DE541087C - Double grid tube interference generator - Google Patents

Description

Double-grating tube interference generator For an interference circuit So far, three cathode tubes are required, namely two tubes, each with one different frequencies are operated, and a tube in which the Interference of the two different frequencies comes into play.

The invention now aims to create an interference circuit, in which the interference effect is achieved with a single tube.

The invention consists in that each with a grid of a double grid tube an oscillation circuit is fed back, which two oscillation circuits two neighboring ones Generate frequencies.

The two feedback oscillation circuits can according to a further Form of the invention lie in the anode circle of the double lattice tube, namely preferably be connected in series. However, the arrangement can also be made in this way that the feedback coils are in series in the anode circuit of the double grid tube lie, while the oscillation circles are each in a grid circle.

Another possible embodiment of the invention is that one oscillation circuit lies in a grid circle, while the other oscillation circuit lies in the anode circle and is fed back to the other grid circle.

A favorable application of the invention is to use a to use any radio tube receiver as a Theremin musical instrument. In the latter instrument, an oscillating circuit of constant frequency becomes interference brought with another oscillatory circuit, the frequency of which by approaching or Removal of an object from an antenna connected to this oscillation circuit is changed as desired. One can now get out of the double lattice tube, the oscillation circles and such an antenna produce an aggregate with a switching device is provided, which enables this unit to take the place of the audio tube to lay the switching elements of the radio receiver behind the latter. At the most practical is carried out in such a way that the switching device as Tube base is formed, which after removal of the audio tube in its socket is plugged. It is thus possible just by purchasing this additional unit with a double grid tube and two oscillation circles every existing radio tube receiver to convert into a theremin musical instrument at will.

The drawing shows various circuits for performing the Invention.

In the circuit according to FIG. R, one grid 2 of the double grid tube x with one winding q. connected to a variometer, which in turn is then attached to the filament. The grid 3 is connected in the same way to one winding 6 of a variometer. The other coils 5 and 7 of the two variometers each form an oscillating circuit io, ii with a controllable capacitance 8, 9. Both oscillation circuits io, ii are connected in series and connected to the anode A of the double lattice tube. Furthermore, the connection of the two oscillating circuits with the thread F contains the anode battery and the telephone T, to which a capacitor is connected in parallel. The telephone can of course also be replaced by a transformer 12, which actuates a loudspeaker 13, in the manner indicated by dashed lines. The two loop circuits io and ii are now set by means of their circuit elements, for example by adjusting the capacitors 8, 9, in such a way that they have the different desired frequencies. It then occurs in the telephone, which of course also by another device can be replaced, which reacts to interference, for example a measuring instrument, a relay o. The like., The interference effect of the two frequencies of the circles io and ii.

Fig.2 shows a circuit in which each of the two grids 2, 3 over an oscillation circuit 14, 15 is connected to the cathode F. Each of these vibrational circles consists of a controllable capacitor 16 in the embodiment shown or 17 and a coil of a variometer 18 or i9. Appropriate coupling coils 2o, 21 of the two variometers are again connected in series and are located in the Anode circuit with the telephone T. The mode of operation is the same as with the circuit according to Fig, i.

In the circuit according to FIG. 3, one grid is: z of the tube i with a coupling coil 22 of a variometer connected, the other coil 23 a Forms part of the oscillating circuit 24, in which the controllable capacitance 25 is also located. The other grid 3, on the other hand, is connected to one coupling coil 26 of a variometer connected, which forms an oscillating circuit 36 with the adjustable capacitance 27, and the counter coil 28 of the variometer is in series with the oscillation circuit in the anode circuit 24 and switched to the telephone T.

The mode of action is also the same here. as with the circuit according to Fig. i. One becomes according to the particular circumstances of the individual case choose one of these three circuits. Furthermore, the coupling of the oscillation circuits not only by self-induction, but also capacitively or galvanically.

