DE720738C - Circuit arrangement for eliminating interference in wireless receiving devices - Google Patents

Description

Circuit arrangement for eliminating interference in wireless receiving devices The present invention is directed to improving and simplifying the hitherto known circuit arrangements for eliminating interference in wireless' receiving devices. There are already circuit arrangements are known in which using two similar receiving circuits, the disturbances are compensated. Here is the one receiving circuit tuned to the vibrations to be received, while the other receiving circuit to a wavelength adjacent to these receiving oscillations is set. The voltages increased in the two receiving circuits are now after the rectification so on the output circuit in which the loudspeaker or the telephone is switched on. coupled that by using a push-pull effect the disturbances are compensated - this push-pull effect achieved by phase reversal is connected to the common output circuit by suitable polarity of the coupling devices achieved.

It has now been shown that with such interference-eliminating circuits only an inadequate compensation of the interferences occurs, namely this inadequate compensation is based on the fact that the two receiving circuits have different rectifier effects, that is, that the two rectifiers used in the different receiving circuits on different parts of the Characteristic curve .work, since the charges on the grid of the receiving circuit for the vibrations to be received are different from those which are present on the grid of the second receiving circuit provided for the interfering vibrations. It is now also known by an additional vibration generator (for example by a special superimposed) which on. the second receiving circuit, which is tuned to a wave range lying next to the wave to be received (see patent 603 237), eliminates this disadvantage. This additional superimposed circuit is intended to make the total amplitude of the oscillations to be rectified in both receiving circuits equal to one another. As a result, the same rectifier effect is achieved in both rectifier arrangements, so that precise compensation is also made possible in the output circuit of the rectifier. However, this additional superimposed circuit is a disadvantage, since it represents increased expenditure and at the same time can also absorb disturbing oscillations, which in turn call into question the exact compensation of the entire circuit arrangement.

According to the invention, a circuit arrangement is now proposed in which this additional superimposed is avoided, namely according to the invention in a circuit arrangement for eliminating interference in wireless receiving devices by means of two rectifier reception systems connected to one another at the output with a curved characteristic, the working point of which with constant anode voltage shifts depending on the size of the amplitudes to be processed and which are tuned to different neighboring wavelengths with their input circuits are a direct current coupling between the receiving systems. in order to achieve the equal working conditions provided.

In FIGS. I and 2, exemplary embodiments for the circuit arrangement according to the invention are shown. In both figures, the same designations are provided for the switching elements of the same type, namely i is the antenna from which the vibrations are transmitted to the two receiving circuits EI and E 'by means of the two coupling devices TI and T2 with the coupling coils 2, 3 and q., 5 2 can be given with rectifiers D1 and D2. The receiving circuit E'1 is adjusted to the oscillation to be received by means of the capacitor 6, and the second receiving circuit E2 is adjusted to a wavelength adjacent to the oscillation to be received by means of the capacitor 7. The capacitors 8, g and the high-ohmic resistors io and ii complete the arrangement to form an ordinary audio rectifier circuit with the tubes D1 and D2. The resistor ii can also be omitted or it must be large compared to the resistors 12 and 13. Of course, you can also use the antenna circuit and the audio circuit. a single or multiple high frequency amplifiers of any type can be arranged. In the output circuit of the two rectifiers in Fig. I, the two low-frequency transformers t1 and t. the oscillations are given to the output circuit, at whose terminals a1 and a2 the signals to be received can be picked up. A single or multiple low-frequency amplifier can of course also be arranged in front of these terminals. According to the invention, a connecting circuit via the resistors 12 and 13 is now provided between the grids of the two rectifiers Dil and D2, which causes both rectifiers to work on the same characteristic part, so that the disturbances which occur equally in both receiving circuits are rectified and have the same amplitude in the output circuit and thus guarantee a perfect compensation of the disturbances. At the same time there is a connection between these two resistors 12 and 13 via the capacitor i q. provided after earth or cathode. This capacitor 1q. must be dimensioned so that it is large enough to keep the low frequency of the rectifier Di away from the rectifier D2, and at the same time it must be small enough to avoid excessive delay.

According to the invention, a simple circuit arrangement is specified, in which a faultless compensation of the disturbances takes place with simple means.

In Fig. 2 the same circuit arrangement is shown, only that Circuit arrangement simplified to the extent that a common feed line and a common anode circuit for both rectifiers Dil and D2 are provided.

Claims (3)

PATENT CLAIMS: i. Circuit arrangement for eliminating interference in wireless receiving devices by means of two rectifier receiving systems connected to one another at the output with a curved characteristic whose operating point shifts depending on the size of the amplitudes to be processed when the anode voltage remains the same and which are matched with their input circuits to different adjacent wavelengths, characterized in that one DC coupling is provided between the receiving systems in order to achieve the same working conditions. 2. Circuit arrangement according to claim i, characterized in that the Connecting circle between the two grid circles. the rectifier contains two equal resistors i, their common connection point via its capacitor with earth or cathode connected is. 3. Circuit arrangement according to claim 2, characterized in that the capacitor, which connects the connection circuit to earth or cathode, is dimensioned such that it is small enough to cause excessive electrical delay to avoid, and on the other hand is large enough to the low frequency of a receiving circuit keep away from the other receiving circuit.