DE363914C - Electron tubes - Google Patents

Description

GERMAN EMPIRE

ISSUED NOVEMBER 14, 1922

REICH PATENT OFFICE

PATENT LETTERING

- JVl 363914 - CLASS 21 g GROUP 11

(H ₇₃ X ₃₃ VIIIl ₂ Ig)

Dr. Erich F. Huth G. m. B. H. in Berlin.

Electron tube. Patented in the German Empire on November 14, 1917 .

The present invention relates to a special design of the hot cathode Vacuum tubes. The invention. Consists in the fact that the hot cathode is not by a from the outside, but in itself by induction generated electricity to the Glow is brought.

The Fig. Ι shows in an exemplary embodiment how this can be done.

ι is the glass vessel of the vacuum tube. In the same is the hot cathode 2, for example a grid 3 and an anode 4. The cathode is made as a ring, for example Tungsten wire. The iron core 5 protrudes into the interior of the tube, which is excited by the coil 6 with alternating current of, for example, 500 periods. As a result The transformer action induces a strong current in the short-circuit ring of the cathode, causing it to glow

3 (53014

brings. The regulation of the glow effect can be achieved by changing the strength of the Current or by pushing in the core more or less strongly. Instead of the use of 500 periods can of course also use alternating current any other frequency can be used. If you switch to using high frequency, the iron core can be dispensed with. There will then be a small one in place of the core Coil brought into the interior of the cathode ring. Instead of a ring you can of course a circular ring, short cylinder or disk can also be used. In the latter In this case, the cathode in FIG. 2 is advantageous when using high frequency brought the proximity 'of the wall of the housing and the induction coil 7 designed as a flat coil. It is also possible to insert the induction coil for heating into the interior of the Bringing in the vacuum vessel itself, but the same is also useful in this case completely enclosed with glass in order to achieve the required high vacuum.

The main advantage of the inductive heating method is that in the cathode no annealing stress occurs. As is well known, this tension has the disadvantage of a continuous flow of thermions from part of the filament to the to cause others (Edison effect). Second, however, are caused by these tensions electrons of different speeds are generated, which are not evenly influenced by the grid which reduces the effect of the tube.

Another major advantage of inductive heating is that cathode shapes can be used, which would require very strong currents for heating. It is now known to be very difficult to make durable melts for high currents. This difficulty is avoided on the way of the present invention, since the melts only increase the operating current, but not the heating current have lead.

The arrangement shown in Fig. Ι has been shown to be particularly favorable which the iron core protrudes far into the interior of the tube and even into the interior is guided by the grid and anode. The grid is intended as a spiral grid. The anode sheet is slotted so that harmful heating of these parts does not occur. When using high frequency electricity for heating the cathode, it is convenient to use a small spark system from the alternating current source 'known type' to excite, which generates the required high frequency current.

As is well known, the power generated by induction in a closed conductor is greatest when the number of periods is chosen such that the inductance If the body becomes equal to its internal resistance, then the pause is the self the resulting dimensions are important. It is easy to do the cathode body like this dimension that the stated condition is achieved for each desired frequency.

Claims (6)

'Patent claims: 1. An electron tube, characterized in that the hot cathode under \ ^r ermeidung a direct current feed is heated by the Röhremwand by induction from the outside. 2. Electron tube according to claim 1, g _0, characterized in that a medium-frequency alternating current in the order of magnitude of 500 periods is used for heating, which magnetizes a divided iron core passed through the cathode in a manner known per se. 3. Electron tube according to claim r, characterized in that a high-frequency _{alternating current g 0} is used for heating, which is generated for example by means of a separate small spark system, the induction by ironless; . ■ coils at did cathode is conveyed. 4. Electron tube according to claim 1 to 3, characterized in that the Cathode is designed as a disk, with a flat coil as close as possible for the purpose of heating by high frequency of the cathode will. 5. Electron tube according to claim 1 to 4, characterized in that for the purpose Achieving the most favorable effect possible, the resistance of the short-circuited Cathode is equal to its inductance at the rotation number used. 6. Electron tube according to claim I to 5, characterized in that the Iron core or, at high frequency, the inducing coil in the grid and the The anode is inserted, with the appropriate subdivisions damaging Eddy currents are avoided. 1 sheet of drawings.