DE495028C - Transmission system that contains additional damping in the unspoken state, which is switched off under the influence of the currents to be transmitted - Google Patents

Description

Transmission system that provides additional attenuation in the unspoken state which is switched off under the action of the currents to be transmitted In telecommunications technology knows the task of establishing a connection that is I was locked by the stream of communications so that the Currents can pass through: one has such cases e.g. B. with feedback locks in wire telephony and wireless traffic.

It is known to use relays for this purpose, their contacts through the telecommunications flows are operated, and the z. B. the i anode voltage to one Apply an in-line amplifier. However, it is grounded through activity the relay caused sharp switching shocks. Furthermore, by switching off the Anode battery the line completely interrupted. while it's better. the Do not make the attenuation higher than to safely prevent self-excitement or full speech distortion is necessary. so that if possible the beginning of the telecommunication signs, which cause the circuit. is not completely lost.

One therefore has the grid potential even with such an amplifier tube made negative so badly at rest that the amplifier was impermeable. That Grid potential should then be under your influence with the help of a tube rectifier the streams of speech are shifted so far. that the amplifier tube iiii linear Area works. However, there are considerable difficulties, despite the great dex Fluctuations in the amperage of the telecommunications currents result in a constant displacement voltage to obtain. By using rectifier tubes with saturation currents, this difficulty is not eliminated because of the strength of the rectified current is not independent of the hell of the depressed alternating voltage.

The invention overcomes these deficiencies by an arrangement in which the transition from the blocked to the permeable state is rapid but steady yells in front of it and strives for a well-defined limit state. \ Tach the invention the additional damping is effected by a tube that is expediently using one or more transmitters is parallel to the transmission system and is in the idle state is current-permeable. Under the influence of the streams of news, which in itself is known can be `` amplified and rectified '' - the grid potential of this becomes Locking tube so relocated. that it becomes impermeable and practically no shunt more about management.

In Fig. I an embodiment is shown from which can be seen is. that in the gate-lying case for the locking tube and the in the Amplifier and rectifier effective tubes are used the same batteries can. In a line L intended for transmission in the direction indicated by the arrow Direction is used to input an amplifier, S is the grid circle of a tube L ',, placed parallel. Part of the message stream is amplified through this tube and the rectifier V, pressed, so that at the resistor 97 a negative Potential arises, which is effective at the grid of the barrier tube R. Lies in the idle state on the grid of this tube the bias voltage of the grid battery, whose negative pole is on the terminal D is connected. The following lugs are attached to the other terminals: at A the positive pole of the anode battery, at B the negative pole of the anode battery and the positive pole of the heating battery, at C the negative pole of the heating battery and the positive pole of the grid battery.

The potential of D is chosen so that the tube R in the unspoken State and of course the tube L, is current-permeable. The transformer U can be dimensioned so that its short-circuit resistance is small and its no-load resistance are great against the impedance of the power. Under these circumstances, the Transmission via the line L reduced to the desired extent through the tube R. be e.g. B. the transformer can be sized so that he, in the idle state with the Tube R loaded, an additional attenuation of about three neper in the range of the speaking frequencies results. Such attenuation is sufficient in most cases for four-wire connections for blocking. Through the voltages that are transmitted over the line L when speaking becomes, as previously described, a negative potential at the end of the resistor u 'which is connected to the grid of the R tube. A capacitor IL or some other known circuit can be used to mitigate the current fluctuations to serve. Due to the negative bias, the grid of the tube R can be biased so far be that the transformer U runs practically empty and the additional attenuation to the line disappears. In this case it is not important that the grid potential shift derRöhreR comes as close as possible to a certain amount, but it is sufficient that the Relocation exceeds a certain minimum amount.

Another embodiment is shown in FIG. The tube R is laid here parallel to part of the line L; which is separated from the transmission system by two transformers U1 and LT. H means the heating battery and AB the anode battery. Part of the current is in turn branched off from the line and fed to an amplifier and rectifier arrangement G, which can be designed in a manner similar to that in FIG. The operation of this circuit is similar to that previously described. The tube R is current-permeable in the quiescent state and forms a shunt with the transmission system. The internal resistance of the tube is increased by the speech currents in such a way that the shunt is practically eliminated. The transformers are used for appropriate adaptation to the resistance of the tube.

Claims (2)

PATENT CLAIMS: i. transmission system, which in the unspoken state contains an additional attenuation that is switched off under the action of the currents to be transmitted is, characterized in that the additional attenuation by a to the transmission system expediently connected in parallel using one or more transformers Tube is caused, whose internal resistance is caused by the speech or signal currents is enlarged. 2. Transmission system according to claim r, characterized in that that the short-circuit resistance of the transformer or the transformer is small and the no-load resistance is large compared to the impedance of the transmission system.