SU714591A2 - Six-phase ac-to-dc voltage converter - Google Patents

Description

The invention relates to converter equipment and to find applications in high-power rectifying installations for power supply of low-voltage high-current DC consumers — electroplating and electrolysis baths, batteries, etc. By ocHOBHOKfy auth. swith No. 547946 is a six-phase AC-DC converter, a star-nee-phase star with a single-phase compensation winding with a number of turns equal to the number of turns of the secondary windings, and connected to the common point of the valve and the secondary winding of one phase and the end to the common point of connection of the valve and the secondary winding of the adjacent phase. that is, between the valve end and the beginning of the secondary windings of the transformer adjacent in phase, forming a single closed triangle. Although the calculated transformer power in this scheme is the same as in the triangle circuit - there is a phase star, however, this power is sufficiently large, which leads to a large installed equipment power. The aim of the invention is to further improve the converter circuit of the part of reducing the installed power of the equipment. This goal is achieved in that the six-phase AC voltage generator is permanently equipped with two additional compensation windings connected to the remaining secondary windings of the transformer so that each of them is connected at one end to the common connection point of the valve and the secondary winding of one phase, and the second one to the common point of connection of the valve and the secondary winding of the adjacent phase. At 4 g. 1 shows a schematic diagram of the converter; on phpg. 2, a, b, c, d, d are the forms of currents characterizing the operation of the converter. The converter contains a transformer 1 with a winding and 2-5 n valves 6-1 The ends of the primary winding 2 of the transformer 1 connected in a star form the input terminals of the converter. The common zero point of the secondary windings connected in a direct reverse star and forming a six-phase. the star, connected to one output terminal, is transformed, and their free start and connected via valves 7-11 to the second output terminal of the device. Each phase of the compensated winding 5 is connected between the vent and the beginning of the adjacent secondary windings 3-4, forming with them three symmetrical triangles with an equal number of turns in the windings. When supplying the converter supply voltage, the valves 6–11 operate in the order of their numbering, with natural switching, skipping - rectifying current for 60 el.grad, each (see Fig. 2, a). By connecting parallel to each phase secondary winding, for example, aZ two consecutively connected connected phase windings (c4 and b5 through a closed triangle), only part of the rectified current flows through phase az. Oavnay - T a and the shunt of its sequentially connected windings c4, in 5 the rest of the current flow, (see Fig. 2, ° a, b, c, d) .J After 60 ep.grad., in accordance with natural switching, occurs pirana of the next valve 7 and lock the valve 6. At the same time, most of the current is equal to - d flows already through the phase winding c4, the smaller part is equal to ii J / through the shunt) rmbmotk; . 3; -; AZ and B5. Similarly, the current is redistributed during the rest of the valves. Thus, due to the formation of three closed (through phase compensation windings 5) triangles, current is deposited at each time point along two parallel branches formed by one (working at a given time) and two successively connected windings. This leads to 2 times the length of the current through the secondary pulses 3-4, decrease in them m.: current with c to 1, ul: / reading 3 of the harmonic composition of the current circuit and its current value. Compensation of the induced triple frequency of the triple frequency current is provided by the current flowing through the compensation windings a5, b5, c5 of different current pulses with a duration of electr, and a value of lfi,. , 3 issuing the total demagnetizing current of triple frequency (see Fig. 2, d), flowing partially through the compensation windings, and partially through the working secondary windings. FIG. 2, d shows the form of the total current (and flow) on each rod of the transformer magnetic circuit, in which there is no third harmonic. The calculated power of the transformer 1 is determined by the total rated power of the transformer windings using the formula: (Р4 Р) 1. (1.045 +20.665 (-f 0.425) Р 1.4 R. Therefore, the rated power of the transformer decreases from 1.55 Р j to 1 , 4 P and it ensures the achievement of the expected positive effect - reducing the installed power of the converter's equipment compared to the pro type. (The operating mode and the installed power of the valves remain unchanged). It should also be noted that the apparent transformation complication eaten by employing instead of the single-phase three-phase compensation winding, a deeper examination is wrapped constructive and technological simplification trans4h) rmatora due to the identity of all the winding phases. Identical requirements for all phases (located on the three rods of the transformer magnetic core) fly around the calculation, design, and outcast. The conversion of the converter, and blindly, makes it viable and competitively capable, by comparison with other schemes, such as a wide range of problems: calls.

Claims (1)

formula regen Six-phase converter of changes - 5 voltage to DC c. No. 547946, characterized in that, in order to reduce the installed power, it is equipped with two additional compensation windings connected to the rest of the secondary; transformer windings in this way. that each of them is connected at one end to the common point of connection of the valve and the secondary winding of one phase, and the other 15 to the common point of connection of the valve AND VT. adjacent winding phase.