SU1598150A1 - Three-phase commutator - Google Patents

Abstract

The invention can be used to turn on and off a three-phase load of any nature. The purpose of the invention is to expand the range of switched capacity. The three-phase switch contains thyristors 1-6, rectifying bridges on diodes 13-16, 18-21 and 23-26, diodes 17, 22, 27, 35, 38, 41, thyristor optocouplers 28, 30, 32, zener diodes 29, 31 , 33, the first resistors 34, 37, 40 and the second resistors 36, 39, 42. Connecting the first resistor 34 (37, 40) of each phase to the output terminal 11 (12, 10) of the next phase allows you to eliminate the voltage on the load at disconnected switch. 1 il.

Description

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The invention relates to a pulse technique and can be used to turn on and off loads of any nature.

The purpose of the invention is to expand the range of switched capacities by eliminating the voltage disturbance on the load when the switch is disconnected.

The drawing shows a circuit diagram of the device.

The switch contains in each phase two thyristors 1 and 2 (in phase A), 3 and 4 (in phase B), B and 6 (in phase C), connected in anti-parallel between input terminal 7 (8.9) and output Conclusion 10 (11,12).

In phase A, the rectifying bridge is formed by the first and second diodes 13 and 14, which are connected by anodes and connected by cathodes to the control electrodes of thyristors 1 and 2, respectively, as well as by third and fourth diodes 15 and 16, in which the cathodes are connected, and the anode the third diode 15 is connected to the cathode of the thyristor 1, and the anode of the fourth diode 16 through the fifth connected diode 17 in series with it is connected to the cathode of the thyristor 2.

The first, second, third and fourth diodes 18-21 of phase B are connected to the control electrodes and cathodes of thyristors 3 and 4 using the fifth diode 22, as well as connecting the first, second, third and fourth diodes 23-26 of phase C to In control phase electrodes and cathodes of thyristors 5 and 6 using fifth diode 27 In phase A, the output diagonal of the bridge of diodes 13-16 includes the photo-thyristor 28 and the zener diode 29 connected in opposite directions. Phases B and C of the optocoupler are similarly connected 30, s tablithron 31 and photothyristor optocoupler 32 and zener diode 33, respectively.

A first resistor 34 of phase A is connected between the connection point of the diodes 16 and 17 and the output terminal 11 of the next phase B. A series-parallel circuit from diode 17 and resistor 34 is connected to a series circuit from the sixth diode 35 and the second resistor 36.

The first resistor 37 of phase B is connected between the connection point of the diodes 21 and 22 and the output terminal 12 of the next phase C. At the same time, the counter-parallel circuit from diode 22 and resistor 37 is switched on from the series-connected diode 38 and resistor 39.

The first C 40 phase C transistor is connected between the junction point of the diodes 26 and 27 and

the output terminal 10 of the next phase A, When this anti-parallel circuit from the diode 27 and the resistor 40 is connected to the series circuit from the diode 41 and the resistor 42.

The LEDs of the optocouplers 28, 30, 32 are connected in series according to the control buses 43 and 44.

The switch works as follows.

When voltage is applied to input pins 7–9 and there is no control voltage in the LED circuit of the optocouplers 28, 30, and 32, the control circuits of thyristors 1–6 are disconnected, thyristors 1–6 are closed, and the voltage in the load is zero.

A voltage is applied to the buses 43 and 44 to turn on the device, through the LEDs of the optocouplers 28. 30 and 32 the current begins to flow, their photo thyristors are unlocked, as a result of which thyristors 1-6 are turned on. If this happens at a positive half-wave voltage at the anodes of thyristors 3 and 6 (o)), then the switching-on control current flows through the circuit: pin 9, diode 25, photo-thyristor of the optocoupler 32, zener diode 33, diode 24, control transition of the thyristor 6, resistor 37, diode 21, optocoupler photo-thyristor

30, zener diode optocoupler 30, zener diode

31, Diode 18, control thyristor junction 3, pin 8. As t increases, the thyristor 2 is switched on via a circuit (thyristor control current 2): pin 7, diode 15, phototristor of the optocoupler 28, zener diode 29, diode 14, control thyristor 2 transition, diode

35, resistor 36, thyristor 3, pin 8. After turning on the thyristors, the current from their

control transitions are diverted into the network, for example, for thyristors 6 and 3 on the circuit: pin 9, thyristor 6, resistor 37, diode 22, thyristor 3, pin 8, and for thyristor 2 - on the circuit: pin 7, thyristor 2, diode 35, resistor

36, thyristor 3, terminal 8. The currents through the control transitions are completely stopped, as they are shunted by a lower impedance circuit and lower residual voltage of thyristors 6, 3 and 2 compared to the voltage of the Zener diode threshold. 31 and 29 respectively.

In power circuits, the current flows from pin 9 (phase C) through the thyristor 6. load and thyristor 3 to pin 8 (phase B). As it grows (and t, the load current also flows from phase A (pin 7) through thyristor 2, load and thyristor 3 to phase B (pin 8).

The inclusion of the remaining thyristors is similar.

To turn off the device, the control voltage is removed from the buses 43 and 44. At the same time, the photo thyristors of optocouplers 28, 30 and 32

close, interrupting the supply circuit of the control transitions of thyristors 1-6; the latter are closed, de-energizing the load.

Formula of invention

A three-phase switch containing in each phase two thyristors connected in parallel in parallel between the input and output terminals, a rectifying bridge in which the cathodes of the first and second diodes connected by the anodes are connected to control electrodes of the corresponding thyristors, and the anodes of the third and fourth diodes connected by the cathodes are connected to thyristor cathodes, zener diode, connected in series with photo0

five

thyristor of the optocoupler in the output diagonal of the rectifying bridge, the fifth diode connected in opposition to the fourth diode in the circuit connecting the anode of the fourth diode to the cathode of the corresponding thyristor, the first resistor connected to the connection point of the fourth and fifth diodes, the sixth diode connected through the second the resistor is an anti-parallel serial circuit of the fifth diode and the first resistor, and the LEDs of the optocouplers of all phases are connected in series and consistently between the control buses, characterized in that. in order to expand the range of switched powers, the second terminal of the first resistor of each phase is connected to the output terminal of the next phase.

Claims (1)

Claim A three-phase switch containing in each phase two thyristors connected in parallel between the input and output terminals, a rectifier bridge in which the cathodes of the first and second diodes connected by anodes are connected to the control electrodes of the respective thyristors, and the anodes of the third and fourth diodes connected by the cathodes are connected to the thyristor cathodes , a zener diode connected counter-sequentially with a photo thyristor of the optocoupler in the output diagonal of the rectifier bridge, a fifth diode, connected counterclockwise with the fourth diode in the circuit connecting the anode of the fourth diode to the cathode of the corresponding thyristor, the first resistor connected by the first output to the junction point of the fourth and fifth diodes, the sixth diode connected through the second resistor in opposite-parallel 10 serial circuit of the fifth diode and the first resistor, and the LEDs of the optocouplers of all phases are turned on sequentially and according to between control buses, characterized in that. what. in order to expand the 15 range of switched powers, the second terminal of the first resistor of each phase is connected to the output terminal of the next phase.