DE966092C - Arrangement for the fanning of ultra-short oscillations - Google Patents

Description

When building magnetron and braking field tubes, the aim is to integrate the resonance circuits into the Install the tube and make it as low-attenuation as possible and with a stable frequency. The cushioning consists of ohmic and radiation attenuation. To reduce the radiation attenuation, it was proposed to use a concentric pipeline system that is closed on both sides To use resonance circuit. In the case of the magnetron generator, the oscillation should be between the two Halves of the cut inner tube, at

Braking field generator between the inner and outer conductors are fanned. With these arrangements Although the radiation attenuation is avoided, the attenuation by ohmic losses due to the low Characteristic impedance of the resonance circuit, however, is still considerable / so that the desired high alternating voltages result in large losses in the resonance ring. According to the invention can the ohmic loss can be further reduced by redesigning the resonance space. For this purpose, the areas that have the largest

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th current lead, increased so that the current density and thus the resistance loss decreases. The resulting resonance space resembles a flat box with its lid and bottom facing inwards are pressed and have the stimulating electrodes on the inside. So the resonance space is a bead.

Using the example of a six-slot magnetron tube of this type (Fig. I), the resulting Advantages are discussed.

The vertical section shows the rotationally symmetrical bulge space a, which allows the lowest current densities to be achieved with a given exciting alternating voltage. The anode segments ι '(ι ", ι"') -and 2 '(2 ", 2'") engage one another like claws and are alternately attached to the base and the cover. This shortest and symmetrical connection with the resonance circuit creates perfect electrical and thermal conditions. In addition, the finest mechanical formation of these parts is much easier, so that even with the shortest waves, multi-slot tubes can be built with their high efficiency. In contrast to the magnetron tube with the concentric pipe section as an oscillating circuit, a pierced magnet does not need to be pushed over the entire tube with this arrangement. The magnetic poles b can be built into the tube so that the pole tip spacing becomes a minimum. The auxiliary voltages can be fed to the magnetic poles individually. The filament c is led to the outside through a central hole. The energy is drawn off by means of a concentric pipe d. As a result of the small pole spacing, a permanent magnet can be used for excitation, which is wrapped around the tube as an open ring.

As the other examples in Figs. 2 and 6 show, it is possible to get by with just a few small glass melts. In Fig. 2, the two magnetic poles are at the same potential, so that the vacuum-tight seal can be produced by a sheet-metal jacket e wrapped around the entire system, which is isolated from the bead leading to the anode potential by a glass ring seal f.

Fig. 3 shows the embodiment of a magnetron tube without an inner pole. Through training The heating current contacts as cylinder or ball sections are easy to adjust Tube axis guaranteed against the magnetic field.

Fig. 4 and 5 show the application of the principle to brake field tubes, Fig. 4 a directly heated, Fig. 5 an indirectly heated tube with a space loading grille. In both examples the grid is as the The thermally most heavily loaded part is connected directly to the cover of the bead, the anode capacitively coupled to the ground.

Of course, other types of coupling are also possible between the individual electrodes and The resonance space is possible, as can the number of slots in the magnetron tubes Type different from the one specified.

Claims (11)

Patent claims: r. Arrangement for fanning ultra-short oscillations, characterized in that the Anodes of a magnetron system or grid and. Brake electrode of a braking field system Components of a resonance chamber are of a bead-like shape. 2. Arrangement according to claim 1, characterized in that that the rotationally symmetrical resonance chamber has coaxial, conical indentations into the similarly designed ferromagnetic Immerse the pole tips, which makes the air gap very small. 3. Arrangement according to claim 1 and 2, characterized in that the pole tips and the resonance chamber is electrically isolated from one another by insulating rings or insulating blocks are fixed mechanically immovably against each other. 4. Arrangement according to claim 1 to 3, characterized in that the resonance chamber and the Pole tips form parts of the vacuum vessel. 5. Arrangement according to claim 1 to 4, characterized in that the resonance chamber and the pole tips are welded on to sheet metal edges, which go vacuum-tight by glass fusing are connected to each other. 6. Arrangement according to claim 1 to 4, characterized in that the resonance chamber of is surrounded by an electrically insulated sheet metal jacket, which is welded to the two pole shoes is and where the radio frequency energy and the anode voltage of one Concentric pipeline fused to the sheet metal jacket in a vacuum-tight manner through glass be directed to the outside or inside. 7. Arrangement according to claim 1 to 6, characterized in that the pole tips as lateral Trapping electrodes are formed. 8. Arrangement according to claim 1 to 7, characterized in that the pole shoes for Aufnähme of the filament are pierced. 9. Arrangement according to claim 1 to 8, characterized in that the filament in two Spherical caps ends that fit into appropriately designed pole pieces that are insulated from one another, no so that any field angle can be set. 10. The arrangement according to claim 1, characterized in that the resonance chamber is the resonant circuit of a braking field tube, the grid of which is directly connected to the upper cover of the resonance chamber, the anode of which is capacitively connected to the floor. 11. Arrangement according to claim 1 and 10, characterized in that an indirectly heated iao cathode with space charge grid protrudes on one side into the resonance chamber. 1 sheet of drawings 3 509599/88 12.55 (709581728 7.57)