SU1067576A1 - A.c./d.c.converter - Google Patents

Abstract

AC CURRENT TO STANDING; containing a three-phase trussformer with two secondary windings, each connected in a star, with output terminals formed by a zero point of the physical windings, each phase winding having a branch, twelve gates connecting ends and the branches of each phase of one secondary winding with two opposite ends and removal of the other secondary winding, and a multi-winding surge reactor connected by the midpoint of the corresponding winding to the terminals of one secondary winding, and the outputs of each winding equalize The reactor is connected to six valves, so that in order to simplify, six of these valves are connected to the terminals of the other secondary winding, and the outlets of each phase winding of one secondary winding are connected to the outlets each phase winding of the other secondary winding directly through six valves.

Description

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9 The invention relates to a converter technique and can be used as a source of constant voltage with a twelve-fold frequency of pulsations. A variable-voltage (current) -constant converter is known, which provides a pulsation frequency that is a multiple of six and in which, at an extra-switching time, the load current is conducted by only one L1 gate. However, this converter has a poor anode current curve form factor, since the full load current passes through the secondary windings of the transformer and valves. The closest to the invention according to the technical solution is an AC-to-DC converter containing a three-phase transformer with two secondary windings connected into a star, the common points of which form the output terminals, and each phase winding has a tap, twelve gates connecting the ends and taps of each phase of the secondary secondary winding with two opposite ends and the removal of the other secondary winding through the winding equalizer reactor; 2 However, this converter is difficult because It includes an equalization reactor with six windings on the magnetic core. Purpose of the Invention E is to simplify the device. The objective is achieved in an AC-DC converter containing a three-phase trans formator with two secondary windings, each connected to a star, with output pins, formed zero points of secondary windings: while each phase of the winding has a branch, twelve valves connecting the ends and branch of each phase of the ONE secondary winding with two opposite ends and branches another secondary winding, and a multi-winding surge reactor connected by the midpoint of the corresponding winding and the output of one WTO. Each winding of the surge reactor is connected to six valves, six of these vents are connected to the terminals of another secondary winding, and the outlets of each phase winding1 and one secondary winding are connected to the outlets of each phase winding of the other secondary winding directly through the six remaining windings. gates. . Figure 1 shows a diagram of the proposed converter. Figure 2 shows the instantaneous values of the secondary voltages e and currents of the valves W. The converter consists of a power transformer 1 (primary winding not shown) with two secondary windings 2 and 3 connected in a star each. Each phase winding of the star is provided with a tap that divides the turns of this winding into parts that are in the ratio (ilGx 2) 2 most of the turns is adjacent to the zero point of the star. KON1Sh a, b, Su (phase windings of one star are connected to middle points of windings of a surge reactor 4, through which each of the phase windings of one star is connected with corresponding ends 0 (,, of different phase windings of the second star) x 5-10. The taps a, vl, s ;, this star is connected to the corresponding taps of the windings of the second star a,, 6,, c | directly through the valve1 (11-16. Zero points of the stars of the combined origins x, 2 and x , 4jj, the phase windings form a single output the converter to which the load 17 is connected. The converter is operated in the following way. The twelve-pulse voltage on the load 17 is generated as a result of positioning two equal six-pulse straightened voltage systems shifted by 30 el. One six-voltage rectifying voltage system is obtained by operating the rio circuit with an equalizing reactor. From the secondary electromotive system e, e, and et, va csa (Fig. 2 ° C through valves 510. Another six-pulse rectified voltage system is obtained from a set of secondary emfs e, eft, and eaj, ee, e, which, through the gates 11-16 at the load 17, causes the voltage according to the principle of operation of the six-phase ring circuit No. 1. At the same time, in the interval of operation of each of the valves 11–16, the magnetizing current of the balancing reactor 4 passes through the corresponding valve 5–10, which ensures the normal operation of the circuit on the principle with the balancing reactor on the subsequent interval. So, for example, in the interval LL - r., When the EMF - eij, is maximum and the current is conducted by valve 15, the resultant voltage of the EMF is eci, q - s, d, is balanced by the voltage across the half winding -Eo of reactor 4, and

passes through the valve 5 and half of the winding i (i, superimposed on the load current of the valve 15 i In the interval-ti-F – 3 the balancing reactor operates in a known manner.

Valves 5-10 of the converter, as can be seen from FIG. 2, conducts half the current at a load of 1/2 Jn over 60 hl degrees. each, valves 11-16 full load current J for 30 al.grad. each.

In the circuit, compensation of magnetizing forces is observed across the rods.

transformer as when connecting the primary windings in a triangle, and in a star.

Thus, the device provides a two-pulse voltage on the load with a balancing reactor containing only three windings instead of six and is simpler. In addition, when replacing the valves with thyristors, separate operation in the six-pulse mode is possible both according to the circuit with a balancing reactor and according to the ring circuit

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Claims (1)

AC TO DC CONVERTER; comprising a three-phase transformer with two secondary windings, each connected to a star, with output terminals formed by zero points of the secondary windings, each phase winding having a tap, two eleven valves, connecting the ends and taps of each phase of one secondary winding with two opposite ends and taps of the other secondary winding, and a multi-winding equalizing reactor connected by the midpoint of the corresponding winding to the terminals of one secondary winding, and the conclusions of each winding are equalizing of the reactor are connected to six valves, with the aim that, for the sake of simplicity, the six indicated valves with free terminals® are connected to the terminals of another secondary winding, and the taps of each phase winding of one secondary winding are connected to taps of each phase winding of the other secondary winding directly through the six remaining valves.