DE663510C - Receiver with shrinkage control and noise elimination - Google Patents

Description

Receiver with shrinkage control and noise elimination In the main patent an arrangement for eliminating noise in fading-controlled receivers is described, in which the regulated tubes are given such a bias that up to. a grid current flows to achieve a certain amplitude of the input voltage, which attenuates the input circuits and therefore reduces the gain. When the input amplitude and so that the amplitude occurring at the control rectifier is sufficiently large, it generates a control voltage, which sets the operating point of the regulated tube the grid current area shifts out, so that from this value on by leaps and bounds greater gain is present.

The threshold for this gain increase is when applied the invention even more pronounced. The invention consists in that the noise elimination used grid current of the regulated tube to the rectifier a negative bias granted.

The invention is explained in more detail below with reference to the figure.

The high-frequency amplifier tube to be controlled is denoted by i, the control grid of which the input circuit, consisting of coil L and variable capacitor C, is located. The input circuit is connected to the earthed cathode via a blocking capacitor I <. The usual coupling circles, which are not shown here, are located in the anode circle. 2 is a diode rectifier tube, in the outer circuit of which there is an oscillating circuit consisting of L 'and C and a resistor R bridged by a blocking capacitor I <1. From the end of this resistor facing the anode, a line leads via a resistor R 'to the cathode side of the input circuit of the tube i.

The resulting low frequency is picked up at points 5.4. The cathode of the diode receives, for example, from a battery B, which is powered by a Capacitor I <2 is bridged, a positive bias voltage, g to earth.

The mode of operation of the circuit is as follows: Are the circuit LC If no high-frequency voltages are supplied, the grid of the tube i is stretched out about zero volts, d. H. so large a grid current flows that its voltage drop across resistors R and R 'just about equal to the positive bias of the battery Are you. Between points 6 and q, if the resistances R 'and R are equal, one Bias of the size of half the battery voltage, namely leads to point 6 opposite Point q. a negative voltage. But that means nothing else than that of the Diode applied high-frequency voltages the value of the negative bias only must exceed before the diode can even come into action. Through the flowing grid current, the oscillation circuit LC is strongly damped and thus the Gain reduced.

If there is now an amplitude at the input circuit, its amplified Value large, enough to overcome the negative bias of the diode so it flows in the outer circuit of the diode a direct current, which has the consequence that. the negative bias of point 6 compared to 4. is increased. This also gives the grid of the Tube 1 has a more negative bias and the grid current becomes smaller. But that has As a result, the attenuation of the circuit LC caused by the lattice flow is reduced and thus the gain of the tube i is increased.

So it is once due to increasing high-frequency alternating voltages the low amplification state is exceeded in the diode path, it then rushes the gain up to its normal value. It goes without saying that the positive bias of the cathode of diode 2 against earth, also by other means 'can be generated, for example as a voltage drop across a resistor. Of the The current generating this voltage drop can be one or more other tubes can be removed. The diode can then be followed by the low-frequency tube be united in a glass flask.

Claims (3)

PATENT CLAIMS: i. Receiver with shrinkage control and noise elimination according to patent 661313, characterized in that the one used to eliminate noise Grid current of the regulated tube gives the rectifier a negative bias. 2. Receiver according to claim i, characterized in that the grid current is the useful resistance (R) a diode (2) and possibly also an upstream resistor (R ') flows through. 3. Receiver according to claim i, characterized in that with a potentiometer is capacitively coupled to the useful resistance of the diode, of which the low frequency voltage is removed.