DE622759C - Method for modulating transmitters - Google Patents

Description

Method for modulating transmitters The main patent suggests that High-frequency transmitters do not, as before, have a constant average load value from modulating, but the, operating point on the modulation characteristic to shift by a direct current derived from the modulation current, so that the operating point is lower for small modulation amplitudes than for higher modulation amplitudes lies.

It results in such arrangements that the time constant for the work point shift must have a certain relatively small size in order to be able to with Increase in modulation amplitude at the bursting moment with overmodulation to avoid their disadvantages. So one proceeded in such a way that the behind the rectifier lying flattening devices, through which the rectified low-frequency modulation is converted into direct current that is as pure as possible, has formed with a time constant of certain relatively small size. The same Considerations also apply to the coupling elements between the modulation amplifier and the actual modulation tube, provided the operating point shift and the Modulation can be made in the same circle as the transmitter. It must be taken care of be that. the change in the modulation and the change in the operating point of the characteristic at approximately the same time series.

In order to be able to do this, it is proposed according to the invention that in the coupling elements there is a conscious drop in the depths. Allow frequencies and to equalize this in a preliminary stage of the modulation amplifier.

The mode of operation of the invention is explained using an exemplary embodiment. The low-frequency modulation is fed in at i and goes two separate ways from there. The path z leads through the schematically illustrated modulation amplifier MV to the end tube of this amplifier 7, while the other path, 3, to the rectifier q and via its flat member A and its reversing tube 5 to the modulation tube 9 runs. The coupling elements C and R are located between the end pipe of the modulation amplifier 7 and the actual module: ation pipe 9. The actual working point shift takes place in the grid circle of the main stage 6, which is controlled by the control transmitter St. The modulation tube 9 influences the modulation throttle B located in the grid circle of the main stage 6. The shifting of the operating point is thus effected by changing the grid bias of the tube 9. The dimensioning of the capacitor C and the resistors R is made so that the amplitudes of the low frequencies. fall, since only in this case a small Zeitkionstante can be achieved. To compensate for this, equalization is carried out in a gate stage of the modulation amplifier.

The time constant of the coupling elements C and R is added to the time constant essentially determined by the abutment element A. The time constant of these coupling elements is essentially determined by the capacitance C and the resistance combination ' where R ak 7 denotes the constant anode-cathode resistance of the tube 7 and Rgk 9 denotes the grid-cathode resistance of the tube 9, which is dependent on the variable operating point.

For the dimensioning of the resistance R and the capacitance C is in addition to the voltage or. Power adjustment to the tube 7, the lowest frequency still to be transmitted is decisive. The lower the frequencies to be transmitted, the greater the product C must be. R, can be selected, but on the other hand the time constant T = C # R, should be as small as possible.

The latter requirement can only be met if, as mentioned above, a drop in the low frequencies in these coupling elements is allowed and the compensation for it takes place elsewhere.

Claims (1)

PATENT CLAIM: Method for modulating transmitters according to patent 588 89o, characterized in that in the coupling elements between the modulation amplifier and modulation srohr admitted a fall in the low frequencies and this through Equalization of the modulation amplitudes.