SU961071A1 - Ac to dc voltage converter with output voltages of major and tripled frequencies - Google Patents

Description

'The invention relates to electrical engineering and can be used in devices designed to power consumers of the main and triple current frequencies.

Known combined power sources containing transformers with primary and secondary windings and providing two output voltages of the main and triple frequencies (1].

The disadvantages of these devices are the influence of the main frequency connection circuit on the triple frequency circuit, the galvanic connection of these 15 circuits.

Closest to the proposed one is an alternating voltage converter, into alternating voltage with output _ voltages of the main and triple ™ frequencies. It contains three single-phase transformers, on the magnetic circuits of which are located primary windings connected to the supplying three-pha network, secondary windings of the main 25 frequency and secondary windings connected in an open triangle windings tripled frequency w.

A disadvantage of the known device is the influence of the connection circuit 30 of the main frequency windings on the circuit of the welded frequency. This device as a combined power source is operable only when connecting the windings of the main frequency according to the star circuit with an isolated neutral *. When connecting the windings of the fundamental frequency of a known device according to the star scheme with a neutral wire, the third harmonic currents flow through the linear and neutral wires, which reduces it to zero the voltage of a triple frequency.

When connecting the windings of the main frequency of the specified device according to the triangle pattern, which is a closed loop for the third harmonic, a third harmonic current appears in the closed loop under the influence of the total EMF of the third harmonic, which also leads to a sharp decrease in the EMF of the triple frequency.

The aim of the invention is to eliminate the influence of the connection circuit of the main frequency windings on the triple frequency circuit.

This goal is achieved by the fact that in an AC-to-AC converter with output voltages of the main and triple frequencies, containing three single-phase transformers, on the magnetic circuits of which are located primary windings, secondary windings of the main frequency and triple windings triple connected to open 5 triangle frequency, in each transformer the secondary winding of the main · frequency is made in the form of two sections, each of which is connected in series-10 ' Strečno with a respective secondary winding section of the fundamental frequency of another transformer.

The goal is achieved by the fact that the main frequency windings of the combined 15th power supply are made of two parts, each of which is connected in series with each other with the corresponding winding located on. another magnetic circuit.

In FIG. 1 shows a schematic diagram of a device when connecting the windings of the fundamental frequency according to the triangle; in FIG. 2 - the same, according to the scheme, a star with a zero wire.

The AC-to-AC converter contains three single-phase transformers 1-3 with primary windings 4 th 5, b and .7, 8 and 9 of the main frequency, consisting of two sections, secondary windings 10 and 11, 12 and 13, 14 and 15 of the main frequency windings 16-18 tripled frequency.

Combined power source we work as follows.

When the primary windings are connected to a three-phase network, magnetic fluxes of the fundamental frequency appear, shifted by 120 ^{относительно} relative to each other, and magnetic fluxes of the third harmonic that coincide in phase appear in the transformer magnetic circuits. Due to the serial connection between co. windings 16-18 battle at their output voltage triple frequency appears.

, The total EMF of the third harmonic in the circuit of the main frequency windings (Fig. 1) is equal to zero due to their series-opposite switching, and therefore the currents of the third harmonic in this circuit do not flow. This is true .45 moreover, and when the main frequency windings are connected by a star with a neutral wire (Fig. 2), the EMF of the third harmonic of the main frequency windings is zero due to their series-counter connection.

Since the EMF of the third harmonic of the windings connected in series meet the same phase, the currents of these windings will coincide in phase. Due to the on switching on of the windings, the third harmonic currents are compensated, but in the linear and neutral wires it is absent.

Thus, the connection circuit of the windings of the main frequency of the proposed converter does not affect the tripled frequency circuit.

Claims (2)

frequencies containing three single-phase transformers, on the magnetic cores of which the primary windings are connected to the three-phase supply network, the secondary windings of the main and the triple frequency secondary windings connected in an open triangle, in each transformer the secondary winding of the main frequency is made in two sections, each of which connected in series (I meet with the corresponding section of the secondary winding of the main frequency of another transformer. The goal is achieved by the fact that the winding of the main frequency The combined power supply is made of two parts, each of which is connected in series-opposite to the corresponding winding located on the other magnetic circuit .In Fig. 1, a schematic diagram of the device is shown when the research institute of the main frequency windings is connected in a delta circuit; The same, according to the star with a zero wire circuit. The AC voltage to AC converter contains three one phase transformers 1-3 with primary windings 4 and 5, б and 7, 8 and 9 of the main frequency, consisting of two se second with 10 and 11, 12 and 13, 14 and 15 main windings, 16-18 triple frequency windings. The combined power source works as follows. When connecting the primary windings to a three-phase network in the magnetic cores of transformers, magnetic fluxes of the main frequency appear, shifted relative to each other by 120, and magnetic fluxes of the third harmonic coinciding in phase. Due to the series connection between the windings 16-18 at their output, the voltage of the threefold frequency appears. The total third-harmonic emf in the circuit of the main frequency windings (Fig. 1) is zero due to their series-opposite connection and therefore the third harmonic currents in this circuit do not leak. This is also true when connecting the main frequency windings to a star with a zero wire (Fig. 2), the third harmonic emf of the main frequency windings is zero due to their successive counter-coupling. Since the EMF of the third harmonic of the windings, connected in series to the end of the line, coincides in phase, the currents of these windings will coincide in phase. Due to the counter-switching windings, the third harmonic currents are compensated, and there are no lines in the linear and neutral wires. Thus, the connection circuit of the windings of the fundamental frequency of the proposed converter does not affect the triple frequency circuit. Claims of the AC-to-AC converter with the output voltage of the main and triple frequency, containing three single-phase transformers, on whose magnetic cores are located the primary windings connected to the three-phase supply network, the primary frequency secondary windings and the secondary frequency windings connected to an open triangle, characterized in that, in order to eliminate the influence of the connection circuit of the windings of the fundamental frequency on the triple frequency circuit, in each transformer a secondary The main frequency coil is made in the form of two sections, each of which is connected in series with the corresponding section of the secondary; Noy winding is the main frequency of the other (transformer. Sources of information taken into account during the examination 1 Copyright Certificate of the USSR 67166, cl. N 02 M 5/16, 194b. 2. Bamdas A.M. and others. Static electromagnetic frequency converters and phase numbers. ML, SEI, 1961, p. 70j figure 4-4.