SU957370A1 - Device for high-voltage electronic gate grid control - Google Patents

Description

(54) DEVICE FOR NETWORK CONTROL OF HIGH-VOLTAGE ELECTRONIC VENT

one

The invention relates to high voltage converter technology and can be used to control high voltage electronic valves.

BACKGROUND OF THE INVENTION Two-grid control lamps are known that contain autonomous bias sources for each grid and grid control voltage drivers 1.

The disadvantage of these devices is low reliability due to the presence of several current sources and control voltage drivers.

Closest to the proposed js is a device for controlling an electronic valve containing a control pulse shaper connected to the input to a terminal for connecting the positive terminal of a control voltage source, a negative terminal for connecting the negative terminal to the terminal for connecting the cathode of the valve and a terminal for connecting the positive terminal of the bias source connected by a terminal for connecting the negative terminal to the output of the control pulse former and to the terminal for connecting the control grid of the valve, the first diode connected by a cathode to the terminal for connecting the screening grid of the valve, the second diode and the terminal for connecting the anode of the valve 2}.

A disadvantage of the known device is the limitation on the magnitude of the switched voltage, due to the fact that when the valve is closed, the potential of the screening grid is negative.

The purpose of the invention is to increase the voltage switched by the valve.

Claims (2)

The goal is achieved by the fact that in the device the anode of the first diode is connected to the output of the driver for controlling signals, and the second diode is connected by a cathode to the cathode of the first diode and the anode cm to the terminal for connecting the valve anode. . Fig. 1 shows the principle of the electrical circuit of the device proposed; in fig. 2 - a plot of potentios between the ventilla grids into the conductive (a) and non-conductive (b) ventilator operation period. The device contains the terminals dp of the electrodes of the valve 1, the first diode 2, the driver 3 of control pulses, the terminals for connecting the bias source 4 and the second diode 5, the device operates as follows. During the conducting period, the accelerating potential from the driver 3 applies c to the control grid C1 and, through the first diode 2, to the shield grid C2 of the electronic valve 1. The distribution of sweatyons during the conducting period (Fig. 2a shows that the accelerating cathode between the cathodes and the shielding grid C2 of the valve, and deceleration of the flux between the shielding grid C2 and the anode of the fan. Braking of the electron flow between the shielding of the grid C2 and the anode A allows for a small voltage drop on the avode (Figure 2a). The wire of your accelerating potential is removed from the grids of the fan. The negative voltage from the bias source 4 is applied only to the control grid C1, which does not hit the screened grid C2 and the presence of the disk 2. The screened grid C2 is under the anode potential due to diode 5 In this case, the switched voltage is applied between the screen C2 and the control grid C1 (Fig. 26). The application of the switching voltage between the valve grids in a nonconductive period and maintaining the same accelerating potential on both sets Kakh during the conducting period allows to increase the level of the switched voltage. At the same time, the level of spatial charge in the stagnation region does not increase, and the entire electron flow can be accepted by the anode without increasing the voltage drop across it. Thus, the efficiency of the valve and the power of the switching (conversion) device are increased. Claims An apparatus for grid control of a high-voltage electronic valve, comprising a pilot pulse driver connected to an input terminal for connecting a positive control voltage source, a negative terminal for connecting the negative output terminal of the cathode valve and a terminal for connecting the positive output of a mixing source connected by a terminal for connecting a negative output cable to the output of the driver control panel impedance and to the terminal e for connecting the control grid of the valve, the first diode connected by the cathode to the terminal dp of connecting the screened screen of the grid of the vent, the second diode and the terminal dp of the valve anode subcircuit, characterized in that in order to increase to (the generated voltage, the anode of the first diode is connected to the output of the driver of control signals, and the second diode is connected by a cathode to the cathode of the first diode and the anode to the terminal for connecting the anode of the fan. Sources of information taken into account in examination 1, Katsman Yu. A. Electronic Pampa, M., 1979, with. 158. 2. USSR author's certificate as per MZ 3218378 / 24-07, cl. H O2 M 1/08, 17.12.80. FUG. 2