SU877753A1 - Self-sustained inverter - Google Patents

Description

I

The invention relates to converter equipment and can be used in electrical and radio installations of high power.

Autonomous inverters with indi vidual switching are known, containing additional commutating chokes connected in series with the main thyristors (1.

The presence of additional chokes leads to an increase in the time required for switching capacitors, a delay in switching off switching thyristors and a decrease in the operating frequency limit of the inverter, as well as an overvoltage on the load during the switching off interval of the main thyristors.

The closest to the proposed technical essence and the achieved result is an autonomous inverter containing in each phase two main thyristors with reverse diodes, two commuting thyristors forming a single-phase bridge connected to the input pins, and the switching LC - chain, and between the point of connection of the main ones.

thyristors and a reverse diode connection point, an additional commutation choke is turned on, and the first of these points is connected to the output terminal | 2J

The disadvantage of such an inverter is the occurrence of overvoltage between the output terminals at the time of switching off the main thyristors and switching the switching current to reverse diodes and an additional choke.

The purpose of the invention is to limit the overvoltages between the output terminals of the AV "P tone inverter.

The goal is achieved by the fact that each phase is equipped with two thyristors, each additional terminal choke is made with a medium outlet connected to one of the indicated points of connection of the main thyristors, and the ends of this throttle are connected to the output terminals through two opposite-connected thyristors.

The drawing shows a basic electrical circuit 20 of an autonomous inverter.

The autonomous inverter contains main thyristors 1-4, switching thyristors 5-8, reverse diodes, a capacitor 13 in a switching circuit, a choke 14 in a switching circuit, a choke 15, thyristors 16-19, a load 20, a source 21 of power supply.

The additional choke 15 is made with a medium outlet connected to the junction points of the main thyristors 1-2 n 3-4; The end leads of the throttles 15 through the thyristors 16-19 are connected to the junction points of the reverse diodes. Thyristors 16 and 17, as well as thyristors 18 and 19, are interconnected counter-parallel. The connection points of the reverse diodes 9, Yun 11, 12 are connected through the output pins with a load of 20.

The device works as follows.

Let the current flow through one of the diagonals of the main thyristors bridge, for example, thyristors 1 and 4. Thyristors 16 and 18 are turned on, thyristors 17 and 19 are turned off, the voltage on the capacitors 13 has polarity indicated in the drawing. To turn off thyristors 1, 4, switching thyristors 5 and 8 turn on. After turning off thyristors I and 4, reverse diodes 9 and 12 open. In this case, a reverse restoring voltage appears on thyristors 1 and 4, equal to the voltage drop on the half windings of chokes 15, streamlined by the current, and the voltage on the load 20, regardless of its nature, is equal to the voltage of the power source 21. When the switching current drops down, the voltage sign changes to drossel x 15. The current drops to them due to the off state of thyristors 17 and 19. Next, consider, for example, the case when the inverter's load is active resistance. When the reverse diodes 9 and 12 are turned off, the thyristors 2, 3, 17 and 19 are simultaneously turned on. The thyristors 16 and 18 are turned off, the current in the load 20 changes direction and passes to the switched on thyristors 2, 3, 17, 19. If there is an ideal electromagnetic coupling between the winding semi-windings; If the mudflows are 15, then this process proceeds without a change in the flow in the magnetic conductor of the chokes 15 and therefore is without inertia. The actual steepness of the current fronts in the load and the voltage on it is due to inductances

dissipation of the half windings of chokes 15 and other inductances of the structure.

Similarly, the switching of the current from the thyristor diagonal is 2–3 to 1–4.

. Making additional chokes, included in each phase of an inverter with an average tap connected to one of two points — to the connection point of the main thyristors or to the connecting point of reverse diodes; connecting the end leads of this switch to another point through the thyristor interconnected counter-parallel, and connecting the output pin to the junction point of the reverse diodes allows you to limit overvoltages :: between the output pins when the main thyristors are turned on and to make it easier to isolate the load elements dressing inverter (transformers, thyristors).

Claims (2)

Invention Formula An autonomous inverter containing in each phase two main thyristors with reverse diodes, two switching thyristors forming a single-phase bridge connected to the input terminals, the switching circuit LC-chain being connected to the alternating current diagonal of this bridge and between the connecting points of the main thyristors and connecting points of the reverse The diodes forming the output terminals include additional commutating chokes, characterized in that, in order to limit the overvoltages at the output of the inverter, each phase is equipped with two stories, and each throttle dopoliitelnshy made with an intermediate tap connected to one of the mentioned junctions of the main thyristors, and the ends of this throttle are connected to the output pins through the two indicated counter-parallel lines on the other thyristors. Sources of information taken in. attention with sKcneptHse. 1. Zabrodin Yu. S. Nodes of forced capacitor switching of thyristors. M., “Energie, 1974, p. 70.2-9v. 2. US patent No. 396718, cl. H.02 M 7/515, published. 1976.