SU1104625A1 - Three-phase a.c. voltage-to-a.c. voltage converter - Google Patents

Abstract

THREE-PHASE AC VARIABLE VOLTAGE CONVERTER, containing three keys, each of which consists of a diode and a thyristor connected in parallel to each other, connecting the phases of the mains supply to the load phases so that the cathodes of the thyristors are connected to the phases of the network, and their anodes to the load phases are which are connected by the input of a rectifying diode bridge, to the output of which are connected in series a switching choke, a shunt thyristor, a switching capacitor and a switching thyristor, the anode of which is connected the indicated capacitor and cathode of the charge thyristor, and the cathode to the anodes of the distribution diodes included by the cathodes in the supply network phases characterized in that, in order to expand the functionality and limit the voltage on the switching capacitor, three distribution capacitors connected in parallel are inserted into it the diodes of the cathode group P 1 of the interconnecting bridge, and the circuit of the reactive energy discharge of the commutating throttle, consisting of a successively connected diode and a resistor, is switched on the parallel about the specified choke so that the anode of the reset diode with the anodes of the shunt and charge thyristor, while the switching choke (L is connected at one end to the positive output of the rectifying bridge, and the other to the anodes of the charging and shunt thyristors, the cathode of the shunt thyristor is connected to the minus the output of the rectifying bridge and one of the terminals of the switching capacitor, the other of which is the output of which is connected to the ca-. the charge method and the anode of the commutation of the thyristors.

Description

The invention relates to electrical engineering, in particular, to AC thyristor converters for parametric control of an induction motor, as well as to a device for controlling the incandescence of high-power lamps, regulating the heating of industrial resistance, etc. Devices are known for phase control of an asynchronous motor, comprising anti-parallel thyristors and their nodes forcing a computational mutation 1. The disadvantages of these devices are either limited functionality, or a large number of thyristors, switching capacitances, or the presence of labor-intensive transformers that degrade the overall dimensions of the devices. The closest to the invention in its technical essence and the achieved result is a three-phase AC-to-voltage converter containing three keys, each of which consists of a counter-parallel-connected diode and thyristor connecting the power supply phases to the load phases so that the cathodes thyristors are connected to the mains phases, and their anodes to the load phases, to which the rectifier diode bridge is connected by the input, to the output of which are connected in series a switching choke, a shunt Ristori commuting capacitor and a switching thyristor, the anode of which is connected to said capacitor and charging the cathode of the thyristor and the cathode - to the anodes of diodes distribution included cathodes is the formation of chains circuit mains phases on phase mains 23Nedostatkom known device at the instants of switching. These reasons include connecting a switch circuit through current-limiting reactors. The presence of these reactors drastically worsens such parameters of the device as dimensions, significantly limits the functional capabilities of the device, in addition, the voltage across the switching capacitor during an oscillatory charging process can reach a considerable value. The purpose of the invention is to expand the functionality and limit the voltage on the switching capacitor. This goal is achieved by introducing three distribution capacitors in a three-phase AC-to-AC converter that are connected in parallel to the cathode group of the rectifying bridge, and the reactive energy discharge circuit of the switching droplet, which is connected in series to the choke, so that the anode of the reset diode is connected to the anodes of the shunt and charge thyristors, while the switching choke is connected at one end to the positive output rectifying unit have a bridge, and the other - to the anodes of the charging and shunting thyristor, the cathode of the thyristor is connected to shunt the output, negative rectifying unit of the bridge and one of the terminals of the switching capacitor, the other terminal of which is connected to the cathode and anode of the charging switching thyristors. The drawing shows a diagram of the proposed three-phase voltage regulator. The regulator contains a three-phase load 1, the phases of which are connected to the phases of the supply network through counter-parallel diode-thyristor pairs 2 and 3, 4 and 5.6 and 7. In addition, the load phases are connected to the input of a three-phase rectifying bridge, the anodic group of which is made on diodes 8-10, and the cathode group is on diodes 11-13, in parallel with which are distributed distribution capacitors 14-16, and the plus bus of the bridge is connected to a switching choke 17 Another terminal of which is connected to the anodes of charge 18 and shunt 19 thyristors. The cathode of the specified shunt thyristor is connected to the negative terminal of the bridge and one of the terminals of the switching capacitor 20, the other output of which is connected to the cathode of the 18 and the anode of the commuting 21 thyristors, and the cathode of the switching thyristor 21 is connected to the anodes of the distribution diodes 22-24, whose cathodes are connected in phase to the phases of the network. In addition, parallel to the switching choke 17 is connected a circuit of a series-connected diode 25 and a reactive energy discharge resistor 26, and the anode of the reset diode 25 is connected to the shun anodes

Claims (1)

A THREE-PHASE AC VOLTAGE CONVERTER TO VARIABLE, containing three keys, each of which consists of counter-parallel connected diodes and thyristors, connecting the phases of the supply network with the phases of the load so that the cathodes of the thyristors are connected to the phases of the network, and their anodes to the phases of the load on which a rectifier diode bridge is connected to the input, the output of which is connected in series to a switching inductor, a shunt thyristor, a switching capacitor and a switching thyristor, the anode of which is connected to the capacitor and the cathode of the charging thyristor, and the cathode to the anodes of the distribution diodes connected by the cathodes to the phases of the supply network, characterized in that, in order to expand the functionality and limit the voltage on the switching capacitor, three distribution capacitors connected in parallel to the cathode diodes are introduced into it rectifier bridge groups, and a reactive energy dump circuit of a switching inductor, consisting of a series-connected diode and a resistor, connected in parallel to the indicated d I will make sure that the anode of the reset diode is connected to the anodes of the shunt and charging thyristor g, while the switching choke is connected at one end to the positive output of the rectifier bridge, and the other to the anodes of the charging and shunt thyristors, the cathode of the shunt thyristor is connected to the negative output of the rectifier bridge and one of the terminals of the switching capacitor, the other terminal of which is connected to ka ~. to the charger and the anode of the switching thyristors. 25 26 s SU., „1104625 1104625 2