SU628590A1 - Thyristor control arrangement - Google Patents

Description

one

The invention relates to the field of electrical engineering and can be applied in thyristor phase control devices for controlling asynchronous motors and transformers.

Devices for controlling thyristors with direct voltage 1 are known.

In these circuits, reliability is reduced due to an unacceptable increase in losses in the control junction and a deterioration in the limiting characteristics of the operating junction corresponding to the reverse voltage. Such schemes exclude the possibility of transmitting a control signal through a pulse transformer.

The known devices for controlling the thyristor 1 and single pulses of limited duration can significantly reduce losses 2. However, the phase control of the thyristor elements switching active-inductive load at the same time is difficult because the phase shift of the current and the voltage of the control pulse the electrode does not cause the thyristor to open at the moment of the absence of current, as a result of which circuit malfunctions are observed.

The control circuits for a series of short pulses are significantly dependent on the frequency of the pulses. The minimum permissible frequency of pulses in a packet or upon their continuous input is determined by the fact that with a decrease in the pulse frequency the thyristors turn on late and the latter open with a certain constantly varying control angle. An increase in the pulse frequency leads to a significant increase in losses in the control electrode.

A device for controlling thyristors with the formation of a wide pulse, which contains a power unit, a dynamic phase shifter and a unit for generating a working pulse for controlling power thyristors 3, is known.

The power thyristor control pulse shaping unit contains power and pulse transformers, zener diodes and auxiliary thyristors and works as follows: an intermediate auxiliary pulse is fed through a pulse transformer to control thyristor electrodes, which connect a voltage, additional windings of the power transformer, limited by zener diodes, to control electrodes of power thyristors.

A significant drawback of the circuit is that the duration of the control pulse depends on the parameters of the circuit. An increase in the control pulse duration is possible with an increase in the voltage of the additional windings of the power transformer, which entails a significant increase in the power dissipation at the zener diode. The maximum width of the control pulse of this circuit (which limits its scope, since the circuit does not allow to cover the range of change of the phase angle with a significant change in load.

The aim of the invention is to expand the adjustment range by improving the parameters of the generated pulse.

The goal is achieved by the fact that a thyristor control device containing a series-connected winding of a power transformer, a limiting resistor, a pulse transformer winding and a dynistor turned by an anode to a thyristor cathode in the control electrode circuit, is additionally equipped with two diodes and a capacitor, and two diodes are connected to cathodes . The side of the control electrode is in series with the winding of the power transformer to its ends, the capacitor is connected to the other terminals of the diodes, and the terminals of the windings are The left and pulse transformers on the side of the control electrode of the thyristor are interconnected.

The drawing shows the proposed device for controlling thyristors.

The control circuit includes a winding of a power transformer 1, a limiting resistor 2, a winding of a pulse transformer 3, a dynistor 4, a thyristor 5, diodes 6 and; 7. And a capacitor 8.

The operation of the circuit is as follows. The intermediate pulse passing to the pulse transformer 3 turns on the distor 4, opening the path to the current of the thyristor control electrode 5 through the limiting resistor 2. The current is maintained by the energy of the capacitor 8 charged from the winding of the power transformer 1

through diodes 6 and 7 into the previous half-period with reverse voltage across thyristor 5. At the same time, diodes 6 and 7 are closed. The shape and duration of the control pulse is determined by the capacitance value of the capacitor 8. The dynistor 4 is turned off in the next half-period when a voltage drop occurs on the bypass diode 7, which is determined by the charge current of the capacitor 8. The diode 7 also prevents the thyristor junction and distor 4 from high reverse voltage.

Using such a circuit to control the thyristors makes it possible to obtain a pulse close in shape to the ideal, causing phase current control of the active-inductive load in the range from 0 ° to 180 °, which allows expanding the range of application of the thyristor controllers.

Claims (3)

1. Thyristors. Tech. handbook, ed. Labuntsova V. A., M., “Energie, 1971, with. 180. 2. In the same place 125, 103. 3. Meistel AM. Complete thyristor devices for control of asynchronous motors. M., “Energie, 1971, p. 42