SU1089725A1 - Multichannel sawtooth voltage generator - Google Patents

Abstract

A MULTI-CHANNEL POWER VOLTAGE GENERATOR, containing a three-phase synchronizing transformer with a load resistor in the secondary circuit and a constant voltage source, in parallel with which six sawtooth voltage generators are connected, each of which is made up of a series-connected adjustable resistor and a capacitor. shunted by a thyristor, to the control electrode of which a cathode of the coupling diode is connected, characterized in that, in order to improve synchronization accuracy, it is equipped with two load resistors, three additional capacitors, six additional and three peak transformers, the primary windings of which are connected in series with the load resistors and additional capacitors to the load of the secondary windings of a clock transformer connected in star i with a neutral wire, and the secondary and winding each peak-transformer (L connected between the anodes of the two decoupling diodes, wherein each shift control thyristor shunted series-connected further diodes and decoupling, with about 00 tsD CO

Description

The invention relates to electrical engineering and can be used in multiphase control systems for valve converters, in particular, in six-phase systems requiring precise synchronization of control signals with a variable supply voltage.

A device for phase control of a thyristor converter is known, comprising a three-phase clock transformer, the secondary windings of which are connected to a six-phase star and connected to the diodes, a common resistor and a source of constant voltage, in parallel to which are connected six chains of sawtooth voltage formers consisting of adjustable resistors and capacitors tl 3 The disadvantage of the device is low efficiency.

Closest to the present invention is a multichannel sawtooth generator, containing a three-phase clock transformer with a load resistor in the secondary circuit and a constant voltage source, in parallel with which six saw-voltage drivers, each configured as a series-connected adjustable resistor and capacitor, are connected thyristor-shunted, to the control electrode of which the cathode of the decoupling diode is connected t2 3 The disadvantage is known The device is characterized by low synchronization accuracy due to the fact that the discharge of capacitors in a sawtooth voltage driver occurs with a delay with respect to the time when the synchronizing voltage passes through zero. This is due to the fact that the thyristor control electrodes are powered by a sinusoidal ex. by living. Consequently, the noKst control transition current reaches the switching value, a certain period of time must pass, moreover, it is different for each thyristor. This introduces an additional error into the control system.

The purpose of the invention is the accuracy of synchronization.

The goal is achieved by the fact that the multichannel generator

a sawtooth voltage containing a three-phase clock transformer with a load resistor in the secondary winding circuit and a constant voltage source, in parallel with which six sawtooth voltage drivers, each made in the form of a series-connected adjustable resistor and a thyristor-capacitor-capacitor, are connected to the control electrode of which the cathode of the isolating diode is connected, equipped with two load resistors, three additional capacitors, six additional Additional diodes and three pictransformers, the primary windings of which are connected in series with S load resistors and additional capacitors to the load of the secondary windings of a synchronizing transformer connected to the star with a neutral wire, and the secondary winding of each peak transformer is connected between the anodes of two dissolving diodes, and a control junction each thyristor is shunted by series-connected additional and decoupling diodes.

The drawing shows a schematic diagram of the generator.

Multichannel Piloob Generator

a different voltage contains a source of constant voltage 1, in parallel with which are connected six shaper 2 sawtooth voltage, made in the form of series-connected adjustable resistor 3 and capacitor 4, shunted by thyristor 5, controlling the junction of which is shunted by series-connected additional diode 6 and developing by the opening diode In the load of the secondary windings 8 of a three-phase synchronizing transformer 95 connected in a star with a neutral wire, are connected in series with a single load resistor 10, an additional capacitor 11, and the primary winding of the peak transformer 12, the secondary winding 13 of which is connected between the anodes of the driving diodes 7.

The generator works as follows.

Suppose that, at a given time, zero passes the voltage U of phase A. In this case, the voltage passes through the secondary / winding U. Since the corresponding peak transformer 12 is connected to the load circuit of the phase voltage U ,, the magnetic flux directions in its core will reverse. The peak transformer core is made of ferromagnetic material with pronounced saturation, therefore, when the current direction changes in the primary winding, a narrow voltage pulse is formed on the secondary winding 13, the top coinciding with the moment of voltage crossing through zero, and the polarity is determined by the direction of change magnetic flux in the core. In one period of alternating voltage, the peak-transformer 12 forms two voltage impulses of different polarities. To compensate for the phase shift introduced by the primary winding of the peak-trans format, a capacitor 11 is connected in series with it, the capacitance of which is determined from the voltage resonance condition, as a result of which the loop resistance is purely active. circular network frequency; the inductance of the primary winding of the peak transformer 12 is the capacitance of capacitor 11. At the time the voltage passes 1/2 through zero, a voltage pulse is thus generated in the winding 13. Suppose that in winding 13, the right output is negative and the left output is positive. Then a control pulse through diode 7 connected to its control electrode and diode 6 connected to another output of the winding 13 of peak transformer 12 of phase A will be applied to the control electrode of the extreme thyristor 5. The thyristor 5 will open and discharge capacitor at the time of transition voltage U, j through zero. Through 180 zl.grad. In the winding 13, the next voltage pulse, but of opposite polarity, which through the other two diodes 7 and 6 will be applied to the control electrode of the next thyristor 5, is formed, the thyristor 5 will be unlocked and the corresponding capacitor 2 will be discharged through it. but with a shift of 120 e. hail will be produced in phases B and C. Thus, by using peak-transformers, which allow you to accurately fix the moment of transition of the synchronizing voltage through zero and at that moment of time turn on the thyristor and the discharge of the capacitor in the saw driver, increased synchronization accuracy of the multichannel generator.

Claims (1)

MULTI-CHANNEL DRAIN VOLTAGE GENERATOR, comprising a three-phase synchronizing transformer with a load resistor in the secondary circuit and a constant voltage source, in parallel with which six sawtooth voltage drivers are connected, each of which is made in the form of an adjustable resistor and a capacitor shunted by a thyristor connected in series to the control electrode which is connected to the cathode of the decoupling diode, characterized in that, in order to improve the accuracy of synchronization tion, it is equipped with two load resistors, three additional capacitors, six additional diodes and three peak transformers, the primary windings of which are connected in series with load resistors and additional capacitors to the load of the secondary windings of the synchronizing transformer connected to the star with a neutral wire, and the secondary winding of each a peak transformer is connected between the anodes of the two decoupling diodes, and the control transition of each thyristor is connected in series with optional and decoupling diodes included. ' SU „p 1089725