DE593629C - Receiver for wireless messaging - Google Patents

Description

Wireless Communication Receiving Apparatus The invention relates to a wireless receiving device with constant automatic gain over a wide range of waves. This even reinforcement is achieved by that the screen grid of a four-electrode tube is supplied with its voltage, which itself, but in the opposite sense, corresponds to the change of one in another Circuits of the receiver current flowing changes. When the level control is on this If done wisely, one receives clear and distinct signals that contain all sidebands. This is especially the case where the tube, whose gain factor is controlled, in front of the rectifier.

In the embodiment of the invention shown in the figure the strength control is obtained by marking the screen grid with a point of the circuit that connects to the supply of the anode voltage for the demodulator serves. As a result, the screen grid is supplied with a voltage that, in terms of its size, depends more or less on the magnitude of the current flowing in the anode circuit of the Demodulator flows, which in turn is a function of the amplitude of the signals is.

A is the antenna connected to earth G through coil i is. The signals picked up by the antenna are coupled with an i Coil 5 is fed to the grid z and thread 3 is fed to a tube 4. In shunt to the Coil 5 is a tuning capacitor 6. The signals go from the tube 4 to the inductance 7, which connects the anode 8 of the tube 4 to earth via a power source. The sink 7 is tuned to the signal frequency by a capacitor io so that the external The impedance of this circuit is so high that the external resistance matches the internal tube resistance is adapted. This gives a great gain. Those occurring in 1o, 7 Voltages from the signal frequency are induced and appear in the coil i i at the impedance between the grid i2 and the filament 13 of the tube 14. This circle is fed through a variable capacitor i5 parallel to the inductance i i Signal frequency matched. The tube 14 acts as a rectifier. In their starting circle the primary side of a low-frequency transformer is located in its secondary winding the telephone T lies. The primary winding of the transformer is in series with the Battery 17 and a resistor R. i8 and i9 are the bias batteries for the Grid a and 12, 2o is the heating battery, 2i is the heating resistor.

For the purpose of regulating the strength, the grid 22 of the tube 4 is connected by a line 23 to the correctly selected point of the anode battery 17. Between the screen grid 22 and the filament of the tube 4 is a capacitor 24 through which high frequencies occurring at 22 are returned directly to the filament so that they do not appear in the anode battery 17 and the resistor.

In operation, the signals appearing on the antenna are amplified in the tube 4, rectified in the tube 14 and then made audible in the telephone T. If the signal strength on the antenna changes, e.g. increases, the signal strength in the input circuit of the tube 14 will also increase, which results in a corresponding increase in the anode direct current in the circuit containing the battery 17 and the resistor R. This results in a voltage drop through 17 and in particular through R, which comes into effect directly on the screen grid 22 through the line 23. This drop in the screen grid voltage results in a reduction in the gain of the tube 4 and thus in a reduction in the amplitude of the signal passing through 4 and so on. Conversely, when the signal on antenna A decreases, the signal repeated in FIG. 14 also decreases, the current through 17 and R decreases, the voltage across 17 and R increases, and the voltage applied to the screen grid through 23 increases, thereby increasing the Gain factor is increased by 4.

Naturally, in contrast to the embodiment shown a single power source is used to provide all of the required voltages will.

Claims (2)

PATENT CLAIMS: i. Receiving device for wireless messaging with several amplifier stages, at least one of which is a screen grid tube contains, characterized in that an anode rectifier controlled by the lower bend provided and the screen grid of the tube to be regulated in its gain such an ohmic resistance provided in the anode circuit of the rectifier is connected that the voltage fluctuations occurring at the resistor come into effect on the screen grid. 2. Receiving device according to claim i, characterized characterized in that the ohmic resistance between the cathode point and the negative Pole of the anode voltage source is switched on.