DE637392C - Unloading tubes with variable access - Google Patents

Description

The invention relates to the structural design of the electrode system of a discharge tube and in particular measures to reduce ring sensitivity. The invention is based on the fact that tubes with variable penetration (exponential tubes), which in amplifier stages can be used to regulate the gain, with increasing negative grid bias an increased Have a tendency to sound. This behavior can be explained as follows:

In the case of a larger negative grid bias, an electron flow occurs only at those points from the cathode to the anode, on which the control grid is wide-meshed. So the entire electron flow runs in a relatively narrowly limited current path. Because of this you can now individual turns of the grid electrodes following the grid with variable penetration, z. B. a screen or grille, a sharply defined in a displacement caused by a shock Exert tax influence. This mechanical controllability manifests itself as an increased tendency to ring and with a narrowly limited current path it is much larger than in the normal state (i.e. with a lower grid pretension or with grids wound with a uniform pitch), because in the normal state A compensation occurs over the many grid windings lying in the current path.

Attempts have been made to combat the tendency to ring by making the lattice windings stiffened against each other with the help of longitudinal bars. This measure proves itself in this respect disadvantageous than the current distribution between the subsequent electrodes, z. B. between Screen grid and anode, is adversely affected.

The subject of the invention is such a structural design of the electrode system, that a full sound security without noticeable deterioration of the current distribution is achieved. According to the invention in terms of current permeability and of the penetration inhomogeneous grid electrode made of two preferably semi-cylindrical Halves assembled, of which only one half is inhomogeneous, and there are stiffening struts on the further grid electrodes surrounding this grid electrode provided only over the inhomogeneous part of the former.

In the case of a tube with variable penetration, it does not matter which one Place the inhomogeneous grid electrode the current permeability is made greater. With the currently usual structure of the electrode system, in which the

*) The patent seeker stated as the 'inventor:

Dr. Karl Steimel in Berlin.

If the control electrode equipped with a large penetration is supported by two retaining struts, it is possible to make the gaps, which provide the discharge path with a large penetration, only on one side of the grid surface. One can be satisfied with the measures used to avoid pipe clinking on this side, e.g. B. the attachment ίο of stiffening struts to the grids surrounding the control electrode to meet. In this case, the current distribution is only worsened to a much lesser extent than in the previously customary embodiments in which the control grid was designed inhomogeneously over the entire circumference and the arrangement of stiffeners on both sides of this grid electrode was necessary. In the drawing, an embodiment is shown in two projections. It means K an indirectly heated cathode, G the control grid with variable penetration, S a screen grid, F the catching grid and A the anode. The control grid is supported by two retaining struts H ₁ , h ₂ . The variable penetration through this electrode is produced in that gaps in the lattice winding are provided at the points marked L. The production of such gaps is possible in various ways, for example by pinching off individual turns of the grid. However, it has also already been proposed to produce these gaps by inserting a dome between the grid wires. According to the invention, the gaps are made only on one half of the control grid G, while the other half remains wound homogeneously. The electrodes surrounding the control grid are carried by support wires Zz ₈ to U ₈ . These are expediently arranged in the same plane as the retaining struts Ji ₁ , h ₂ , to which the control grid is attached, because in this case the least disruption of the discharge process occurs. The grounds of the Kling removing it may appear necessary to equip the control electrode surrounding lattice with further reinforcements to a mechanical movement of the .Gitterwindungen fflfjä'den against each other and gegenjiiber the turns of the other Gitterelek- "■ avoid. Advertising According \ φ £ χ- such additional stiffeners only on that side intended to lie on which the gaps of the control electrode. for example, stiffening the catch grid F st by a strut. the arrangement of similar braces on the other side of the catch grid is unnecessary because homogeneous there penetration ratios prevail and thus a mutual displacement of the grid windings is unable to exert any noticeable control influence.

From this it follows that 6g the use of one only on one side inhomogeneously wound control grid is of particular advantage in all those cases, where special measures have to be taken to eliminate the pipe ringing.

Claims (2)

Patent claims: i. Discharge tube with variable penetration, characterized in that that grid electrode (G), the current permeability or penetration of which is variable along the cathode, consists of two preferably semi-cylindrical halves, one of which is homogeneous and the other inhomogeneous, and that on one or more of the further electrodes surrounding the inhomogeneous grid electrode (G) apart from the holding struts Qi ₃ to h ₆ ) _{lying in the same plane as the holding struts (Zt 1} , h ₂ ) carrying the inhomogeneous 8g electrode (G), additional stiffening means, e.g. longitudinal struts (st), are only arranged over the inhomogeneous part of this electrode. 2. Discharge tube according to claim i, characterized in that the additional Stiffening means made of parallel to the cathode and with the grid turns welded wires. 1 sheet of drawings