SU877629A1 - Pulse transformer - Google Patents

Description

(54) PULSE TRANSFORMER

I

The invention relates to a high-power pulse technique, in oco6eHHoctH for producing high magnetic fields in pulses of short duration, in particular for electrodynamic acceleration of the shells when initiating thermo-nuclear synthesis, namely, to pulsed snolotnoy transformers.

A pulsed transformer is known, the primary and secondary windings of which are made of a coaxial cable wound on a cylinder. In this case, an internal core is used as the primary winding, and the secondary winding consists of separate turns of the Cable sheath | 1 connected in parallel.

The disadvantage of this design is the high inductance of dispersion, determined by the characteristics of standard cables.

Also known is a pulse transformer containing a high-voltage and low-volt single-turn windings from a ribbon conductor, while the low-voltage windings are connected in parallel on two output current leads | 2.

The disadvantage of the transformer is that the energy is supplied to the load through the output conductors by a single line, which causes a large parasitic inductance and, therefore, large in turn, energy. An independent connection of each turn of the low-voltage winding with a load by an independent line is possible, but difficult because of the location of the winding taps on the straight line.

The purpose of the invention is to reduce the leakage inductance.

This goal is achieved by the fact that in a pulse transformer containing high-voltage and low-voltage single-turn windings from a ribbon conductor, while the low-voltage windings are connected in 5 parallel on two output current leads, the high-voltage winding is made in the form of one turn covering the coils of low-voltage windings made in the form of sectors which form the surfaces of the conductor-Q cok which are parallel to the generator along the surface of the conductor of the high-voltage winding, and the output current conductors are placed along the central th transformer axis.

In this case, the output current conductors are made in the form of truncated cones, the vertices directed towards each other, the radial sections of the low-voltage windings have a wedge-shaped form, with the beginning of all the turns of the low-voltage windings connected to one electric current circuit and the ends to the other.

FIG. 1 shows a pulse transformer, general view; in fig. 2 is a sectional view in FIG. one.

The high-voltage winding 1 consists of one turn connected to the pulse generator by means of a two-wire line 2. The primary turn with the supply line constitutes a rigid system attached to the output terminals of the pulse generator in vacuum. Low-voltage single-turn windings consist of a number of sectors 3, nested symmetrically inside the primary turn and included in parallel to the load 4. The sectors were connected to the load via two conductive truncated cones 5 and 6 of the current lead with polarity.

The device works as follows.

The magnetic flux coupled with the high voltage primary coil 1 is split by the secondary low voltage coils 3 into a number of parts equal to the number of sectors. Consequently, the voltage on each secondary coil 3, applied to load 4 through feed cones 5 and b, is less than the voltage on the primary coil 1 and, accordingly, line 2 by a number equal to the number of sectors.

The proposed design of a pulse transformer makes it possible to organize a powerful magnetic field in all insulating gaps, which in turn creates good conditions for the use of magnetic vacuum self-insulation, which makes it possible to increase, by an order of magnitude, the ultimate strength of an electric field transformer. the case of using solid insulating material in insulating gaps.

Claims (2)

1. Pulse transformer containing high-voltage and low-voltage single-turn o6MOTKfj from a ribbon conductor, while the low-voltage windings are connected in parallel on two output current leads, characterized in that, in order to reduce the leakage inductance, the high-voltage winding is made in the form of a single turn, covering the coils windings, made in the form of sectors, forming the surfaces of the conductors of which are parallel to the forming surface of the conductor, and the high-voltage winding, and the output current conductors placed along the central axis of the transformer. 2. Transformer according to claim 1, characterized in that the output current conductors are made in the form of truncated cones, directed toward each other, the radial portions of the low-voltage windings have a wedge-shaped form, with the onset of all turn-down windings connected to one current lead, the ends to the other. Sources of information taken into account in the examination 1. PTE. 1966, № 5. 2. USSR author's certificate number 581514, cl. And 01 F 19/00, 1972.