DE670925C - Amplifier arrangement for ultra-short waves - Google Patents

Description

The invention relates to an amplifier arrangement, in particular a push-pull arrangement, for ultra-short waves. It is known that difficulties arise with such tube circuits th on the one hand as a result of the internal feedback between the various electrodes and on the other hand because of the impedances of the electrode leads.

As is well known, neutralization capacities are seen to eliminate the first difficulty which, however, are not sufficient at very high frequencies. Even screen grid tubes become unstable at high frequencies. It is also known to have a coupling between Combat the input and output circuit of a tube by placing the septum between two adjacent departments of the device, one of which is the entrance and the others contains the output circle, is designed as a cylindrical screen, which the Enclosing tube. In push-pull circuits one also has the reaction of the anode circuit tries to reduce the grid circle by connecting the grid of the tubes directly to one another or grounding them while the input circles on the side of the not directly to each other connected cathodes. There are also known tubes with focused discharge and cross-field control and work between the anode and the control plates Screen grid included, which is attached to an annular metallic part of the vessel wall is attached. A flat screen is attached to this metal ring, which at the same time serves to supply a positive potential to the screen grid; over a connection however, nothing is known of this screen with the housing. Finally, I should mention that tubes are known whose electrode connections consist of metal rings which form parts of the vessel wall and with the leads by clamping devices, e.g. B. clamps are connected. According to the invention, it is used in an amplifier arrangement, in particular a push-pull amplifier arrangement for ultra-short waves in which the control grid (s) of the tube (s) are high-frequency grounded and connected to each other in the case of a multi-tube arrangement and in which the input voltages the or the cathode (s) and the output voltages at the or the anode (s) are taken off, tubes with a flat control electrode supported by a metal ring that forms part of the tube wall carried with an outwardly protruding flange-like extension is provided, and fixes the tubes by means of these flanges in appropriate

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cut a metal wall enclosing the interior of the assembly Metal housing divided so that the input and output circuit on different sides of the Metal wall lying.

The invention is explained in the drawing in two figures:

Fig. Ι shows an embodiment of the tube, Fig. 2 a push-pull circuit with two ίο tubes according to fig. i.

The tube T according to. Fig. Ι consists of two cylindrical halves ι and 2, which at the ends 3 and 4 by the invagined Parts (glass feet) 5 and 6 are closed and their open ends 7 and 8 in one Metal ring 10 are used. This ring merges into a flange 12 with bolt holes 14, by means of which the tube is fixed in the device. In the central opening The grid 16 is attached to the ring. The cathode 18 sits in the glass base 5 of the one tube half and the anode 20 in the glass stem 6 of the other tube half. if the flange 12 is inserted into a corresponding cutout of a metal screen, is electrode 18 from electrode 20 through grid 16 and flange 12 in FIG shielded to a high degree.

The circuit according to Fig. 2 contains two such tubes T and T ₁ . Each tube is fastened by means of its flange 12 or 12 'to a metal wall 22 which divides the screen housing 24 into two parts. The transformers 26 and 26 'with symmetrical secondary windings are used to heat the cathodes. +0 The high frequency input voltages; are fed to the spool I through the spool 21. The bias voltage, which keeps the cathodes at the desired working potential with respect to the grids, is obtained in that the center point of the coil I is connected via a line 28 to one pole of a bias voltage source BP , the other pole of which is connected to earth G. The anodes 20, 20 ^y are connected to one another via an oscillating circuit TC consisting of the variable capacitor C ₂ and the coil 20. The vibrations occurring in the circuit TC are fed to the useful circuit through the coil 32, which is inductively coupled to the coil 29. The supply voltage is fed to the anodes through a line 31 which is connected on the one hand to the center point of the coil 29 and on the other hand to the positive pole of the battery 34, the negative pole of which is grounded. So that no high frequencies can enter the heating current source from circuit 30, the secondary winding halves of transformers 26 and 26 'are bridged with capacitors 11, 13 and 15, 17. The grid bias source BP and the anode voltage source 34 are bridged _{by capacitors C 3} and C _{4, respectively.} The grids of the tubes T, T ' are kept at a constant potential which is lower than the cathode potential, e.g. B. is equal to the earth potential. The cathodes 18 and 18 'oscillate at the ultra-high input frequency.

Because of the lower potential of the grids compared to the cathode or because of their Earthing gives you an extremely stable working. Furthermore, through the special Arrangement of the tubes according to Fig. 2 not only their cathodes and anodes against each other shielded to a high degree, but also the input and output circuits are electrically decoupled. ■

In practical operation it has been found that spurious oscillations of undesired frequency are largely avoided and that a high degree of gain is achieved.

The circuit according to Fig. 2 can also be used for frequency multiplication, whereby the anodes are connected in parallel or in push-pull.

Claims (1)

Claim: Amplifier, especially push-pull amplifier arrangement for ultra-short waves, in which the control grid (s) of the tubes is high-frequency grounded and in the case of multi-tube arrangements are interconnected and where the input voltages of the cathode (s) and the output voltages are taken from the anode (s)., characterized by the use of tubes with a flat control electrode, which is carried by a metal ring forming part of the tube wall with an outwardly protruding flange-like extension is provided, and the fastening of the tubes with the help of Ho the flanges in corresponding sections of a metal wall, which the Interior of a metal housing enclosing the arrangement divided so that The input and output circles are on different sides of the metal wall. 1 sheet of drawings