SU1070670A1 - Secondary electric power source (versions) - Google Patents

Abstract

1. Secondary power supply, sderhasgday two three cell valve bridges with lines connected to their AC terminals and three sources of phase-shifted emf generated by three main windings on the magnetic core with taps, which are connected by iCtf / H.5i ..: "14 JUri-SfKO-h T "rtW4K i; A) i cue ffUtiiK l form a closed triangle consistently and consistently topologically, only one unipolar DC bridged terminals form the first output pin, characterized in that functionality and applications, as well as improvements in the quality of energy conversion, other unipolar conclusions of valve bridges form a second output terminal, each main winding is provided with an additionally introduced winding that is connected to the first tap adjacent to it in phase of the main winding, and to free terminals additional windings and the tops of the triangle are connected to the mentioned lines, while the outlets of the main windings form the input terminals, and the indicated connections are the main converter w structure.

Description

fm.1

2. The power supply source according to claim l and g and G in that the taps of the main windings forming the input drives are equidistant from the corresponding conclusions of the windings associated with the lines.

3. The power supply source according to the item about t and l with the fact that the specified output conclusions are combined

with the tops of the triangle of the main windings .;

4. The source of electrical energy according to the claim of the fact that the specified input conclusions are combined

with additional windings connected to the line.

5. The power supply source according to claim 2, characterized in that said input terminals are combined with additional winding leads connected to the main winding leads.

6. Power supply by

Claims 1-5, discarding the fact that, in order to double the multiplicity of the pulsation frequency, the number of turns of the additional and main windings are set in the ratio 1/5/3: 1, and the number of turns from the leads of the main winding to its outlet, the additional winding is referred to as (1 - UZ / 3) / 2: (1 +, UZ / 3) / 2, or set respectively in ratios (2 - UZ): UZ and UZ / Z :.

7. Power supply by

Claims 1-6, characterized in that, in order to further improve the quality of energy conversion and expand the design possibilities, the specified magnetic circuit is made spatial, with Tpeyrox or in three separate magnetic systems, and the windings are made of lightweight band, in particular multilayer, component, such as aluminum foil, or a component with a high electrical conductivity, such as a superconductive gap.

8. The power supply according to claims 1-7, which is based on the fact that, due to the additional expansion of the H1-rational constructive capabilities, the elements of the ventilation bridges or / and the sources of the phase-shifted ASA are controlled by the introduced control system In particular, by introducing elements of a key type, including two-dimensional, dam, and / or by measuring the magnetic state of said magnetic circuit.

9. The power supply according to claims 1-8, of which is provided with at least one additional conversion structure connected

the output pins are in parallel with one-pole with the main structure directly or through magnetically connected inductances, shunted or not shunted by an Additional Capacitor. 10. Power supply on PP. 1-9, in that phase-shifted emfs are formed on the windings of an electrical machine or systems with parametric circuits.

11. The power supply source, containing two three cell valve bridges with lines connected to their AC terminals and three sources of phase-shifted emf, formed by means of three main windings on the magnetic core, with the same terminals of which form input terminals,

and some unipolar DC bridged pins form the first output pivot, characterized in that, with the goal of expanding the functionality and application, as well as improving the quality of energy conversion, other unipolar gang bridges form a second output pin, each major the winding is provided with an additionally introduced winding, which is connected to the first tap adjacent to it in phase of the main winding, the second tap of which is connected to another output adjacent to it in phase to the main winding th winding topologically forming compound triangle part, and the free terminals of additional windings to other like outputs of said main windings coupled line, wherein, said compounds constitute a main converter structure.

12. Power supply by

Clause 11, characterized in that the taps of the main windings forming the input terminals are equidistant from the corresponding winding terminals associated with the lines.

13. Power supply by

clause 12, .o t l and h and y and the fact that these input pins are combined with the veriganami triangle main windings.

14. Power supply by

Clause 12, characterized in that said input terminals are combined with terminals of the external windings connected to the lines.

15. Power supply by

Clause 12, characterized in that the said input: conclusions are combined with the conclusions of additional windings connected to the tapes of the main windings.

16, Power supply according to claims. This means that the number of turns of the additional winding and the part of the main winding forming a closed triangle of an incomplete triangle are set to Uz / 3: 1, and the number of turns from the conclusions of the part of the main winding to its tap attached to the Additional winding is referred to as (1) / 2):

: (1 + UZ / 3) / 2, or set respectively in ratios (2 g 1): UZ and UZ / Z: 1.

