SU473234A1 - Output protection element - Google Patents

Description

3

When the auxiliary contact 6 is closed, the control circuit of the thyristor 1 from the relay protection or by another means collapses.

The interference feature is disabled, in particular, in its Short Term. THipHCTOp 1 covers the interference. Through this tirpstor, the coil of the relay 11 and the solenoid 5 starts a nroto1; a current, the value of which increases exponentially due to the inductive nature of the load (switch-off solenoid).

As soon as the magnitude of this current reaches the setting value of the relay 11, the latter closes its codes. The tener begins to charge the capacitor 3 through the thyristor 1. Contacts of the relay 11 and the resistor 4. The charge of the capacitor is accompanied by a change in the potential of point a. The potential of this point in the considered process tends to the value - Un-. As soon as the potential difference between the bus -} - Un and point a reaches the test circuit of the stabilizer surge (or dynistor) 9, the latter breaks through and the current opening through the thyristor 2 thyristor.

Opening the thyristor 2 1 creates a circuit for Tieresar and capacitor 3, and in accordance with the principle of operation of the thyristor switch, thyristor 1 is locked. The current in the solenoid 5 and the coil of the relay 11 disappears, the relay 11 opens the contacts and the entire circuit returns to its initial state.

The time that elapses from the moment of unlocking the thyristor 1, from the noise and to its locking, as a result of opening the thyristor 2, is determined by the coherent time of the solenoid 5, the response current of the relay 11, the constant time of the co-capacitor charge circuit 3. 9. This time is selected in the order of 10 ms. During this time, the switch solenoid doesn’t come in time (due to inertia), therefore the switch does not turn off for a long time even for a few milliseconds.

With closed block-coactacs 6 from the side of the source of operational financing for the Nrykhodnt interference circuit.

The short-term interference of large amplitude is cut off by the zener diode 9. At the same time, you open the thyristor 2 and through the capacitor 3 shunts the main tyrnstor 1, iredotvra4

so opening of the latter. Capacitor 3 is charged at this circuit, thyristor 2, sensor 3, relay coil 11, solenoid 5. Because of the short time constant of this circuit, the charge of the capacitor occurs so quickly that the solenoid still has time to go off and his chain is already disappearing. In the absence of current in the circuit of the salt-piped, and consequently, the coils of the relay 11, the contacts of the last are open, so that the thyristor 2 is again locked and the circuit comes to its original state.

If, however, a number of a few seconds (in the order of a few milliseconds) exceeds the circuit time constant: thyristor 1-capacitor 3 - relay coil 11 - solenoid 5, this leads to the opening of thyristor 1 and beyond. This thyristor closes and the switch does not open.

In this way, the circuit, iriyede 1111a in the drawing, provides a continuous flow of current under the load (shutdown solenoid 5) when a steady control signal is applied to the control and automatically disconnects the current in the load 10 ms after its appearance in case of spontaneous operation of the circuit from interferences like from the side of the control circuit, and from the side of the control circuit.

Subject matter

An output protection element, containing a direct current switch, made on two thyristors with a capacitor connected between their cathodes, and with a switch-off solenoid switch as the main thyristor load and resistor as load of auxiliary thyristor, which is clamped by a sequential price value, pz resistor and diode, and its control electrode iodine, is juggled to the positive pole of the source of the pitapi via a resistor and a zener diode, characterized in that The coil of the auxiliary relay is connected between the main thyristor and the disconnecting solenoid, and the contacts of this device are connected with the load of the thyristor.