SU1480009A2 - Device for current protection of load - Google Patents

Abstract

The invention relates to the field of electrical engineering, in particular, to protection devices, can be used to protect against overloads and short circuits of low-power power supply circuits and is additional to the invention according to the author. St. N1148069. The purpose of the invention is to increase the reliability of operation. The device for current protection of the load supplied from rectifier 2 with low-power transformer 3 at the input and capacitive filter 4 at the output contains a bridge rectifier 5, a thyristor 6, a limiting resistor 7, a parallel 8 and a serial RC - chain and two push-button contacts 11 and 12. The device is turned on by closing the push-button contact 12, in which the thyristor 6 is opened by discharging the capacitance 14. During operation of the device, the opening of the thyristor 6 at each half-period of the industrial frequency is performed by charging current capacitance 10, which decreases with increasing load current. 1 il.

Description

The invention relates to electrical engineering, in particular to protection devices, can be used to protect against overloads and short circuits of low-power supply circuits and is additional to the invention according to Auth. No. 1148069.

The purpose of the invention is to increase the reliability of operation.

The drawing shows a diagram of the proposed device,

A device for current protection of load 1, powered by a rectifier 2 with a transformer 3. of low power at the input and a capacitive filter 4 at the output, consists of a bridge rectifier 5, the AC terminals of which are included in the primary circuit of the transformer 3, and to the terminals of the constant current a thyristor 6 is connected to the current, between the anode and the control terminal of which a limiting resistor 7 and a parallel RC circuit 8 are connected in series, consisting of a resistor and a capacitor 10. Between the cathode and the control terminal of the torus 6, the first push-button contact 11 is connected. In series with the resistor 9, the second push-button contact 12 is connected. Between the cathode of the thyristor 6 and the connection point of the resistor 9 and the push-button contact, a serial RC circuit from the resistor 13 and the capacitor 14 is connected.

The device operates as follows.

In the initial state, the capacitors and 14 are charged to the amplitude value of the mains voltage, and the thyristor 6 is locked.

To apply voltage to the transformer 3, it is enough to press the button 12. In this case, the capacitor 14 is discharged through the resistor 13 to the control electrode of the thyristor 6.

'The resistance values of the resistor and capacitor 14 are selected in such a way as to obtain current pulses with parameters sufficient to turn the thyristor 6 on reliably. For example, with a resistor 13 of 6.8 kOhm and a capacitor of 14-2 μF, the pulse amplitude is 50 mA, and the duration at the level of 0.5 is 2 ms.

The thyristor 6 is unlocked, discharging the capacitor 10. If you release the button 12, the thyristor 6 remains open until the current through it drops to zero.

Each half-cycle of the supply voltage, the capacitor 10 begins to be charged through a resistor 7 and a thyristor control electrode, thereby opening it. Following the unlocking of the thyristor 6, the capacitor. 10 is discharged through the negro, preparing to work in the next half-cycle. The thyristor is locked due to a drop in its anode current. The process is repeated until the button 11 is pressed. Closing it causes the capacitor 10 to charge to the mains voltage along the circuit passing the thyristor control electrode. The capacitor remains charged even after the button 12 is opened, since it can be discharged only through the thyristor, and that, in turn, remains closed due to the absence of current through the control electrode.

In the secondary winding of the transformer 3, the current flows only during periods of time when the filter capacity of the secondary winding is recharged. In this case, with an increase in the current consumed by the load, these sections increase in duration. The process is accompanied by an increase in current in the primary winding circuit at the same time intervals by lengthening of these segments. In this case, the turn-on time of the thyristor 6 falls on the time segments of the minimum voltage at its anode. This makes it difficult to unlock thyristor 6. Ultimately, reducing the load resistance 1 to some critical value for a given type of thyristor and the value of capacitor 10 leads to the fact that turning on the thyristor by the charge current of capacitor 10 becomes impossible, i.e. leads to a protective shutdown of the circuit.

If button 12 remains pressed for a long time, turning on the thyristor 6 through the circuit is a limiting resistor 7, resistor 9, button 12 is impossible, since the resistance value of resistor 9 (510 kOhm) is selected in such a way as to limit the current through resistor 9 to an order of magnitude 0, 5 mA Thyristor 6, when button 11 is pressed, can remain switched on only when the load current does not exceed the protection threshold.

Thus, the introduction of a serial RC circuit and the corresponding selection of resistors prevents the inclusion of a power source for a short circuit, which increases the reliability of the device.

Claims (1)

SUMMARY OF THE INVENTION A device for current protection of a load according to auth. No. 1148069, characterized in that, in order to increase the reliability of operation, an additional serial RC circuit is inserted into it, connected between the cathode of the thyristor and the connection point of the second push-button contact and the resistor of the parallel RC circuit.