DE874026C - Arrangement for generating short waves - Google Patents

Description

In order to be able to generate the shortest waves with electron tubes, one must seek that the natural frequency of the tube structure in connection with The lowest possible resonance frequency for the connected external oscillating circuit allowed to produce; the circular attenuation should be as low as possible.

In the equivalent circuit diagram, the tube represents a capacitor structure that about the self-induction and capacities of the supply lines with the external oscillation circuit connected is. In order for the outer circle of the tube to be as large as possible, it is based on line theory Side the demand to make; that the power feedthroughs and connections Do not create any joints with the pipe system because each joint is reduced the system length. To achieve this; you can make the current feedthrough very large . in order to approach the smallest wave resistance of the system, what but in the rarest of cases it is completely successful.

In Fig. Z is attached to the grid 2 and the anode 3 of the cathode i, the grid 2 and the anode 3 existing electrode system via the lines 51 and 52 the oscillation system q. connected. The capacitance C of the electrode system forms part of the circular capacitance, and the oscillation current J, must be proportionate to the. large inductance of 51 and 52 run. This means a big 'voltage drop, and since the alternating voltage is a given quantity, the externally connectable The greater the lead inductance, the smaller the system. After small wavelengths this ultimately leads to it; that no oscillation circuit is attached outside can be, but the same must be laid in the tube: this is what you want avoid, since the working frequency of such arrangements after completion of the Tubes can no longer be changed. One therefore draws an external oscillation circle, that can be adjusted; before.

It is known to avoid the disadvantage described above the anode and the grid at locations as far apart as possible in the Run lengthways of the system, creating the so-called double line system arises (Fig: 2).

The invention proceeds in a different way and divides the Einode lengthways the system axis into several equivalent parts, including the grid-anode capacitance is divided accordingly, and leads the individual sectors perpendicular to the system axis from the tube to oscillation circles, which are all parallel. The single ones the resulting parallel and electrically equivalent parts of the electrode system can be galvanically separated or connected to each other.

In Fig. 3, for example, an embodiment for implementation of the inventive concept shows, the anode is divided lengthwise into three sectors. Each of these sectors has about a third with the grid (or z / u with n sectors) the capacity. There is now a separate oscillation circuit for each of these sectors connected, such as Fig. q. shows, this always has a smaller one Process part of the capacity flow, and the shortening is reduced.

A particular advantage of the arrangement is that it allows the capacity to be divided into any number of parts and not, as in the known double-ended design, only into two parts. In pursuance of this principle, it is also possible to lead the anode and grid out of the tube at different times, as shown for example in Fig: 5-. Here the grid is brought out twice and the anode four times. As can be easily seen, the current in the anode leads carries only a quarter of the total current. In the grid supply lines it is In reality the arrangement is a little worse than if the grid were also made four times. The last-mentioned version has the particular advantage of being very low in radiation and therefore loss-free if belts are used as feeds for grids and anode and a belt circle is also connected on the outside.

Claims (1)

PATENT CLAIM-. Arrangement for generating short waves, thereby characterized in that an electrode system consisting of a cathode, grids and anode due to paraxial planes along the system axis into several equivalent parts is divided by means of - bushings lying perpendicular to the system axis be connected to oscillation circuits; which are all connected in parallel, and where the system parts. are at the same potential in each case.