CS210328B1 - Safety and starting circuit - Google Patents

Description

The disadvantage of the first type of protective circuit is the unreliable operation and the necessity of using a resistor designed for considerable power. The second type of protection circuit provides only thyristor line decomposition in the short-term short-circuit of the power supply. The first type of protection circuit ensures thyristor line decomposition in case of permanent short-circuit of the power supply only at the cost of a large power loss.

These disadvantages are overcome by the circuit breaker and starter circuit according to the invention, characterized in that a thyristor switch and a series resistor / capacitor combination are connected between the input and output and a switch in series with the capacitor is connected between the node of the resistor and the capacitor and the thyristor switch control electrode. .

The benefit of the circuit breaker and starter circuitry of the present invention is that it provides a disconnection of the power supply from the fused device, e.g., thyristor line decomposition, in the event of any failure in which the fused device stops delivering pulses to the belay and starter circuit. In this case, a starter circuit is activated which, after a preselected time, connects the fused device to the power supply. If the fault in the fused circuit still persists, the starter circuit reconnects the fused circuit to the power supply. Therefore, protection is provided even in the event of a short-circuit of the power supply with minimal energy loss.

In the accompanying drawing, the circuit breaker and starter circuit according to the invention is shown.

The circuit breaker and starter circuit of the invention is wired such that a thyristor switch S1 and a series combination of resistor R1 and capacitor C1 are connected between the input and output, and a switch S2 is connected in series with the resistor R1 and the capacitor C1 and the control electrode of the thyristor switch S1. capacitor C2.

The voltage from the AC power supply rectifier is converted to the input, and a smoothing filter in the form of the power supply is connected to the output. In the case of normal operation, excitation pulses are provided to the control electrode of the thyristor switch S1, which keep the switch S1 in the closed state. The capacitor C1 is discharged via the closed thyristor switch S1. In a situation where the excitation pulses are not present, which occurs when the fused circuit is switched on or fails, the thyristor switch S1 is open and is triggered by a starter circuit made of capacitors C1. C2 of resistance R1 and switch S2. Capacitor CJ. begins to charge with a rectified voltage across resistor R1 and a smoothing filter in the form of ΤΓ power supply. When the voltage at capacitor C1 reaches a certain value, switch S2 opens and due to the charge supplied by capacitor C1 through switch S2 and capacitor C2. into the control electrode of the thyristor switch S1, the thyristor switch S1 opens.

The starting devices thus generated connect the fused device to the power supply and discharge capacitor C1 via thyristor switch S1 and resistor R1. If the fused circuit is already OK, the excitation pulses from the fused circuit will hold the thyristor switch S1 in the closed state. However, if the circuit to be protected is still faulty, the thyristor switch S1 is switched on, capacitor C2 is continuously charged with repetitive starting pulses, thereby changing the voltage across capacitor C1. which is necessary to close switch S2 and thus thyristor switch S1. As the voltage across capacitor C2 increases, the repetition rate of the starting pulses slows down. After a certain number of starting pulses, the capacitor C2 has a voltage such that the voltage at the capacitor C1 is not sufficient to close the switch S2 and the fused circuit is permanently disconnected from the power supply.

If the capacitor Cg is omitted, the function of the circuit breaker and starter circuit according to the invention will not substantially change, only if the circuit is permanently short-circuited, a constant mean current flows from the AC rectifier across the circuit individual circuit elements of belay and starter circuit.

Claims (1)

SUBJECT OF THE INVENTION Circuit breaker and starter circuit, characterized in that a thyristor switch (S1) and a series combination of resistor (R1) and capacitor (C1) are connected between its input and output, and between the resistance junction (R1) and capacitor (C1) junction and the thyristor control electrode switch (S1) is connected switch (S2) in series with capacitor (C2).