DE537381C - Device for receiving multiple used transmitters - Google Patents

Description

Device for receiving multiple used transmitters when receiving a Repeatedly used transmitter, through the multiple messages in several channels can be transmitted at the same time if automatic gain control is used to compensate for the fading phenomena, a channel may be caused by crosstalk disturbs another, e.g. B. if a co-radiated harmonic of an oscillation of a lower frequency channel at the moment of carrier fading through the then occurring considerable gain of the receiver in a channel with higher Vibration becomes perceptible.

To avoid this, according to the invention, the structure of a receiver for multiple reception with separation of the individual oscillations before rectification carried out as follows: In the part of the receiver that is common to all vibrations there must be no overdrive of any kind. Neither is allowed here automatic gain control can be used, but rather an amplifier control can only be made after the separation of the individual vibrations. So with fluctuating amplitude the common part can never be overdriven, must it contained so little gain that the largest occurring amplitude-still below is about 1 volt.

Two vibrations belong to each channel, which are amplified separately, be rectified separately and only then put together, so one could be a Provide automatic amplifier control for each individual oscillation. This is but therefore inexpedient, because then, `call one oscillation - large amplitude while the other just disappears, the gain of the other amplifier is increased so that the glitch is significantly increased. One must therefore A common amplifier control for all vibrations of a channel (of a keying device) Provide so that all amplifiers of a channel through the strongest vibration be turned down. This procedure has strong analogy to the common one Gain control of several receivers that have the same on different antennas Receive and assemble signals.

To separate the. single vibrations can basically be two Go ways. A single, last superimposed element can be placed in such a way that all vibrations come to a sufficiently large percentage distance to them with selection means: tolerable effort to be able to separate. You then get for each to be recorded vibration a filter, which must be matched to this vibration got to. But you can also provide a number of filters with completely the same frequency and for each oscillation arrange a superimposed which is so that just the Vibration to be received by the associated filter in the center of the hole in the filter falls. You then have nothing but filters of the same type and distinguish between the superimposed frequencies each other. One then comes to the basic one shown in the drawing Construction.

i is a high frequency amplifier, at the end of which with the superimposed 2 an intermediate frequency is formed, which in the selective intermediate frequency amplifier 3 is reinforced. Intermediate frequency amplifiers and high frequency amplifiers are like that to be dimensioned so that the reception behind the intermediate frequency amplifier is unambiguous is. In this whole theorem, the amplitude should not exceed i volts at any point, to avoid overloading.

At the end of the intermediate frequency amplification, the intermediate frequency becomes given to as many devices as there are vibrations. In the attached scheme are four drawn, assuming that two vibrations lead to one Channel belong. Each device initially contains a separating tube q., Which prevent should that superimposed vibrations of the now following superimposed in one of the other Devices can reach. Then follows a rectifier 5 and a superimposed 6. Die superimposed frequency is chosen so that just the one to be received in this device Vibration is placed on the hole center of the filter 7. After the filter 7 follows an amplifier ß and a rectifier g. This device is for all vibrations completely the same. The frequency of the filter is also the same; only the superimposed frequency is set for a different vibration on each device. The two at one Channel-related rectifier g work together on an amplifier control io, which affects the amplifier $. In addition, both rectifiers work together on the writing device.

In a suitable place, for example behind the intermediate frequency amplifier 3, one of the vibrations is picked out and fed to a device i i, in which the frequency of this oscillation is compared with a standard and at Deviations exerted a corrective detuning on the superimposed 2 will. This ensures that with small upsets of the transmitter or the Überlägerers 2 not all vibrations fall out of the filters 7.

Claims (3)

PATENT CLAIMS; i. Device for receiving multiple uses Transmitter in which every oscillation is common to all oscillations after passing through one Receiver part separated and separated from the others by suitable selection means is reinforced, characterized in that to compensate for shrinkage phenomena the amplifiers processing only one oscillation are automatically regulated and in the amplifier common to all oscillations there is no automatic gain control is provided. 2. Apparatus according to claim i, characterized in that the Amplification of the part of the receiver that is common to all vibrations is that the peak value of the sum of all vibrations is nowhere greater than i volts is. 3. Apparatus according to claim i and 2, characterized in that the Amplifier control common for all amplifiers belonging to the same telegram is. q .. Apparatus according to claim i to 3, characterized in that the for Separation of the vibrations used selection means for all vibrations the same and are matched.