DE918040C - Electric discharge tubes for very high frequencies - Google Patents

Description

The invention relates to an electric discharge tube in which a means of a Control grid intensity-modulated electron beam after two consecutively arranged, moving ring-shaped electrodes at high potential and surrounding the tube and a cavity resonator is arranged between the ring-shaped electrodes, which is connected to a is provided around the tube running around the slot and its natural frequency is equal to the frequency the intensity modulation is.

With known tubes, stable operation is difficult to obtain due to changing wall charges, which arise when the tube wall is hit by electrons.

It is also already known to have a deflection electrode in a tube through an insulating body replace that negatively charges. The secondary emission of this body should be low.

The invention aims to reduce the aforementioned disadvantages.

In the case of an electric discharge tube for very high frequencies, in which a control grid intensity-modulated electron beam

is based on two ring-shaped electrodes arranged one behind the other and at high potential moves and in the case of this tube surrounding and between these ring-shaped electrodes a cavity resonator is arranged, which is provided with a slot running around the tube and whose natural frequency is equal to the frequency of the intensity modulation is according to the invention the insulating tube wall between the first of the high potential electrodes and the Rear side of the slot in the cavity resonator designed in such a way that this wall covers the entire surface is hit by electrons.

This results in a stable working of the tube, which is due to the positive charging of this wall Secondary emission is due. It actually requires that the whole wall be in between the points mentioned is hit by electrons, otherwise the intensity modulation of the Bundle itself or the changes in potential of the electrodes lead to a constant change of the Boundary between the hit and the not hit part of the wall could lead to instabilities results. When working with very high bundle intensities and only relatively

moderately weak concentrating agents are used, the aforementioned conditions are met not too large tube diameters can easily be met.

A suitable design of a tube according to the invention is that in which the diameter of the Tube after the first annular electrode is reduced so that the inner cross section is slightly smaller than that of the ring-shaped electrode arranged in front of it, while the cross-section becomes gradually larger in the direction of the second annular electrode.

The invention is explained in more detail below with reference to the drawing, for example, in which a tube according to the invention is shown.

In the figure, 1 denotes the discharge tube made of quartz, in which a cathode 2, a control grid 3 and a target electrode 4 are attached; 5 and 6 are both ring-shaped electrodes, and immediately behind the first annular electrode at the point 7 tapers Tube wall strong, whereupon it gradually widens in the direction of the ring 6. The resonator is indicated schematically with 8.

Claims (2)

Patent claims: I. Electric discharge tube for very high frequencies, in which one by means of a control grid intensity-modulated electron bundle to two consecutively arranged, ring-shaped, Electrodes lying at high potential are moved towards and between them ring-shaped electrodes surrounding the tube a cavity resonator is arranged, which with a slot running around the tube and its natural frequency is equal to the frequency of the intensity modulation, and where the insulating tube wall between the first of the high potential electrodes and the back of the Slit of the cavity resonator hit by electrons and as a result of secondary emission is positively charged, characterized in that the tube wall is designed in such a way is that it is hit by electrons all over the surface. 2. Tube according to claim i, characterized in that that the tube wall behind the first annular electrode is slightly smaller free cross-section than that of the electrode tapers and gradually tapers towards it widens towards the second electrode.