DE584002C - Circuit for electron tubes - Google Patents

Description

This often occurs when manufacturing radio receivers and amplifiers Need to choose either in one or more specific tube stages to use a normal control grid tube or a screen grid tube. It must be in In this context, switching means that are as easy to use as possible are provided on the device be responsible for supplying the appropriately sized voltages to the individual The electrodes. You have this job

- so far solved in cases where the optional instead of normal tubes screen grid tubes coming to be used have a normal base, d. H. a base in which cathode, grid and anode connections in the known arrangement are provided while outside the normal version, e.g. B. on the side of the

ao base, a special connection for the screen grid is attached. In such a The case is very simple: You only need one in the circuit Flexible wire, bracket or the like. Provide the potential of the relevant Has screen grid voltage and when you plug in a screen grid tube simply with it the screen grid connection terminal ο. Like. Is associated. When using a normal tube then this bracket or the like simply remains free.

It is also known tube sockets thereby for the use of various To make tube types suitable that in the vicinity of the tube socket still further sockets are attached, in which when using special special tubes, z. B. with tubes with a different type of heating, also additional plugs for the respective type of tube be plugged in. The remaining part of the socket is then set up for both types of tubes.

Such circuits cannot be used, for example, for the purposes in which modern screen grid tubes with normal control grid tubes optionally should be installed in the same base. With most of today's common screen grid tube types the connections for the cathode, control grid and Anode, but rather for cathode, control grid and screen grid, with the screen grid connector The anode plug belongs in the same socket of the socket as in a normal tube. The anode connection is made in the case of such screen grid tubes usually at their tip, at least outside the normal tube socket.

For the optional use of such screen grid (or for example Space charge grid) tubes or a normal tube now gives the invention a circuit which consists in that the anode socket of the normal tube socket is connected to the positive by a simple switching element Pole of the anode lead can be connected in such a way that it either maintains the normal anode voltage or - in the case of

application of one of the above screen grid tubes - the screen grid voltage receives. In the latter case, the anode voltage is increased by the same switching process On a flexible wire, bracket or the like. Placed with the outside of the normal version provided anode terminal is connected.

The idea of the invention can be seen most clearly from the exemplary embodiment shown in the drawing. This represents a schematic of the circuit in which the parts not necessary for understanding are omitted. The tube socket into which either a normal tube or a screen grid tube or the like with an anode connection outside the normal base is to be used, is denoted by f. In it are in the known arrangement the sockets H ₁ and A ₂ for the filament, the socket k for the cathode (for the use of indirectly heated tubes), the socket g for the control grid and finally the socket a _n , which for the Anode connection is provided for normal tubes. When using a screen mesh tube with lying outside the normal Sokkelung anode terminal, the screen grid voltage is through the bush a _n be introduced, while the anode voltage o to a terminal. The like. A _s is guided which is mounted for example on a flexible wire d. For this purpose, a switching element s is provided according to the invention, which allows the point b connected to the socket a _n to be optionally connected to a point P ₁ or to a point p ₂ . The point P ₁ lies between the anode connection terminal a _s for the screen grid tube and the transformer t, the other end of the winding leads to the positive anode voltage source. In the present exemplary embodiment, a so-called autotransformer is shown. Of course, point P _{1 can} also be connected to the positive anode pole via the primary winding of a normal, in particular low-frequency, transformer or via the coupling resistance of a capacitance-resistance coupling. The second point p ₂ lies between two ohmic resistances w and v, which are parallel to the total anode voltage between the points + and -. To the resistance «; capacitor c connected in parallel is used in the known manner to decouple the individual feed circuits when using several tubes or for subsequent smoothing when connected to the mains.

If a normal tube is now to be used, the switching element s is placed at point P ₁ . The socket q _n then receives the required anode voltage via the transformer t from the positive anode lead. The connection a _s remains free in this case. If, on the other hand, a screen grid tube with an anode connection outside the normal base is inserted into the socket, the switching element s is set to the point: In this case, the socket a _n receives the required screen grid voltage from the positive end of the anode voltage source via the series resistor ν . The anode voltage for the screen grid tube is then passed via the transformer t, the point P ₁ and the bracket or flexible wire d to the terminal a ₃ , which is connected to the anode connection of the screen grid tube.

The correct voltage ratios between the normal anode voltage for screen grid tubes and the screen grid voltage can easily be achieved by appropriately dimensioning the resistors and w. Additional capacitors can also be provided in parallel with the series resistor ν or in parallel with both resistors. Further, the resistance of the entering tubes for use in appropriate proportions may optionally supply g ₀ each other. The switching element j can either be in the form of a small lever switch, which is useful within the device, for. B. on the tube board, sits. Otherwise it can be provided in the form of a short-circuit plug which, depending on the type of tube used, is inserted either between b and P ₁ or between b and p ₂ , these points b, P ₁ and p _{2 being designed} as sockets.

In the present state of broadcasting technology, the invention comes primarily Consideration for the audion stage, in which one would like to use partly normal tubes, partly screen grid tubes. Basically The possibility of using the invention naturally also relates to all other cases in which a Optional use of normal tubes or screen grid or space charge grid tubes no to be held.

Claims (1)

Claim: Circuit for electron tubes, where ng either a normal control grid tube or a screen grid tube (or in general a tube with auxiliary grid) can be used, and with the same tube socket is used for both types of tubes, characterized in that a simple switching element is provided, which Ches the optional use of a normal or an auxiliary grid tube, whose auxiliary grid connector (screen grid connector) corresponds to the position of the anode connector of a normal tube, and whose anode connection outside of the normal version, e.g. B. at the tube tip, is made possible, this switching element the anode socket of the normal socket from the positive anode lead optionally the normal anode voltage or the screen grid voltage. For this purpose ι sheet of drawings