SU1166241A1 - Multichannel power source - Google Patents

Abstract

A MULTI-CHANNEL POWER SUPPLY, containing p loads, each of which is connected to a corresponding higher voltage connected to the secondary winding of the transformer, the primary winding of which is connected to an inductive-capacitive converter, the input connected to the input terminals, which is designed to improve its mass , the transformer is made with an even number of secondary windings, the rectifiers are made half-wave, with one half of the secondary windings x beginning with the anodes connected ventipey rectifiers and the other with the cathodes. (L with 9d 9d d lU

Description

This invention relates to electrical engineering and is intended to provide constant current for potentially separated loads. The purpose of the invention is to improve the overall dimensions of the power source. FIG. 1 shows a multi-channel power supply circuit; in fig. 2 - diagrams explaining his work. The multichannel power supply contains an even number of loads 1–4, each of which is connected to a three-phase AC network through three-phase half-wave rectifiers 5–8, a matching transformer 9, made with an even number of sets of secondary windings 10 13, with the beginning of the windings 10 and 11 are connected to the anodes of the valves of the amplifiers 5 and 6, and the beginning of the windings 12 and 13 are connected to the cathodes of the rectifiers 7 and 8, the inductive-capacitive converter 14, the output of which is connected to the primary windings of the transformers 9, and the input to the input terminals for under Key to the three-phase AC network. Multichannel power source works as follows. If there is only one load connected to the secondary windings of the transformer via a three-phase one half-cycle rectifier, the operation of the inductive-capacitive converter 14 is impossible, since a negative current half-wave for the converter would create an idle mode, which is known to be emergency. The same situation is observed with an odd number of loads. In the proposed power supply, when the inductive-capacitive converter 14 is connected to the mains, the operation of three-phase half-wave rectifiers 5-8 occurs simultaneously for the same load 1-4, and therefore the normal operation of the inductive-capacitive converter 14 is not violated (the currents in loads 1 and 2 are caused by positive half-waves of phase currents of windings 10 and 11, and currents in loads 3 and 4 - negative half-waves of phase currents of windings 12 and 13). Although loads 1-4 are fed by three-phase, half-full-length mielels 5-8, the shape and magnitude of the high-speed current correspond to the shape and magnitude of the current at six-phase (full-wave) rectification. This is due to the fact that at individual time intervals t t. tg, etc. (Fig. 2a) for positive half-wave phase currents, adjacent windings 10 and 11 turn out to be connected in parallel to loads 1 and 2. As a result, phase currents in loads 1 and 2 are summed up in these sections. The resulting curve of rectified current in loads 1 and 2 is represented in fig. 26 and is denoted IU.H I. Similar processes occur in areas t - t-j, C - tj,, etc. for negative half-waves. The resulting curve of rectified current in loads 3 and 4 is shown in FIG. 26 and labeled I and 1.

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Claims (1)

A MULTI-CHANNEL POWER SUPPLY containing η loads, each of which is connected to a corresponding rectifier connected to the secondary winding of the transformer, the primary winding of which is connected to an inductive-capacitive converter, the input connected to the input terminals, characterized in that, in order to improve its overall dimensions , the transformer is made with an even number of sets of secondary windings, rectifiers are made half-wave, while in one half of the sets of secondary windings of their beginning connected to the anodes of the ventilation rectifiers, and in the other to the cathodes. Lx1