SU729781A1 - Three-phase ac-to-dc voltage converter - Google Patents

Description

The valves of all phases are combined and their common point is connected to the first end of the smoothing throttles, additional controllable valves are connected by the number of phases, each connected in series to the power electrodes of other controllable valves, and the free power electrodes of the additional controllable valves are combined, their common point is connected to the second end of the smoothing throttles, and the connection points of the respective main and additional controlled gates form the input pins for connecting pi ayuschey network.

FIG. 1 is given a converter circuit; in fig. 2a and b show diagrams of linear voltages on the primary winding of the transformer and the current passing through controlled gates.

The circuit contains a three-phase transformer 1 with primary windings

2, connected in a triangle, and secondary windings 3, which can be connected in a triangle, a star, etc. Thyristors are used as controlled gates, both primary and secondary.

4 - 12о А В С - power supply input terminals, and А, В, с– CONCLUSIONS of the primary winding.

According to and in series with thyristors 4 and 7, 5 and 8, bi9 additional thyristors are included, respectively, 10, 11, 12. The common connection points of thyristors 4 and 7, 5 and 8, 6 and 9 are connected to pins A b, c, and the mains supply ABC pins to common connection points thyristors 7 and 10, 8 and 11, 9 12.

Smoothing choke 13 is connected to the output of the bridge formed by thyristors 4-12. Secondary windings

3, connected, for example, also a triangle, connected to. to the input of the uncontrolled diode bridge 14 19, to the output of which the heating 20 is turned on. In the established mode, the current is switched by the thyristors in accordance with the specified control angle (and instantaneous values of the line voltage

(see Fig. 2a). . .

Consider the operation of the circuit, starting from the time t, when the current is extended to phase A and B. In this case, the current passing circuit will be as follows: power supply phase A, thyristor 7, winding A into triangle 2, thyristor 5 smoothing choke 13, thyristor 11, Phase In the supply. Network. Correspondingly, a current passes in the secondary windings of 3 transformers, diodes and loads: terminal a, diode 14, load 20, diode 18, terminal b,

at time tj thyristors 6 and 12 are switched on and current is switched from thyristors 5 and 11 to thyristors 6 and 12. At the same time, the phase comes into operation. From the mains supply, - and the current will flow through the circuit: power supply A phase, thyristor 7 , clamp A of the primary winding, clamp C, thyristor 6, smoothing, choke 13, thyristor 12, phase C. At time t, the thyristor turns on

8, and the current will flow from phase B,

thyristor 8, pins in and E of the primary winding, thyristor 6, smoothing choke 13 thyristor 12 phase C Next, the current is switched from

5 thyristors 6 and 12 for thyristors 4 and 10, after which the phases B and A of the supply network will conduct current. Further, switching processes occur in a similar way.

() When the inductance of a smoothing throttle 13 is sufficiently large, the current flowing through the phases of triangle 2 has a smooth shape regardless of the angle of thyristor control. In accordance with the equality of the ampere turns Wj ' (Wj, will have a smooth shape and a curve of the secondary current, as well as a curve of the current flowing through the load 20 and the voltage across it.

Thus, the proposed inclusion of triangle-connected primary windings of a transformer to a controllable bridge consisting of three thyristor groups provides the following advantages associated with switching on a smoothing throttle on the primary side of a power transformer: reducing the amount of current flowing through a smoothing choke

0 for large transformation ratios, and the limitation of the magnetizing current when the control pulses are unbalanced.

Claims (2)

1.Bokshtein ON and others. Equipment for resistance welding by direct current. L., Energie, 1967. 2. USSR author's certificate in application 2460404/07, 09.03.77 (prototype). St AV AS VS VA SA SV