SU498685A1 - Current protection device - Google Patents

Description

one

The invention relates to electrical engineering and can be used for overcurrent protection of devices powered by a DC power source. Current protection devices are known that contain a contactless switch connected in series to the load and power supply circuit, and a circuit that ensures switching on at start-up and shutdown at current overload. These devices include a known current protection device, comprising a measuring resistor connected in series with a DC power source and an object to be protected and an operating thyristor with a quenching circuit consisting of an auxiliary thyristor, a capacitor, an auxiliary source and a charging resistor. This device is equipped with a starting pulse forming circuit, for example, a start button, the single starting pulse reducing the starting reliability, which prevents its use to protect the inverter.

In the proposed device, in order to increase the power supply reliability, the inverter protection in series with the inverter includes the primary winding of the peak transformer, the secondary winding of which is connected via a parallel RC circuit and diode to the control transition of the working thyristor, which is connected by an additional resistor.

and an additional capacitor is connected parallel to the inverter in the indicated primary winding. The scheme of the proposed device is shown in the drawing.

The current sensor 1 at its end is connected to the negative pole of the power supply, the other to the cathode of the working thyristor 2, shunted by resistance 3. Anode

the working thyristor 2 is connected to one of the terminals of the primary winding of the peak transformer 4. Another output of the primary winding of the pictransformer 4 is connected to the inverter. The inverter is connected to the positive pole of the power source via a choke 5. Parallel to the choke 5 is a diode 6, the cathode of which is connected to the positive pole of the power source. A capacitor 7 is connected between the anodes of the diode 6 and the working thyristor 2. A parallel RC circuit, consisting of resistance 8 and capacitor 9, is connected to the cathode of working thyristor 2 on the one hand, and to the anode of the diode 10 on the other hand and through the secondary winding peak -transformer 4 - with

the anode of diode 11. The cathodes of diodes 10 and 11 are connected respectively to the anode and control electrode of the working thyristor 2. Between the anodes of the working thyristor 2 and quenching thyristor 12, the cathode of which is connected to the minus pole of the power source, is turned on

the quenching capacitor 13. The control electrode of the quenching thyristor 12 is connected through a resistance 14 to the cathode of the working thyristor 2. An additional source is connected to the quenching capacitor 13 via a charging resistance 15.

When the power source is turned on, the capacitor 7 is charged through choke 5, resistance 3 and current sensor 1. When excitation pulses are applied to the inverter, the capacitor 7 is discharged through the inverter and the primary winding of the peak transformer 4, the charge capacitor 9. The magnitude of the capacitor 9 is selected in this way so that the number of pulses for switching on the working thyristor 2 is 3-10. In the event of an increase in the supply current above the permissible (in case of short circuits in the load, in the event of inversion failure, etc.), the extinguishing thyristor 12 is switched on by the voltage removed from the current sensor 1 and the capacitor 13 discharged through thyristors 12 and 2 disconnects the working thyristor 2, while the voltage of the capacitor 13 is also applied through the extinguishing thyristor 12 and the diode 10 to the capacitor 9, additionally charging it. This ensures reliable blocking of the control transition of the working thyristor 2. After turning off the thyristors 2 and 12, the capacitor 9 is discharged through the resistance 8, the value of which is selected so that the discharge rate of the capacitor 9 is lower than the charge rate of the capacitor 7. Upon the next sending of pulses excitation, the inverter is turned on again.

Improving the reliability of the trigger extends the field of application of current protection devices with a working thyristor and allows for increasing the reliability and simplifying the current protection of the inverter.

Subject invention

A current protection device containing a measuring resistor and a working tyrnstor with a quenching circuit consisting of an auxiliary thyristor, a capacitor, an additional source and a charging resistor connected in series with a DC power source and the object to be protected.

characterized in that, in order to increase the power supply reliability when protecting the inverter, the primary winding of the peak transformer is connected in series with the inverter, the secondary winding of which is connected via a parallel RC chain and diode to the control transition of the working thyristor, shunted by an additional resistor, and parallel to the inverter and the indicated primary winding included an additional co-sensor.