SU1040578A1 - Self-excited voltage inverter - Google Patents

Description

The invention relates to electrical engineering and DC / DC converters may be used. The thyristor voltage inverter circuits are known, each with anti-parallel working thyristor and diode in each arm, parallel to each arm are connected switching nodes consisting of a series capacitor, reactor and thyristor, with an anti-parallel resistance of the diode lj, The disadvantage of the device is There is a large number of thyristors. The closest to the proposed technical entity is an inverter containing working thyris with counter-parallel diodes on each arm and switching capacitors and reactors, as well as one commuting thyristor connected to the diagonal of the diode one on both shoulders. This 2. However, a large number of diodes deteriorate the weight and size parameters of a known device. The purpose of the invention is to improve the weight and size parameters. The goal is achieved by the fact that in a stand-alone voltage inverter containing a half-bridge THIRISTOR YACH | - with a switching throttle connected to a switching thyristor, clamped by two series-connected sensing diodes, with the load circuit connected between zero and The output of the power source is the AC output of the cell, the capacitors are connected via individual commutating chokes to the opposite electrodes of the oppositely connected commutation thyristor, and the common point of the commutation diodes shunting it is connected by the AC output of the cell. In FIG. 1 shows the scheme of the proposed inverter, fig and 2 - the same options. The inverter circuit contains working thyristors 1 and 2 with counter-parallel diodes 3 and 4, respectively, connected in series between the source poles (+, -). The average output of these thyristors is the output of the inverter. Switching capacitors 5 and 6 are connected by a single pin to the source. There are switching chokes 7 and 8. In FIG. 1, they are connected in series with capacitors, in FIG. 2 — in series with diodes; in FIG. 3 — with working valves. Capacitors and chokes form a switching circuit. The second output of this circuit through commutating diodes 9 and 10 is connected to the output of the inverter, so that the opposite, the inputs of the diodes are combined. Between the same conclusions of the switching circuit, the switching thyristor is connected 11 in parallel to the diodes. The device works as follows. The thyristors 1 and 2 alternate with pauses, one after the other, control pulses. Before applying the pulse to the next working thyristor (1 or 2) of the previous one (2 or 1) it must be turned off. The circuit shutdown task is performed by the switching node — elements 5-11. At time t, a tripping pulse is applied to the switching thyristor 11. The capacitor is charged so that the (+) sign is on the top of its lining. The capacitor generates a current in the circuit: capacitor 5, thyristor 1, diode 10, thyristor 11, choke 7, capacitor 5. This current has the form of a sinusoid, the amplitude and frequency of which are determined by the capacitance capacitor 5 and the inductance of the dross 7. At the time t, the oscillating current the circuit passes through zero, and the voltage across the capacitor is negative and maximum. The oscillatory process continues and the current of the oscillating circuit changes sign. Eily earlier this current was summed up with the working eye of the thyristor 1, now he is opposite to the working current of the thyristor. This half-wave current flows through the switching diode 9 while it previously flows through the thyristor and diode 10. At time t, the switching current is compared with the load current. The current in the working thyristor becomes zero, the thyristor is turned off, and the switching current continues to flow through the reverse diode 3 of the working arm. After the end of the vibrational j

At time t4, a pulse is applied at time t to working thyristor 2, the process of which will be turned off in half a period in the same way.

FIG. J

Claims (1)

OFFLINE VOLTAGE INVERTER -; containing a half-bridge thyristor cell connected to the terminals of the power supply with oncoming parallel diodes, two switching nodes, a capacitor of each. of which is connected by the first plate to the corresponding output of the power source, and the second plate - With a switching * choke connected to a switching thyristor, shunted by two series-connected ones. counter switching diodes, and the load circuit is connected between the zero output of the power source and the alternating current output of the cell, characterized in that, in order to improve the overall dimensions, the capacitors are connected via individual switching chokes to opposite electrodes of the on-board switching thyristor, and the common point of the switching switching thyristor The diode is connected to the AC terminal of the cell.