SU803020A1 - Pulsed autotransformer - Google Patents

Description

The invention relates to electrical engineering, in particular, to high-voltage pulse transformers and can be used in installations containing high-power electron guns with a heated cathode. Pulse transformers with a multistep magnetic circuit are known, in which the excitation of subsequent stages of the magnetic circuit, in order to facilitate isolation between the primary and secondary windings of the transformer and the magnetic core, occurs through turns of the primary winding, the potential of which is raised by previous windings l. A disadvantage of such devices is the mismatch of the magnetization regimes of the cores, which reduces the output voltage. A pulsed autotransformer of an experimental electron gun EEP-2 with two stages of a magnetic circuit and a potential equalization between a winding and a magnetic circuit, in which the heat and demagnetization current is supplied according to a circuit with branching 2, is known. A disadvantage of the known autotransformer pulse is the effect of high current on the circuit magnetic conductors. So, if in the output section there is an increase in the demagnetization current, then in the input section there is a decrease, and vice versa. This leads to a decrease in the efficiency of using the core material and a decrease in the output voltage. Another disadvantage of the prototype is the design of the branched winding, which complicates both the manufacture of the autotransformer and its isolation. The aim of the invention is to increase the utilization rate of active materials and simplify the design. The goal is achieved by the fact that a pulsed autotransformer containing series-connected sections made on cores carrying the primary and secondary windings and demagnetization windings in which the midpoint of each winding is connected to the core, and the end of the first section winding is grounded, the winding is taped At the high-voltage end, it forms an additional winding, which is connected in parallel with the primary winding of the next section, and the demagnetizing winding of each section is made with turns equal to the secondary coils of autotransformer windings.

The invention is illustrated in the drawing.

The pulse autotransformer contains cores of section 1 and 2, filament 3 of the cathode, input 4 of the current of magnetisation, excitation circuit 5 of the second section, input ignits 1 of 6 primary winding 7, secondary winding 8 of demagnetization.

The operation of the device is as follows. The current flows through the same number of ascending and descending coils on each section of the pipe and the pipe. In loop 5 of the second stage, the current is branched by fucking in the shaft of circuit 5, half of the current branches. As a result, the total ampere-turns of demagnetization of both sections of the magnetic circuit are the same both in magnitude and direction. The magnitude of the filament current of high-power electronic devices (for example, the klystron KMU-12) is sufficient for demagnetizing the magnetic circuit from the permallo control of the heating current in its working area, when the magnetic core material is in saturation, does not affect the operation of the pulse autotransformer. The formation of a secondary high voltage pulse on the cathode and the filament occurs when the primary pulse is applied to the terminals b of the primary winding of the first section.

With the same sgr of the voltage of the forming lines on one pulse autotransformer, the amplitudes of the output voltage were obtained, 10% higher than the reading of the known device. At the same time, it is possible to use direct current filament simultaneously for two purposes - for heating the cathode and for demagnetizing the magnetic circuit.

Claims (2)

1. USSR author's certificate number 457109, cl. H 01 F 10/08, 1975. 2.Mator I.M. and others. Pulse transformer electron gun. PTE number 4, 1976, p. 137 6