DE586084C - Arrangement for the constant frequency coupling of amplifier stages - Google Patents

Description

Arrangement for the constant frequency coupling of amplifier stages The The invention relates to a frequenzkonstant.e coupling of the circles of screen grid receivers.

It is known that with the usual coupling of the screen grid tube stages the gain tends to increase at higher frequencies, so that it increases at very becomes easily unstable at high frequencies. In contrast, by the present invention the gain can be kept constant for all frequencies. To achieve this Aim, circuits have already become known in which a plurality of coupling elements, both inductive and capacitive in nature. The disadvantage of these arrangements is that 'the success achieved to a large extent from the effort depends on circuit elements and that to achieve a really constant gain the effort must be made very carefully.

It is the object of the present invention to achieve the same goal with much to achieve simpler means by applying a constant inductive and a variable capacitive coupling, the latter by corresponding Formation of the capacitors is achieved.

The invention is shown in the drawing in two circuit diagrams. _ In Fig. I, A is the antenna that is grounded at G and connected via transformer i the screen grid height 3 is connected. The anode of this tube is from the source B through the primary winding q. of the transformer 2 fed, which has a constant inductive Coupling between the anode circuit of 3 and the input circuit of the overlying Screen grid tube 40 results.

To achieve the additional, variable capacitive coupling, the capacitance between the last stator plate io and an additional auxiliary plate ii is used according to the invention, which is connected by a line 12 to a point 13 of high voltage in the anode circuit of the tube 3. The stator plate io is connected together with the other stator plates io 'of the variable capacitor 15 by a line 16 to a point 17 of high voltage in the lattice circle of the tube 40. The rotors i8 of the variable capacitor 15 sit on a common conductive shaft 2o, which is connected by a line 21 to the cathode of 4o.

The rotor plate 18 'lying between the stator plates lo and il changes the capacitance between lo and il, being naturally these two plates are separated from one another by an insulating intermediate piece 22. So if the If the input is changed from 40, the capacity will be changed at the same time Changed between plate i i and output of 3 and plate lo.

In Fig. 2 the electrical equivalent of the invention is shown, which is applied in Fig. I. L and N are the leakage inductances of the two windings 4 and 5 of the transformer: 2 and M are the mutual inductance between these two windings. The tubes 3 and 4o are drawn in their correct position, while the other parts of Fig. I are omitted for the sake of simplicity. Parts K, T, and C will be discussed later.

Assuming that the mutual inductance M is chosen so that the desired gain would result at a long wavelength, then the capacitance C is practically negligible because of the shielding effect of the rotor plate 18 'and the capacitance K is too small to be disturbing. If the system is now set to a high frequency, the gain would be so great that it would be uncontrollable if the capacitance C remained unchanged, as a result of the stronger magnetic coupling; however, by increasing the capacitance C, a coupling of opposite phase is increasingly introduced, whereby the coupling caused by the mutual inductance 111 is partially canceled.

Correct dimensioning of the capacitance C increases the gain reduced to the desired value, namely, the larger C must be, the smaller it is the scattering inductivity is L. Correct design of the auxiliary plate i i can it can be achieved that the capacitance C when rotating the shaft 2o is in the correct Way changes. It should be noted that when the rotor plates 18 are entirely within the Stator plates lo 'lie, the auxiliary plate il shielded from the stator plate lo so that the capacitance is approximately zero. The size of the capacitance K between the plate i i of the stator and the plate 18 'of the rotor are variable; This is but without any noticeable influence on the mode of action.

Claims (1)

PATENT CLAIM: Arrangement for frequency-constant coupling of the output circuit an amplifier stage with the input circuit of the next one in use an inductive coupling and a capacitive negative coupling between the two circuits, characterized in that the capacitive negative feedback by an opposite of the the last stator plate of the tuning capacitor of the input circuit is effected with a corresponding edge curve, the capacitance of which compared to the stator plate is changeable with the vote.