DE864888C - Circuit arrangement for automatic level control - Google Patents

Description

Arrangements are known in which for automatic level control a continuously transmitted control frequency is used in transmission systems, by whose Level fluctuations. the regulating organs, e.g. B. Motor controller, NTC thermistor or the Grid voltage can be controlled by regulating tubes.

The invention relates to a circuit arrangement for automatic Level control; which is also a constantly transmitted control frequency as the regulating Size and an NTC thermistor used as a regulating element.

The current-voltage characteristic of such a hot conductor is shown in Fig. R shown. As can be seen, the voltage remains within a certain range U at the thermistor is practically constant regardless of changes in current I. These Property of the thermistor is used to keep the level constant.

It is well known that thermistors can be used for both reverse control circuits as well as those for feedforward control. The circuits for reverse control have the disadvantage that special switching measures to steepen the control characteristic are necessary if the level fluctuations are to be well balanced. Bridge-like circuits, for example, can be used for this purpose. Is disadvantageous in these circuits but the increased effort and the fact that with them generally an additional attenuation is connected. In the circuits for Forward control, there is a need to steepen the control characteristic not per se, but require the known scarf. activities of this kind as well quite a lot of effort for the reaction-free separation between control organs and control frequency assumption as well as for the screening and amplification of the control frequency, especially when the control frequency is within the useful band to be transmitted the screening of the control frequency high resistance. must be done in order to influence of the useful band.

According to the invention, all these disadvantages of the previously known circuits are avoided and a particularly simple control arrangement is obtained in that. the regulated thermistor is arranged at one output of a balanced differential circuit or an equivalent circuit, while the control frequency is reduced by an adapted filter element at the other output of the differential circuit. FIG. 2 shows a particularly expedient exemplary embodiment for the application of the invention in the level control of an amplifier. The output transformer Ü of the amplifier output stage i is designed as a differential transformer. The resulting differential circuit is balanced by the internal resistance RI of the amplifier, shown in dashed lines, on the one hand, and by the replica resistance R, on the other hand. The thermistor H is connected to one output a, and the control frequency is filtered out via an adapted filter arrangement F at the other output b connected output terminals of the differential circuit in such a way that the thermistor H is traversed by this current. The regulated voltage is picked up at the terminals of the thermistor.

Claims (3)

PATrNTANS.PRiICliÜ: z. Circuit arrangement for automatic level control using a continuously transmitted control frequency as the regulating variable and a thermistor as a regulating element, characterized in that the regulated thermistor (H) at an output (a) of a balanced differential circuit or an equivalent Circuit is arranged while the decrease in the control frequency via a matched Filter element (F) takes place at the other output (b) of the differential circuit. 2. Circuit arrangement according to claim zi, characterized in that the differential circuit by one as a differential transformer designed output transformer (U) of an amplifier tube (i) is formed and its balancing by the internal resistance of the amplifier tube circuit on the one hand and an afterimage resistance (R ") on the other hand. 3. Circuit arrangement according to claim z, characterized in that from the control frequency by rectification a control direct current is derived, which is connected to the filter arrangement (F) Output terminals of the differential circuit is fed in such a way that the thermistor (H) is traversed by this current.