DE926142C - Process for reducing noise and noise when receiving frequency-modulated vibrations - Google Patents

Description

Method for reducing noise and noise interference during reception Frequency-modulated oscillations as a result of the high amplification, which occurs during reception frequency-modulated oscillations is necessary, occurs in transmission pauses and at low levels Reception field strengths of the noise level disturbing a phenomenon, especially then, if an automatic volume control is provided.

The amplifier noise has a high proportion of vibrations, their Frequency exceeds the frequency of the useful oscillations. It is known this high To filter out frequencies from the mixture between signal and noise frequencies, too amplify and generate a control voltage according to the direction of sliding, that of a control tube for amplification, the entire frequency spectrum is supplied so that the entire Gain reduced with increasing noise level or the low frequency part -the receiver is completely blocked if there is no high-frequency signal -is.

The known method works flawlessly in itself, but still has the disadvantage that with more or less sudden field strength fluctuations Brief noise or noise impulse in the low-frequency amplifier. Is the For example, the low frequency amplifier is blocked in the absence of the high frequency carrier and if there is a strong interference impulse (radio disturbance or .g1.) or sets the If the field strength suddenly occurs, the result is an albeit brief one in the low frequency part Noise or noise impulse. These noise impulses also occur when the low-frequency amplifier is normally open when receiving and if then .the field strength suddenly decreases or suddenly increases due to glitches. The invention therefore suggests except for the control of the low frequency amplifier by the noise voltage additional control of the control tube that causes the low-frequency tubes to be blocked to make a change in the state of the reception field strength in front of the limiter to be used as an additional control after possible differentiation and reinforcement.

The invention is explained in more detail with reference to the drawing, in which Fig. i and 2 represent two exemplary embodiments of the invention.

In Fig. I, i is the receiving antenna and 2 is a high-frequency and intermediate frequency amplifier. The output voltage of the amplifier is fed to the limiter tube 4 via coupling circuits 3. With 5 there may be more Amplifier tubes and. called the demodulator. 6 is the first low frequency amplifier tube. As! If such circuits are known, a voltage is taken from part 5 and i through the filter 7, which only inputs the noise frequency above the signal spectrum filtered out, sieved, so that only noise frequencies on the grid of the control tube 8 get that are amplified in this tube and block, the first low-frequency tube 6 can be used when the noise spectrum exceeds a predetermined level. 9 is a rectifier for rectifying the amplified. Noise voltage.

In the example embodiment according to FinG. i is according to the invention over the resistor io through which the limiter current flows tapped a voltage which a differentiation element i i is supplied. The output voltage of the differentiation element after any amplification for additional control of the noise amplifier and Control tube B. The design can be such that means are provided d-aß every change of state of the received field strength, in any direction it runs, behind the differentiation term i i only delivers positive impulses, which are then fed to the grid of the regulating tube 8. However, it is also possible Means to provide that the output voltage of the differentiating member at each Change of state of the receiving field strength only supplies negative impulses, and .this are then fed to the cathode of the regulating tube 8. It is also possible to the shown attitude, where .the differentiation term i i impulses in positive and negative direction, depending on which direction the change of state of the received field strength moves to provide a switch 12, through which the positive impulses the grid of the tube 8 and the negative impulses the cathode of the tube 8 are fed.

A differential element may be superfluous, namely when only very short-term impulses are to be provided.

The effect of the circuit is as follows. Let us assume that no or too weak a carrier is received, so that the grid .der tube 8 a high Noise voltage is supplied, and that thereby the anode circuit of the tube a negative Stress occurs, so the grating of the first low-frequency amplifier tube 6 blocks so that reception is suppressed or weakened. If there is a glitch, which means an increase in the field strength, the blocking of the tube 8 would be reduced and this glitch via the low frequency amplifier will arrive. The- However, an increase in the field strength due to the interference pulse provides behind the differential element i i a positive pulse which is fed to the grid of the tube 8 ', whereby the blocking effect of this tube is reinforced and a reception of this interference pulse remains completely suppressed. The same effect occurs if the high frequency level is normal the field strength suddenly increases, which is noticeable as an additional cracking ` would do; since the tube 8 is open in this case, so is the invention an additional blocking pulse in a positive direction is applied to the grid of the tube 8, which in this case blocks the low-frequency amplifier tube 6. In all cases thus, as a result of which a change in the state of the received field strength weakens the received field strength The locking effect of the control tube 8 would occur, this is given by the additional positive blocking pulse in the additional control circuit according to the invention increased blocking effect, always briefly before the time in which this Change of state via part 5 in the normal way at .the grating .of the low-frequency tube 6 arrives, due to the propagation delay in the device 5, so that a completely Interference-free reception is guaranteed.

The circuit also works in the event that the lower frequency receiver is open a sudden weakening of the reception field strength occurs. The noise amplifier tube In this case, 8 would only be the low-frequency amplifier in accordance with the increase in noise gradually block while due to the additional impulse of the differentiation element i i an immediate blocking of the tube 6 can be effected.

Fig. 2 shows another embodiment of the invention. Same Switching elements are given the same reference numerals as in Fig. I. In the exemplary embodiment according to Fig. 2, the additional control voltage for the tube 8 is not the limiter current taken from the tube 4, but the first circuit of a high frequency or intermediate frequency band filter 13 in the high-frequency receiver 2: The branch line is via a rectifier 14 grounded, whereby the advantage is obtained that any change in state .of the received field strength only noticeable as a positive impulse power, which in this case is attached to the grid the tube 8 is applied.

Claims (7)

PATENT CLAIMS: i. Method for reducing intoxication and noise disturbances when receiving frequency module: ie @ rter vibrations in which the outside of the signal spectrum lying parts of the Noise spectrum in whole or in part through a Filter separated and after amplification and rectification as a control voltage Reduction of the overall gain or blocking of the low frequency tubes with increasing Noise levels are used, characterized in that a change in state of the Received field strength before the limiter, especially after differentiation, for additional Control of the control tube (noise amplifier tube) that causes the blocking of the low-frequency tubes is used. 2. Circuit arrangement for performing the method according to claim r, characterized .that -the flow of the limiter tube through the limiter; generated voltage is applied to a differentiation element whose output with the control tube is connected. 3. Circuit arrangement for carrying out the method according to claim r, characterized in that the particular at the input circuit one High or intermediate frequency band filter lying voltage across a branch line is applied to a differentiating element, whose output is connected to the control tube is. q .. Circuit arrangement according to Claim 3, characterized in that the branch line is grounded through a rectifier. Circuit arrangement according to any of the preceding Claims, characterized in that means are provided so that every change of state the received field strength only delivers pulses in one direction. 6. Circuit arrangement according to any one of the preceding claims z to 4, characterized in that, -that a switch is arranged behind the differential element. 7. Circuit arrangement according to any one of the preceding claims, characterized in that the the differentiation term generated positive pulses to the grating of the control tube u @ nd / or the negative pulses are applied to the cathode of the control tube.