SU1644322A1 - Device for ac-to-ac voltage conversion - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to enhance the functionality and increase the efficiency of the device. Two storage capacitors 4 and 5 alternately through a half-cycle, each is charged through charge thyristors 2 and 3 and recharged twice through two discharge thyristors 6 and 7 and two diodes 8 and 9. The set goal is achieved by using the energy of the return re-charge of the capacitor and lower losses in the damping elements. 1 il.

Description

The invention relates to electrical engineering and can be used in secondary redundant power supply systems of devices, as well as in systems of electromechanical converters.

The aim of the invention is to expand the functionality and increase efficiency. The drawing shows a diagram of the proposed device.

The device 'comprises an input choke 1, charging thyristors 2 and 3, storage capacitors 4 and 5, discharge thyristors 6 and 7, diodes 8 and 9, a limiting resistor 10, a linear choke 11, a transformer 12 with a primary winding 13 and a secondary winding 14, the first an additional transformer 15 with a primary winding 16 and a secondary winding 17, a second additional transformer 18 with a primary winding 19 and a secondary winding 20, a third additional transformer 21 with a primary winding 22 and a secondary winding 23. The circuit of each secondary winding of all trans Rathora connected in series load 24, a damping resistor 25, a capacitor 26.

The primary windings 13, 16, 19 and 22 are connected by ends to a common point and through a series-connected linear inductor 11 and a limiting resistor 10 are connected to the second input terminal of the device.

The beginning of the primary winding 13 of the transformer 12 through a series-connected discharge thyristor 6 and a charging thyristor 2 and the beginning of the primary winding 16 of a first additional transformer 15 through a series-connected discharge thyristor 7 and a charging thyristor 3 are connected to the first terminal of the input choke 1, the second terminal of which connected to the first input terminal of the device. The beginning of the primary winding 19 of the second additional transformer 18 through the in-series diode 8 and charging thyristor 2 and the beginning of the primary winding 22 of the third additional transformer 21 through the in-series diode 9 and charging thyristor 3 are also connected to the first output of the input inductor 1.

The cathode of the charging thyristor 2 is connected to the anode of the charging thyristor 3, the diode 8 is connected to the cathode of the discharge thyristor 6, and the diode 9 is connected to the anode of the discharge thyristor 7 by cathode.

The anode of the charging thyristor 2 and the cathode of the charging thyristor 3 are connected respectively through the storage capacitors 4 and 5 with the second input terminal of the device.

The device operates as follows.

The storage capacitors 4 and 5 are charged alternately through the input choke 1: the first, when the positive half-cycle of the AC half-period of the alternating sinusoidal voltage of the power source is exposed to the input of the converter, and the second negative. The energy stored in the capacitors 4 and 5 in the closed time intervals of the charging thyristors 2 and 3 is alternately discharged through the discharge thyristors 6 and 7, the linear inductor 11 and the limiting resistor 10 to the primary windings 13 and 16 of the transformers 12 and 15. In the oscillatory circuit, the capacitor is equivalent the inductance of the transformer is created by a half-cycle of a pulse with a duration several times shorter than the half-cycle of an alternating voltage of a power source. At the moment of closing the discharge thyristor 6, the storage capacitor 4 is recharged to a voltage of opposite polarity and conditions are created for the discharge of the storage capacitor 4 to the primary winding 19 of the transformer 18 through a diode 8 with a half-cycle duration equal to its duration during the first discharge of the capacitor 4 through the discharge thyristor 6.

Similarly, there is a discharge of the storage capacitor 5 to the primary winding 22 of the transformer 21 through the diode 9.

Claims (1)

Claim A device for converting an alternating voltage to an alternating voltage, comprising an input choke connected to one cathode of the first and second anode of the second charging thyristor by one terminal and the other by the other terminal, the other anode and cathode of which are respectively connected to the cathode of the first and anode of the second discharge thyristors, two storage capacitors, each connected by one output to the second input output, and the other output, respectively, with the anode of the first and the cathode of the second charging thyristors, two diodes in which the anode the first and the cathode of the second are connected respectively to the cathode of the first and the anode of the second discharge thyristors, and a transformer, the primary winding of which is connected to the anode of the first discharge thyristor, the end through a line reactor and a limiting resistor, to the second input terminal, and the secondary winding through a damping resistor connected in series and the capacitor is connected to the terminals for connecting the load, characterized in that, in order to expand the functionality and increase the efficiency, three add transformers, the ends of the primary windings of which are combined and connected to the connection point of the linear reactor and the end of the primary winding of the transformer, with the beginning of the primary winding of the first additional transformer connected to the cathode of the second discharge thyristor, the beginning of the primary winding of the second additional transformer connected to the cathode of the first diode, the beginning of the primary the windings of the third additional transformer are connected to the anode of the second diode, and each of the secondary windings of the additional trans formors through input 5, its damping resistor and capacitor is connected to the input pins to connect its load.