DE691721C - Receiver with noise elimination - Google Patents

Description

Receivers with Noise Elimination It is known the distortion that '' when coordinating a fading-controlled receiver between the individual senders stand out strongly, to be eliminated by the fact that the recipient only above one The input amplitude threshold is unlocked. Those below this threshold Noise disturbances lying down are not audible if you are tuning one Transmitter to the next. The known circuits use for unlocking the operating point shift of an amplifier tube of the receiver, which however distortion easily occurs. In contrast, the invention uses a damping Shunt.

According to the invention, there is a two-pole rectifier in terms of alternating current as a damping shunt parallel to a coupling element (oscillation circuit) of the receiver and is biased by means of a DC voltage so that it is above a threshold value of the AC input voltage under the influence of one of these Voltage derived DC voltage will not conduct.

It is known to use a grid-controlled method for the purpose of shrinkage control To lay the tube as a damping tube parallel to an oscillation circuit, which with the DC component of the received carrier is regulated. The invention, which refers to a circuit for noise elimination, on the other hand, only uses a two-pole rectifier, whereby: the circuit is cheaper.

With reference to the figures: the invention is explained in more detail below.

Fig. I shows a superimposition circuit with antenna A, H.o, chfreqnenzp: enthode i and mixing tube 2, whose input circuit, # is coupled to M. 3 is the local one Oscillator, 5 the common linkage for the various tuning capacitors, -6 the output circuit of the mixer tube, 7 the intermediate frequency amplifier, too ! a penthode whose input circuit 6 'is coupled to 6 at 1V11. The primary and the secondary winding of the transformer M3 leading to the detector 9 are connected to the Intermediate frequency. Tuned.

P is the voltage divider which supplies the anode voltages for tubes i and 7 and whose terminals are labeled + B and - B-. The anode of i is connected to + B via the primary winding of .M, the resistor l2 and the line io. The anode of 7 is connected to a point of lower positive voltage via the primary winding ä of Mg, line ii and slide 12, a capacitor being connected between line ii and earth. Line-B, like the cathode circuits of i and 7, is grounded; The usual bias resistors are located in these grounded cathode lines, bridged by high-frequency capacitors.

The circuit for the automatic shrinkage reguleng contains a penthode 1 3, which as Vef: # serves more for the signal energy, which is equal to = .`: must be prepared in order to supply the control voltage The signal energy is fed to the tube 13 via il @ ii @ = Capacitor 14 supplied; 1 5 is a grid resistor between the control grid and the cathode of the tube 13. The rectifier for obtaining the control voltage consists of a diode 16, between the anode and cathode of a circuit 17 tuned to the intermediate frequency and a resistor 18 'bridged by a capacitor. -The anode circuit - of the tube 13 contains the circuit 18, tuned to the intermediate frequency, which is coupled to the circuit 17 at M4. The control grid of tube i is connected to resistor 18 'through resistor 19 and line 2o.

The elimination of noise is achieved in the present circuit by that, the anode of the diode 21 with the anode side of the tuned circle '8 over a line 22 is connected, while the cathode by a line 23 with the Anode side of the resistor R is connected. This line 23 thus provides the connection which controls the noise elimination. In operation, it is assumed that the tuner 5 is set to such a point that no signals are picked up by the antenna the automatic fading control to the grid of the controlled amplifier i do not apply negative bias.

It follows from this that the anode current of i is a maximum, which is a causes large voltage drop across resistor R. The value of this resistance is chosen in such a way that in the signalless state the voltage drop across the resistor caused by the increased anode current of i is caused, the anode of the tube 21 is positive towards its cathode. When this occurs, current flows through the tube 21, which results in a load on circuit 8, so that only very little signal energy is fed to the input of the detector 9.

In other words, the tube 21 acts as a damping impedance, the is a maximum when no signals are picked up by the receiver. Because the tube is conductive in the no-signal state, it forms a low impedance shunt to the starting circle of 7 for the unwanted crash disturbances. When receiving a a sufficiently strong signal, the control grid of the regulated amplifier i is biased so that that a smaller voltage drop occurs across the resistor R. The anode of the Attenuation tube 21 becomes negative with respect to its cathode, and the current through the Tube stops. This removes the burden on circle 8, and it can do that Signal then reach the detector. D ', the threshold value of the input amplitude, at which this lifting of the load takes place, can be set by the slide 12 will.

The circuit shown in Fig. 2 differs from that shown in Fig. I in that the damping tubes 21 are not parallel to the primary side of the transformer M3, but is parallel to the secondary side of the transformer M1 via the line i i '. The designations are otherwise the same as in Fig. I.

As a result of the use of penthodes, the anode voltages of i and 7 be small, and you can then make the resistance R so large that it is a large control voltage for the damping tube despite small fading control voltage on Grid of tube i results.

Claims (1)

PATENT CLAIMS: i. Receiver with noise elimination by unblocking reception above half of a threshold value of the input amplitude, characterized in that a two-pole rectifier w: alternating current moderately as a damping shunt par- allele to a coupling link (Schwin- area) of the recipient and by means of a direct voltage is tense that it is above a threshold value of the AC input voltage is below the influence of one of this tension derived direct voltage non-conductive will. 2 .. Receiver according to claim i, there- marked by, that as a two-pole rectifier a two-pole tube is used. 3. Recipient according to claim i, that characterized in that as, from the input alternating voltage derived direct voltage at the anode resistance of a shrinkage-controlled tube lying chip tion serves. 4. Receiver according to claim i, there- characterized by the fact that the voltage serving DC voltage for Change the setting of the threshold is cash.