SU385380A1 - Thyristor Inverter - Google Patents

Description

one

Known are tristor inverters, soda, a switching transformer connected in series with the main thyristors, which is connected to a generator of switching pulses, and reverse diodes. The flow of load current through the winding of the switching transformer causes an undesirable reverse effect on the generator of switching pulses.

The purpose of the invention is to increase the reliability and improve the energy performance of the device.

The proposed inverter is characterized in that the secondary winding of the switching transformer consists of two half-windings connected in opposite, and their common point is connected via an additional reverse diode to the terminal of the power supply.

The single-ended, half-bridge and bridge versions of the inverter are shown in FIG. 1-3, respectively.

In a single-ended inverter (Fig. 1), the thyristor 1 by the anode is connected to the positive Wii pitch, and the cathode to the secondary winding of the switching transformer 2, consisting of two half-windings connected 3, 4, the common point of which is through a diode 5 connected in the opposite direction, connected to the negative power supply. The primary winding 6 of the transformer is connected to the generator of switching pulses 7. In series with the secondary winding, load 8 and reverse diode 9 are included.

The half bridge inverter circuit is shown in FIG. 2. In it, a thyristor 10 is inserted along with the elements of a single-ended circuit, the anode of which is connected through a secondary winding, 4 connected to the common point, and the cathode is connected to the common power bus. A diode 12 is connected between a common point and a positive length, and a positive U (between a different power supply - a diode 13) between diode 9 and a cathode.

The bridge circuit of the inverter, shown in FIG. 3, consists of two half-bridge circuits, where the second half is shown as block 14. When the thyristor is turned on ((Fig. 1)), the power is supplied to the load from the power source. At the same time, due to the counter-switching of the windings 5 and the transformer, its core is not magnetized, and consequently, no electromotive voltage is induced in the winding 6, i.e. the reaction of the power circuit through this winding to the generator 7 is removed. /, from the generator to the winding 6 of the transformer receives the corresponding pulse. On windings 3 and 4, two opposing emfs arise. Under the action of emf. windings 3 along the circuit winding 3 - thyristor 1 - power supply - diode 5, which turns off the thyristor,

the reverse current of the thyristor flows. Under the action of emf. winding 4 is supported by the load current S flowing through the circuit winding 4 - load 8 - diode 5.

According to the switching pulse, the windings of 3 4 arise. Again, two opposing E.D.S. associated with the restoration of the switching transformer. Due to the fact that these emf. directed counter, eliminates the response of the switching circuit to the thyristor. After the thyristor is turned off, the load current in the case of an inductive load is switched to the shunt diode 9. In order for the load current not to branch into diode 5 after the switching transformer is restored, diode 5 must be silicon and diode 9 must be germanium.

Half-bridge and pavement schemes work the same way as single-stroke. The difference is

the ability to receive using the generator 7 bipolar pulses due to the inclusion of the switching transformer 2 in the cathode circuit of a thyristor / iv anode circuit of the thyristor 10.

Subject invention

A thyristor inverter containing a switching transformer connected in series with the main thyristors, connected to a generator of switching pulses, and reverse diodes, characterized in that, in order to increase reliability and improve energy performance, the secondary winding of the switching transformer is made of two sections connected in opposite, and A common point through an additional reverse diode is connected to the power supply terminal.