SU1138898A1 - Device for controlling thermionic rectifier - Google Patents

Abstract

A control device for jELECTRONIC VALVE, containing a source of control voltage, a limiting resistor connected in parallel and a collector-emitter junction of the transistor and a resistive voltage divider, the midpoint of which is connected to the base of the transistor, characterized by the control voltage source is designed to be connected to the valve grid, and the other, in parallel, with 4 connected limiting resistor and collector-emitter junction anzistora -: to the cathode gate, wherein a voltage divider is intended to include between the grid and the cathode gate.

Description

The invention relates to electrical engineering and can be used to control electronic valves.

A device for grid 5 control is known, in which the source of control pulses is connected to the valve grid through a limiting resistor

However, the lack of the ability 10 to control the grid current is a significant drawback of the device when using it for. electronic valve control.

Closest to invention 15 is a device for grid control of an electronic valve, comprising a source of control voltage connected to one terminal of the valve grid through two series-connected limiters. resistors, the emitter-collector junction of the transistor connected in parallel with the resistor connected to the grid, the base of the transistor '25 connected to the midpoint of the resistive voltage divider connected between the connection point of the limiting resistors and the second output of the control voltage source connected to the valve cathode [2].

A disadvantage of the known device is the low accuracy of regulation of the grid current of the valve, which reduces the reliability of the valve and leads to additional losses. . .

The purpose of the invention is to increase the reliability of the valve and reduce losses.

This goal is achieved by the fact that in the device for grid control of an electronic valve containing a control voltage source, a limiting resistor and a trinsistor collector-emitter junction and a resistive voltage divider, the middle point of which is connected to the transistor base, are connected in parallel, one output of the control voltage source is designed to connect to the gate grid, and the other through parallel connected ^ limiting resistor and collector jHO-emitter junction of the transistor m, the cathode of the valve, the voltage divider is designed to be connected between the grid and the cathode of the valve.

The drawing shows a diagram of the device.

The device comprises a control voltage source 1, a limiting resistor 2, a transistor 3, resistors 4 and 5, forming a voltage divider and an electronic valve 6.

The device operates as follows.

In order to ensure minimal losses in the grid circuit of the valve and prevent overloading the grid circuit, it is necessary to adjust the resistance in the grid circuit, decreasing it with increasing anode current of the valve, since the grid current of the valve 6 depends on its anode current. When applying a positive signal from the source 1 of the control voltage to the grid of the valve 6, the latter goes into a conductive state. The change in the anode current of the valve, determined by the external circuit, corresponds to a change in the resistance of the grid-cathode gap, and, consequently, a change in the voltage on the grid. From resistor 5 of the voltage divider, consisting of resistors 4 and 5, a signal proportional to the voltage on the grid is supplied to the base of transistor 3, which leads to a change in its mode, and since it is connected in parallel with limit resistor 2, the limiting resistance in the network circuit changes in accordance with the change in voltage on the grid. The limiting resistor 2 is necessary to create a bias voltage on the grid of the valve 6. By selecting resistors 2, 4, 5 and a transistor with the corresponding characteristics, high accuracy of regulation of the current of the grid of the electronic valve is achieved.>

Thus, the application of the invention allows to reduce losses in the valve grid circuit and increase valve reliability by eliminating overloads of the grid circuit due to more precise control of the valve grid circuit current.

Claims (1)

, DEVICE FOR CONTROLLING AN ELECTRONIC FAN, containing a control voltage source, a limiting resistor and a collector-emitter junction of the transistor and a resistive voltage divider, the middle point of which is connected to the transformer base, characterized in that, in order to increase the reliability of the valve, one output of the source control voltage is designed to connect to the grid of the valve, and the other through parallel connected resistor and collector-emitter junction transi side to the gate cathode, and the voltage divider is designed to include $ between the grid and the gate cathode.