SU154924A1 - - Google Patents

Description

In the description of the invention to ed. St. JN 114549 a twelve-phase valve converter is proposed, consisting of two three-phase valve bridges connected in parallel or in series and fed from the secondary windings of two anode transformers, the voltages of which are shifted relative to each other by 30 el. group, n the primary windings of which are connected to each other sequentially.

The subject of the additional invention is a twenty-four-phase valve transducer composed of two twelve-phase valve transducers made according to the ed. St. 114549 n connected on the DC side in series or in parallel.

In accordance with the invention, one of these twelve-phase converters is made with a serial one, and the second with parallel connection of valve bridges, which ensures a reduction in the content of higher harmonics in the rectified voltage curve.

FIG. Figure 1 shows the basic electrical circuit of the proposed twenty-four-phase valve converter; pas figs. 2 - curves of currents of individual twelve-phase converters. and a twenty-four transducer formed from these converters.

Twenty-four-phase converter consists of two two-phase converters / n II, in which the primary windings of transformers are connected in series. Valve bridges 1 converter / connections in series, and valve bridges 2

NO 154924

converter // - in parallel. The power supply of transformers 3, 4 and 5, 6 of both converters is produced from a common three-phase network. In this case, the phase terminals of the primary windings of transformers 3 and 5 are connected in parallel to the common buses of three-phase current (directly, without an additional phase-shifting transformer required in the known circuits of twenty-four-phase converters). On the DC side, the poles of both twelve-phase converters are connected in parallel through an equalization reactor 7, as in the known circuits of twenty-four-phase converters.

In the converter, the minimum number of simultaneously conducting valves is six (three valves in each bridge). As a result, the primary current i consumed by this converter from the network has the shape of a curve, shown on axis A (Fig. 2). The current curves are constructed in the first approximation - without taking into account the duration of the switching processes.

In the converter //, the minimum number of simultaneously conducting gates is five. As a result, the alternating current i consumed by this converter from the network has a curve shape shown on axis B.

In order for the currents i and i to have the same first and highest harmonics and differ only in phases 11, 13, 35, 37 ... harmonics, it is necessary to choose the transformer ratio of transformers of both converters in a certain way. The primary windings of transformers 5 and 5 should be made with the same number of turns Wi. The primary windings of transformers 5 and 6, the number of turns should be Wi. The ratio of the numbers of turns of the secondary windings to fulfill the specified condition must be:

  2 sin 15 °,

where Wz is the number of turns in the phase of the secondary winding of transformers 3 and 4 of converter I, and W is the number of turns of in the phase of the secondary winding of transformers 5 and b of converter //.

With the specified ratio of transformation ratios, the entire converter is twenty-four-phase. The curve of the alternating current i consumed from the network has the form shown on the B axis (i i + i). It contains the first harmonic and higher harmonics on the order of 24K ± 1; the harmonics of And, 13, 35, 37 ... do not enter current i, since they are in antiphase in currents r and z. The rectified voltage has a constant component and harmonics of the order of 24K Harmonics 12, 36 ..., available at the output of twelve-phase converters / and P, are in antiphase; they create an equalizing current, which is limited by the resistance of the equalization reactor 7. The constant components of the voltages of both twelve-phase converters are the same. In parallel and on the DC side, the rectified voltage at the output of a twenty-four-phase converter also has the same DC component.

Possible areas of application for the proposed twenty-four-phase converter are powerful rectifying installations for the electrolytic industry (production of aluminum, magnesium, nitrogenous substances, etc.) and electric transport traction substations.

Subject invention

Twenty-four-valve converter, consisting of two twelve-phase valve converters according to ed. St. L 114549 and connected on the DC side in series or in parallel, characterized in that, in order to reduce the content of higher harmonics in the rectified voltage curve, one of the twelve-phase converters is made with a parallel and the second with parallel connection of valve bridges.

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