Fig. 4 shows a device that makes it possible by a cheap Additional unit for any radio tube receiver in a Theremin musical instrument to convert.

In the right half of the figure the circuit is any Broadcast tube receiver indicated as an example. The base version is S ' of the audio tube, which has connectors G 'for the grid, A' for the anode, F ', F' for the filament. The high frequency part is in dashed lines shown, namely 29 means the antenna, 3o the self-induction associated with this, 31 an oscillation circuit lying in the antenna circuit.

This part indicated by dashed lines can be designed as desired and of course also consist of different high-frequency stages. Its implementation in detail is irrelevant for the purposes of the invention. Likewise, the low_frequency part can be designed as desired. In the drawing, two low-frequency stages are shown as examples, the tubes N ' and N "of which are fed in a known manner by transformers 32, 33 and which act on the loudspeaker or some other sound generator T. The details of the circuit and its connection to the heating battery and Anode battery can be seen in the drawing, 34 is the heating resistor.

The left part of FIG. 4 shows an assembly which is designed according to FIG. 3 is. Only here the upper grid 2 is connected to an oscillating circuit 26 while the grid 3 is connected to a coupling coil 22 of a variometer, the other coil 23 of which lies in the oscillation circuit 24. The anode circle is to that Anode plug A of a tube socket S out. The two ends of the filament of the tube i are led to the plugs F, F of the base, while the grid connector of the base remains vacant. Finally, the oscillation circuit 26 is connected to an antenna 35, which corresponds to the pitch antenna of the Theremin musical instrument. In dashed Lines is then indicated how the circle is closed by the person of the user is to be thought.

In order to use the radio receiver as a musical instrument, the audio tube is pulled out of the contacts G ', F', F ', A' of its socket S 'and the base S of the left half of FIG. 4 is inserted according to the same letters. If now movements are made with objects against the antenna 35, the frequency of the oscillating circuit 26 is changed, while that of the oscillating circuit 24 remains constant, and the. Interference effects causing tone formation, which are expressed as music in the tone generator by the audio tube and, if necessary, by the low-frequency tubes.

If the base S is pulled out again and the audio tube in the Base socket S 'inserted, the device can be used as a radio receiver as before be used. If the arrangement of the one in front of the audio tube Part of it is such that there are disruptive repercussions when using the additional unit according to Fig. q. on the left, you can of course also provide a switch, the part in front of the audion with the antenna 2g, the self-induction 3o and switch off the oscillating circuit 31 as well as with any high-frequency stages allowed. ° It is then only necessary that from a double grid tube i, two oscillation circles 26, 2q., the base S and the pitch antenna 35 existing Unit to be procured to use any tube radio receiver as a Thereminsches at will 1 to be able to use musical instruments.

The energy sources of the radio tube receiver, anode battery A-B and heating battery H-B, take over these functions at the same time on the musical instrument, so that a special purchase of the same is not necessary.

Claims (7)

PATENT CLAIMS: i. Double grating tube interference generator, thereby characterized in that two oscillating circuits, each with a feedback grid, are arranged that generate two neighboring frequencies and cause them to interfere. 2. Interference generator according to claim i, characterized in that the two feedback oscillation circuits lie in the anode circle of the double lattice tube. 3. interference generator according to claim i and 2, characterized in that the two oscillating circuits are connected in series are. q .. Interference generator according to claim i, characterized in that the Feedback coils are in series in the anode circuit of the double grid tube and the Oscillation circles each in a grid circle. 5. interference generator according to claim i, characterized in that an oscillation circuit lies in a grid circle, while the other oscillation circle lies in the anode circle and with the other grid circle is fed back. 6. interference generator according to claim i or 5, characterized in that that in addition to a pitch antenna (35) a switching device (S) is arranged, the replacement of the audio tube in a radio receiver by the interference generator enables. 7. interference generator according to claim i, 5 or 6, characterized in that that the switching device (S) is designed as a tube base, which after removal the audio tube is inserted into its socket.