SU1272426A1 - A.c.voltage-to-d.c.voltage converter - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to converter technology, and can be used as a power source with rectified voltage, providing high quality conversion without the use of filters. The purpose of the invention is to improve the weight and size parameters. The positive effect is achieved by connecting the sections of the valve windings into a one-sided consonant scheme with the three-beam star zigzag taps and connecting its free leads and taps to the AC leads of the six cell gate bridge on the converter elements 1-12. When converting elements are driven by a control system, the control system is simplified due to the fact that it is sufficient to apply a control pulse to only one of the elements. 5 hp f-ly, 5 ill. (L

Description

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Claims (5)

 3 5 7 ff 11 The invention relates to electrical engineering, in particular to converter equipment, and can be used with a rectified voltage as a power source, providing high quality conversion without the use of filters. The purpose of the invention is to improve the weight and size parameters. Figure 1 shows the circuit diagram of the device when performing taps from the first valve sections; figure 2 - the same, in block-topological form; FIG. 3 is a vector diagram of the output voltage of the circuit of FIG. 1, explaining in the phase plane the formation of sign-positive pulses that form this voltage with their phase shift symmetrical by 30 el. degrees relative to each other, while according to the principle of the formation of pulses and tracking the passage of the load current in the corresponding J-circuit of the CRC Sj. the number and numbers of the transducer elements conductive in a given time interval and the corresponding conclusions of the ventilator sections connected to the bridge, between which the currently operating diagonal EMFs are formed, are also indicated; Fig. 4 is the same as in Fig. 2, the second variant, the distinguishing feature of which is the presence of taps not in the first, but in the second sections; in FIG. 3 - the same as in FIG. 3 for the dashed circuit of FIG. 4. . The device contains twelve converter elements, in particular, valves 1-12, forming a six-cell (L 6) valve bridge 13, the DC outputs of which form the output terminals for connecting the control system in the case of the source being controlled (regulated, stabilized). ), The valve windings are divided in each phase into two sections a, a, aj, bj,, c, and c, which are interconnected into a one-sided consonant zigzag - a three-beam star (abbreviated ozzezig). At the same time, the free conclusions a, b and c, (Figs. 1 and 2), as well as the taps a introduced into b and c in the first sections, are connected to the terminals of the alternating current of the bridge 13. Moreover, other identical terminals X and y the first sections form the common point O of the star a, B, respectively, of the entire joint of the stars. At the same time, the number of turns of the first and second sections can be set in each phase in a 1: 1 ratio, and the turns formed by the removal of parts, for example, and a, in a ratio l: (fT-l) / 2, which is valid i their voltage on them with respect to the mean value of the output voltage Ud - Uo is, respectively, bat Ua, T () / 34T, 652; Uo, 21; Uaa) / 3rfJ 0.4426. The device works as follows. As follows from FIG. 2, at the above ratios of turns, six diagonal emfs (DEDS) are formed, so that at the output of the bridge 13 a sign-constant voltage Uo is formed, containing twelve phase-shifted pulses SjH (r 5.12, fig .G) The difference in the implementation of FIG. 4 from figure 2 is that the taps are introduced not into the first, but into the second sections of the sound. In this case, the turns of these sections can be installed in each phase in the ratio 1: (G5 + 1) / 2 1: 1.366, and the turns of the parts of the second sections formed by taps, in particular parts a, a, a, a x, in the ratio 2. ii 2 1: (43-1) / 3, which in actual values of the voltages. To them with respect to VO is respectively UQ (O + 1) / 9% 1.35, - UQ f2 (f3 + + 2 ) / 9yM, 842; 1,481; and. ,, TU GTSlGT -1) 79 0,3614. The principle of operation of the device according to this variant is similar to that described, which follows from the vector diagram depicted for this case in Fig. 5, the Difference is that if in the implementation of Fig. 2 the operation time is extended only for a part of the first section from the common point to the outlet then in the circuit of FIG. 4 it is increased for the entire first and a small part of the second section of the valve windings. However, in the circuit of FIG. 4, the total number of turns relative to their basic values jJo is larger. o-za - + 3; W 1G (+ 2) / IS. The difference in implementations determines the difference between the control algorithms of the converter elements 1-12 and the control system 15. As follows from FIGS. 3 and 5, the control signals in the circuits of FIGS. 1 and 2 can be applied in sequence to EPA 2, 4, 3, 5, 6, 8, 7, 9, 10, 12, 11 and I, while in the circuit of FIG. 4 - on the EPT 2, 3, 5, 4, 6, 7, 9, 8, 10, 11, 1 and 12 Claim 1. The alternating voltage converter into a constant, containing a three-phase transformer, phase-wired the windings of which are divided in each phase into two sections, with the first sections of opposite phases being connected to a three-beam star with zero output, and the same phase outputs of the second sections are connected to three inputs of six cell veins dc MocTFa, the DC outputs of which form the output pins, differing from the fact that, with an improvement in the weight and size indicators, the first or second sections are provided in each phase with a tap connected to one of the three free inputs of the specified valve and bridge, the second sections Free leads are connected phase by phase according to the free leads of the first sections in the order of direct or inverse index phase sequence. 2. A converter according to claim 1, characterized in that the first sections are connected into a forward or inverse three-beam star. 3. A converter according to claims 1 and 2, characterized in that the numbers of turns of the first and second sections are set in each phase in a ratio of 1: 1, and turns of parts of the first section formed by a tap, when they are counted from zero output, in a ratio of 1: (43-1) / 2. 4. Converter for PP. 1 and 2, characterized in that the number of turns of the first and second sections are set in each phase in the ratio 1: (43-1) / 2, and the turns of the parts of the second section formed by the tap, when counted from the output connected to the input of the valve bridge . in relation to 1: () / 3. 5. A converter according to claims 1 - 3, characterized in that a control system is introduced, which provides the supply of control signals successively to one of the converter elements - to the second, fourth, third, fifth, sixth, seventh, seventh, nineth, The tenth, twelve, eleventh, and first elements, when numbered, are odd from the first to the eleventh one in the anode one and even from the second to the twelfth in their cathode groups in the order of the natural entry into the work. 6, - Converter on PP. 1, 2 and 4 | characterized in that a control system is introduced that provides control signals to the second, third, fifth, fourth, sixth, seventh, ninth, eighth, tenth, eleventh, first, and twelve conversion elements. 1,0gbg; 1.21 / 04; 2 / ffl 2} J.2} fClffi} f, fO} Sit / J // 7, , 11, u , / 44 ;; ,9, /.Ч ;,.; / R