DE609329C - Circuit arrangement for amplifier tubes heated with alternating current - Google Patents

Description

In order to reduce the background noise as much as possible in the case of amplifier tubes heated with alternating current, the grid and anode circuits are connected to the electrical center point of the cathode produced by balancing resistors. It has already been known to use complex resistors as balancing resistors. Since the asymmetries that the interference voltages cause are not ohmic or capacitive, but rather complex, much better effects can be achieved with complex resistors than with purely ohmic, inductive or capacitive resistances.
In many cases it is important, in particular, to keep the harmonics of the heating current away from the filament circuit. While the basic frequency of 50 periods can still be removed from the speech circuits retrospectively by special screening means, this is not possible with the harmonics, since these already fall within the speech frequency band. It is particularly important to keep the harmonics away for AC-heated Veras stronger tubes, the filaments of which are connected in series and which are fed from shared grid and anode batteries. In such cases, undesirable couplings between the individual tubes can very easily occur.

According to the invention, complex harmonics are eliminated on the network frequency matched balancing resistors are used. There is then the possibility of the condensation of the symmetry resist- would have to be dimensioned in such a way that they only have a very low level of harmonic harmonics Oppose resistance and practically short-circuit the filament for these frequencies. By tuning the complex resistance, which is designed as an oscillating circuit on the network frequency is prevented that a shunt occurs for the network frequency. The idea of the invention can be applied to both directly and indirectly heated tubes. It is also irrelevant whether the anode and grid circuit are connected to separate balancing resistors or connected to the same resistor.

In order to avoid annoying tones it has become known to the network connection circuits Heating transformer by connecting a capacitor in parallel to the secondary winding on the To match the grid frequency. This vote ensures that for the basic frequency of the alternating heating current, a high voltage is present at the ends of the secondary winding. Albeit on this one If it is possible to partially keep the harmonics away from the filament in relation to the fundamental wave, this will be done away with achieved by the switching measures according to the invention to an increased extent. As a result of the relatively large inductance of the heating transformer is in the known circuit the parallel capacitor required for tuning to the fundamental frequency small so its resistance

cannot form an effective short-circuit for the harmonics. When switching to According to the invention, the complex balancing resistor consists of one on the fundamental wave tuned oscillation circuit. Since it is possible to use the inductive Keeping part of this resistance small can be used for voting in this circuit a relatively large capacitor can be used on the fundamental wave. The resistance this capacitor is then small for the harmonics compared to the resistance of the filament, so that in this circuit a substantial interference elimination can be achieved.

In the circuit according to the invention, the harmonics contained in the alternating heating current can be eliminated in a much more perfect manner than with the known circuit.
In the two Fig. Ι and 2 are execution

'- Shown examples of the inventive concept. In Fig. Ι the existing of the two inductors L and the two capacitors c is connected between the filament ends of the amplifier tube V complex resistance. The input and output circuits of the amplifier tube are connected to the symmetry point P together. The heating takes place via the transformer T from the alternating current network N. The parallel oscillation circuit L, C is tuned to the network frequency and consequently forms a very high resistance for this. The size of the capacitors is chosen so that the harmonic harmonics of the mains current flow for the most part through the capacitors and not through the filament of the tube.

FIG. 2 basically shows the same circuit diagram as FIG. The only difference is that the input and output circuits are connected to two separate balancing points P ₁ and P ₂ in order to prevent the output circuit from being fed back to the input circuit.

Claims (1)

Claim: Circuit arrangement for amplifier tubes heated with alternating current, in which A complex symmetry resistor is switched on between the filament ends is, characterized in that the complex balancing resistor as a parallel oscillation circuit is designed and matched to the fundamental frequency of the alternating heating current and that the filament ends bridging capacitors of the balancing resistor are dimensioned so that their resistance for the harmonics of the alternating heating current - is small compared to the resistance of the filament. For this purpose ι sheet of drawings