SU1398018A1 - Thyristor protection device - Google Patents

Abstract

The invention relates to electrical engineering and can be used in the construction of thyristor converters with artificial switching. The purpose of the invention is to improve the dynamic characteristics of the thyristor switch at low load currents. The device contains a protected thyristor 1, RC-circuit 4, an inductance coil made in the type of chokes 2, diodes 3 and 6, a trimming resistor 5. The value of the inductance of chokes 2 is uniquely related to the resistance value of the tuning resistor 5 that determines the current of the secondary windings 2. The inductance of the throttles 2 connected in series with the thyristor 1 to be filled varies as a function of the state of the thyristor 1. This ensures the specified values of the voltage rise rate and the rate of increase of the current of the thyristor 1, which leads to an improvement in the dynamic characteristics of the thyristor converter. 1 il. i (L

Description

The invention relates to electrical engineering and can be used to protect thyristors in converters with artificial switching.

The purpose of the invention is the improvement of dynamic characteristics at low load currents.

The drawing shows a schematic diagram of a device.

The device for protecting thyristor 1 contains a choke 2, the primary winding of which is connected in series with the diode 3 to the circuit of thyristor 1. The diode 3 and thyristor 1 are bridged by a serial RC circuit 4. The secondary winding of the choke 2 is connected through the adjustable resistor 5 to the junction point of the diode 3 and the anode of thyristor 1, and the end to the cathode of diode 6, the anode of which is connected to the cathode of thyristor 1. The end of the primary winding of the inductor 2 and the cathode of thyristor 1 are connected to the terminals A and B of the power source.

The device operates as follows.

In the initial state, the protected thyristor 1 is closed, the capacitor R.Circuit 4 is charged. When a direct power source appears on terminals A and B. in relation to the thyristor 1 of the voltage through the primary winding of the chokebox 2, the capacitor of the RC circuit 4 is charged. The current flows through the secondary winding of the inductor 2 is prevented by the diode 6. As a result of the change in the current of the primary winding of the inductor 2 in the secondary winding, an EMF is directed from the end of the winding to At its beginning, the diode 3 prevents the flow of current in the secondary winding through the RC circuit 4. Therefore, the inductor 2 operates in idle mode and has a significant inductance of the primary winding. Charge; the capacitor of the RC circuit 4 through the primary winding 'of the inductor provides a predetermined slew rate of the forward voltage on the thyristor 1.

When you turn on the protected thyristor 1, the capacitor of the RC circuit 4 is discharged through the open thyristor 1 and the primary current increases ^! inductor winding 2. An increase in the primary current leads to a corresponding increase in the magnetic flux of inductor 2, as a result of which an EMF is induced in the secondary winding, directed from the end of the winding to its beginning. The EMF of the secondary winding eliminates the flow of current through the open thyristor 1. The increasing current of the secondary winding of the inductor 2 creates a magnetic flux in the core directed opposite to the primary winding. The resulting magnetic flux in the core of the inductor 2 decreases, and decreases the back-emf induced in the primary winding. The primary current increases, which is equivalent to a decrease in the inductance of the primary winding. The magnitude of the inductance of the inductor is uniquely related to the resistance value of the trimming resistor 5, which determines the current of the secondary winding of the transformer.

Thus, due to a change in the inductance of the inductor connected in series with the protected thyristor, the set values of the voltage rise rate and the current rise rate of the thyristor are provided as a function of the thyristor state, which improves the dynamic characteristics of the thyristor converter at low load currents.

Claims (1)

Claim A thyristor protection device containing a choke with a ferromagnetic core, the end of the winding of which is intended to be connected to one terminal of the power source, and the beginning is connected to one terminal of a serial RC circuit, the other terminal of which is intended to connect to another terminal of the power source and to the cathode of the thyristor, to the anode of which a diode cathode is connected, characterized in that, in order to improve the dynamic characteristics at low load currents, it is equipped with an additional diode and an adjustable resistor, and The winder is equipped with a secondary winding, the end of which is connected to the cathode of the additional diode, the anode of which is connected to the other terminal of the RC circuit, and the beginning through an adjustable resistor is connected to the cathode of the diode, the anode of which is connected to the connection point of the inductor winding with the RC circuit.