SU892485A1 - High-voltage pulse transformer - Google Patents

Description

I

The invention relates to electrical engineering, in particular, to impulse transformers used in various devices of pulsed radio engineering, accelerators of charged particles, power sources of laser-i-dir.

A pulsed transformer with conical windings is known, in which the thickness of the insulating gap varies in proportion to the action between the windings of the voltage m -tl}.

The disadvantages of the known device are the significant leakage inductance, low coupling coefficient, design complexity.

Closest to the proposed technical entity is a high-voltage pulse transformer containing a low-voltage primary winding of a cylindrical type deposited on a core of ferromagnetic material and located a high-voltage winding of conical type consisting of the middle part of the core 2 cores | .

However, the device has a complex structure, large mass, dimensions, and difficulties in ensuring high electrical strength (L: ty.

The purpose of the invention is to increase

10 electrical strength, simplified design, reducing weight and size.

The goal is achieved by the fact that in high-voltage pulsed

Claims (2)

1 $ transformer containing primary and secondary windings with a high-voltage output on insulating material frames, each consisting of two parallel-connected sections, the secondary winding frame is made in the form of two truncated cones joined by bases and located coaxially with the primary winding frame 3 , the secondary winding cage is located inside the cylindrical primary winding cage, the cavity between the primary and secondary cages. Noah's windings are sealed and filled with refrigerant, and the high-voltage output of the secondary winding is located on the symmetry axis of the frames. FIG. 1 shows a pulse transformer; in fig. 2 is an electrical circuit for connecting sections of the primary and secondary windings. The primary winding consists of two identical, wound in mutually opposite directions and parallel connected sections 1 superimposed on a cylindrical frame 2, the secondary one of two identical ones; winding in opposite directions of the sections 3 superimposed on the frame 4, having the form of two truncated cones, closed by truncated planes. The beginnings and ends of the sections of the primary secondary windings H- (K, I2, K2 are connected in parallel and form, respectively, the primary and secondary windings of the pulse transformer with potential terminals 5 and 6 located in the plane of truncation of the cones. The cavity formed between the frame The primary and secondary windings are sealed with seals 711 and filled with coolant, for example, Mercury transformer oil or SF6 gas under pressure. To give the carcass the necessary strength, they have, in average cross section, ribs with t-, bones. In all cross-sections, due to the accepted design and scheme of connecting the winding sections, the electric field is close to homogeneous, as a result of which edge effects in the area of potential conclusions 5 and 6 of the primary and secondary windings are completely eliminated. allows the thickness of the field gap D between the ends of the primary and secondary windings to choose the minimum and, thus, take full advantage of the high insulation properties of transformer oil or electrons, and to obtain the minimum possible value of ind ktivnosti dissipation of the pulse transformer. The use of SF6 gas as an insulator, which has approximately 1.5 times more electrical strength than transformer oil, in the same respect allows an additional reduction of D and the leakage inductance. In addition, the use of SF6 gas, which has a dielectric constant close to unity, also makes it possible to obtain the minimum winding capacity of a transformer. The total weight of the transformer is reduced by eliminating the core and special oil tank from the design. Claims of the Invention A high-voltage pulse transformer comprising primary and secondary windings with a high-voltage output on insulating material frameworks, each consisting of two parallel-connected sections, the secondary winding framework is made in; as two truncated cones joined by bases and located coaxially with the primary winding frame, which is similar to the fact that, in order to increase the electrical strength, simplify the design, reduce the weight and size, the secondary winding frame is located inside the cylindrical primary winding frame, The Melsdu cavity of the primary and secondary windings is sealed and filled with refrigerant, and the high-voltage output of the secondary winding is located along the symmetry axis of the frames. Sources of information taken into account in the examination 1. USSR author's certificate number 187113, cl.21 and 4/74, 1966. 2. SS Vdovin. Designing pulse transformers. L.,. Energy, 1971, p. 99