17. The source of power on the PP. 11-16, characterized in that, in order to further improve the quality of energy conversion and expand the design possibilities, said magnetic wire is made spatial, with triangular rs or in the form of three separate magnetic systems, and windings are made of lightweight tape, in particular multilayer, component, for example aluminum foil, or component with increased

electrical conductivity, such as superconducting.

18. The power source for PP. 11-17, characterized in that, in order to further expand the functional and structural capabilities, the elements of the valve bridges or / and sources of phase-shifted electromotive forces are made controllable from the introduced control system, in particular by introducing key type elements, including two-position ones, or / and by changing the magnetic state of said magnetic circuit.

19. Power supply according to claims. 11-18, characterized in that it is provided with - one would like another such additional conversion structure / connected output terminals in parallel to one-pole with the main structure directly or through magnetic-coupled or unrelated inductance, bypassed or not shunted by an additional capacitor.

20.Power supply according to paragraphs. 11-19, different

by the fact that the phasic emfs are formed on the windings of an electrical machine or systems with parametric circuits.

21. A power supply containing two three cell output valve bridges with wires that connect them to alternating current lines and three sources of photoelectric emf generated by three main windings on the magnetic core, which are interconnected in series with each other. topologically form a closed triangle, and some unipolar DC bridges are used to form the first output pin, so that, in order to expand the functionality and scope, as well as improve the quality of the transformation energy; The other DC bridging terminals form a second output terminal, each main winding is provided with an additional branch winding, which is connected by one output to the branch of the main winding adjacent to it, and the other output forms the input output, with three of these the lines are connected to the vertices of the triangle, and the remaining three lines are connected to the tapping of additional windings, and these connections form the basic conversion structure.

22.Power supply by

Claim 21, characterized in that the remaining three lines are connected to other terminals of the additional windings, the taps from which form the input terminals.

23.Power supply by. 21, characterized in that the taps of the additional windings forming the input terminals are equidistant from the corresponding winding terminals associated with the lines.

24.Power supply by

p. 23, characterized in that said input pins are aligned with the vertices of the main winding triangle.

25.Power supply by

Claim 23, characterized in that said input terminals are combined with terminals of additional windings connected to the lines.

26. Power supply by

Claim 23, characterized by the fact that the input pins are combined with the pins of the additional windings connected to the tap of the bases. nh1h windings.

27. Power supply according to / paragraphs. 21-26, characterized in that in order to double the frequency rate of the pulsation, the number of turns of the additional and main windings are set in the ratio V3 / 3sl, and the number of turns from the terminals of the main winding to its outlet, connected

to the additional winding, refer to as (1 - Gz / 3) / 2: (1 + T UZ) / 2, or set accordingly, in ratios (2 - Uz). 1 and Uz / 3: 1.

28. Source of electrical power according to claims. 21-27 f o t “h ayu and .i and the fact that the number of the main winding and part of the additional winding from its connected to the main output winding to the line connected to the withdrawal line are established in a ratio of 1: Yl / 3, and the number turns From the terminals of the main winding to its outlet, connected to the additional winding, is referred to as (1 - yjf3 / 3) 2:: (1 + Uz / 3) / 2, or yd set according to the ratio V3:.; (2 - fV3) and Ous / Z: 1 .;

29. The source of electroplating agent according to paragraphs. 21-27, characterized in that, in order to further improve the quality of energy conversion and expand the design possibilities, said magnetic circuit is made of space, with triangular frames or in the form of three separate magnetic systems, and the windings are made of lightweight band, in particular A MULTILAYER component, for example, aluminum foil, or component d with increased electrical conductivity, for example, superconducting.

30. The power source according to claims. 21-28, different

the fact that, in order to further expand the functional and structural capabilities, the elements of the valve bridges or / and sources of phase-shifted electromotive forces are made controllable from the introduced control system, to the present by introducing elements of the key type, including two-position ones, or / or by changing the magnetic state of the magnet pipeline.

31. The power source according to claims. 21-29, characterized in that it is provided with at least one more such additional converter structure, connected by output pins in parallel to one-pole with the main structure directly or through magnetic inductors, shunted or not shunted by an additional a capacitor.

