SU143112A1 - DC / DC converter to 3-phase AC - Google Patents

Description

The proposed converter relates to a known type of DC / DC converter into a three-phase alternating current. made on pOOTprovodnikovyh triodes connected in two three-phase bridge groups.

The features of the converter constituting the subject of the invention are: connecting the outputs of both three-phase bridge groups to each other in series through the load and connecting to their input terminals of different sources of direct (rectified) current with equal voltages shifted by 30 el. hail.

This achieves the possibility of simplifying the converter circuit and cheapening it while simultaneously providing a sinusoidal output voltage.

In cases where the voltage sources and the load are not matched, the latter is connected to the output of the converter via the secondary side of the three-phase transformer.

To obtain a three-phase voltage system with a lower limiting value of high-harmonic amplitude, the converter is made of two transducers, in which the secondary windings of transformers are connected in series and controlled by rectangular voltage systems shifted by 15 elec. hail.

FIG. 1 shows a circuit diagram of the proposed converter; FIG. 2 - to the exe of switching on the load through the transformer, fig. 3 shows a variant of a converter circuit providing a reduction in the amplitudes of high harmonics.

The converter (Fig. 1) is made of twelve TI-7i2 semiconductor triodes, which are divided into two groups, controlled by two phase systems of rectangular voltages that are shifted in phase and 30 el. hail. The triodes of each group are connected by a bridge circuit.

No. 143112

C in - 1, the converter terminals are supplied with equal magnitudes of the voltage from different power sources. Three phases of the load are connected to the output terminals AI-La, Si-B-2,

Cj - C2.

Because of the phase displacement between two three-phase systems of rectangular voltages, control circuits is assumed to be 30 °, the shape of the phase voltage curve is close to sinusoidal and the amplitude of any higher harmonic does not exceed 9% of the amplitude of the first harmonic.

If there are two DC sources with equal voltages, in the absence of matching the load voltages and power sources in the converter, a three-phase transformer (Fig. 2) connected to the output terminals AI-AS, BI-5a, Ci should be used Cz. The voltages f / d, U, U on the secondary windings of this transformer, to which the load must be connected, are also close to sinusoidal.

In the circuit shown in FIG. 3 and designed to obtain a three-phase voltage system with a lower limit amplitude of HIGHER harmonics, the converter has two converters with transformer outputs, according to the scheme and principle of operation, similar to those previously described. The first includes triodes, 7i3-f7i8 and a transformer Tr. The second includes the triodes 77-4-7i2, and the transformer Tr. The secondary windings of transformers are connected in series and form a three-phase system.

The triodes of the second transducer are controlled by a system of rectangular voltages and shifted by an angle of 15 ° relative to the system of control voltages of the first transducer.

The phase voltage curve of this converter is close to sinusoidal, and the highest harmonic amplitude does not exceed 4.5% of the first harmonic amplitude.

The utilization rate of transformers in the proposed converter is close to one.

The triodes in the proposed converter have the same load and operate in a key mode with an open state duration equal to half the switching period, which ensures their good use.

Subject invention

Claims (3)

1. DC-DC converter to three-phase alternating current made on semiconductor triodes connected in two three-phase bridge groups, characterized in that to simplify and cheapen the converter, the outputs of these groups are connected to each other in series through the load, and to their input terminals equal voltages are supplied from different sources of direct (rectified) current, controlled by two three-phase systems of rectangular voltages, shifted in phase by 30 el. hail. 2. The converter according to claim 1, characterized in that, in order to match the voltage of the direct current sources and the load, the latter is connected to the output of the converter through the secondary winding of a three-phase transformer. 3. The Converter in PP. 1 and 2, characterized in that, in order to reduce the amplitudes of higher harmonics, the converter is made of two converters, in which the secondary windings of transformers are connected in series and controlled by Rectangular voltage systems shifted by 15 elec. hail. , U- vWvMAvJ C, 0.M J) vWAA / v | - --- Lou LA L / / - 1}