DE651420C - Electron tubes for generating, modulating and demodulating short-wave vibrations with an oscillating circuit arranged inside the piston - Google Patents

Description

The invention relates to an electron tube for generating, modulating and demodulating of short-wave oscillations with an oscillating circuit arranged inside the piston, namely for both Brake field as well as suitable for magnetron tubes. The piston of the tube can besides the resonant circuit also contain the transmission line and the antenna, the latter but can just as well be arranged outside of the piston.

Such tubes are already known or proposed per se.

The present invention is now a special tube, which is particularly suitable for fanning very short waves, since the formation of the oscillating circuit inductance allows an extremely small inductance to be achieved, which also has no discontinuity in the line routing can be transferred into the excitation electrodes.

The electron tube according to the invention with one located inside the tubular vessel The resonant circuit is characterized in that the resonant circuit consists of a metal ring exists, which is cut open at one point in the radial direction, and that the The ends of the metal ring also form the anodes of the discharge system.

Appropriately, you will build the tube so that the cut surfaces are parts of a Form circular cylinder, the axis of which is formed by an elongated cathode.

The figure shows .ein embodiment of the invention with a two-part Anode in magnetron circuit.

The tubular piston 1 passes at the lower end into a pinch foot 9, which from Tubular base 2 is included. The cathode 7 lies in the axis of two anode half cylinders 3 and is supported by struts 8 which lie in the pinch foot 9 and are connected to the plug pin 10. The anode half-cylinders 3 are formed by the cut surfaces of a metal ring 17, which in has been cut in the radial direction. The axis of the anode cylinder is parallel to the axis of the metal ring. The inductance of the ring 17 forms together with the mutual capacitance of the cut surfaces 3 a resonance circuit, the frequency mainly determined by the generated vibrations. The tubular shape according to the invention is particularly suitable for fanning ultra-high frequencies down to

a few millimeters wavelength, since the ring 17 represents a very small inductance, which goes directly into the excitation electrodes. In the vibrational state, see on the ring opposite the cut surface a tension node, on both sides of which, preferably symmetrically, the power line 4 is connected to an antenna S leads,

The circuit shows the use of the tube as an oscillator or as a detector. When used as a transmitter, the generated vibration energy is transmitted via the line 4 to the antenna 5, from which it is emitted as a carrier wave. The carrier wave is modulated via the transformer T by changing the anode voltage. The primary winding 16 of the transformer T, the secondary winding 13 of which is in the anode circuit, is impressed by some source with a modulation current which serves to change the potential supplied to the anodes.

When the tube is used as a detector, the circuitry remains the same. the electrical and magnetic fields ■ may be modified. By the voltages picked up by the antenna 5 become the current in the output circuit changed and the demodulated signal can be taken from the transformer winding 16 will.

The heating current for the cathode 7 is supplied by a voltage source 11. The anodes 3 obtained from another chip. Voltage source 12 via the winding 13 of the transformer T, the choke 14, the power line 4 and the ring 17 is supplied with a relatively high DC voltage. The tube can be operated in a braking field circuit with a positive grid electrode or in a magnetron circuit with a positive anode. If necessary, so-called end plates can also be provided on the end faces of the tube, to which prestresses can be applied. When the tube works with a magnetic field, it does not need a grid.

The entire resonant circuit and antenna construction can be attached to the wall on upper end of the 'Rölirenkolbens are attached, preferably so that the Metal ring resonant circuit with the help of the parallel wire power line is suspended from the wall of the ■ tubular flask and the antenna from the continuation of the power line will be carried.

Claims (7)

Patent claims: 1. Electron tube with one located inside the tubular vessel Resonant circuit, characterized in that the resonant circuit consists of a metal ring exists, which is cut open at one point in the radial direction, and that the ends of the metal ring at the same time form the anodes of the discharge system. 2. Tube according to claim 1, characterized in that the cut surfaces parts form a circular cylinder, the axis of which is formed by an elongated cathode. 3. Tube according to claim 1 and 2, characterized characterized in that a grid electrode within the discharge system and / or on the end faces of the discharge system Plates with connections for a voltage source are provided. 4. Tube according to claim 1, characterized in that the metal ring resonant circuit on both sides of the apex, preferably at equal distances from the cut surfaces, the ends a parallel wire line leading to a radiator. 5. Tube according to claim 1 and 4, characterized in that the metal ring resonant circuit is suspended from the wall of the tubular vessel using the parallel wire line. 6. Tube according to claim 1 and 4, characterized in that the radiator together with the parallel wire line is arranged in the interior of the tubular vessel. 7. Circuit using a tube according to claim 1, 4 and following, characterized in that the bias for the anodes is at the electrical center point of the radiator, in particular via a throttle, is supplied. 1 sheet of drawings