32. The power source according to claims. 21-30, characterized in that phase-shifted EMFs are formed on the windings of an electrical machine or systems with parametric circuits.

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The invention relates to electrical engineering, in particular, to electrical energy conversion systems, and can be used as an unguided (unstabilized) or controlled (regulated or stabilized) secondary power supply (VIP) with increased requirements for its energy, weight and size, and cost indicator. m (ES and ICHP).

The use of the device is due to the possibility of economically supplying various consumers with relatively high direct current at voltages of a few volts and more, and also in those practically important cases when the isolation between the primary source of energy (network) and its consumer (load ) is not significant.

Specific industries and technical means of possible use of the invention in the national economy include radio-electronic, instrument-making, metallurgical, chemical, plasma technology, communication technology (including space technology), physics of nuclear research, microelectronics, welding and cutting ( including plasma), in particular - the means of power supply of various radio electronic

equipment, service equipment, Winchester computer storages, plasmatrons, ore-thermal units, electric arc plasma torch generators for stationary heating of large gas volumes, gas discharge ion sources (Penning sources, duoplasmotrons), etc.

Known secondary power supply containing six power

converting elements assembled in a three-cell valve bridge, and three sources of phase-shifted 13DC, formed by three windings on a three-rod magnetic

the system. All windings equipped with drainage are interconnected by similar conclusions and topologically form a regular three-pointed star. Free winding leads

they form three input terminals for connecting the primary source of alternating current, and the outlet) by means of three lines are connected to the AC terminals of the said valve bridge, the outputs of which draw DC output terminals through a smooth U-shaped filter.

This device provides a relatively rational power supply to the consumer, a certain stability of continuous operation and the relative simplicity of the design. However, it has a high level of output voltage ripple, the frequency ratio of its frequency is relatively low (equal to six), and also insufficiently satisfactory use of conversion means.

In addition, due to the small number of current passage circuits, the device requires quite powerful, in particular, high-current electrical elements.

This is due to the relatively poor EF and MGSP smoothing filters, as well as the electromagnetic autotransformer system and other conversion devices of the device, which is its essential disadvantage.

Closest to the present invention is a secondary power supply, containing twelve converter elements assembled in two three Cell valve bridges and three sources of photoelectric electromotive forces, formed by three windings on a st. Magnetic system. The windings are interconnected in series-consistent and topologically form a regular closed triangle. Its vertices form three input terminals for connecting the primary source of alternating current, and each of the windings is equipped with two outlets, which are connected to the AC terminals of the above-mentioned bridges through six lines, the outputs of which, through a two-phase direct current reactor (UR), output conclusions C2.

At the same time, the number of turns of three series-connected parts of the windings formed by the taps is set in the ratio 1: (1 + TK):

The disadvantages of the known device are the unambiguous connection of the output voltage VQ with amplitude 8, .. The EMF of the network, which causes a single sample of the value Vj, is unlikely to be realized when there is one network (common primary source) and is usually required for different loads To achieve the values of VQ, which are also rarely used in practice with the prototype provided, it is necessary to have a well-defined primary source to provide the user-specified value of Od and, therefore, By systematically selecting new sources with tasks varying from product to product, the latter is practically especially unrealizable in moving objects with a number of VO samples, the need to introduce in the latter case additional conversion means, for example, power transformers, which effectively negates . advantages of the prototype, a relatively large number of turns of the power windings.

If the total number W of turns is attributed to some of the base number of Wo turns with the amplitude of the voltage on them equal to the average value of the output voltage EUT

loss), this total turn number WjTp will be in the prototype

  -4 - without SD and

| opr 2 - UR The known device oposepiva. There is a relatively .low amplitude of the output voltage, always smaller than the amplitude of the S hell EMF of the winding and the amplitude of the EMF of the network: Un. ,,,,:, (Uz - 1) 0.732 Val 5 "hp without UR and (3 - UZ) / 2" . 0.634

    ° allows you to get higher voltages on the load. Everything causes limited functionality and scope as well as a relatively poor quality of energy conversion.

The purpose of the invention is the expansion

functionality and applications, as well as improving the quality of energy conversion. The positive qualities of the solution include, in particular, the possibility of obtaining an almost unlimited number of discretes V, and with amplitude and, not only less, but more than S ii as a consequence of the expansion of the range of nutritionally supported consumers

while simultaneously eliminating the hard dependency of the VIP developer on the primary source that is available; a decrease in the level of a variable

number of low-frequency modulation, as well as doubling the frequency of its frequency (P 12), improvement of the ICG filter and VIP in general.

