spectrum contains odd harmonics. This is due to the nonidentity of the parameters of the magnetic conductors and windings of the frequency doubler, as well as the asymmetry of the three-phase supply voltage system and leads to a deterioration of the output voltage form. In addition, the known device has significant weight and dimensions due to the large number of used. magnetic conductors: three magnetic conductors with windings connected according to the frequency decrementing circuit, and two magnetic conductors with windings connected according to the frequency doubler circuit.

The purpose of the invention is to improve the shape of the output voltage by reducing the level of side harmonics in its spectrum and improving the weight and size parameters.

The goal is achieved by the fact that in a ferromagnetic frequency tester containing magnetic cores with input windings located on them connected to a star, the ends of which are connected to the leads for connecting a three-phase power supply source, output windings connected to a circuit connected to the output terminals, additional windings connected through a capacitor into a series closed circuit, and control windings connected together successively into a circuit connected through a filter plug to the source PICs on nnogo

strands, use three magnetic conductors, each of which is made with two windows in orthogonal directions, in one of which one input and one additional windings are located, and in the other one control winding and one output winding.

FIG. 1 shows a circuit diagram of a ferromagnetic frequency gap; in fig. 2 - graphics

About the principles of his work.

The ferromagnetic frequency tester contains transformers 1-3, a load capacitor 4, a lateral compensation capacitor 5, and a filter plug 6. The magnetic conductor 7 of each transformer 1-3 has two windows located in orthogonal directions. In one window of the magnetic circuit 7, the input 8 and additional 9 windings are located, in the other - the control windings 10 and the output windings 11. The windings 8 and 9 of transformers 1-3 are connected according to the frequency tripler, the output of which is connected to a load capacitor 4. The windings 10 and 11 are connected in series and form a bias circuit and an output circuit of the device, respectively. The magnetic cores 7 can be made on twisted split cores rotated 90 °, or made of ferrite

in the form of a bitor ..

Ferromagnetic frequency tester

0 works as follows.

When connecting the ushseterite to the source of three-phase voltage with frequency c; on the load capacitor 4 and, consequently, on the windings 9 of transformers 1-3, a voltage with a frequency BF appears. With

In the input direction oh (fig. 2 b), the ferromagnet of each transformer 1-3 is affected by induction with frequency Zi generated by the voltages on the windings 8 and 9, and in the output (orthogonal) direction ou - a constant induction created by the magnetics of the windings 10. The strength of the magnetic field h, in any direction oz of the ferromagnet, is associated with induction in a nonlinear relationship (b) (Fig. 2a). In the input direction x, the induction is changed according to the law bx b co5 + b co53g (where T isJt), in the output direction induction by bo bo (Fig. 26). Given different values of T from O to 2ff, find the induction b in the direction oz of the ferromagnet as the geometric sum

0 vectors bx and by (fig. 2c), then according to the diagram in fig. 2a, the intensity h is determined, which coincides in direction with the induction b, and finally the vector h is projected onto the axis oy. FIG. 2 illustrates the order of determining the IUDl T 0 and is given (φ (2g) dependence hy (Sr). Since the period of the function. Well (-c) is s: then the spectrum of the magnetic field contains only even

Claims (1)

A FERROMAGNETIC FREQUENCY INSTRUMENT, containing magnetic cores with input windings located on them, connected to a star, the ends of which are connected to the terminals for connecting a three-phase power supply source, output windings connected to a circuit connected to the output terminals, additional windings connected through a capacitor to a sequential closed circuit, and control windings connected in series in a circuit connected through a filter plug to a constant voltage source, characterized in that then, in order to improve the shape of the output voltage by reducing the level of side harmonics in its spectrum and improving the overall dimensions, three magnetic cores are used, each of which is made with two windows in orthogonal directions, one of which has one input and one additional winding, and the other - one control winding and one output winding. Fu. g