SU1636989A1 - Device for electron tube control - Google Patents

Abstract

The invention relates to a pulse technique and can be used in voltage switching circuits at a load. The purpose of the invention is to increase speed. The device contains a control grid power supply 1 connected through a collector-emitter junction of transistor 2 to a control grid gap - the cathode of the EEP. The voltage of source 1 closes the EEC, and also charges the capacitor 7. When a control pulse is applied from control unit 9, transistor 4 opens and transistor 2 closes, and a pulse is generated that forces unloading of EEC across the screen grid by discharging the capacitor 7 through the transistor 4 and the diode 8 to the winding of the transformer 5. The EEC opens, the gap bypassing the control grid - the cathode of the EEP by the transistor 4, as well as the formation of a boost pulse on the screen grid, increase the speed of the device. 1 il. cl

Description

The invention relates to a pulse technique and can be used to control an electrovacuum device (EEC) in voltage switching circuits at a load included in its anode circuit, for example, on a control electrode of an electron-beam valve.

The purpose of the invention is to increase the speed and noise immunity by reducing the time of recharging the input capacity of the EEC.

The drawing shows a diagram of a device for controlling the EEC.

The device contains a control grid power supply 1, the negative pole of which is connected to the collector of transistor 2 of the rpn type, and the positive pole is connected to the first resistor 3, the collector of transistor 4 of the rpp type, and the end of the 5.1 winding of the pulse transformer, which also has a winding 5.2, and the cathode of the EEC 6, to the control grid of which are connected the emitters of transistors 4 and 2, which are connected through the first capacitor 7 to the common point of the anode of the diode 8 and resistor 3. The control unit 9, the second output of which through the second 10 and third 11 p the resistors are connected to the bases of transistors 4 and 2, respectively. The screen grid power source 12 is connected with a positive pole to the first terminal of the second capacitor 13 and the anode of the diode 14, the cathode of which is connected to the beginning of the winding 5.2 of the pulse transformer and is connected to the computer screen 6 through the fourth resistor 15, the cathode of which is connected to the negative pole of the power source 12 and the second terminal of the capacitor 13.

The device operates as follows.

In the initial state, the signal from the output of the control unit 9 transistor 4 is closed, and the transistor 2 is open and the locking voltage of the power supply 1 is applied to the control grid of the electronic circuit board 6. EVG] 6 is closed. The capacitor 7 is charged to the voltage of the power supply 1. The capacitor 13 is charged to the voltage of the screen grid power supply 12. When the polarity of the output signal of the control unit 9 changes, the transistor 2 closes, and the transistor 4 opens, bypassing the control grid - the cathode of the electronic circuit board 6. At the same time, the diode 8, winding 5.1 of the pulse transformer, transistor 4 discharge capacitor 7. The winding 5.2 of the pulse transformer a positive voltage pulse is formed, which forms the inclusion of the EEC 6 along the circuit: resistor 15, the gap of the screen grid is the cathode of the EEC 6, the blocking capacitor 13. The EEC 6 opens.

To lock the EEC 6 from the output of the control unit 9, a signal is supplied that locks the transistor 4 and the unlocking transistor 2. A negative voltage of the power supply 1 is applied to the control grid of the EEC. EVP 6 closes. The capacitor 7 is charged through the circuit: transistor 2, power source 1, resistor 3. The device returns to its original state.

Simultaneous shunting of the control grid-cathode gap and the formation of a boosting voltage pulse on the screen grid can significantly increase the speed of the circuit when turning on the EEC as compared to the known device, where the switching speed is limited by the time of recharging the input capacitance of the EEC through a limiting resistor. The performance gain when turning off the EEC is determined by the accelerated recharging of the input capacitance of the EEC through the low resistance of the open transistor 2.,.

In contrast to the known device in the proposed device, the operation mode of the EEC control circuit is completely determined by the polarity of the control signal and does not depend on the power supply noise and changes in the load current, which makes it possible to increase its noise immunity.

Claims (1)

Claim A device for controlling an electric vacuum device containing power supplies for the screen and control grids, a pulse transformer, the beginning of one of the windings of which is connected to the cathode of the diode, the anode of which is connected to one of the plates of the first capacitor and the first output of the first resistor, the other winding of the transformer is connected in series with the second capacitor , characterized in that, in order to increase speed and improve noise immunity, a second diode, a second, third and fourth resistors, a block boards and a complementary pair of p-p-p-p-p-p-type transistors, the emitters of which are combined and connected to the control grid of the electric vacuum device, the other lining of the first capacitor, the first output of the control unit, the second output of which, respectively, through the second and third resistors connected to the bases of transistors respectively, the n-p-pi pnp-type, the cathode of electronic devices connected to the collector of transistor n-p-n _type-5 first transformer winding end, the second terminal of the first resistor, a second terminal of the second a capacitor, a negative terminal of a screen grid power source, a positive terminal of a control grid power source 5, a negative terminal connected to a collector of a pnp type transistor, while a positive terminal of a screen grid power source is connected to the anode of the second diode and to the connection point of the second capacitor and end of the second winding of the transformer, its beginning connected to the cathode of the second diode and through the fourth resistor to the screen grid of the vacuum device. Compiled by I. Belyakova Editor V. Danco Tehred M. Morgenthal Corrector I. Muska Order 823 Circulation 478 Subscription VNIIIPI of the State Committee for Inventions and Discoveries at the State Committee for Science and Technology 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and Publishing Combine Patent, Uzhgorod, 101 Gagarin St.