The goal is achieved

three device options ..

In the power supply in the first embodiment, containing two three cell valve bridges connected to their terminals in the variable

 lines and three sources of azo-shifted emf formed by three main windings on the magnetic core, which are connected to each other in series and in accordance with the topology, form a closed triangle, some unipolar DC bridges lead to the first output terminal, others unipolar The terminals of the above-mentioned bridge form a second output terminal,; each of the bases on the winding is provided with an additionally introduced winding, which is connected to the first outlet of the main winding t and, and the free lines of the doped-off windings and the vertices of the triangle are connected to the mentioned lines, while the other taps of the main currents form the input terminals, and the closed connections form the main converter structure. i

According to VTORSZH1U variant, the goal is achieved by the fact that in the second source of power supply, there are two three cell valve bridges with lines connected to their AC terminals and three sources of phase-shifted emf; formed by three main windings on the magnetopath, with one of the same conclusions which form the input terminals, and one single-pole terminals of the valve bridges with DC form the first output terminal, the other unipolar conclusions of the axles form the second. an output terminal, each main winding is provided with an additionally introduced winding, which is connected to the first branch adjacent to it in phase of the main winding, the second outlet of which is connected to another output adjacent to it in phase of the main winding, topologically forming an incomplete triangle connection, and to free terminals additional The windings and to the others with the same name n4 conclusions of the Horny winds are connected the indicated lines. Moreover, these compounds form a transformative structure.

According to the third variant, the goal is achieved by the fact that in the secondary power source, containing two three cell valve bridges with

connected to their conclusions by alternating current lines, and three sources of azo-shifted emf, formed by three main windings on the magnetic conductor, which are interconnected sequentially according to topologically form a closed triangle, and one single-sided terminals of the valve bridges are fixed across the current they form the first output terminal, the other outputs of the above-mentioned DC bridges form the second output terminal, each main winding is supplied with an additional winding; With a single outlet, It attaches to the center tap adjacent phase main winding, and the other terminal forms the input terminal, wherein three of upo m-mentioned lines are connected to the vertices of the triangle, and the remaining three additional lines to the taps of the windings.

In addition, the goal is achieved by the fact that the remaining three lines are connected to other terminals of the additional windings / taps from which form the input terminals.

In all three embodiments of the secondary power source, the purpose of the invention is achieved when the following specific conditions are met.

The main windings otiody, forming the input pins, are equidistant from the corresponding pins of the main windings connected to the lines.

These input pins are combined with the apexes of the triangle of the main windings or with the terminals of additional windings connected to the lines.

. These input pins are combined with the findings of additional windings connected to the outlets of the main windings.

At the same time, in order to double the frequency rate of the pulsations, the number of turns of the additional and main windings are set in the ratio

V3 / 3: l, and the number of turns from the outputs of the main winding to its outlet, connected to the additional winding, are either (1 - UZ / 3) / 2:: tl + UZ / 3) / 2, or are set respectively in the ratio x (2 - Uz): 1/3 and UZ / 3; 1.

Phase-shifted emfs are formed on the windings of an electrical machine or systems with parametric circuits.

FIG. 1 given one basic electrical circuit for the first variant; in fig. 2 and 3 - vector diagrams in the phase plane, explaining the principle of action; in fig. 4 is a different secondary power supply circuit. the first option; in fig. 5 - vector diagram, explaining the source operation; in fig. b and 7 are schemes for the implementation of the secondary power supply in the second embodiment; in fig. 8 is a vector diagram explaining the operation of the source in FIG. 9 is a schematic diagram of a secondary power supply in the third embodiment; FIG. 10 - vector diagram.

