DE721325C - Modulation circuit - Google Patents

Description

Modulation circuit The modulation of a carrier-frequency alternating voltage by means of amplifier tubes usually takes place in such a way that the operating point of the modulator tube is shifted as a function of the modulation voltage and thereby the amplification effect the tube is affected. This amplitude modulation of a carrier-frequency alternating voltage has the disadvantage that the internal tube resistance of the modulator tube changes constantly and thereby changes the coordination of the connected oscillating circuits.

The present invention proposes to avoid this disadvantage a modulation method that is fundamentally different from the known tube modulation circuit before. This consists in that the operating point of the operated in the modulation stage Amplifier tube remains unaffected and a negative feedback, d. H. a negative one Feedback, via an electron tube. It is known in modulation circuits the negative feedback principle for the special purpose, a straight-line modulation characteristic to achieve, apply. This is the output stage of the transmitter in which the modulated When radio frequency energy is present, a small portion of its energy is withdrawn from that is fed to a rectifier. The modulation-frequency control voltage obtained in this way is fed to the modulation amplifier in a phase position such that a opposite modulation of the carrier-frequency alternating voltage in the modulation stage takes place through the branched off control voltage.

However, this known negative feedback is quite different from that of the the present invention. After the latter, the inner one becomes Resistance of the negative feedback tube used by controlling as a function of * the modulation frequency voltage changes and thus the negative feedback more or made less firm. The negative feedback circuit itself is in principle a high-frequency amplifier stage in which the 'discharge path of the negative feedback Tube between the anode circle and the grid circle of the tube amplifying the carrier frequency is switched on. Since in the case of a fixed negative feedback, i. H. with low internal resistance the negative feedback tube, the gain decreases sharply and with decreasing negative feedback increases, an amplitude modulation can be carried out in this way.

The control of the negative feedback tube can be done in several ways take place, e.g. B. by using the modulation frequency voltage as a grid voltage used for the negative feedback tube; however, the negative feedback tube can, for example can also be controlled by influencing their anode circuit.

The modulation can also be used instead of in a high-frequency amplifier stage be carried out in the generator stage, this is where the Advantage of the modulation arrangement in terms of its freedom from feedback on the Coordination of the connected oscillation circuits applies. Otherwise the details are the circuit is determined by the fact that the operating voltages on the one hand for the amplifier tube, on the other hand for the negative feedback tube DC-electrically separated from each other must be. The modulation itself can be arbitrary, it can follow the course of a audio-frequency mixture of vibrations, keyed signal signs or image raster impulses correspond.

Claims (2)

PATENT CLAIMS: i. A circuit for amplitude modulation, characterized in that the modulation is carried out by a variable negative »coupling in such a way that the modulation voltage is fed to the grid of a negative feedback tube whose discharge path between the anode circuit and the grid circuit of an electron tube controlled by the carrier frequency alternating voltage is switched on. 2. A circuit for amplitude modulation according to claim i, characterized in that that the tube stage is designed as a generator stage.