SU1064368A2 - Method and device for switching surge protection of d.c. circuits - Google Patents

Description

The invention relates to electrical engineering, namely to the protection of thyristor equipment.

The known method for protection from switching overvoltages consists in limiting the internal switching overvoltages using a capacitor and a resistor {I. as the damping elements.

The disadvantages of the method are the significant value of the capacity of the damping capacitor at a constant voltage value, as well as significant overvoltages at significantly lower values of the capacity of the damping capacitor

Closest to the proposed method of protection against switching overvoltages is the fact that they compare the voltage on the damping capacitor with the threshold voltage and when the voltage is exceeded on the damping capacitor, an On signal is generated, and after a time interval exceeding the transient time, - tripping signal 2.

. However, the known method is characterized by insufficient speed.

According to the main author. St. No. 971059, a device for protection against switching overvoltages of direct current circuits with inductance is known, which contains a damping capacitor and a resistor, a key on a power thyristor, a choke, odes and resistors, which, for the purpose of increasing efficiency, are equipped with a quenching circuit of a power thyristor, performed on connected by a quenching capacitor and a quenching resistor connected in parallel with a power thyristor, a blocking thyristor connected in parallel with the control circuit of the power thyristor, and and formed on the RC-circuit, zener diode, the thyristor and the additional transformer, whose output winding connected to control th conductive transitions quench and blocking thyristors, wherein the power thyristor is connected in series with a damping resistor.

The disadvantage of this device is reduced reliability due to the need for a large capacitance of the electric damping capacitor, a large loss in the damping resistor, and a long preparation time for the next operation.

The purpose of the invention is to increase reliability and speed.

The goal is achieved by the method of protection from switching overvoltages of a constant circuit with inductance, a damping cone: a capacitor and a damping / resistor, which consists in comparing on a damping capacitor

with a threshold voltage up to the moment when the voltage on the damping capacitor i exceeds the threshold voltage, after which the switching signal is first generated at the switching node of the damping resistor, and then after a fixed time interval exceeding the transient time, the switching signal is compared voltage on the damping capacitor with a threshold voltage

Also, after connecting the damping resistor until the first voltage drops across the damping capacitor below the threshold voltage, then. form a trip signal to the node

switching damping resistor, one; re-lock the switching node and the transient time.

The device is equipped with a second and third additional time element, a regular thyristor and two additional quenching circuits, the first of which is connected in parallel with the thyristor blocking and the second - charging thyristor connected in series with the input

the third additional time element is parallel to the damping capacitor, the second time element input is connected to the damping resistor, the outputs of the second time element are connected to the control transition of the blocking thyristor and: the thyristor circuit, and the outputs of the third time element are connected to the inputs circuits gaZJeni zadnogo and blocks | eee thyristors. The drawing shows a diagram of the device. The circuit contains a voltage source of 1

5 DC connected via choke 2 and switch 3 with load 4, damping capacitor 5 and resistor 6, which is connected parallel to capacitor 5 through power thyristor 7, in the control circuit

- which included stabilizer 8 and blocks; thyristor 9. The device also contains three identical elements of time: the main, the first, and the second additional. Each of them is made of an RC circuit, a thyristor, a zener diode, and an output transformer; resistors 10-12 and co-sensors 13- 15, stabilizers 16--18, thyristors 19-21; and transformers, respectively. The main and the first additional ele. the cops are connected to the resistor 6, with the first, additional time element

equipped with a thyristor 25 reset, and the second. It is switched on via a charge thyristor 26. Parallel to the capacitor 5, the power, blocking and charge thyristors are equipped with hasheia circuits made on the thyristors:

5 quenches 27-29 respectively. D

The device works as follows; When you turn off the key 3 current leaking-. Through throttle 2, closes through | capacitor 5. When the voltage on the capacitor .5 reaches a voltage higher than the supply voltage, for example, by 5%, the zener diodes are punched and the thyristor 7 opens, connecting resistor 6 in parallel to the capacitor 5, which limits the maximum jumper voltage. charge capacitors 13 and 14 through resistors 10 to P, respectively. The threshold voltages of stabilizers 16 and 17 are chosen lower than the voltages of the Zener diode 8, but not lower than the voltage of the power source, and the threshold voltage of the second element of time is less than that of the first. The time for charging the capacitor 14 to the threshold voltage is greater, for charging the capacitor 13. In this case, the first element of time produces control pulses starting from the moment the overvoltage begins on the capacitor 5 and ends at the moment of the first decrease in the transducer; Renapr wife below threshold. ; The second element of time during this period does not work, since the thyristic | p 25 is periodically; The diode discharges capacitor 14 before the voltage across it reaches a threshold value. When the control pulses cease to flow from the output winding of the transformer 22 to the thyristor 25 when the threshold voltage on the capacitor 14 is turned on, the thyristor 20 is turned on and the secondary coils of the transformer 23 are removed. The control pulses: the switching pulses, which include the blocking frequency 9, switch off common TMpHctop n charge thyristor 26. Turning on, the thyristor 9 shunts the control circuit of the thyristor 7, which excludes it; reclosing prn next pets-; voltage occurring when disconnected; 6.I resistor. Turning on the extinguishing thyristor 27 pry-i; vodt To lock thyristor 7 and off; to resistor 6. Prn this is observed) re-surge voltage on kondei-; Sator 5. After turning on the thyristor 26, the capacitor 15 begins to charge. Through the resistor 12. When the threshold voltage reaches it, the zener diode 18 is punched and the thyristor 21 is turned on, while the pulses to the secondary windings of the transformer 24 enter the suppressor thyristors 28 and 29 that the thyristors 9 and 26 are locked in. The charging time of the capacitor 15 to the threshold voltage is equal to the time it takes for the voltage on the capacitor 5 after disconnecting the resistor 6 to take a steady value equal to the supply voltage. reduce the switching overvoltage with a small value of the capacitance of the damping capacitor, reduce the loss in the damping resistor, and have an increased speed in preparation for the next test.

Claims (2)

A method of protection against switching overvoltages of direct current circuits with inductance, a damping capacitor and a damping resistor, which consists in comparing the voltage on the damping capacitor with a threshold voltage until the voltage on the damping capacitor exceeds the threshold voltage, after which they first form a switching signal to the node switching a damping resistor, and then after a fixed time interval exceeding the transient process time - a disconnecting signal, which, in order to increase reliability on a damping capacitor with a porous voltage, also after connecting the damping resistor to the moment) of the first decrease in the voltage on the damping capacitor below the threshold voltage, then a trip signal is generated to the switching unit of the damping resistor, while blocking the repeated operation of the switching unit during the transition process. 2. Device for protection against switching overvoltages according to ed. St. No. 971059, characterized in that, in order to increase reliability and speed, it is equipped with a second and third additional time elements, a charging thyristor and two additional circuits, blanking, the first of which is connected in parallel to the blocking thyristor, and the second to the charging thyristor, connected- ^! in series with the input of the third additional time element parallel to the damping capacitor, the input of the second time element connected to a damping resistor, the outputs are second ^! of the time element are connected to the control transition of the blocking thyristor and the input of the quenching circuit of the power thyristor, and the outputs of the third time element are connected to the inputs of the quenching circuit