With this, the vector diagram in FIG. 8. is common to the diagrams (Figs. 4, 6 and 7. The valve bridge in Fig. 4, b and 9 has the same internal connections and numbering of the vectors as in Fig. 1, therefore this The bridge is simplified isobreic in a block form. The device according to the first embodiment (Fig. 1) contains twelve vents; lei 1-12, assembled into two three cell valve bridges that are connected along a direct current circuit parallel to one pole and form a six cell (L 6) valve bridge 13. Its findings directly or through the filter 14 form the output pins 15 and 16, to which is connected to load 17, as well as the control system 18. A, B, c are the phases of the supply network. The outputs of bridge 13 for the pregnant current are connected via lines 19 to sources of photoelectric electromotive forces, which are formed by three main windings with extreme leads, and equipped with taps A А In C c - -J -l The windings are interconnected in a consistent manner and the topologies of the chain form a closed triangle. Each main winding is supplied on an additional A (B, C) winding that is connected to the first B (C, A {) outlet of the adjacent with it in phase of the main winding, and others The two A, B, C taps of the main windings form the input terminals for connecting the primary source A, B, C of an alternating three-phase current. In addition, these taps can be installed with the required number of turns and equidistant from the extreme ends of the same name of the main cores. the number of turns of the additional A2 winding and turns from the first A tap to the conclusions of the main winding can be set, for example, in T / 5/3: 1 and (1 -.) / 2: (1 + UZ / 3) / or (2 -TZ): Uz and (Uz - 1); 1. For the first relationships in FIG. It is given in the phase plane of diagrams “11a vectors of phase-shifted electromotive forces, form 1 and co-axes on the main and additional windings, as well as vectors of emf of the LAN network, shown by dotted lines. . The device (Fig. 1) works as follows. As can be seen from FIG. 2, between the corresponding pairs of lines 19, a system of six diagonal emfs is formed: A-Bj,.,. C-Aj. Being straightened by cla. - by means of valve bridge 13, they create at output pins 15 and 16 twelve phase slides in 1, 12). The sign of the constant envelope U0 of these EMFs, shown in FIG. 3 points in the form of diagrams, pulsates with a 12-fold frequency relative to the frequency of the converted EMF (frequency of the primary source of ABC). The numbers of the corresponding EMF of the valves, which are consistently conducting load current during the pulsation period 29 (in l / 12) are indicated in brackets on the same fig. 3 (the possible phenomenon of commutation or overlapping of the internal branches is considered in this case). The rest of the valves at this moment are closed by the reverse voltage that is generated on them. Therefore, the average current value, for example, through valves 1, 4, 5.8, 9 and 12, is 1/12 of the load current TO, which is 2 times less than in the analogue. Consequently, compared to the last 7, these six valves can be installed in a device of significantly lower power (with the same load current). - The effect of increasing the frequency is 12 times achieved due to an increase in the number of current paths that change cyclically in time, in known sources of such circuits two times less. An increase in contours is usually achieved by a circuit and constructive complication and a noticeable loss of power. Compared with the known circuit connections in the device are simple, and, despite obtaining twelve circuits, provide significantly better power usage, ensuring relatively good use of it, exceeding the current-voltage ampere power of the device relative to the useful (watt) m (load efficiency is reduced by about 1.3 times. Moreover, the effect of weight and volume econgy associated with this is achieved with a simultaneous increase in the frequency multiplicity of the pulse 1 by a factor of 2. As follows from Fig. 2, "for any circuit realizations of In the new variant, the condition 12 Sff / Tii2 Uo, o nd is not achievable, as shown by the principle, in principle in the prototype, in which the output voltage Ugo of the output voltage is always less than the amplitude of the EMF of the main winding and the amplitude of the s. Ramshire capabilities of the device and its application area. In addition, by changing the distribution of the second taps, you can provide an almost unlimited (within the specified condition) multiplicity of discretes Vj, and therefore any of them in the case of its gain. In the prototype, only one value is provided. By supplying the winding to a number of taps in connecting them to the input pins, for example, through key elements, in particular thyristors, it is possible to provide discrete control (stabilization) of the output voltage, and contact - its smooth change.

By combining the second tap with the first tap, or with the extreme output of the winding, the number of tapes can be reduced to minigug- (to one) - FIG. 4.

Moreover, in most cases, a certain phase shift of the generated EMF relative to the EMF of the network is achieved simultaneously (Figs. 2 and 5), which ensures any desired or desired, for example, most advantageous by the established criterion shift, which indicates a significant expansion of the device functionality.

The device according to the second variant (figs. B and 7) contains the same basic components as the first variant, but differs in other connections (connections) of the input terminals and one of the extreme terminals of the main windings.

