SU571859A1 - Device for controlling thyristor - Google Patents

Description

one

The invention relates to converter technology and can be used in controlled rectifiers, variable voltage regulators.

Thyristor control devices are known in which a sinusoidal voltage 1 is applied to the thyristor control electrode. In such devices, a high steepness of the front is not provided, which is necessary when the thyristor operates at high values of di / dt.

The closest in technical essence and the achieved result to the invention is a device comprising an amplifier and an output stage, the input of which is connected to the output of the amplifier, and the output stage is performed on a single-junction transistor 2. A disadvantage of the known device is that the power control device consumes more than the minimum required.

The aim of the invention is to reduce the power consumed by the thyristor control device.

The goal is achieved by the fact that the device is equipped with three resistors, a diode and a capacitor, the amplifier being made in the form of two

connected in series amplifier cascades, the input of the first amplifier cascade is connected through one of the resistors to the thyristor anode, the input of the second amplifier cascade is connected through two other connected in series resistors and a diode to the input of the output cascade, and the common point of two series-connected resistors

connected through a capacitor to the thyristor cathode.

The invention is illustrated in the drawing.

The device for controlling the thyristor contains an output terminal 1, whose input is connected to the output of amplifier 2, and the output is connected to the control electrode of the thyristor 3. Output stage I is made on transistors 4 and 5.

Amplifier 2 consists of two cascaded 6 and 7 connected in series, performed on transistors 8 and 9, respectively. Resistor 10 is connected between the anode of the thyristor 3 and the base of transistor 8. Resistors 11 and 12 and diode 3 are connected in series between the base of transistor 9 and the collector of transistor 5. The capacitor .14 is connected between the common point of resistor 11 and 12

thyristor cathode 3.

The device works as follows.

When a positive voltage appears on the thyristor anode 3, this positive voltage through the resistor 10 is applied to the base of the transistor 8, with the result that this transistor is turned on, which causes the transistor 9 to turn off and a positive voltage drop occurs on its collector to the base of transistor 4. If the negative polarity control signal is not input to the output stage I, a positive voltage drop unlocks the transistors 4 and 5, resulting in a control electrode of the thyristor 3 stumbles differential voltage of positive polarity. The thyristor 3 is turned on, the voltage at its anode drops, the transistor 8 turns off, which causes the transistor 9 to turn on and to turn off the transistors 4 and 5. Thus, transistors 4 and 5 turn on the minimum time required to turn on the thyristor 3. This ensures low power consumption by the proposed thyristor control device. If the current flowing through the thyristor 3, after turning it on, is greater than the holding current of this thyristor, then after turning off the transistors 4 and the thyristor remains on. If the current flowing through the thyristor is less than the holding current of this thyristor, then after turning off the transistors 4 and 5, the thyristor 3 is turned off, and therefore the voltage on its anode increases. When this happens, the transistor 8 turns on, transistor 9 turns off and transistors 4 and 5 are turned on again, after which the voltage across the thyristor anode drops, transistor 8 turns on, etc. Thus, the device will be in the generation state. In this case, the energy consumption of the thyristor control device increases dramatically. To reduce energy consumption in cases where the current flowing

through the thyristor, less holding current, the collector of transistor 5 is connected through diode 13 and resistor 12 to capacitor 14, which is connected to base of transistor 9 through resistor 11. When the device for controlling the thyristor goes into generation mode, capacitor 14 is charged through diode 13 and resistor 12, and the transistor 9 is turned on.

If the charging time of the capacitor 14 is chosen sufficiently small, and the discharge time is chosen sufficiently large, then at thyristor currents less than the holding current, the thyristor control will generate a residual low pulse frequency, so the energy consumption

thyristor control device will be small.

Claims (2)

1. The patent of Great Britain 1.045.738, H 02 p from 1966. 2. Dentry F. et al. Controlled semiconductor valves, M., Mir, 1967, p. 386, fig. 8-13. Control signal