SU1374377A1 - Bridge-type voltage converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used as a secondary power source with a higher frequency ratio of the output voltage ripple. The purpose of the invention is to expand the scope. The positive effect is due to the introduction of additional sections connected to two of the three phases of the main secondary overlays, connected in delta. In this case, the third phase of the winding winding has two taps, which, along with the terminals of the additional sections and one of the vertices of the triangle, are connected to the AC inputs of the six-cell valve bridge 11 with the DC terminals 12 and 13. 5 Cp. f-ly, 3 ill.

Description

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The invention relates to electrical engineering and can be used as a secondary power source with an increased frequency ratio of output voltage ripple.

The purpose of the invention is to expand the scope.

FIG. Figure 1 shows a circuit diagram of a converter with a tenfold pulsation frequency with additional sections in the first and second phases; in fig. 2 - the same in the topological image; in fig. 3 - the same, with additional sections in the first and third phases.

The bridge converter contains conversion elements 1–10, which form the anode (odd numbers) and cathode (even numbers) groups of a five-piece valve bridge 11. The DC outputs of the bridge form the output pins 12 and 13, to which load 14 can be connected. .

The Converter also contains an electromagnetic device 15, which can be made in the form of a transformer, autotransformer, electric machine. Its three-phase valve winding contains one main section a, x, b, b, y, cz in all phases and one additional section., In two phases. The main sections of the two phases are equipped with taps a, and b, to which there are divergent leads b and x are connected in the opposite index sequence of phases adjacent in phase to the main additional sections. Their free outputs y and a, as well as outputs a and y, of the main sections of the two phases forming one of the vertices of the triangle, and taps c, from the main section of the phase are connected to the leads of the alternating current of the piech valve bridge 11.

The number of turns of the main and additional sections can be set in the ratio (a, x b, y, c z): () 1,0982. 0.2903, the taps of the sections of the first two phases divide them into two parts in the ratio (a, a (b |, y,::: (ajx, b, b;)) 0.7097: 0.3885, and taps of the third phase section divided it into three parts in a ratio

(ee): s s 0.24: 0.618 relative to the amplitude of the output voltage at idle

(XX), or in effective values, taken relative to the average value of the same output voltage in ratios 0.7895: 0.2087:: 0.5112: 0.2782: 1726: 0.4443

respectively.

The device works as follows.

If there are variable sinusoidal electromotive forces in the winding between its connected terminals, shown in FIG. 2 circles, a system is formed of five diagonal emfs, ,,, с and, which, at the indicated ratios, are equal

in amplitude and shifted in phase by 72 electrical grades. relative to each other. When rectified by bridge 11, these EMFs generate, at a load of 14, ten-sign pulses, sequentially shifted in phase by 36 eh grades. and providing a high value of the constant component V of the output voltage relative to its amplitude value

L | QJJ equal to 0.9836, with a small level of pulsation, equal to about 5% relative to V. The frequency of the pulsation is equal to ten.

35

Claims (6)

1. A bridge voltage converter containing an electromagnetic device, the main sections of the three-phase valve winding of which are connected in a closed triangle and have one in two phases and two outlets in the third phase, and these two leads are connected to two of the five AC terminals of a five-cell valve bridge, the DC outputs of which form the output terminals, characterized in that, in order to expand fields of application, the valve winding is supplemented with two sections adjacent in phase, which by one conclusions are connected to the taps of the main sections of two phases adjacent to them in phase. and the other conclusions of the additional sections, as well as the conclusions of the main sections of the two phases, forming the apex of the triangle, are connected to the free terminals of the specified bridge. 2. The converter according to claim 1, is about the fact that the number of turns of the main and additional sections, as well as the turns of the middle part and equal to each other extreme parts divided by the two branches of the main section of the third phase, is set in ratios 1.0982: 0 , 2903: : 0.618: 0.24. 3. The converter according to claim 1, wherein the adjoining sections are adjacent in phase in the first and second phases. 4. Converter in PP. 1-3, characterized in that the withdrawal of the main section divides it in each of the two phases into parts in a ratio of 0.7097: 0.3885. 5. The converter according to claim 1, which is implied by the fact that one of the additional sections is made in the third, and the other in the first or second phases. 6. The Converter in PP. 1, 2, 5, characterized in that the tap, to which the additional section of the first or second phase is attached, as well as the tap, to which the additional section of the third phase is attached, divide the main sections into parts in ratios 0.7097: 0, 3885 and 0.6787: 0.4195. Fig2 P