SU299119A1 - - Google Patents

Description

A device for stabilizing an electron beam current comprising an electron gun with an annular control electrode and a sensor for varying the beam current is known.

However, the known device is characterized by the criticality of the sensor position and the limitation of the beam current.

The purpose of the invention is to increase the sensitivity and speed of the device.

For this, in the proposed device, the sensor for changing the current of the beam is made in the form of a toroidal induction coil, located coaxially with the control electrode, directly below it and ensuring the proportional dependence of the electrical signal induced in the sensor coil on the magnitude of the electron flux.

The drawing shows the described device.

It contains an electron gun 1, a cathode 2, a control electrode 3, an anode 4, a magnetically inductive sensor 5, an electron beam 6, a mounting capacitor 7, a semiconductor diode 8, an isolating capacitor 9, wires 10, 11, 12 of a high-voltage cable feeding the device 13 , coupling capacitor 14, converting unit 15, video amplifier 16, demodulator 17, DC amplifier 18, regulating element 19, source 20 of bias voltage to the control electrode, setting the value of current in the electron beam, pulsed modulator 21 The operation mode, the voltage source of the cathode 22, the accelerator voltage source 23. The electron gun 1 contains the cathode 2, the control electrode 3, the anode 4 and the magnetic induction sensor 5 for changing the current of the beam 6 mounted on the control electrode. The sensor is connected via a coupling capacitor 9 to the wires 11, 12 of a three-core high-voltage cable with wires 10, 12, 12. A high-voltage cable connects the electron gun to a power supply device 13, in which the wires 11, 12 are connected via a coupling capacitor 14 to a converter unit 15. The last consists of a video amplifier 16, a demodulator 17 and a DC amplifier 18, which is connected to the regulating element 19 connected in series with the output of the source 20 of the bias voltage to the control electrode. A modulator 21 is connected in series with a bias voltage source. The voltage source 22 is connected to the wires 10, 11 of the high-voltage cable. The negative pole of the accelerating voltage source 23 and the positive pole of the bias voltage source are connected to a filament voltage source.

In the electron gun 1, when the wires 10, 11, 12 are applied from the voltage sources 22, the accelerating voltage 23 and the bias voltage 20, a beam 6 of electrons is formed. Pulse mode of operation is provided by the modulator 21.

When a pulsed beam of electrons 6 passes through the winding of the sensor 5, the current of the beam is induced by electromotive force in it, and in the circuit consisting of the inductance of the winding and the mounting capacitance 7, oscillations of the impact type occur. As a result of the action of the semiconductor diode 8, the oscillating mode of the circuit passes into a periodic one, and for further transformations, the amplitude of the first half-period of oscillations is used, which is proportional to the amplitude of the beam current pulse. After the sensor, the signal thus obtained through the separation capacitor 9, the wires 11, 12 of the high-voltage cable and the separation capacitor 14 is fed to the input of the conversion unit 15, where it is amplified by the video amplifier 16 and detected by the demodulator

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17. At the output of the demodulator, a signal is selected that changes in accordance with the change in the amplitude of the current of the electron beam. This signal is applied to the DC amplifier 18 and further to the regulating element 19, which, acting on the bias voltage source 20, changes the bias voltage so that the amplitude of the beam current remains constant.

Subject invention

A device for stabilizing an electron beam current, comprising an electron gun with an annular control electrode and a sensor for changing the beam current, characterized in that, in order to increase the sensitivity and speed of the device, the sensor for changing the beam current is in the form of a toroidal induction coil located coaxially with the control electrode directly below it, ensuring proportional dependence of the electrical signal induced in it on the magnitude of the electron beam.

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