SU139745A1 - Magnetically controlled gas discharge device - Google Patents

Description

Gas discharge devices are known using an external magnetic field to control the discharge current in the area of the grid node.

The proposed device differs from the known ones in that the magnetic field is directed perpendicular to the direction of the anode current to quench the discharge.

Such an embodiment of the device makes it possible to reduce the deionization time and to realize full control of the current in the ion device, including the ignition and quenching moments.

The drawing shows the general view of the device.

The device has a heated oxide cathode /, a graphite anode 2 and a collector electrode 3, which represents a slot with transverse ribs. The external magnetic circuit 4 is made of high-quality transformer iron with a coil 5. Through an external magnetic circuit, the magnetic field F is concentrated in the slot of the collector.

The magnetic field is transverse with respect to the direction of the anode current, as a result of which charged particles are deflected to the collector edges, the density of electrons and ions increases, the loss of charged particles increases, and under certain conditions the discharge goes out with a sharp decrease in the deionization time. Ferrotron can be made with mercury and hydrogen content; It can be used as a fully controllable gas discharge device with a deionization time in the order of 5 to 10 microseconds, which allows control with a pulsed magnetic field.

The device can be used in schemes with increased frequency.

Subject invention

A gas discharge device with a magnetic control, carried out using an external magnetic field applied in the area of the grid assembly of the device, characterized in that, in order to reduce the deionization time, this magnetic field is directed perpendicular to the direction of the anode current to quench the discharge.