DE561912C - Circuit for gain control and balancing in push-pull amplifiers - Google Patents

Description

The invention relates on the one hand to push-pull amplifiers, both for low frequency as also for high frequency currents or voltages, and on the other hand a circuit with which regulates the intent in a simple way and the push-pull correctly symmetrical can be adjusted. According to the invention there is a variable for this purpose Resistance through which the anode current flows in a manner known per se, and its tap point with the cathode point is connected, the gain of both tubes of a push-pull stage can be controlled together by setting the tap, and furthermore, the bias is at least one of the two on this or on one with it Series-connected resistor grid to balance the push-pull stage by means of a tap

ao adjustable.

The invention is illustrated in the drawing, for example.

In the figure, 1 and 2 are two three-electrode tubes connected in the usual way in push-pull designated. The grids 15 are fed by transformers 3 and 4, which in reality do not have to be separated as shown in the figure need, but can form a single push-pull transformer. The secondary windings the transformers 3 and 4 are connected to the cathodes 14 via capacitors 16 and 17 and these via the resistors 8 and 5 connected to the negative pole of the anode power source.

With the help of the sliding contact 9, part of the resistor 8 can be short-circuited, this allows the grid bias to be any desired value admit. The secondary windings of transformers 3 and 4 are via resistors or self-inductions 13 and 12, respectively, are connected to points 7 and 6 of resistor 5. In the illustrated embodiment, point 7 can be changed, while point 6 is fixed.

This facility serves to correct any inequalities in the two three-electrode tubes balance, because if no special measures are taken, it often happens that the direct current of the two three-electrode tubes of a push-pull circuit is different. By a small one Shifting the sliding contact 7 can be

*) The patent seeker stated as the inventor:

Popko Reinder Dijksterhuis in Eindhoven.

easily compensate for a difference between the direct current in one three-electrode tube and that in the other, so that a balanced push-pull circuit is achieved. The equality of the direct current in the two three-electrode tubes can be e.g. B. monitor in such a way that one inserts a milliammeter in each of the two anode circuits.
ίο A high resistance 11 is connected between the negative pole of the anode power battery and the sliding contact 7. This has the effect that if the sliding contact 7 is not in contact with the resistor 5 at a given moment, the grid of the one three-electrode tube is nevertheless not insulated, which could lead to strong undesirable voltage changes.

It goes without saying that point 6 ao can also be made changeable. In this case is also between this point and the negative pole of the anode battery to switch high resistance, which is effective in a manner similar to that of resistor 11 is. The resistors or self-inductors 12, 13 and the capacitors 16 and 17 are especially important when the anode current is supplied by an anode voltage device will. These elements then act as a 3D filter and suppress them if necessary existing alternating voltages that can cause a buzz.

The resistor 8 is also in such a way

switched that once the sliding contact 9 is not in contact with the resistor 8 stands, the connection between the anode power source and the cathode 14 is not interrupted will.

It can be seen that the resistors 5 and 8 need not be separated, but rather can be united into one unit.

Claims (3)

Patent claims: i. Gain control circuit * 5 and balancing in push-pull amplifiers, characterized in that on a variable resistance through which the anode current flows in a manner known per se and its tapping point. connected to the cathode point, the gain of both tubes by adjusting the tap Stage can be regulated jointly and that, in addition, the bias of at least one of the two on this or on one grid connected to it in series with a resistor for balancing the push-pull stage can also be set by means of a tap. 2. A circuit according to claim 1, characterized in that between the or the variable grid taps and the negative pole of the anode power source. two high-resistance bridging resistors are switched on. 3. A circuit according to claim 1 and 2, characterized in that the cathode point is connected not only to the tap point, but also to one end of the resistor used for gain control. 1 sheet of drawings