DE437542C - Circuit arrangement for the purposes of high-frequency telephony and telegraphy with cathode ray tubes - Google Patents

Description

It can often be the case with tube receivers for recording wireless signs and signals be desirable if the reception of a station during operation (e.g. by Interference) should become weak, without interrupting the reception to amplify it. If you want to use high-frequency amplification, a feedback from the receiving tube to the receiving circuit offers, if necessary ίο is not used, the interposition of a suitable amplifier set is not necessary Trouble. If, on the other hand, the r-C receiving tube is used in a feedback circuit and if this feedback is to be retained even after the high-frequency amplifiers have been inserted, so this interposition is not easily possible in terms of amplification, because after the insertion of a high-frequency amplifier the previously appropriate feedback would be too tight.

A circuit in which this disadvantage would occur is shown in FIG. 1 in an exemplary embodiment. The grid circle of the receiving tube g lies in a known manner over a block capacitor on an oscillation circuit s consisting of self-induction and (variable) capacitance, which is for example connected to the

Receiving antenna is coupled. If the anode circuit were short-circuited from α to, b , a high-frequency amplifier tube could be interposed without difficulty. However, since the feedback coil r is connected to points and b , if an amplifier is interposed, not only the energy that is audible in the telephone but also the energy that is fed back would be amplified to the same degree, that is, the feedback coupling would be too tight. j

In some cases, however, it can not only be desirable, but even necessary It may be necessary to keep the same feedback coil because, by the way in which it is arranged or their special construction is not easily interchangeable. For example this necessity lies in audio receivers with inevitable feedback before. According to the present invention, an optional additional high-frequency amplification can also be used in these cases perform by means of a circuit that adjusts the strength of the feedback accordingly a5 the extent of the switched-on high-frequency amplification Allowed to weaken, but nevertheless always able to work with the same feedback coil.

For this purpose, the feedback coil r is not electrically but magnetically connected to the anode circuit, i.e. a high-frequency transformer t is switched into the anode circuit of the receiving tube, to whose secondary side the feedback coil in the receiver is connected. As a result, this is due to a transmission loop. The high fre- | The frequency transformer is advantageously designed with variable coupling so that the effect of the! in the receiver! Feedback coil can be changed depending on the coupling of the high frequency transformer. If you now switch between; Receiving circuit s and receiving tube g one or more high-frequency amplifier tubes and at the same time (with the same handle) increases the distance between the two transformer coils, so with a suitable dimensioning of the change in distance in relation to the activated amplification, one can achieve that the feedback remains correct even after switching. An exemplary embodiment of the circuit for such a receiving tube with a high-frequency amplifier is shown schematically in FIG. An oscillating circuit j coupled to the receiving antenna is connected in a known manner to a high-frequency amplifier g _x , in series with this is a receiving tube g ₂ , which would correspond to tube g in the circuit according to Fig. 1 and in the anode circuit of which a high-frequency transformer t is switched on .

The secondary coil of this high-frequency transformer is connected to the feedback coil, which is therefore in a transmission loop. The coupling of the high-frequency transformer t can be changed, for example by changing the position of its two coils with respect to one another or by changing these coils continuously or in groups. The circuit is completed in a known manner by a high-voltage battery with a protective capacitor, a heating battery and an indicator, but can be used in any other conventional embodiment, so that these parts of the circuit are of only secondary importance for the invention. In the event that the high-frequency amplifier tube g _{± is} switched off, the coupling of the transformer t is strengthened at the same time by reducing the coil spacing.

The fact that simple coils without a capacitor are used for the feedback from t to r avoids the formation of disruptive natural oscillations as a result of this transmission.

Claims (3)

90 claims: 1. Circuit arrangement for the purposes of high frequency telephony and telegraphy with cathode ray tubes, characterized in that the feedback coil which is permanently connected to the receiving device is connected in series with another coil, which in turn transforms is coupled to the anode circuit. 2. Embodiment according to claim 1, characterized in that the coupling the further coil connected in series with the feedback coil with the anode circuit is variable. 3. Embodiment according to claim 1 and 2, characterized in that at Use of several high-frequency amplifiers the existing receive feedback coil coupled to the anode circuit of the last tube of the high-frequency amplifier arrangement by means of a transformer is. 1 sheet of drawings.