DE321153C - Circuit arrangement for generating and amplifying electrical vibrations with glow cathode tubes - Google Patents

Description

In devices for generating and amplifying electrical oscillations, in which hot cathode tubes are used, it was known to produce the required negative grid potential by connecting resistors to the heating circuit of the filaments or by using special batteries (grid batteries).
The invention achieves the same purpose

ίο achieved in such a way that such Aids that make the operation uneconomical are not required. According to the invention, the filaments of the tubes are in series with one another in the heating circuit switched and with appropriate measurement of their ohmic resistance so with the grids of the tubes connected that the voltage drop in the filament of a tube or in a filament

ao thread series of several tubes is sufficient to -

from here calculated between the

Filament of the tube following the positive pole of the heating battery and the grid of this tube the required

s5 borrowed potential distance to be established immediately.

An embodiment of the invention is shown in the drawing. In Fig. Ι K ₁ , K ₂ , K ₃ denote the series-connected filaments of these tubes, the anodes ^ A ₂ , A _3, for example, connected in parallel, as well as the grids G ₁ , G ₂ , Gj, which have a Coil / are connected to the negative pole of the heating battery B ₁ .

The latter feeds the series-connected filaments via a small series resistor, which consumes around 2 volts and is used for regulation. The battery B _x has a voltage of about 14 volts and the energy loss in the resistor w is 6 watts with a current of 3 amps, that is, only about 14 percent of the usable power of the heating battery, which is a total of 42 watts. ·

The battery B ₂ is the AiJOdenbatterje, which is connected to the anode circuit of 4 tubes through the second coil / and the controllable capacity C ₁ . Through both coils / the grid circuit of the tubes is inductively coupled to the anode circuit and also to the antenna 6 ″, which is connected to earth at E _{and contains the controllable capacitance C 2} Closing the T button produces vibrations that are emitted by the antenna.

The required potential distance between the grid G _{2 of} the tube 2 and the cathode (filament) K _{2 of} this tube is determined directly by the voltage drop which arises in the filament K _{3 of} the tube 3, as is readily apparent. For this purpose, the grid G ₂ is connected to a point on the heating circuit which - calculated in the direction of the heating current - lies below the filament K _{3 of} the tube 3. Similarly poses

the combined resistance or voltage drop in the filament K ₂ , K _{3 of} the tubes 2 'undi 3 directly the required potential difference between the grid G ₁ and the' cathode K _{1 of} the tube 1. The potential gap between the grid and cathode is somewhat different in the various tubes, ^namely when the tube 3 is equal to zero, wherein: the tube 2 by a certain convenient size, with tube 1 even higher. In- | Following the first two _spoke: left tubes 1, 2, whose control grid, as will be required for this purpose, has a more negative potential than the most negative point (the right lead) cathode. As the experiment shows, the.: Tube 3 responds immediately - although it has no potential difference between K and G - by being carried away by the first two tubes.

- It is not necessary to put the grid G ₁ and Gj at the same point as the grid G ₃ , rather it is within the scope of the invention if, for. B. the grid G ₁ between the filament K ₂ and K ₃ , the grid G ₂ between: see the filament K ₉ and the battery B _{1 is} connected. Of course, a separate coil 7 would have to be placed in front of each grid. With this type of connection, the potential _{spacing between G 1} and K _{1 is} of the same size, more like that of G ₂ and K ₂ , provided that the filaments K ₂ and JC _{3 have the} same resistance. _{In order to make the potential distance between G 3} and K _s just as large in this case, a small counter battery can be placed in front of the grid G ₃ in the known manner. In Fig. 2, such an auxiliary measure is illustrated in an arrangement with only two tubes R ₁ , R _2. The filament K of both tubes are connected in series with the heating battery H B. The grid G of the tube, R ₁ is equal to ¹ is connected has just been said behind the filament K of the tube R ₂ (between this and the battery B _1), while the small counter-battery B ₁ ensures the correct potential spacing on the grid of tube R _2. B is the anode battery. The tubes are connected in cascade here, in that the currents to be amplified are first fed to the grid circle of tube R ₁ through transformer T ₁ , and the amplified currents from the anode circuit of this tube are transmitted through transformer T ₂ to the grid circle of tube R ₂ whose anode circle finally

the reinforced
handset H gives up.

Power to the receiving

Claims (1)

Patent claim: Circuit arrangement for generating and amplifying electrical vibrations with hot cathode tubes, characterized in that in order to avoid the otherwise the auxiliary devices used to generate the negative grid potential are those connected in series in the heating circuit The filaments are sized and connected to the grids of the tubes so that that the voltage drop in the filament of a tube or in a filament series of several tubes is sufficient to between following the filament to the positive pole of the heating battery Tube and the grid of this tube to directly produce the appropriate potential spacing, the anode and Lattice circles of the tubes each parallel or the former in a cascade with the latter can be switched. 1 sheet of drawings.