DE750336C - Switching to wireless intercom - Google Patents

Description

Wireless Intercom Circuitry The invention relates to a circuit for two-way communication based on the well-known principle of pendulum feedback Makes use and which is characterized by its particular simplicity and operational reliability. It is known to have pendulum feedback receivers in intercom systems on both stations to use that in the times when the receiving tube is self-excited will act as a transmitter. Is the auxiliary alternating voltage that the periodic switching the tube causes overhearing, so the switch does not interfere, so that too Telephony traffic is easily feasible. To ensure a distortion-free transmission To ensure, it is a condition that the auxiliary AC voltages on both stations completely coincide with each other in their frequency and in the correct phase Relate to each other. This condition was met in the known arrangement through the use of crystal stabilized auxiliary oscillators and special tuning means to regulate the phase met. It turns out, however, that even with the most careful Selecting the operating conditions no proper traffic is possible. These difficulties to overcome is the object of the invention.

The invention is based on the knowledge that the optimal operating state is reached when the device of one station acts as a transmitter in the moments in which the device of the other station is in the receiving state, and that it is possible to use the two stations to bring the pendulum frequencies into a kind of entrainment state, which automatically ensures this optimal state. The reception state is understood to mean the moment at which the device changes from attenuation to undamping. The received field strength E, _ which prevails at this moment, generates an amplitude ä # E (g = i / d = resonance exaggeration) on the oscillating circuit, and this amplitude determines the size of the oscillations that arise. So the incoming wave is only effective in this one moment.

According to the invention, the oscillation frequency is set by self-interruption the receiving and transmitting tube by means of a resistance capacitance combination generated, which is located in one of the tube circuits.

It is known per se, the pendulum frequency in pendulum feedback receivers to be established by self-interruption by means of a resistance capacitance combination. The idea representing the invention, the self-interruption of the pendulum frequency receiver to be used for intercoms, but is not yet known and is not Obviously obvious, since such recipients are not special from the outset Advantages over other receivers with, control of the tube by a separately generated Seem to have auxiliary frequency. Only a closer look at the intercom systems conditions occurring with pendulum feedback devices shows that the self-interruption automatic synchronization by means of a resistance capacitance combination of the devices on the two stations, so that the optimal distortion-free State is always preserved under all circumstances.

The invention will be explained in more detail with reference to the figures: Fig. i shows a feedback tube R, in whose grid circle a capacitor C and an adjustable resistor W are switched on. Through periodic charging and Discharge of the capacitor is periodically between the vibrating and the tube taxed back and forth in the * non-oscillating state. Both a listening device T as well as a modulation source, e.g. B. a microphone M. Instead of in the grid circle, the resistance capacitance combination, as is known per se, also lie in a different circle of tubes.

If devices of the type shown in fig. i Art are used and the resistors L-V or the capacitances C are set in such a way that that the pendulum frequencies on the two stations exactly match each other, the following conditions result: The vibrations of the tube begin, -, venn the reverse voltage of the capacitor C has decayed sufficiently. The first push for the use of vibrations there is generally the shot effect; this is in Fig.2 shown. On the abscissa in Fig. 2 the time t is on the ordinate that on the grid voltage v8 occurring in the tube. The sawtooth curve represents the voltage curve across the capacitor C. From the negative maximum value the voltage increases slowly, as shown, so that the tube at a Value starts to oscillate just below the preload zero, as shown in Fig. 2 is shown schematically. Now the voltage v, in the times in which the Tube is blocked, a high-frequency from the other intercom station. frequency voltage superimposed, the vibrations start earlier, as can be understood from Fig. 3 will, d. H. the use of vibrations is controlled by the incoming high frequency. So if an incoming character happens to happen once with the beginning of the natural oscillation coincides (and this always happens once within a very short time), so hold From this moment on, the two devices mutually synchronize with each other in such a way that the one device sends when the other device receives.

In practice, the setting of the devices is done in such a way that the time constant the self-interrupting circuit z. B. is adjusted at the resistor W until the pendulum frequencies on the two stations exactly match each other. This condition is immediately noticeable because the two devices connect to each other Kick fall and trouble-free traffic becomes possible. The resistance W can for this purpose consist of a tube whose grid voltage is regulated.

As already mentioned above, the circuit can of course be based on the can be modified in various ways. The only requirement is that the feedback so strong and the operating voltages are chosen so that the R''cihre as itself interrupting oscillator is working. The modulation as well as the decrease in the demodulated Stress can then occur in any way.

As a particular advantage of the circuit designed according to the invention it should be mentioned that the means used for automatic synchronization have a Significant simplification of the entire circuit result, as additional oscillators o. The like. Are completely avoided. -Specifically for a counter: traffic between a plurality of stations, each of which in communication with each other should occur, the invention is suitable.

Claims (5)

PATENT CLAIMS: i. Circuit for wireless intercom communication with Pendulum feedback devices acting simultaneously as transmitter and receiver, thereby characterized in that the pendulum frequency by self-interruption of the receiving and transmitting tube is generated by means of a resistance capacitance combination. 2. Circuit according to claim i, characterized in that the resistance capacitance combination lies in the grid circle of a normal feedback tube. 3. Circuit according to claim i, characterized in that the time constant of the resistance capacitance combination is adjustable. q .. Circuit according to claim 3, characterized in that as Resistance a controllable tube is used. 5. Circuit according to claim i, characterized by use in intercom systems with a plurality of stations, of each of which has to come into contact with each other.