SU762112A1 - Three-phase inverter - Google Patents

Description

The invention relates to a converter technique and can be used in the development of secondary sources. power supply.

Known three-phase inverter, in which the problem of reducing distortion ₅ Nogo The output voltage is achieved by converting serial outputs Connection- cells generating voltage of the same shape, but shifted in phase or in phase matching, but various shapes.

However, the inverter has large gigabytes and a lot of transformers operating at the output voltage frequency {1}.

Also known is a three-phase inverter containing a three-phase bridge of controlled β keys, connected to the input terminals; push-pull cell, the output of which is connected between the output for connecting the midpoint of the power source and the output for connecting the zero point of the three-phase load, and the control unit (2). 20

The closest in technical essence of the present invention is a three-phase inverter containing a three-phase bridge of controlled keys, the connection 2

Connected to the input terminals, a two-cell, the output of which is connected between the output for connecting the midpoint of the source and the output for connecting the zero point of the three-phase load, and the control unit, the push-pull cell has an additional output that is connected through the auxiliary controlled AC switches to the three-phase output bridge and to the output to connect the zero point of the three-phase load, and the control unit consists of a master oscillator, ring scaling circuit, the outputs of which. control transformers are connected to the inputs of controlled keys, and a two-phase converter consisting of two multivibrators, one of which controls a push-pull cell, the other - a ring scaling circuit. In addition, EU resonant filters can be included at the outputs of a push-pull cell. Each of the three keys of each phase of such an inverter is controlled from a separate transformer connected, for example, via a diode, to the corresponding Cell of the ring scaler (for example, on thyristors) (3).

762112

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The disadvantage of this device is the complexity of the control circuit, due to the large number of control transformers.

The purpose of the invention is to simplify the inverter by reducing the number of control transformers.

This goal is achieved by the fact that. in a three-phase inverter containing a three-phase bridge of controlled keys connected to the input terminals, a push-pull cell, the output of which is connected between the output for connecting the midpoint of the power source and the output for connecting the zero point of the three-phase load,

and a control unit, the push-pull cell has an additional output that is connected via auxiliary controlled AC switches to the output of a three-phase bridge and to an output for connecting the zero point of a three-phase load, and the control unit consists of a master oscillator, ring scaling circuit, which leads through control transformers connected to the inputs of the managed keys

, and a two-phase converter consisting of two multivibrators, one of which controls the push-pull cell and the other a ring scaling circuit, the secondary windings of the control transformers are connected to the inputs of the controlled keys of the three-phase bridge, and the transformers themselves are made with additional secondary windings, and the mentioned windings of transformers each of the phases are connected in series and connected to the inputs of the auxiliary controlled keys.

FIG. 1 shows a block diagram of a three-phase inverter; in fig. 2 - pulse diagrams explaining the operation of the device.

The three-phase inverter contains a constant voltage source 1, a three-phase bridge 2, made on 3–8 AC switches, a push-pull cell 9 containing a transformer with two output windings 10 and 11, one of which (10) is connected between the midpoint of the power supply and the zero point three-phase load 12, and the other (11) is connected to the load 12 via auxiliary switches 13, Ί4 and 15 AC, control circuit 16, consisting of a two-phase converter, performed in a closed loop circuit, for example, on multivibrators 17 and 1 8, driven by master oscillator 19, ring scaling circuit 20, control transformers 21–26, the secondary windings of which are connected to control inputs of alternating current switches 3–8 and 13–15 '. One of the multivibrators 17 of the two-phase transducer controls the push-pull cell 9, and the other (18) controls the ring-type circuit.

The device works as follows.

To control the key 13 of the phase A, which connects the winding II to the load during the formation of the first stage of the output voltage (Fig. 2 a), it is necessary to have a control pulse shown in FIG. 2 b. For keys 3 and 4 of phase A, control pulses are required, as shown in FIG. 2 v, d. These pulses are formed using transformers, the primary windings of which are connected to the corresponding outputs of the scaling circuit 20. For example, to form a control pulse. Yiwu "(Fig. 2, d) in the interval -1" use the fifth and sixth cells of the counting circuit 20. For this, the control transformers are performed with additional secondary windings, and the mentioned windings of the transformers of each phase are connected in series and connected to the inputs of the auxiliary switches 13— 15.

Similarly, it is possible to generate control pulses for keys, for example, 3 (4), by summing the control signals of keys 13 and 4 (3).

Thus, to control the three keys of each phase, you only need two transformers, for example, 21 and 22, which allows you to simplify the inverter.

Claims (1)

Claim A three-phase inverter containing a three-phase bridge of controlled keys, connected to the input terminals, a push-pull cell, the output of which is connected between the output for connecting the midpoint of the power supply and the output for connecting the zero point of the three-phase load, and the control unit, and the push-pull cell has an additional output that is connected via auxiliary controlled keys of alternating current to the output of the three-phase bridge and to the output for connecting the zero point of the three-phase load, and the control unit consists of rear generator, ring scaling circuit, the outputs of which through control transformers are connected to the inputs of controlled keys, and a two-phase converter consisting of two multivibrators, one of which controls a push-pull cell, and the other - a ring scaling circuit, characterized in that the inverter, the secondary windings of the control transformers are connected to the inputs of the controlled switches of the three-phase bridge, and the transformers themselves are made with additional secondary windings, and the mentioned quipment transformer of each phase are connected in series and are connected to inputs of the auxiliary driven keys. 762112