SU888330A1 - Control pulse shaper - Google Patents

Description

(i) CONTROL PULSE FORMER

The invention relates to conversion technology and can be used in conversion devices built on electronic valves.

A valve control pulse shaper is known, which contains a power source connected through the main thyristor to the load, a switching thyristor connected through a capacitor to the connection point of the power source with the main thyristor D}.

These devices do not provide the necessary parameters of control pulses when they are used to control electronic gates.

The closest technical solution to the invention is a control pulse shaper containing a main thyristor connected to one of the input terminals for connecting a power source and shunted by an artificial switching circuit of a series-connected capacitor, a switching thyristor and a throttle, a diode connected between the second input terminal and the point connections of a switching thyristor with a choke, both thyristors shunted by counter-parallel-connected diodes, one of the conclusions The load connection is connected to the second input terminal for connecting the power supply and the other to the artificial switching circuit 2.

A disadvantage of the devices, when used for forming control pulses of an electronic valve, is the small steepness of the fronts of pulse 15, which leads to additional losses in the valve. In addition, when using an electronic valve with a left characteristic, the current of the main thyristor may be less than the holding current, as a result, the device becomes inoperative.

The aim of the invention is to increase the steepness of the pulse fronts, for example, to reduce losses when used as a load of an electronic valve.

The goal is achieved in that the driver is provided with an additional thyristor connected between the capacitor and the second input terminal, a current sensor connected in series with the switching thyristor and connected with its output to the control electrode of the additional thyristor.

In order to increase reliability when operating at a high resistive load, it is equipped with a resistor connected between the second input terminal and the junction point of the dross-el with the main thyristor.

In addition, another terminal for connecting the load is connected to the point of connection of the throttle with the main thyristor.

In order to reduce the voltage of the power source when operating on a high-resistance load, another terminal for connecting the load is connected to the connection point of the additional thyristor and capacitor.

 FIG. 1 shows a control pulse driver circuit; in fig. 2 diagram of the driver when using an electronic valve with a left characteristic.

The driver contains the main thyristor 1, switching thyristor 2f additional thyristor 3, diodes, 5, 6, switching capacitor 7, choke 8, current sensor 9 electronic valve 10, resistors 11, 12,

The shaper works as follows.

The elements 1, 2, 3f, 5, 6, 7, 8 form negative voltage pulses arriving at the grid of the electronic valve 10. For normal operation, it is necessary that the current of the thyristor 1 in the pulse be higher than its holding current, When the grid with the left characteristic is used, the grid cathode valve is large, then a resistor 11 is connected parallel to this circuit, the value of which is selected from the condition of creating a holding current with the necessary margin. At the time of the end of the switch, and the thyristor 1 (after it is locked), the thyristor 3 is turned on, the control signal for which (it is activated in the current sensor 9 at the time of the end of the switching of the thyristor 1, i.e.

discharging the capacitor 7, as a result, the capacitor 7 is recharged through the thyristor 3, which leads to an increase in the steepness of the voltage pulse on the grid of the valve 10, so as to eliminate the instability of the device operation caused by the initial surge of current through the thyristor 3, it goes into series 12 resistor

The time of the conducting state of the thyristor 1 to the grid of the valve 10 is applied a voltage twice the voltage of the power source. Therefore, when using an electronic valve with

the left characteristic of its grid is mozh-. but connect to the point of connection of an additional thyristor with a capacitor, since there is no grid current in such valves. This allows.

with the same control voltage on the grid, use a power source with a voltage half as large.

Claims (2)

1. A control pulse shaper containing a main thyristor connected to one of the input terminals for connecting the power source and shunted by an artificial switching circuit from a series-connected capacitor, a switching thyristor and a throttle, a diode j connected between the second input terminal and the connection point of the switching thyristor with a choke, both thyristors are shunted by parallel-connected diodes, one of the terminals for connecting the load is connected to the second input terminal a power source and the other to an artificial switching circuit, characterized in that, in order to increase the steepness of the pulse front, for example, to reduce losses when used as a load of an electronic valve, it is equipped with an additional thyristor connected between the capacitor and the second an input terminal, a current sensor connected in series with the switching thyristor and connected with its output to the control electrode of the additional thyristor. 2. Shaper according to claim. 1, p. heme that, in order to improve reliability when working on high-resistance loads, it is equipped with