DE626876C - Method for modulating wireless transmitters - Google Patents

Description

Method for modulating wireless transmitters In the main patent proposed to derive a direct current from the modulation currents, its size depends on the modulation strength, and through this direct current the operating point to shift on the modulation characteristic. This procedure is special advantageous because, on the one hand, a significant energy saving is achieved at the transmitter on the other hand, the interference from neighboring stations is reduced. Will such Targeted transmitter, this is because of the continuously fluctuating carrier frequency amplitude quite difficult in and of itself, but still possible during the breaks, because in general a certain antenna residual current occurs in the break. It will therefore, in order to make the bearing impossible even during this time and thus that Targeting such transmitters more or less at all and also to reach others Advantages, proposed according to the invention, the antenna residual current during the breaks to suppress in a known manner.

The suppression of the antenna residual current has already been carried out on transmitters with telegraph keying, but in a different way. In the method according to the main patent, only a very small residual antenna current occurs due to the permanent shifting of the operating point, and only this small residual current is to be eliminated. In the case of the known transmitters working with telegraph keying, however, a much higher value has been eliminated and the antenna z. B. switched off by a relay. Since it starts with a higher current value than the very low carrier current in the pause, according to the main patent, the result is strong cracking, which is, however, in many cases harmless, since it is telegraphy scanning.

The occurrence of the antenna current during the break is different Causes attributable, in particular, to the fact that the swinging tax transmitter directly induces the antenna circuit. But it can also be because the end tubes not be completely shut down because the control tube is a bit too small. It is even may be advantageous if the control tubes should not be so big, to allow a certain residual antenna current, viewed from the end tubes, and then suppress this according to the invention.

Various paths can be taken to implement the idea of the invention. In the case of Fig. R, a voltage is applied directly to the antenna circuit by the control transmitter St, which compensates for the residual current according to amplitude and phase or amplitude or phase alone. The main transmitter HS is modulated according to the main patent. The individual facilities are only shown schematically in the figure. The currents triggered by the microphone M are first fed to a preamplifier Z '. In the output circuit is a rectifier G and the actual modulation amplifier ZV, by the rectified in G flows of the operating point of the main transmitter HS moves and modulates the amplified in ZV modulation currents.

The adjustment of the compensation is done simply by the fact that in the unspoken State of the transmitter the antenna current is compensated by the correct setting according to one of the known measuring methods (measuring instrument in the antenna circuit or receiving by an overlay tone). The compensation circle K can be in be designed in any way. In the case shown, the residual current can flow through Change of the coupling ratio of the inductive couplings L1 and L2 according to amplitude and compensated by changing the capacitor C or the inductance L3 according to phase will.

In the case of Fig. A, the rectifier G is not just connected to the main transmitter HS connected to the operating point shift, but also with a relay R, the lies directly in the antenna circle. As soon as the modulation amplitude falls below a certain If the value drops, the antenna circuit is interrupted. Depending on the situation, it can this switching device is also located in a preliminary stage or several relays are provided be through which at the same time z. B. the antenna circuit and the last stage switched on will. In all cases, the relay must be set in such a way that it responds, as soon as the modulation falls below pianissimo or in the order of magnitude of the cable, Microphone or needle noise. The switching capacity of the relay is determined by those at pianissimo, d. H. power emitted by the antenna during the break. in the When switched on, however, it must be able to absorb the antenna line power. - Instead of the relay shown in Fig. A, other switching devices can also be used occur, such as a grid-controlled gas discharge tube. The arrangement remains in principle the same, the discharge path E only takes the place of the relay R in Fig. 2 in fig 3. Depending on the situation, a discharge tube with cold or Find heated cathode use. The deactivation of the antenna in the modulation pause occurs when the voltage at the anode or an auxiliary electrode falls below a certain value The value falls, and the connection as soon as a certain voltage value is exceeded will. The required voltages can be applied to suitable resistors or resonance circuits be tapped, or there are additional constant or controlled biases given.

The advantage of gas discharge tubes is that they are in the ignited state have a small internal resistance, so that through it conditional attenuations are small; on the other hand, they are able to handle large currents to cope with, which is particularly advantageous with large broadcasters, there, as above mentioned, the switching device, i.e. the gas discharge tube, must be able to to lead the full power of the transmitter. The switching times are also, by name if suitable gas fillings are used, no difficulties whatsoever are to be feared.

In the arrangement shown in Fig. 3, the discharge tube goes out, as soon as the operating point of the transmitter is lowered so far that the voltage does not more is sufficient to maintain the arc. However, the pipe ignites if at the ignition electrode, which is fed from the rectifier G, a certain amount Value is exceeded.

The in Fig, q. The arrangement shown differs from the one just shown described in that the auxiliary electrode is not connected to the rectifier, but is taken from a high frequency circuit. The withdrawal can be direct or indirect take place.

As shown in Fig. 5, discharge paths with heated Electrodes are used, most of which are simply plugged into the antenna can be provided without special measures for their ignition (auxiliary electrodes) as their operating voltages can be selected almost at will.

In Fig. 6 two wall-current amplifiers are used, which are in push-pull work to let the high frequency oscillate unhindered. Same arrangement can also be met with grid controlled rectifiers.

Claims (1)

PATENT CLAIMS: r. Method for modulating wireless transmitters according to patent 588 89o, characterized in that by additional switching measures the antenna residual current occurring without this is suppressed during the breaks. a. Method according to claim r, characterized in that the antenna residual current after Amplitude or phase or both is compensated (Fig. Z). 3. The method according to claim T, characterized in that, depending on the modulation strength, one preferably Switching device located in the antenna circuit is actuated. 4. Facility for implementation of the method according to claim 3, characterized in that the switching device consists of a mechanically operating relay (Fig. 2). 5. Facility for implementation of the method according to claim 3, characterized in that the switching device consists of a discharge path. 6. Device according to claim 5, characterized in that that the discharge path -in the antenna circuit is switched on and an ignition electrode which is supplied with a direct current derived from the modulation currents (Fig. 3). 7. Device according to claim 5, characterized in that the discharge path has an ignition electrode and to this one directly or indirectly a high-frequency circuit voltage is applied (Fig.4). G. Device according to claim 5, characterized characterized in that the discharge path has heated electrodes (_Fig. 5). . G. Device according to Claim 5 or the following, characterized in that the Discharge paths are biased. ro. Facility for carrying out the procedure according to claim 3, characterized in that the switching device consists of grid-controlled Rectifiers or wall-mounted current amplifiers (Fig. 6).