SU535395A1 - Thyristor control device - Google Patents

Description

The second and third rezgors of the divider, the capacitor plate and the control contact, the anode of the diode are connected to the cathode of another diode, the anode of which is connected to the common connection point of the third divider resistor, the capacitor plate and the thyristor cathode.

The drawing shows a schematic diagram of the proposed device.

The device consists of a thyristor 1, an actively inductive load 2 in the circuit of a cathode of a thyristor (for example, a solenoid), capacitors 3, 4, resistors 5, 6 of control contact 7, diodes 8, 9, resistors 10-12 voltage divider, block-contact, switch 13, resistor 14 and capacitor 15 in the thyristor control unit.

In the normal mode (with power on) with the closed block-contact 13 and the open-contact 7, the capacitors 3 and 4 are charged to voltages 30 and 190 V, respectively, which are determined by the high-resistance voltage divider I and 12, since the resistance of the resistor 10 can be almost neglected. In the solenoid 2 tripping circuit of the circuit breaker, a current of the order of several mA flows, Which can be used to monitor the operation of the tripping circuit. When the control contact 7, for example, the output protection follower, is closed, the capacitor 3 through the resistor 5 is discharged to the control electrode circuit of thyristor 1 and resistor b, which ensures the immunity of the thyristor control circuit. When the thyristor is turned on, the anode-cathode voltage drops to 2-3 V and capacitor 4 is very quickly discharged along the circuit — resistor 10, diode 9, anode-cathode of the thyristor, while diode 8 remains closed and the entire charge of capacitor 3 is consumed per pulse control current, the value of which does not depend on the anode current of the thyristor. In the on position of the thyristor, the capacitors are almost discharged and contact 7 is opened with no current in its circuit.

The thyristor is quenched by opening the circuit by the auxiliary contact 13 of the switch and after it is re-closed, the capacitors 3 and 4 very quickly (within no more than 0.05 s) are charged along the circuit — the solenoid 2, the diode 8 and the resistor 10, and the voltage they are distributed inversely with their capacitance and maintained by a divider, after which the circuit is ready for re-action. The resistor 14 and the capacitor 15 are standard elements of the thyristor control unit, excluding its spontaneous operation at short fronts of the anode voltage. In normal mode, the consumption of the circuit corresponds to the current through the high-resistance resistors 11 and 12 and does not exceed a few mA.

Thus, the use of the proposed device improves the reliability of thyristor control in the circuit of the shut-off solenoids and thus prevents possible damage if an accident develops in the event of a control circuit failure when the fault is switched off by switches of adjacent elements, for example, generators or high-power transformers.

Additional advantages of the scheme include low power consumption from the power source of the load and short re-availability time.

Claims (2)

1.V. V. Mikhailov, Thyristors in emergency control devices, ed. "Energy, 1968. p. 32, fig. 21. 2. Technical Reference "Thyristors, translation from English edited by V. A. Labuntsov, ed. 2nd M Oskva, 1971, p. 351, fig. 14-12 (prototype). hh , i 4120 T + w 75; fiv - (if CW4