SU1086523A1 - Thyristor a.c.voltage-to-a.c.voltage converter - Google Patents

Description

The invention relates to electrical engineering and can be used. It is designed to regulate an alternating voltage. A device for controlling an alternating voltage is known, comprising two network thyristors with successive diodes, two shunt thyristors with series diodes, two capacitors, and two C13 charge thyristors. The device has relatively low efficiency, since diodes connected in series with network thyristors create additional voltage drops. The closest in technical essence and results achieved by the invention is a thyristor converter of alternating voltage to alternating, containing a key in the form of a triac or two counter-parallel thyristors, connected between the first output for connecting the network and the first output for connecting the load, two circuits a switching thyristor with a series-connected diode connected in anti-parallel, with the common point of the thyristors connected to the first pin for connecting the load, and the common point and the diodes are connected to the second output for connecting to the load, two switching capacitors, each of which is connected in parallel to the corresponding diode of the C2J circuit. The disadvantage of such a device lies in the high voltage level (200%) on the circuit elements, which reduces reliability. The aim of the invention is to increase reliability. This goal is achieved due to the fact that the thyristor AC voltage converter containing the key in the form of a triac or two anti-parallel thyristors connected between the first output for connecting the network and the first output for connecting the load, two circuits from the switching thyristor -consistently connected diode, connected in anti-parallel, with the common point of the thyristors connected to the first pin for connecting the load, and the common point of the diodes connected to the second pin l connecting the load two switching capacitors, each of which is connected in parallel to the corresponding diode of the circuit, a transformer and two charging diodes are inserted, the first charging diode is connected, the anode to the common point of the thyristor cathode and the anode of the diode of one of the circuits the anode point of the thyristor and the cathode of the diode of another circuit, the cathode of the first charged diode and the anode of the second are connected to the first output of the secondary winding of the transformer, the second output of the secondary winding of which is connected to the second output the house for connecting the load, and the primary winding of the transformer is connected to the terminals for connecting the network. The drawing shows the circuit diagram of the device. . . -, Two opposite-parallel thyristors 1 and 2 (or their equivalent triac / connected in series with the load 3 and the network. The switching thyristors 4 and 5 with series-connected capacitors 6 and 7 are connected in parallel with the load terminals 3 one output of the secondary winding is connected to a common terminal of capacitor plates and a load 3. The second terminal of this winding is connected to the terminals of two diodes 9 and 10, the second terminals of which are connected to the corresponding second terminals of capacitors b and 7. A diode 11 and 12 are connected in parallel to capacitors 6 and 7 with an inductive nature of the load 3. The control inputs of the thyristors are connected to the control unit 13. The device operates as follows: The output voltage on the load 3 is controlled with leading effect. at the appropriate polarity of the voltage, the load current is equal to 0. Starting from this moment, the load current flows through the indicated thyristor (for example, I). condensers 7, is prepared for operation in the next half-cycle. The capacitor is charged to the required polarity (indicated in drawing J in the previous half-period of the network. At the required time, within the given polarity of the half-wave of the network voltage, determined by the control unit 13, depending on the required output voltage, the signal to the switching. thyristor 4. The latter connects the capacitor 6, causing the thyristor to turn off 1. The load current, if it is inductive, closes the circuit: load 3 - capacitor b - switching thyristor 4. e b capacitor decreases to zero, .This current passes to diode 11. For a successful turn-off thyristors 1 and 2, the secondary voltage of the transformer 8 is received by 10-20%. above the network voltage. By

310865234

this decreases the voltage, the unimportant effect which is not applied to the elements is electrically dangerous for these elements, which

chesky scheme. This reduces their installed-leads to increased reliability of the installed power and, in addition, such.

Claims (1)

(571 Thyristor converter AC to AC, containing a key in the form of a triac or two counter-parallel thyristors, connected between the first output for connecting the network and the first output for connecting the load, two circuits from a switching thyristor with a diode connected in series-in-parallel, moreover, the common point of the thyristors is connected to the first terminal for connecting the load, and the common point of the diodes is connected to the second terminal for connecting the load, two switching cond a sensor, each of which is connected in parallel with the corresponding diode of the circuit, characterized in that, in order to increase reliability, a transformer and two charging diodes are introduced into it, the first charging diode connected by an anode to the common point of the thyristor cathode and the anode of one of the diode circuits, the second charging the diode is connected by a cathode to a common point of the thyristor anode and the cathode of the diode of another circuit, the cathode of the first charging diode and the anode of the second are connected to the first terminal of the secondary winding of the transformer, the second terminal of the secondary winding of which is connected to the second terminal for connecting the load, and the primary winding of the transformer is connected to the terminals for connecting the network. S ω with r YayakA O eo □ e SP b e is turned on in parallel, and the thyristor turning is connected to the primary output for connecting the load, the common point of the diodes is connected