DE869359C - Circuit for receiving electrical impulses of constant height - Google Patents

Description

Circuit for receiving electrical impulses with constant height The invention relates to a circuit for receiving modulated electrical pulses with constant height, which are superimposed with disturbances.

To explain the reception conditions that occur, see Reference is made to Fig. i. With A pulses of constant height are referred to, which serve for messaging. These pulses are interference voltages B with any superimposed over time. As soon as the level of interference voltages alone is greater is than the height of the pulses, is a distinction between the pulses and the interference voltages not possible. However, there is a desire to suppress at least all interference voltages, which are somewhat weaker than the impulses. The invention relates to a circuit which makes this possible.

A circuit for receiving electrical modulated pulses, which are transmitted at a constant height and are superimposed with interference, is designed according to the invention in such a way that the received voltages are fed to a threshold and that the ratio of the threshold value to the maximum received amplitude fed to the threshold automatically increases to a value is controlled, which is less than i i, preferably approximately equal to 0.5 .

If you write z. B. in Fig. I. The impulses A have the amplitude ioo and the disturbances B have the amplitude-6o, the lower limit of the threshold becomes approximately get the value 8o. As you can see, the impulses are capable of this threshold value to exceed during all disturbances whose Amg'litu.de is less than 8o units : is, -not, to be let through.

If, on the other hand, one assumes "that the characters are weakened up to the amplitude value 8o as a result of fading phenomena, the threshold value is set to 70 units with the same disturbance amplitude and can then also be exceeded by the impulses, but not by the disturbances.

In Fig. 2 is a suitable for carrying out this inventive concept Circuit shown. Terminals i and 2 are derived from the signal and the Disturbance composing rectified received voltage, if necessary after previous reinforcement. The. Receiving voltages are on the one hand the Control grid supplied to the demodulator tube 6, and on the other hand they load via a Rectifier 3 of any type the capacitor q. on. Between the assignments of the Capacitor q. a tension arises which is the same as that which occurs in each case maximum receive voltage. So that the capacitor discharges and accordingly set any changed reception conditions to a different voltage value can, it is bridged by a resistor 5. The time constant of the Capacitor q. and the resistance 5 existing member is to be dimensioned so that the charging voltage of the capacitor q. before the next work pulse occurs does not decrease noticeably, but does follow the slower signs of decline able. The tube 6, to which the receiving voltages are fed between the grid and the cathode acts as an anode rectifier. There is a DC voltage source 7 between the grid and the cathode, whose clamping voltage is selected so that the operating point - in the absence of receiving voltages is just at the starting point of the anode current. Is in series with the receiving voltage about half of that on the capacitor q. occurring voltage, - which of the lower for the signal frequency bridged by a grain capacitor 8 resistor half is removed. This circuit has the effect that only such received voltages have a Can cause anode current, which is the effective on the capacitor 8-counter voltage exceed; From the anode resistor 9 - the tube 6 are rectified and removed from the interference freed signals.

The tube 6 also acts as a limiter upwards and brings the transmitted signals to a constant level. This is done by one in the grid circle lying resistance io guaranteed: As soon as the receiving. clamps the working point move into the grid current area, - there is a voltage drop at the resistor io, which prevents a further increase in the grid tension .: But you can also open dispense with the limitation brought about by the resistance io in the grid circle, the tube ünd.-a = limitation upwards by one of the - tube 6 downstream - limiter known type, e.g. B. make a saturation tube.

At. Place of the anode rectifier 6 used in Fig. 2 can also a two-pole rectifier, for example a diode or a dry rectifier, be used. Fig. 3 shows a two-pole rectifier i i, for example a diade with: Gliihkafihode, the other than that of the terminals 1; 2 received -receiving voltage the control voltage tapped from half of the resistor 5 is supplied.

In the circuit of the two-pole tube there is also a resistor 12, from which the impulses freed from the disturbances are removed. A flow of electricity through the resistor z2 is only caused by those receiving voltages which exceed the control voltage applied to the capacitor 8.

While in the 'described embodiments of the invention Threshold value is regulated as a function of the mean reception amplitudesi it is also possible to assign a fixed lower limit value to the threshold and the gain in the receiver part preceding the threshold as a function of from the mean reception amplitude to regulate automatically that the desired Relationship exists. Circuits for automatic gain control are inherent known; so that the means for carrying out this proposal are available to those skilled in the art To be available. It can also be carried out in such a way that the first A second threshold behind which the receive characters _ are processed further Threshold with a higher threshold value is connected in parallel and the gain control voltage derived from the voltages or currents allowed through .the second threshold will; the gain control voltage works to ensure that the sum of signal-.and Interference voltage is constant.

Claims (7)

PATENT CLAIMS: i. Circuit for receiving electrical modulated Pulses that are sent out at a constant level and are superimposed with interference are, characterized in that the .'Empfangsspannungen supplied to a threshold and that the ratio of the threshold value to the -the threshold supplied maximum. Reception amplitude is automatically adjusted to a value smaller than i, preferably equal to about 0.5 ist.-2: The circuit of claim i, gekennzeicüfiet in 'that the threshold has a fixed value, and - the gain - "in which the The receiver part preceding the threshold is automatically regulated as a function of - the mean received amplitude so that the desired ratio exists. a second threshold with a higher threshold value is connected in parallel and a gain control voltage is derived from the second threshold, which influences the gain of the upstream receiver part in such a way that the sum of the signal and the interference voltage is constant. q .. Circuit according to claim z, characterized in that the threshold value is automatically dependent on the first threshold of the mean value of the reception amplitudes-is regulated in such a way that it has a certain part, preferably about half of the maximum receiving voltage. 5. A circuit according to claim q., Characterized in that the threshold consists of a Amplifier tube or a rectifier, whose or whose bias depending on the maximum reception amplitude. 6. Circuit according to claim 5, characterized in that the amplifier tube also functions as an amplitude limiter is exploited. 7. Circuit according to claim round the following, characterized in that that the time constant of the control loops is so large that the control voltage is within of a pulse repetition period does not noticeably decrease, but it does show signs of loss able to follow.