DE1078697B - Density controlled electron tubes for short and very short waves - Google Patents

Description

The invention relates to density-controlled electron tubes for short and very short waves with an at least essentially made of insulating material vacuum vessel, in which the central Place arranged cathode of at least one preferably grid-shaped control electrode and an anode is enclosed and at least one of the electrodes, in particular the control electrode and / or the anode, with an annular disk-shaped supply part for supplying and removing the High frequency is provided, each of these annular disk-shaped feed parts within the tube is arranged and rigidly connected to the electrode system, in which the further at least one other electrode, especially the cathode, and the heating voltage supply lines in the tube base Fused lead-through pins are led out and in which finally the stable bracket of the entire system lying within the vacuum vessel - including the annular disk-shaped Feed part (s) - takes place through feed-through pins arranged in the tube base.

A density-controlled electron tube for short and very short waves is already known in which the Electrode system from a centrally arranged cathode, which from a control grid and an anode is surrounded, is formed and in which both the control grid and the anode with im essential annular disk-shaped supply parts for supplying and removing the high-frequency energy are. The known tube is constructed in such a way that within the tube opposite the one (upper) The end of the electrode system is an annular metallic disc that is conductively connected to the anode is, and opposite the other (lower) end of the electrode system a corresponding metallic Disc which is conductively connected to the control grid is provided. The cathode is in the form of a round or rectangular tubular cathode mounted along the length of the tube and through the central Opening in the lower metallic disc connected to a lead-through pin in the tube foot. At the base of the tube there are also lead-through pins to which fixed auxiliary voltages, z. B. the heating voltage and the control grid bias voltage can be connected.

The high-frequency supply and discharge to the control grid or from the anode takes place in the known tube in a ring-shaped manner in that ring-shaped contact linings on the inside and outside of the cylindrical glass vessel wall of the tube, which each conduct vacuum-tight through the vessel wall are connected to each other, are provided, against which each other on the inside of the density-controlled electron tube
for short and very short waves

Applicant:

Siemens Sd Halske Aktiengesellschaft,

Berlin and Munich,
Munich 2, Wittelsbacherplatz 2

Hans Greger, Munich,
has been named as the inventor

.2

Vessel wall with its metallic disks, which are conductively connected to the control grid and the anode create outer edge. For this purpose, the metallic disks are on their outer edge with resilient tongues provided, which are annularly attached to the inside of the vessel wall metallized at this point invest. An outer ring is thus provided as the control grid or anode connection.

Although the known tube solves through the use of annular disk-shaped feed parts for The control grid and anode have the task of providing a high-frequency supply that is favorable for high or very high frequencies. to accomplish or discharge to the control grid or from the anode, but has the disadvantage that the capacitances between the electrodes caused by the supply or holding parts especially between the control grid and the cathode are impermissibly large for higher frequencies.

Fig. 1 shows schematically an embodiment of the known tube. At the top and bottom End of the tubular glass wall 1, on which the two pressed glass plates 2 and 4 are vacuum-tight with glass solder are attached, inner and outer metallizations 10 to 13 are attached, which over the end faces of the Glass tube 1 are conductively connected to one another in pairs. On the upper pressed glass plate 2 is the Pump tube 3. The electrode system, which consists of the tubular cathode 14 of rectangular cross-section, the control grid 15, which is designed as a tension grid and the grid holding rods 20 has, and the box-shaped anode 16 is made. These electrodes are through the Mica disks 7 and 8 supported at a certain distance from one another. At the top of the Anode 16 are metallic lugs 17 on which the annular disk-shaped anode supply part

909 768/338

18 is attached. The disk 18 has resilient tongues 19 which rest against the inner metallization 12. At the lower end of the electrode system is the annular disk-shaped control grid feed part 21 with the extended lattice retaining rods 20 by means of riveting 28 conductively connected. The disc 21 has also resilient tongues 22 which rest against the inner metallization 13. To hold the entire System, the control grid supply part 21 is provided with spacer wires 29 which are attached to the base pins 6 are welded on. The cathode or heating voltage connections are on the base pins 5 attached. The figure clearly shows that the spacer wires 29 and the associated base pins 6 depict elements that increase control grid cathode capacitance. The dash-dotted line Straight represents the line of symmetry.

The invention was therefore based on the object, the harmful capacities, in particular between Control grid and cathode, decrease.

The essential feature of the density-controlled electron tube according to the invention is that between the tube base and the end face of the electrode system opposite the tube base one of bushing pins, which are used for holding, stably held, essentially annular disk-shaped formed intermediate piece made of insulating material, with which the electrode system, preferably rigidly connected via one of the annular disk-shaped feed parts, attached in this way is and the intermediate piece holding bushing pins are arranged so that the Capacity between the electrode leads, in particular between the control grid and the cathode lead, is significantly reduced.

