SU112839A1 - DC to six-phase AC converter with artificial switching - Google Patents

Description

The main disadvantage of conventional inverted circuits (converting direct current into alternating current) is that the inverters are not able to transmit reactive power to the AC network, but, on the contrary, consume the reactive power from the network. In order to eliminate this drawback, a number of so-called; off-switch switching schemes were proposed, which allow transferring current from one inverter anode to another, not only before, but also after the moment of the crossing of the emf curves. corresponding phases and thereby generate reactive power in the inverter.

A part of the known art switching circuits is based on the principle that the current is first transferred from one main anode through an additional switching valve to an auxiliary source (usually a capacitor), and then from auxiliary value to a second main anode. However, when using these circuits, there are significant distortions in the shape of the current and voltage curve and the valves operate under severe conditions.

In another type of artificial switching circuit, the current transfer is carried out directly from one main anode to another with the help of an additional switching circuit of increased frequency received from a capacitor, generator or auxiliary inverter. These artificial switching circuits are characterized by a very short anode burning time (60 or 30 °), which leads to poor use of the main transformer and valves.

The present invention allows artificial switching of inverters without special switching valves with an anode burning time of 180 °.

For this purpose, it is proposed to include a switching capacitor through an auxiliary transformer or a choke in the cathode converter circuit for passing the third harmonic anode currents.

No. 112S39-2 -

FIG. I, 2, and 3 depict the principal EoTectric schemes of the proposed converter in three versions.

Valves / converter are powered according to usual schemes - cascade or cascade-bridge from the secondary winding 5 of the main transformer.

A commutation gap in the anode circuit is created by a capacitor 3 or a group of capacitors switched on on the DC side. A triple frequency current is passed through the capacitors 3, as a result of which a triple frequency voltage arises at their terminals. This voltage is transmitted to the anode circuits of the converter and is used to artificially switch the gates 1.

Various devices can be used to isolate third harmonic anode currents. In this case, the switching capacitor 3 can be connected:

a) to an auxiliary transformer with w: the primary windings in the anode circuits of the converter;

b) to the auxiliary transformer 4 with one primary winding or to the choke in the anode circuit of the converter (Fig. 1);

c) to the tertiary winding 5 of the main transformer connected in an “open triangle”; The primary winding of this transformer 6 must then be connected in a “star or zig-zag” (FIG. 2), and the transformer itself is made up of a group of three single-phase units or on the rod;

d) to the auxiliary transformer 7 connected on the primary side of the main transformer (Fig. 3).

The proposed converter makes it possible to significantly improve the use of valves and the main transformer, due to the longer duration of the anodes, to reduce the power of the switching capacitor (through which three times less current flows than in existing circuits) and to use it for ultrahigh voltages.

Subject invention

Claims (3)

1. A six-phase alternating current converter with artificial switching and anode burning time of 180 °, characterized in that the switching capacitor is connected through an auxiliary transformer or a choke to the cathode circuit of the converter for passing the third harmonic anode currents. 2. A converter according to claim 1, characterized in that the capacitor is a Bkeyupep in an "open triangle of the tertiary winding of a transformer. 3. A converter according to claim 1, characterized in that the condenser is connected via an auxiliary transformer on the nervous side of the main transformer. . one  t