DE714627C - Method for demodulating a carrier that is modulated differently in its two half-waves - Google Patents

Description

Method for demodulating one in its two half-waves modulated carrier is the subject of the invention. .a process that makes it possible an intermediate carrier modulated differently in its two half-waves at the receiving end such modulated, pulsating DC voltages corresponding to the half-waves to decompose that the amplitude words correspond to the modulations applied by the transmitter corresponding. H. that the zero line of the carrier originally separating the half-waves is recovered.

A method has been proposed in which the different Modulation of the two half-waves of an intermediate carrier is provided, which in turn is modulated on the emitted carrier. It is supposed to make it possible in this way be able to accommodate two modulation frequencies on a carrier that is in their Frequency are completely independent of each other, since the receiving side with this' Modulation type no sieve circles - are no longer necessary for their sieving. It has now shown that on the receiving side the decomposition of one in its two half-waves differently modulated intermediate carrier in its half-waves in the case of the well-known Method of full-wave rectification. Encounters difficulties, since this is not always possible, the zero line around which the originally modulated Subcarrier frequency fluctuated to recover. Fig. I shows how the original Zero line i of the unmodulated subcarrier after its modulation from the difference of the two low frequencies itself is modulated, 2. If one now wants the double bases, o, dul, ati @ on 3, ¢ on the receiving side again split into two pulsating, modulated direct voltages, so it is necessary to apply an arrangement that allows two electrical Control valves in such a way that they are independent of the distortion in the receiver , incoming subcarrier and, if possible, without an additional synchronization device after another are switched on at the point in time at which the, half-waves of the undistorted Subcarrier the zero value of their voltage or exceed or fall below.

This object is achieved in the method described below. Fig. Z shows an embodiment of the subject invention. The intermediate carrier shown in Fig. 1, with its two half-waves modulated differently, is fed to the control grid of the tube V via a transformer 4. In the anode circuit of this tube, which is coupled to a second, V_, there is a resonance circuit 5 which is tuned with the sharpest resonance to the original unmodulated carrier frequency and which practically only allows this one frequency to pass. The second tube is connected as a control tube in a manner known in terms of circuit technology, in that part of its anode current generates a voltage drop at a resistor 6 connected to the anode circuit, which is fed to the control grid of V via the calming element 7, so that every change in amplitude is sufficient at the input , is balanced. The alternating voltage in the anode circuit of V, corresponding to the distorted and amplitude-constant subcarrier frequency, is applied to the screen grid or the anodes of two push-pull tubes V3, V "via a transformer that is brought into resonance with the subcarrier frequency, thus causing the tubes to be switched on at the desired Point in time, although when choosing a tube you just have to make sure that V3, V. " work in the saturation area of the control electrodes used. The modulated intermediate carrier is placed on the control grid of these two tubes via the transformer ä. It has then become possible to tap the two modulated half-waves of the intermediate carrier at the resistors 9, io and to supply them to their destination.

It is quite conceivable, i.e. other ways in terms of circuitry lead to the goal. The way shown represents only one embodiment. The basic idea the invention, however, is based on the fact that Baus the mixture arriving at the receiver the originally uninodulated subcarrier frequency is screened out with constant amplitude and that it is used in this form. while avoiding always more complicated Synchronizing devices two grid-controlled tubular valves in one per se well-known push-pull circuit at the right time with the highest precision and turn off. and that .an the grid of these tubes in the correct phase position the non-screened modulated intermediate carrier is placed so that in the anode circles of the two tubes V3, V, the two half-waves can be removed so that the mean values to be formed from this have the value introduced by the transmitter.

Claims (2)

PATENT CLAIMS: i. Method of demodulating one of its two Half-waves differently modulated carrier, characterized in that in the receiver the carrier frequency is screened out without sidebands and with constant amplitude and , alternately opens and closes two tubular valves, one of which is during the opening periods one a demodulation of the positive half-waves and the other: a D: emodulation the negative half-waves of the received oscillations. 2. Order for implementation of the method according to claim i, characterized in that the carrier frequency, screened out via a transformer to the screen grids or anodes of two push-pull switches and is placed in the saturation area of the electrodes in question working tubes, daf :, via another transformer to the control grids of the two tubes of the in his suffering half-waves differently modulated carrier is placed and that the Anode circles of the two tubes separate the modulation frequencies of the carrier from each other can be removed.