SU13899A1 - AC rectifier - Google Patents

Description

The present invention relates to devices for rectifying alternating current with kenotrons and a mechanical rectifier, in which the current rectified by kenotrons is intended to supply the anode circuit, and the mechanical rectifier produces current for the filament circuit connected through the filter and the backup battery. The invention consists in the fact that in this device a trans4) iron-core ormator is applied, one of the windings of which is connected via a capacitor to the anode and the kenotron filament, and the other winding is connected between the buffer batteries to the rectified current circuit of the mechanical rectifier.

The drawing shows a device diagram supplied from an AC network through a transformer T, the secondary winding of which consists of four separate parts (the fourth feeding filament of the kenotron D is not shown in the drawing); one of these parts has a voltage in the order of 300 volts and the other three in the order of 4 volts. Mechanical rectifier anchor MB is connected to one end of one of the secondary windings with a voltage of about 4 volts, the other end of which is connected through a resistor with a buffer battery I output from the middle point. The second buffer battery L is connected to the negative pole of the battery directly and between

by their positive poles, one of the windings of the transformer dr with an iron core is included in the rectified current circuit of the mechanical rectifier MB. The capacity of both buffer batteries is low (approximately 0.04 Ah each). The second winding of the transformer Dd is connected through capacitors to the anode and the filament of the kenotron Dl. The rectifier contacts are connected to the same poles of the first backup battery. By switching on the transformer dr, instead of the usual choke coil, a permanent magnetic note arising in the iron of this throttle and caused by direct current passing through the choke is destroyed, thereby increasing the magnetic permeability coefficient and increasing the self-induction of the throttle. An increase in self-induction makes it possible, without impairing rectification, to reduce the size of batteries. The destruction of the flux occurs due to the fact that the secondary winding of the transformer Fr is connected to the direct-current rectifier circuit of the rectifier and its constant magnetic flux is the opposite in the direction of the constant magnetic flux of the second winding (choke coil). Thus, constant magnetic fluxes are mutually destroyed. It is clear that the number of ampere turns of both windings of the trapsformator should be the same. Variable

An electromotive device, induced by the primary winding in the secondary, will not cause a change in the value of a sustained anode anode current, since the kenotron D is not included in this circuit and is not flowing an alternating current.

The subject of the natent.

A device for rectifying alternating current using kenotrons for

rectifying the current intended for supplying the anode circuit and a mechanical rectifier for rectifying the current intended for supplying the incandescent circuit connected through a filter and a buffer battery characterized by an transformer with an iron core, one of the windings of which is connected through an capacitor to the anode n the filament of the kenotron Dl, and the other winding is connected between the buffer batteries into the rectified current circuit of the mechanical rectifier MB.