In the case of the tube according to the invention, the electrode system is not attached directly to feed-through pins which are located in the tube base, but between the tube base and the z. B. annular disk-shaped control grid feed part is located an annular disc made of mica, ceramic or a similar insulating material. These Disk made of insulating material can be fastened at two points to one lead-through pin end be, while at two other, preferably -by 90 ° to this offset the electrode system Via the annular disk-shaped control grid feed part by means of intermediate links on the Washer made of insulating material is attached. These links can be made of conductive material, if their distance from the feed-through pins is large enough to avoid damaging capacities. When using a disk made of mica one still has the advantage that this material is relatively large limits is flexible, so that even in the case of inaccuracies in production, an oblique insertion of the electrode system in the glass bulb is automatically corrected. The outer edges of the mica disk can also be used for suspension to the individual resilient tongues of the annular disk-shaped The control grid supply part is also pressed against the metallized glass wall. if when the system is glowing, the spring force of the resilient tongues of the control grid feed part decreases and as a result, there is a risk that the contact between the tongues and the glass wall metallization will deteriorate, the mica disk provides the necessary contact pressure for the tongues.

The invention will be explained in more detail with reference to FIG. This figure shows an embodiment in its essential for the invention Share. The same parts as in FIG. 1 are given the same reference numbers.

The tube of FIG. 2 is very similar to the known tube of FIG. However, it is different from the known embodiment in that between the electrode system 14, 15, 16 and the lead-through pins 5, 6 an annular disc-shaped intermediate piece in the form of a mica disc

ίο 23 is provided. The mica disk 23 is on the one hand with two intermediate links 24 (only one of the intermediate links is visible in FIG. 2) on the disk 21 and on the other hand attached to the two lead-through pins 6 with the hollow rivets 25 and 26. The fortifications by means of the intermediate members 24 and by means of the hollow rivets 25 and. 26 are at right angles to each other. Furthermore, to reduce the control grid cathode capacitance, the distance to the Grommet made larger by that

so the mica disk 23 at a distance above the end faces the leadthrough pins is arranged.

As can be seen from FIG. 2, the outer edges of the mica disk 23 are slightly curved. the resilient outer edges of the mica washer are used

as to the individual resilient tongues 22 of the The control grid feed part 21 is also pressed against the glass wall 1. It is also possible solder the resilient tongues 19 and 22 to the metal coating 12 and 13 in the interior of the tubular piston.

A vacuum technology is expediently used for soldering flawless solder with a low melting point used. For example, indium-gold alloys can be used or the like can be used. When the tube is glowing, the melting temperatures reached for the solder and thereby carried out the soldering.

Claims (4)

Patent claims: 1. Density-controlled electron tube for short and very short waves with at least one im Essentially made of insulating material, the vacuum vessel is arranged at a central point Cathode of at least one preferably grid-shaped control electrode and an anode is enclosed and at least one of the electrodes, in particular the control electrode and / or the anode, with an annular disk-shaped feed part for feeding and discharging of the high frequency is provided, each of these annular disk-shaped feed members within the tube is arranged and rigidly connected to the electrode system, in the further at least one other electrode, in particular the cathode, and the heating voltage feeds are led out via feed-through pins melted into the tube base, and in the Finally, the stable mounting of the entire system lying within the vacuum vessel - Including the (s) annular disk-shaped feed part (s) - through in the tube base arranged lead-through pins takes place, characterized in that between the tube base and the end face of the electrode system opposite the tube socket one of feed-through pins, which serve as a holder, stably supported, essentially annular disk-shaped formed intermediate piece made of insulating material, with which the electrode system, preferably is rigidly connected via one of the annular disk-shaped feed parts, is attached in such a way and the lead-through pins holding the intermediate piece are arranged so that the capacitance between the electrode leads, in particular between the control grid and the Cathode feed, is significantly reduced. 2. Tube according to claim 1, characterized in that the intermediate piece of an annular Disc is formed from mica, ceramic or a similar insulating material. 3. Tube according to claim 2, characterized in that the disc made of insulating material two points each attached to a lead-through pin end and that the electrode system, preferably via the annular disk-shaped control electrode supply part, at two other points, preferably offset by 90 ° with respect to this, by means of intermediate links on the pane Insulating material is attached. 4. Tube according to claim 2 or 3, characterized in that when using a mica disk as an intermediate piece this is designed so that its outer edge that on the outer edge of an annular disk-shaped Electrode feed part attached contact tongues in addition to a metallized serving as a high-frequency connection Wall part of the vacuum vessel springs. 1 sheet of drawings © .909 768/338 3.60