DE713295C - Circuit arrangement with magnetic field tubes - Google Patents

Description

Circuit arrangement with magnetrons subject matter of the invention is a circuit arrangement with magnetrons, in which the entry of electrons in the anode compartment for the excitation of vibrations by means of circulating electrons is controlled in the correct phase.

In the case of magnetrons it is shown that the efficiency with electron orbital oscillations is relatively bad because as a result of the uniform electron exit from the Cathode also wrong-phase electrons occur, which the high-frequency alternating field Withdraw energy and thus greatly reduce the vibration power. The anodes are Very heavily loaded by the power loss, a disruptive cathode re-heating also occurs a. These difficulties are well known. One also has z. B. -Auxiliary electrodes near the cathode arranged, which are controlled at high frequencies and the wrong-phase electrons ; push back. The invention now consists in an improvement on these known ones The arrangement is that the control electrodes are subject to an oscillation compared to the generated oscillation detuned Lecher line is connected, which is coupled to the anode circuit and the control electrodes are phase-shifted by go ° with respect to the anode voltage AC voltage supplies. In this way, with simple means, a phase is correct Control of electron entry achieved.

The invention is to be explained in detail with reference to FIGS. Fig. I shows the path of an electron with an n = i oscillation, Figures 2 and 3 show examples of embodiments of the invention.

In Fig. I a full anode tube is shown in which within of the anode cylinder 3 has a cathode 2. The path of the electrons is denoted by 4, and that becomes the way run through to point 5 in half a period. An electron influences the positive one on the way from cathode 2 to point 5 and on the way back the negative half-wave of the oscillation. To be in the right phase To achieve control of the escape of electrons, one can around the cathode 2 a grid place. Because the electrons then enter the anode compartment when the grid is positive is, on the other hand, but precisely when the electrons pass through the points z and 5 each of the: zero value of the induced alternating voltage is present, must be between the cathode control voltage and the alternating voltage induced in the anode circuit a phase shift of 9o may be present. This phase shift is according to the invention achieved with the help of a Lecher line, which is connected to the grid circle and is out of tune with the outer wave.

In Fig. 2 is an example of a circuit with a full anode tube specified. A Lecher line 8 is connected to the anode cylinders 6 and 7, which is tuned to the electron oscillation. Around the cathodes ii and 12 lie two grids g and io, which are connected to one another by a Lecher line 13. This Lecher line is out of tune with the generated oscillation and delivers a control voltage with the desired phase position to the grid. The Lecher line 13 is expediently led out in the same direction as the anode line 8 and Z. B. inductively coupled with this. If necessary, the Lecher lines but also led out in opposite directions and the necessary coupling can be achieved by the capacitance between the grid and anode.

Another embodiment of the arrangement according to the invention shows Fig. 3, in which a two-slot tube is shown in which the anode segments 14 and 15 are connected via an oscillating circuit 16. According to the anode segments two grid segments 18 and i9 which are concentric to the cathode 17 are provided are in turn connected via a Lecher line 20.

The specified circuit arrangement can also be used in the generation of Electron harmonics (dwarf waves) are exploited. Is z. B. the outer resonant circuit to the first harmonic (zz = 0.5) of the fundamental electron wave set by the operating data (ia = 1) and the grid circle with a corresponding phase shift as well adjusted to ia = 0.5, the entry of electrons into the anode compartment is controlled in such a way that that the harmonic excitation is improved. What influence on the fundamental electron wave is present is irrelevant, since only the electron harmonic as: useful power is removed. The circuit arrangement according to the invention is also for receiving purposes applicable, e.g. B. with Entdärnpften receivers, where the 3lagnetresonanzffekt is exploited.

Claims (5)

PATENT CLAIMS: i. Circuit arrangement with magnetrons, at where the entry of the electrons into the anode space for the excitation of vibrations is controlled in phase by electron orbital oscillations, characterized in that that a Lecher line detuned from the generated oscillation to the control electrodes is connected, which is coupled to the anode circuit and the control electrodes supplies an alternating voltage that is 9o out of phase with respect to the anode voltage. 2. Circuit arrangement according to claim i, characterized in that two full anode systems connected to a Lecher line and coupled with a second Lecher line that are connected to corresponding grids. 3. Circuit arrangement according to Claim 1, characterized in that a two-slot tube is provided at which are arranged around the cathode two corresponding segment-shaped grids. . 4th Circuit arrangement according to Claim i, characterized in that it is designed as a de-attenuated Receiver works. 5. Circuit arrangement according to claim i, characterized gekennzeichnef, that the grid voltage is controlled in the cycle of a harmonic of the electron orbital oscillation will.