FIG. 3 pins A, B, C are connected to the first taps, C, A, forming a closed triangle only in parts A.A., the main windings. In general, the connection of these windings forms an incomplete triangle group, the free vertices X, Y., Z. of which form input terminals for connecting the primary source of ABC three-phase alternating current.

In addition, in the circuit of FIG. 6 phase of the EMF of the main windings is shifted to the right (in the phase plane) relative to the EMF of the network.

A modification of the circuit is given in FIG. 7 "The corresponding vector diagram of the output voltage with an indication of the current-generating emf Poison and the numbers of series-pair conductive valves is shown in FIG. 8, from which it follows that the device according to the second variant works in the same way as described. The essential difference is that here the condition cntr is the same with the prototype, but with the possibility of obtaining, in principle, any (within the specified condition) number of samples Vg or, for a given Ud, the possibility of using, in principle, any primary source, as a result of which the functionality of the device and its application.

The device according to the third variant (Fig. 9) contains the same basic components as the previous versions, but differs in connecting the input terminals A, B, C to the terminals

additional windings AZ 2 g or to their additionally introduced taps, which provide both the above conditions considered, as well as corresponding phase shifts of the EMF of the winding network and the load (Fig. 10).

Further empowerment can be achieved if the mentioned conversion elements or / and sources of phase-shifted emfs are controlled from the introduced control system 18, which is achieved, in particular, by the introduction of I-type key elements, for example, single-or two-position thyristors, power bipolar or field-effect transistors or / and by changing the magnetic state of said magnetoelectric.

A positive effect in this case is provided due to the integration in one element of the two functions of the valve function or / and the function of forming the diagonal EMF and the function of regulating (stabilizing) the output parameters.

By combining the switching of two-position key elements, various control laws are provided, including the most advantageous, for example, by the criterion of the best spectral composition of variables, source power factor, etc.

In those cases when the lower frequency of the first harmonic of the output voltage is not significant, control can be accomplished only by half of the converting elements (semi-adjustable mode) or fewer (asymmetric mode). This additional potential follows, for example, from the one shown in FIG. 1 and 7 of a cyclic sequence of natural switching of the numbered valves c.

The control of the magnetic state of a phase-shifted EMF source magnetic circuit can be separated according to the principle of amplitude regulation of the EMF, which, compared with the phase-pulse control of the converter elements 2-12, reduces the level of various interferences, bursts, possible overvoltages, distortions, and also aaani

The execution of a phase-shifted EMF source magnetic circuit in the form of a spatial structure with triangular rsms significantly reduces the modulation component of the output voltage by improving the MGHP of the filters and the EMF driver, as compared to the plane system, the asymmetry of magnetic fluxes and HH3KO4acTdiTHo.

In order to redistribute the current of a high-current load, using less powerful, with better MGHPs and reliability of the elements, it is possible to additionally introduce at least one more converting structure by connecting it along the conclusions of valve bridges in parallel to the considered structure, and thus, despite the increase in the number of elements, improve reliability SHP as a whole due to the dominant influence of the functional and structural redundancy of the object in comparison with the quantitative elemental indicators of reliability.

At the same time, in the first variant of the solution and in a variant with taps from the additional windings of the third variant, the number of windings JKOB of the power windings in E, and V-Qnp {: Wfjj 4: 3.5 1.14 times was achieved with respect to the prototype circuit CP / C 4 , 6: 3.5 1.3 times - with UR or correspondingly, by 0.5.W (j (l, lWp) total turns of windings. Accordingly, the consumption of expensive magnetic material and other elements of the structure is also reduced.

In addition, by increasing the pulsation frequency by 12 times in all variants of the solution, an increase in its multiplicity P was achieved in P P: P p 12: 6 2 times as compared with the analogue and prototype, and the pulsation level was reduced in Y Kpfjjjj p: Kj 14.03: 3.5 4 times, which significantly improves the quality of energy conversion, as well as MGHP smoothing filters.

Such a considerable economy, along with wide functional and constructive possibilities and a significant improvement in the quality of energy conversion, testifies to its undoubted prospects and wider areas of practical use in the national economy of the country.

