DE605176C - Modulation arrangement with a main transmitter operating with a suppressed carrier frequency and an auxiliary transmitter that adds the carrier frequency - Google Patents

Description

It has been found to be advantageous to adjust the power emitted by wireless transmitters accordingly to let the modulation amplitude fluctuate. On the one hand, this results in a Significant energy savings, on the other hand, disturbing noises are felt less than with in the quiet places they become very slight, while in loud places they are less in and of themselves disturb. To carry out these measures, arrangements are necessary that differ from the known arrangements for transmissions differentiate with constant carrier current.

According to the invention, the task set is achieved in that a with suppressed Carrier frequency working main transmitter and an auxiliary transmitter that adds the carrier frequency, work together in such a way that the carrier frequency with one of the modulation frequency amplitude depending on the strength of the sidebands generated by the main transmitter, the amplitude of which corresponds to the modulation frequency amplitudes corresponds, is admitted. It is known per se, a main transmitter operating with a suppressed carrier frequency to work together with an auxiliary transmitter that admits the carrier frequency. In this method, however, the combination took place in such a way that the carrier frequency at lower modulation strength small, with greater modulation strength large in correspondence with the present invention. It was, however, and this is the main difference the known method, the amplitude of the sidebands kept constant, regardless of how great the modulation strength is. When the invention Method, on the other hand, fluctuates both the carrier frequency amplitude and the sideband amplitude. The known method has the particular disadvantage that it is easy to overdrive can occur, as can be seen from a simple example. Is the Volume small, so the wearer is small, but the sideband has its full size, what naturally there must be overmodulation.

The circuit arrangement shown, for example, in the accompanying figure can be used to implement the inventive concept. The modulation currents arriving at 1 act on two transformers 2 and 3 connected in series. A main transmitter HS , which operates with a suppressed carrier frequency, is controlled via the transformer 2. The transformer 3 takes over the control of the hip transmitter JS. The transmitters essentially consist of the following parts: The transformer 2 is connected on the secondary side to two tubes 4 and 5 in a circuit arrangement known per se. The tubes are connected in such a way that in the unspoken state on the Kr. Is 6,

with which the antenna 7 is coupled, no vibrations are transmitted. For this purpose, the oscillations of a control transmitter connected to the coil 9 are fed via the inductance 8. The oscillation of the control transmitter StS ' is fed to both grid circles of the tubes 4 and 5 with the help of the potentiometer arrangement 10. In the undiscussed state, the fields of the coils 11 and 12 cancel each other out with regard to the coupling impedance of the intermediate circuit 6, so that no carrier frequency is emitted will. If the transmitter is discussed via the transformer 2, the two sidebands appear in the circle 6 or in the antenna without the carrier frequency being present. During the discussion, however, the modulation currents are simultaneously fed to the auxiliary transmitter / S via the transformer 3 in the following manner. On the secondary side, a rectifier consisting of the two tubes 13 and 14 is connected to the transformer 3. As a result of the rectification, the grid circles of the tubes 15 and 16 of the auxiliary transmitter / S are impressed with a more or less large grid direct voltage, which fluctuates according to the strength of the modulation currents. In the undisclosed state there is such a negative voltage on the grids of the tubes 15 and 16 that no frequencies flow in the anode circuits of the tubes 15 and 16 due to the vibrations of the control transmitter, which is also supplied in the grid circuit, which is coupled to the inductance 9. The anode circuits of the tubes 15 and 16 are coupled to an intermediate circuit 19 via the inductors 17 and 18 in the same way as the main transmitter. The intermediate circuit 19 also works on the antenna 7. It should also be noted that the auxiliary transmitter does not need to be a push-pull transmitter, as shown, but can also be an ordinary transmitter with a tube. When modulation currents occur, the rectified modulation voltages supplied to the transformer 3 shift the bias voltage of the tubes 15 and 16 to such an extent that the vibrations originating from the control transmitter cause the tubes 15 and 16 to work. The magnitude of the resulting vibrations is then dependent on the bias voltage given to the tubes, and since this in turn is dependent on the modulation voltages, a frequency must be present in the intermediate circuit 19, the amplitude of which is dependent on the modulation amplitudes and the frequency of which is given by the tax sender. The two transmitters, the main transmitter and the auxiliary transmitter HS and JS, work on the common antenna circuit 7. The side bands are pushed on by the main transmitter, and the auxiliary transmitter adds the carrier frequency in varying strengths. Of the useful circuit (antenna circuit) so ioo ° / ₀ ig by modulated oscillations are emitted, whose strength is dependent on the respectively present amplitude of the modulation. In another context, it is known to use an auxiliary transmitter to add a carrier frequency, but of constant amplitude. In this known arrangement, the carrier frequency and a sideband are suppressed and a carrier frequency of constant amplitude is added again by an auxiliary transmitter.

Instead of the antenna circuit, one or more cascades can of course be one Transmitter or the like. According to the further invention, special care is to be taken that the rectification in tubes 13 and 14 is perfect. As a result of rectification harmonics of double frequency arise easily. This problem can be remedied by connecting large capacitors in parallel to the rectifier, which cause a perfect smoothing of the rectified current. It may be even enough, if one can think of a rectifier of the kind shown at all and use the procedure below.

A number of relays (preferably tube relays) are provided which operate in stages. If the modulation amplitude is small, the first relay is switched on and sets one corresponding grid voltage to the auxiliary transmitter. If the modulation becomes stronger, then speaks when a certain value is exceeded, the second relay switches on and sets a different grid voltage to the auxiliary transmitter. In many cases this step-by-step shift becomes perfect be sufficient, since it is primarily in the lower range of the modulation amplitudes it is important to let the strength of the carrier frequency fluctuate.

Claims (5)

Patent claims: 1. Modulation arrangement in a working with a suppressed carrier frequency Main transmitter and an auxiliary transmitter which adds the carrier frequency, characterized in that that the carrier frequency is dependent on the modulation frequency amplitude Strength to the sidebands generated by the main transmitter, the amplitude of which corresponds to the modulation frequency amplitudes, is admitted. 2. modulation arrangement according to claim 1, characterized in that the influencing the carrier frequency amplitude of the auxiliary transmitter is carried out by the modulation frequency via a rectifier. 3. Modulation arrangement according to claim 1 and 2, characterized in that the voltages taken from the rectifier z. B. are smoothed by capacitors. 4. modulation arrangement according to claims, characterized in that means are provided which the strength of the by Auxiliary transmitter delivered carrier frequency gradually depending on the strength of the Change modulation oscillations. 5. Device according to claim 1, characterized in that as an auxiliary transmitter Push-pull transmitter is used. 1 sheet of drawings