SU604153A1 - Thyristor dc circuit breaker - Google Patents

Claims (2)

(54) TIRISTORNA DC interruptor house 2, in the load circuit 3. The switching unit is made on a series of connected commuting 4 and recharge 5 thyristors connected in parallel to the power thyristor. A serial circuit consisting of droplets 6 and a capacitor 7 is connected in parallel to the thyristor 5. The control electrode of the thyristor 4 through the resistor 8 and the photoristor of the optocoupler 9 is connected to the anode of the thyristor 4, and the LED of the optocoupler 9 with series-connected resistor 10 and diode 11 is turned on paral; But the capacitor 7. In parallel with the LED of the optocoupler, transistor 12 is connected, the emitter junction — the base of which is connected through a resistor 13 in parallel to a dropper switch b. The load circuit 3 bypasses the diode 14. The device operates as follows. In the initial state, the capacitor 7 is charged, as shown in the drawing, and the thyristors 4.5 are turned off. When a control signal is applied to the input of the thyristor 5, the latter is turned on and the process of recharging the capacitor 7 through the choke 6 begins. the voltage on the capacitor 7 decreases to zero, and the emf in the inductor b is directed against the current of the capacitor overcharging, which causes the non-continuous state of the optocoupler 9 and the transistor 12. In the next-quarter period the voltage on the capacitor 7 changes sign and increasing. A change in the direction of the emf in the choke b triggers the transistor 12, which by its collector-emitter junction shunts the LED of the optocoupler 9 when the voltage across the capacitor reaches its maximum value, the current in the choke decreases to zero and the thyristor 5 turns off. The transistor 12 goes to a cut-off state and the LED of the optocoupler 9 provides for turning on the photothyristor. As a result, the switching thyristor 4 turns on and starts the capacitor discharge process through the reverse diode 2 and the choke B. The power thyristor turns off, and the load current after the discharge process ends yes, the capacitor is closed through the shunt diode 14. As a result, the switching thyristor 4 is turned off and the device returns to its original state. Further, the processes are repeated. Regulation of the direction to the load is carried out as usual by measuring the duration of the on state of the power thyristor, which is achieved by varying the time the control signal is applied relative to the clock pulses supplied with a constant frequency to the control electrode of the switching thyristor. Claims of an Inverter DC thyristor interrupter containing a power thyristor, shunted by a reverse diode, and its switching unit, made on series-connected switching and restarting thyristors connected in parallel to the power circuit, and a series LC circuit made up of a capacitor and throttles connected in parallel with a perezar one thyristor, as well as a control unit for a chopper, characterized in that, in order to simplify the control unit and increase the reliability of the interrupter, the control unit and the chopper is made in the form of an optocoupler and a transistor, with the photo thyristor of the optocoupler connected between the anode and the control electrode of the switching thyristor, the led of the optocoupler pair is connected in parallel to the LC circuit capacitor, and the transistor emitter base is connected in parallel to the LC circuit choke . Sources of information taken into account in the examination: 1. Thyristors, Technical Reference Book M., Energie, 1974, p / 132-134, fig. 5-9. 2. Zabrodin Yu.S. Nodes - forced capacitor switching of thyristors, M., Energia 1974, p. 7 + 0-Ш