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Claims (32)

SECONDARY POWER SOURCE (ITS OPTIONS). 1. A secondary power supply containing two three-cell valve bridges with lines connected to their terminals for alternating current and three phase-shifted EMF sources formed by three main windings on the magnetic circuit, which are connected in series and topologically form a closed triangle, one unipolar the outputs of the valve bridges for direct current form the first output output, characterized in that, * ⁴ in order to expand the functionality and the scope of application nenia. as well as improving the quality of energy conversion, other unipolar terminals of the valve bridges form a second output terminal, each main winding is equipped with an additional winding that is connected to the first tap of the main winding adjacent to it, and connected to the free terminals of the additional windings and to the vertices of the triangle the mentioned lines, while other taps of the main windings form the input terminals, and these connections are the main conversion structure. figure 1 iU .. 1070670 2. Power supply according to π. 1 distinguishing with the fact that the taps of the main windings forming the input terminals are equidistant from the corresponding conclusions of the windings associated with the lines. 3. The power source according to claim 2, which is related to the fact that the indicated input terminals are aligned with the vertices of the triangle of the main windings. 4. The power supply according to claim 2, with the fact that the specified input terminals are combined with the terminals of the additional windings connected to the lines. 5. Power supply pop 2, with the exception that the specified input terminals are combined with the terminals of the additional windings connected to the taps of the main windings. 6. The power supply according to claims 1-5, on the basis of the fact that, in order to double the frequency of the ripple, the number of turns of the additional and main windings are set in the ratio / 5/3: 1, and the number of turns from the terminals of the main winding to its tap connected to the additional winding are, as (1 - / 5/3) / 2: (1 +, / 5/3) / 2, or are set respectively in the ratios (2- / 5): / 5 and / 5/3: 1. 7. The power supply according to claims 1-6, with the exception that in order to further improve the quality of energy conversion and expand the design capabilities, the specified magnetic circuit is made spatial, with three-year yokes or in the form of three separate magnetic systems, and the windings are made of a lightweight tape, in particular multi-layer, component, for example aluminum foil, or a component with increased electrical conductivity, for example superconducting. 8. The power supply according to claims 1 to 7, with the fact that, in order to further expand the functional and structural capabilities, the elements of the valve bridges or / and sources of phase-shifted EMF are made controlled from the introduced system control, in particular by introducing key-type elements, including two-point ones, and / or by changing the magnetic state of the magnetic circuit. 9. The power supply according to claims 1 to 8, with the fact that it is equipped with at least one other additional converter structure connected by output terminals in parallel-unipolar to the main structure, is not ¹ directly or through magnetically coupled inductances, shunted or not shunted by an additional capacitor. 10. The power supply according to claims 1-9, characterized in that the phase-shifted EMF are formed on the windings of an electric machine or systems with parametric circuits. '' 11. An electrical power source containing two three-cell valve bridges with lines connected to their terminals for alternating current and three phase-shifted EMF sources formed by three main windings on the magnetic core, one of the same terminals of which form the input terminals, and one unipolar conclusions of the valve bridges by direct current form the first output output, which consists in that, in order to expand the functionality and scope, as well as improve the quality of energy conversion gii, other unipolar terminals of the valve bridges form a second output terminal, each main winding is equipped with an additionally introduced winding, which is connected to the first branch of the main winding adjacent to it in phase, the second branch of which is connected to another terminal of the main winding adjacent to it in phase, topologically forming the connection is an incomplete triangle, and the indicated lines are connected to the free terminals of the additional windings and to other terminals of the same name of the main windings, and these connections form the main eobrazovatelnuyu structure. 12. Power supply by p. 11, characterized in that the taps of the main windings forming the input terminals are equidistant from the corresponding conclusions of the windings associated with the lines. 13. Power supply according p. 12, characterized in that the indicated input terminals are aligned with the vertices of the triangle of the main windings. 14. Power supply by p. 12, characterized in that the specified input terminals are combined with connected to the lines of the findings of the additional windings. 15. Power supply by p. 12, characterized in that said input terminals are combined with the terminals of the additional windings connected to the taps of the main * windings. 16. The power source according to paragraphs. 11-15, characterized in that the number of turns of the additional winding and the part of the main winding forming a closed triangle of an incomplete triangle are set at a ratio of ¥ 5/3: 1, and the number of turns from the terminals of the said part of the main winding to its tap connected to the Additional winding , relate as (1 - ¥ 5/3) / 2):: (1 + Ϋ3 / 3) / 2, or are set respectively in the ratios (2 - Ϋ3): Y5 and ¥ 5/3: 1. 