SU1166244A2 - Device for controlling three-phase inverter - Google Patents

Abstract

DEVICE FOR MANAGING A THREE-PHASE INVERTER according to author. St. No, characterized in that, in order to increase the starting reliability and reliability, it is equipped with six diodes, each of which is connected by an anode to the base of the first transistor of one autogenerator cell and the cathode to the base of the second transistor of the antiphase autogenerator cell. (L of 05 about: ée 4ib 4

Description

The invention relates to electrical engineering, in particular to converter equipment for converting a constant voltage to a three-phase AC by means of inverters.

According to the main author. St. N ° 1046897, a device for controlling a three-phase inverter is known, which contains a scaling circuit on six autogenerator cells with output transformers having a secondary, additional winding, and a primary winding, the outlet from the intermediate point of which is connected to the first power output and the ends through transistors to to the second power output, and the master oscillator with an output transformer, the outlet from the midpoint of the secondary winding of which is connected to the second power output, one end of this winding - with the first RoHUOM will complement Flax output winding gransformatora all even cell I.

A disadvantage of the known device is a large time to synchronization. This can lead to the simultaneous turning on of the inverter's keys working in antiphase and leaving them out of order, which reduces the reliability of the inverter when it is turned on.

The aim of the invention is to increase the reliability of the start-up by blocking the first transistors of some autogenerators operating in antiphase with the first transistors of other autogenerators, whose pulses are used to control the power switches of the same phase.

This goal is achieved by the fact that the device is equipped with a diode diode, each of which is connected by an anode to the base of the first transistor of one autogenerating cell with a pi cathode to the base of the second transistor of the antiphase autogenerating cell.

FIG. I is a schematic diagram of a three-phase inverter control device; in fig. 2 - control pulse diagrams.

The device contains a scaling circuit made on six autogenerator cells 1-6, an additional winding 7, a master oscillator 8, the outputs of which are connected in series with the additional windings of the transformers of the autogenerator cells 1-6 and connected via diodes 9 and 10 between the second power output and the transistor bases ring Bheme, additional diodes II -16, which are connected between the interdith bases of the first and third transistors, respectively, of the same and anti-phase autogenerator cells 1-6.

The device works as follows: JOM.

When powering the start-up voltage, the master oscillator 8 and the auto-generator cells I-6, which are synchronized with the master oscillator 8 (Fig. 1), are

coli principle. 1-1 adjustments on the output windings of transformers are shown in FIG. 2. To control the keys of a single phase with a conduction time of 120 °, control and Ulp pulses are required (Fig. 2). At the moment of starting the scaling circuit, the autogenerator cells I-6 work erratically, and, therefore, the key-phases can be opened by control pulses LUt and UAZ simultaneously, which will lead to a short circuit. To avoid this, blocking, for example, switching on the first transistor of one (for example, the first) auto-oscillating cell j (when turned on, a pulse of 120 e. Deg. Is formed) by the voltage of the base winding of the second transistor of an auto-oscillating cell 4, when the first transistor of the cell 4 is turned on, which at this time forms the unlocking pulse of the K-phase. This communication is made using

a diode connected between the base of the first transistor of the autogenerator cell 1 and the base of the second transistor of cell 4. Similar reasoning is also true when the first transistor of cell 4 is blocked by the voltage of the base winding of the second

transistor cell 1, for which a diode is connected between the bases of these transistors.

The same connection can be made between autogenerator cells that form control pulses of other phases (between the 2nd and 5th, 3rd and 6th cells).

In addition, such a connection can be made between cells that form control pulses of different phases, for example, between the bases of the 1st transistor of the 1st cell (UAI) and the 2nd transistor of the 3rd cell

(UBI), because at the moment of 12, the pulses of UAI and UBJ change sign. It connects the 2nd cell with the 4th (Uca and Uyvj), the 3rd with the 5th (Usi and Ucj), the 4th with the 6th (UAg and UBZ), and the 1st with 5 2nd, 2nd from 6th 3rd from 1st.

This link will also allow you to increase the speed of the synchronization scheme. However, the most convenient is the connection between cells of the same phase, where the short circuit in the power section of this phase is eliminated.

The use of the invention allowed, by introducing six diodes, at the moment of starting the scaling circuit, to eliminate the "false formation of control pulses of each phase and, thus, to increase the speed of occurrence of counting

circuits in sync and on 15-20 / o for device reliability.

Figg

Claims (1)

DEVICE FOR CONTROL OF THREE-PHASE INVERTER by ed. St. No. 1046897, characterized in that, in order to increase the reliability of the start-up, it is equipped with six diodes, each of which is connected by the anode to the base of the first transistor of one self-generating cell and the cathode to the base of the second transistor of the antiphase self-generating cell. FIG. f