DE455950C - Device for electron tube systems - Google Patents

Description

The present invention relates to a device for electron tube systems, in particular wireless transmitter systems. With the growth of the services for which these systems have recently been carried out, naturally also take the voltages required to operate the tubes, in particular the anode voltages, ever higher values, which are already up to 5 to ι ο 000 volts today. Preferably come now for the generation of such high DC voltages primarily high-voltage dynamo machines into consideration. The increase in the stresses of such machines pushes beyond a certain maximum level especially due to the increasingly difficult isolation conditions soon to practically considerable difficulties. It therefore forms the subject of the present Invention, in systems with electron tubes, especially large power, with direct current as an anode high voltage source to resolve these difficulties or to a practical one To reduce the minimum, which is achieved by the DC side Earthing made at a point between the plus and minus poles of the voltage is for the purpose of reducing the direct current voltage to earth and thereby induced reduction of the isolation difficulties. It can then z. B. instead of one machine, two with half Voltage are used in series and their connection point is connected to earth. The isolation voltage to earth thus only has the value of a single machine. This allows all insulation parts for the reduced Voltage is carried out, a danger for the operation of the system becomes 4 " thereby reduced, and one gets by with machines of normal design.

With such a subdivision of the voltage and arrangement of the earthing point prove, however, to ensure stable and operationally safe operation of the system, take a few precautions as necessary, best illustrated by the attached illustration, which is a practical example of the application of the inventive concept applied to a wireless transmitter system with tubes as

j vibration generator, illustrated, will be discussed in more detail j.

In Figure 1, it means the transmitter tube of a tube transmitter system that works with external excitation. The same is indicated by a control transmitter of some kind indicated at 2, for example a tube generator in FIG Self-excitation circuit, or a crystal transmitter with subsequent amplification device excited. The main tube is controlled via a bridge arrangement or compensation circuit, consisting of two identical coils 3 and 4, whose connection point is at the cathode and whose end score on the one hand over the inner tube capacity, grid anode and on the other hand over one of the latter corresponding compensation

capacitance 5 connected to the anode. This circuit eliminates the disturbing influence the inner tube capacitance, which is mainly at risk of self-excitation or reaction from the main transmitter insists on the exciter, switched off. The anode voltage source is established by two direct current high voltage machines 6 and 7 in series, their common The connection point is the earth, so that at the ends, i.e. H. between the cathode and anode of the tube the desired double Voltage, for example - [- 5000 and -5000, so a total of 10,000 volts prevail. The isolation voltage to earth is therefore only 5000 volts, and the machines can be built in normal execution. However, since the cathode of the tube is constantly at a voltage of -5000 volts, some measures prove to be necessary. While with the normal arrangement with undivided voltage source and grounding the cathode the latter the potential "O" clearly possesses and so also the relationships for the high-frequency potential distribution were specified, it is necessary in the arrangement according to the invention to achieve stable conditions, a special one High frequency grounding set what according to the circuit of the attached figure by grounding the document of a block capacitor 8 facing away from the cathode. As a result, the distribution of the high-frequency potentials in the anode circuit is made up of Capacitance 9 and self-inductance 10, clearly defined. Another measure which proves to be necessary is the locking of the grid and cathode parts against the high DC voltage. For this purpose, an alternating current heater is preferably used Cathode made through a transformer 11, reducing the high voltage of the heating current source is kept. Appropriately, the protection can still be sheet metal connected between the transformer winding is increased with grounding, as the picture shows. The control or meeting device connected to the grid and cathode is protected against direct voltage by the arrangement of block capacitors 12 and 13. the remaining reference numerals relate to normal elements, namely 14 is a block capacitor for blocking the anode DC voltage against the anode oscillation circuit. 15 and 16 are chokes for blocking the high frequency against the anode power source and similar 17 and 18 chokes to block the heating current source against the high frequency. 19 is the antenna, 20 an antenna coupling coil and 21 an antenna shortening capacitance.

Instead of two DC machines, a single machine can also be used, for example with center point grounding similar to the well-known three-wire machines for three-wire networks (Two-collector machine) or with center point earthing one to the machine terminals laid choke (the well-known Dobrowolsky choke voltage division) Find use.

Claims (7)

Patent claims: i. Equipment for electron tube systems, especially wireless transmitter systems, with direct current high voltage anode power source, characterized in that the grounding for the direct current side is carried out at a point between the plus and minus pole of the voltage. , 2. Device according to claim 1, characterized characterized in that a special high-frequency-side grounding at the cathode is arranged. 3. Device according to claim 1 and 2, characterized in that the heating current and grid current parts are protected against the DC voltage. 4. Device according to claim 3, da- go characterized in that the heater by alternating current through a transformer. 5. Device according to claim 3, characterized in that the grid current and heating current parts with respect to the control current parts protected against direct current high voltage by capacitors will. 6. Device according to claim 1 to 5, characterized in that the anode voltage source two DC machines can be used in series with the common connection point grounded. 7. Device according to claim 1 to 5, characterized in that the anode voltage source a DC machine with center point earthing is used (two-collector machine or Dobrowolsky choke). . 1 sheet of drawings.