DE1171091B - Especially designed like a triode discharge system for very high frequencies - Google Patents

Description

In particular, a discharge system designed in the manner of a triode for very high frequencies The invention relates in particular to a triode type built up 'discharge system for very high frequencies, preferably for frequencies in the decimeter range.

In tubes for the frequency in question area, the terms of the electrons are already playing a significant Pulley and it is necessary that Elektrodenabstänfi, 'ie in particular the spacings between cathode and grid and reduce between grid and anode auUein minimum. The capacities and inductances given by the other parts of the system also have the effect of reducing the desired frequency range, so that it is equally necessary to reduce the inductances and capacities of the other system and supply line parts to a minimum.

To reduce the grid-anode capacitance of such a tube, it is known to depress the anode in the electron-optically% # irlc'samen (i.e. active) area in the direction of the cathode, in order to thereby achieve the desired small grid-anode distance to be observed. An optimal reduction of the damaging tube capacities and inductances is not yet possible with this construction.

In a particular - constructed in the manner of a triode discharge system for very high frequencies, preferably -for frequencies in Dezimetergebiet, with a band-shaped, semi-active cathode and a plane parallel to the cathode active anode member having a substantially smaller distance from dpr cathode comprises than that (the ) The remaining part (s) of the anode, to achieve a further increase in the frequency limit, according to the invention, the anode is formed by a cross-sectionally Z-shaped angle piece, the two arms of which have surfaces of significantly different sizes and which are designed and constructed in this way it is arranged that only the small-area arm forms the active anode part, whereas the large-area arm serves as an additional heat radiation surface as well as a supply line for the small-area arm, furthermore only tabs are provided on the upper and lower edge of the large-area arm for fastening the anode, and furthermore is a single one, at the lower edge of the large area Arm attached fastening tabs formed over a large area in such a way that it - extending at least substantially parallel to the anode - reaches close to the melt-in pearl of the lead-through conductor belonging to the anode at the base of the tube and is connected to this lead-through conductor with its free lower end in an electrically conductive manner. Is obtained in this manner, a discharge system in which the active for the discharge portion of the anode (active anode component) and hence also of the particular for the harmful capacity: DERS significant part of the anode or the anode body fr 'ei floating the other electrodes of the electric locomotive -trode system is opposite. Sufficient heat dissipation from the active anode part is achieved by the large-area sheet metal arm attached to it, which simultaneously serves as a supply line for the active anode part and the clamping (holder) of the anode between the insulating washers, which are preferably made of mica.

Such a structure makes it possible, above all, the harmful capacities, 'in particular also 'the so-called wraparound capacities, with a possible reduction in size at the same time the distance between the anode and the grid to be reduced to a sufficient level.

In the construction according to the invention, it is advisable to use the large-area To hold the arm of the anode body with a total of only three lobes in the insulating washers. The three lobes, of which two lobes through the upper insulating washer and one (large-area) rags are passed through the lower insulating washer a firm hold of the anode body between the insulating washers and secure the Anode body at the same time against possible rotation.

Due to the large-area anode arm and the large-area leading down of the lower fastening tab up to the bead belonging to the anode A lead-through conductor at the base of the tube also results in a significant reduction in inductance the anode lead.

An embodiment of the invention is shown in the drawing. F i g. 1 shows an electrical discharge vessel in longitudinal section, only the parts essential for the invention being shown; F i g. Figure 2 shows a cross-section of this tube below the top mica disk of Figure 2 . 1 , while in FIGS. 3 and 4 show a view and a top view of the anode body which is embodied in an angular shape.

The tubular piston is denoted by 1. In these tubular flasks, the electrode system, which is held between the mica disks 2 and 3 , is used in the usual way. The periphery of the mica disks is serrated in a known manner (not shown further in the figures), so that a firm hold is ensured after the electrode system has been inserted into the tube piston. The band-shaped cathode 4 (flat cathode) is clamped between the two mica disks 2 and 3. Furthermore, the lattice webs 5 , on which the lattice windings 6 wound from very thin wire are applied, are held in a fixed manner in the mica disks. The cathode is pasted on only one side. The anode is, as shown in FIGS. 2 to 4, designed as a Z-shaped angle piece. It consists essentially of the two sheet metal arms 7 and 8, the former of which is used to clamp between the two mica disks 2 and 3, to dissipate heat from the active anode part 8 and as a feed line for the active anode part. The anode part 8 lies opposite the pasted side of the cathode 4 in a plane-parallel manner. The anode is held in the upper mica disk 2 with the help of the two tabs 10 , and in the lower mica disk with the aid of the large-area tab 9, which is designed so that it reaches close to the melt-in bead 13 of the lead-through conductor or tube pin 14 belonging to the anode . The lower end of the tab 9 is welded to the conductor 14 passed through the bead 13.

, In the illustration according to FIG. 1 , a strut 11 is also shown, which on the side approximately axially symmetrically opposite from the anode sheet 7 defines the distance between the two mica disks 2 and 3. In the vicinity of the upper mica disk 2, this strut also has a section to which the holding part for the getter pill 12 is attached. The construction of an electrode system according to the invention makes it possible to go up particularly far with the frequency limit, i. H. a triode with the features according to the invention also enables particularly high frequencies to be amplified.

Claims (1)

Claim: Discharge system especially constructed in the manner of a triode for very high frequencies, preferably for frequencies in the decimeter range, with a band-shaped cathode active on one side and an anode part that is active in planar relation to the cathode and which is at a significantly smaller distance from the cathode than the remaining part (s) of the anode, d a d by g e - indicates that the anode is formed by a cross-sectionally Z-shaped angle piece, the two arms of which have surfaces of considerably different sizes and which is designed and arranged in such a way that that only the small-area arm forms the active anode part, whereas the large-area arm serves as an additional heat radiation surface and as a supply line for the small-area arm, that furthermore only tabs are provided on the upper and lower edge of the large-area arm to attach the anode and that a single one , on the lower edge of the large arm attached to the large area ig is designed so that it - at least substantially parallel to the anode - extends right up to the melt-in bead of the lead-through conductor belonging to the anode at the base of the tube and is electrically conductively connected to this lead-through conductor with its free lower end. Contemplated references: French Patent No. 1,114,825;. "Telefunkenzeitung", December 1958, p. 262ff .; Telefunken tube communication for industry No. 570 926 (from September 15, 1957). Older patents considered: German Patent No. 1081975.