SU964893A1 - Thyristor control device - Google Patents

Description

(S) DEVICE FOR THIRIST MANAGEMENT

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The invention relates to converter equipment, in particular, to devices for the phase-pulse control of thyristors connected in parallel to the load circuit, and can be used to create single- and multiphase regulated AC sources.

Devices are known for phase control of anti-parallel thyristors comprising an RC circuit, a threshold element, and a pulse transformer D3.

A disadvantage of the known devices is the low reliability due to the presence of a transformer.

The closest technical solution to the invention in terms of the means and the result achieved is a device for controlling thyristors, containing optocouplers by the number of phase thyristors, each of which has a LED connected to terminals for

connecting a control source and a terminal, terminals for connecting

I. anodes, cathodes and control electrodes of pairwise anti-parallel connected thyristors, the terminal for connecting the anode of one of the pair-connected thyristors connected to the terminal for connecting the phase load, the terminal for connecting the anode of the second thyristor connected to the terminal for connecting the network phase, and the terminal for connecting the anode of each thyristor is connected to the stamp to connect its control electrode through a forming circuit of the first diode connected in series, bristled by the first a resistor, a second diode, the anode of which is connected via a 20 koodensator with the anode of the first diode, and a dyneto1 G 2.

: A disadvantage of the known devices. ; low reliability. The aim of the invention is to increase the reliability of the thyristor control device. This goal is achieved by the fact that in the known device each optocoupler resistor is connected between the cathodes of the first diodes of the forming circuits in pairs of opposite-parallel-connected phase thyristors. The drawing shows a circuit diagram of the device. The device for controlling the thyristors contains terminals for connecting pairwise anti-parallel-connected phase thyristors 1 and 2, the input of which is connected to the terminal for connecting the mains phase and output to the terminal for connecting the load 3 Terminal for connecting the control of the two electrodes of each thyristor .2 (1) connected through a forming circuit of series-connected diode 4 (5), a diode 6 (7) of a capacitor 8 (9), which is shunted by a series-connected diode 10 (11) and a resistor 12 (13), while the diode 10 (11) is bounded by a resistor tvns),: The cathodes of diodes 10 and 11 forming the circuits of thyristors 1 and 2 are connected to the terminals of the thyristor of the optocoupler 16, the LED of which is connected to terminals for connection to a source of controlled capstan voltage. Similarly made formative. The circuits 17. and 18 control devices for pairwise anti-parallel-connected phase thyristors 19 and 20, 21 and 22 with loads 23 and 24. The device operates as follows. The voltage from the thyristors 2 (1) at a certain voltage polarity through the diode 10, the resistor of the optocoupler 16, the variable resistor 12 charges the capacitor 8. When the switching voltage of the dynistor 4 reaches the capacitor, a control pulse is applied to the control electrode of the thyristor 2. Similarly, when changing the field of magnitude, the control pulse of the thyristor 1 is formed. When the control voltage Uy is applied to the input circuit of the optocoupler 16, the conductivity in its output circuit changes, which leads to the regulation of the thyristor switching angle. Similarly, devices operate to control thyristors of other phases. Thus, the inclusion of an optocoupler in the drivers of each phase and the supply of a common control voltage Uy to the optocouples allows you to adjust the angle of control of a type of junction simultaneously in all phases, thereby forming multiphase adjustable sources of alternating current, which provides increased reliability of the thyristor control device. Formula - Invention A device for controlling thyristors, containing optocouplers by the number of phase thyristors, each of which is connected to an LED, to terminals for connecting a control voltage source, terminals for connecting anodes, cathodes and control electrodes in pairs of oppositely connected: pyristors, while the terminal for connecting the anode of one of the pairwise connected thyristors. Connected to the terminal for connecting the phase load, the terminal for connecting the anode of the second thyristor connected to the terminal. a terminal for connecting a network phase, and a terminal for connecting the anode of each thyristor, connecting a zenin to a terminal for connecting its control electrode through a forming circuit of series-connected first diode, shunted by the first resistor, the second diode, the anode of which is connected through a capacitor, to the anode of the first diode, and a dynistor, which is due to the fact that, in order to increase reliability, in it each optocoupler resistor is connected between the cathodes of the first forming circuit diodes in pairs Phase thyristor. Sources of information taken into account in the examination 1. Thyristors (technical reference). M., 1971, p. 241, fig. 9-34, 2. USSR author's certificate No. 583519, cl. And 02 M 1/08, 1973

Claims (2)

The invention is a device for controlling thyristors containing optocouplers according to the number of phase thyristors, each of which has an LED connected to terminals for connecting a control voltage source, terminals for connecting anodes, cathodes and control electrodes in pairs of oppositely connected thyristors, and a terminal for connecting an anode of one of the pair-connected Tiris-1 tori connected to the terminal for connecting the phase load, the terminal for connecting the anode of the second thyristor is connected to the terminal for connecting the phase of the network, and the terminal for connecting the anode of each thyristor is connected to the terminal for connecting t of its control electrode through a forming circuit from a series of connected first diodes, shunted by the first resistor, a second diode, the anode of which is connected through a capacitor, to the anode of the first diode, and the dinistor This is due to the fact that, in order to increase reliability, in it each optocoupler is connected between the cathodes of the first diodes of the forming circuits in pairs of counter-parallel connected phase t Ristori. Sources of information / taken into account in the examination 1. Thyristors (technical reference). M .., 1971, p. 241, Fig. '9-34. 2. USSR author's certificate No. 583519, cl. H 02 M 1/08, 1973. The aim of the invention is to improve the reliability of the device for controlling thyristors. The goal is achieved by the fact that in the known device, each optocoupler is connected between the cathodes of the first diodes of the forming circuits in pairs of counter-parallel connected phase thyristors. The drawing shows a circuit diagram of the device. The thyristor control device contains terminals for connecting counter-parallel-connected phase thyristors 1 and 2, the 15 input of which is connected to the terminal for connecting the phase of the network and the output to the terminal for connecting the load 3 · Terminal for connecting the control electrode of each thyristor .2 (1) 20 is connected through a forming circuit from a series-connected dynistor 4 (5), a diode 6 (7) of a capacitor 8 (9), shunted in series by connected diodes 10 (11) _2S and a resistor 12 (13), while the diode 10 (11) is shunted resistively rum 14 (15), The cathodes of diodes 10 and 11 of the forming circuits of thyristors 1 and 2 are connected to ₃₀ terminals of the thyristor of the optocoupler 16, the LED of which is connected to the terminals for connecting the control voltage source. Similarly executed forming, circuit 17 .and 18 controls po- ³⁵ pairwise antiparallel included phase thyristors 19 and 20, 21 and 22 with loads 23 and 24. The device operates as follows. ⁴ The voltage from the thyristors 2 (1) at a certain polarity of the voltage across the diode 10, a resistor 16, a photocoupler, a variable resistor 12 charges the capacitor 8. When reaching at ⁴ concentrations capacitor voltage shift dynistor 4 to the control electrode of the thyristor 2 is supplied a control pulse. Similarly, when the polarity is changed, the control pulse ⁵ of thyristor 1 is formed. When the control voltage Uy _f applied to the input circuit of the optocoupler 16 changes, the conductivity in its