17. The power source according to paragraphs. 11-16, characterized in that, in order to further improve the quality of energy conversion and expand design capabilities, the specified magnetic circuit is made spatial, with triangular yokes or in the form of three separate magnetic systems, and the windings are made of lightweight tape, in particular multilayer, for example aluminum foil, or a component with increased .. electrical conductivity, for example superconducting. i 18. The power source according to paragraphs. 11-17, characterized in that, for the purpose of further expanding the functional and structural capabilities, the elements of the valve bridges or / and the sources of phase-shifted EMFs are made controllable from the introduced control system, in particular by introducing key-type elements, including two-position ones, or / and by changing the magnetic state of said magnetic circuit. 19. The power source according to paragraphs. 11-18, characterized in that it is equipped with at least one other additional converter structure connected by the output terminals in parallel-unipolar to the main structure directly or through magnetically coupled or unconnected inductances, shunted or not shunted by an additional capacitor. 20. The power supply according to paragraphs. 11-19, characterized in that the phase-shifted EMFs are formed on the windings of an electric machine or systems with parametric circuits. 21. An electric power source containing two three-cell valve bridges with lines connected to their conclusions on alternating current and three phaeo-shifted EMF sources formed by three main windings on the magnetic circuit, which are interconnected in series according to and. topologically form a closed triangle, and some unipolar DC outputs of valve bridges form the first output of the output, which is based on the fact that, in order to expand the functionality and scope, as well as improve the quality of energy conversion # other outputs of valve bridges they form a second output terminal in direct current, each main winding is equipped with an additional winding with a tap, which is connected to one tap of the main winding adjacent to it in phase, and the other pin ohm forms the input terminal, with three of these lines are connected to the vertices of the triangle, and the remaining three lines - to the additional taps of windings, said compounds constitute a main converter structure. 22. Power supply by p. 21, characterized in that the other three lines are connected to other terminals of the additional windings, the taps from which form the input terminals. 23. Power supply according to 21, characterized in that the taps of the additional windings forming the input terminals are equidistant from the corresponding conclusions of the windings associated with the lines. 24. Power supply by p. 23, characterized in that the input terminals are aligned with the vertices of the triangle of the main windings. 25. 'Power source by p. 23, characterized in that the specified input terminals are combined with connected to the lines of the findings of the additional windings. 26. The power source according to claim 23, wherein said input terminals are combined with the terminals of the additional windings connected to the main taps. ny windings. 27. Power supply according to / p. 21-26, characterized in that in order to double the frequency of the ripple, the number of turns of the additional and main windings are set in the ratio ¥ 3/3: 1, and the number of turns from the conclusions of the main winding to its tap connected to the additional winding, relate as (1 - Υ5 / 3) / 2: (1 + ¥ 5Хз) / 2, or are established respectively in the ratios (2 - ¥ 5); ¥ s and ¥ 5/3: 1. 28. The power source according to paragraphs. 21-27, characterized in that the number of turns of the main winding and part of the additional winding from its output connected to the main winding db connected to the tap line are set in the ratio 1: Υΐ / З, and the number of turns from the terminals of the main winding to of its tap connected to the additional winding are referred to as (1 - [(Uz / 3) 2:: (1 + ¥ s / 3) / 2, or the corresponding ratios V3 are established:: (2 - (V3) and Uz / 3: 1. 29. The power source according to paragraphs. 21-27, characterized in that, in order to further improve the quality of energy conversion and expand design capabilities, the specified magnetic core is made spatial, with triangular yokes or in the form of three separate magnetic systems, and the windings are made of lightweight tape, in particular multi-layer, component, for example aluminum foil, or component d with increased electrical conductivity, for example superconducting. 30. The power source according to paragraphs. 21-28, characterized in that, in order to further expand the functional and structural capabilities, the elements of the valve bridges or / and the sources of phase-shifted EMF are made controllable from the introduced control system, in particular by introducing key type elements, including two-position ones, or / and by changing the magnetic state of the magnetic circuit. 31. The power source according to paragraphs. 21-29, characterized in that it is equipped with at least one more of the same additional converter structure connected by the output terminals in parallel unipolar to the main structure directly or through magnetically coupled or unconnected inductances, shunted or not shunted by an additional capacitor. 32. The power source according to paragraphs. 21-30, characterized in that the phase-shifted EMF are formed on the windings of an electric machine or systems with parametric circuits.