DE967980C - Circuit arrangement for signaling by means of alternating current of any frequency - Google Patents

Description

In telecommunications systems, alternating current is often used to transmit signals and switching criteria. The frequency of the alternating current can be chosen as desired. For example, let the audio frequency Called signaling in telephone systems. In such systems, difficulties arise in the Signaling when a connection line is to be operated in both directions.

In audio frequency systems hybrid circuits have already been used to influence the Prevent own audio frequency receiving device through outgoing audio frequency signals. The known However, arrangements have the disadvantage that the recipient, but not the backwards leading part of the connecting line is protected from unwanted interference. Further provides the hybrid circuit represents additional attenuation in the cable run. A simultaneous transmission of Signals in both directions is not possible with these known arrangements; If the transmission of the signals is prevented on both sides of the line.

It has also been proposed to feed the signals onto the transmission line to connect serving and designed as a hybrid arrangement in such a way in the line that it is only effective during signaling, but in the other times by short-circuiting or disconnecting its individual parts does not represent any attenuation for the transmission path. The hybrid circuits

are so connected to the two ends of a two-wire line that the signal receiving means with respect to of the outgoing signals in the zero branch, but with respect to the incoming signals in a different branch the bridge arrangement formed by the hybrid circuit lie. It is therefore a simultaneous signaling possible in both directions. Since no current flows in the zero branch in a balanced bridge, is In the event of a signal, an influence on one's own ίο signal receiving means and those located backwards Facilities avoided. In an outgoing alternating current transmission, the forwards act The transmitted signals are not sent to their own signal receiver, which is used to receive the reverse signals one, but these forward signals can only be transmitted to the connecting line reach.

The invention relates to a circuit arrangement for the transmission of any alternating current signals Frequency over telecommunication lines in both directions, which is designed as a hybrid circuit to feed the signals onto the connecting line. It it can happen that faults occur in the hybrid circuits, e.g. B. an extreme mismatch is present due to a short circuit or open circuit, then the bridge arrangement is the one fed by the signal generator Hybrid circuit no longer calibrated. The signal receiver in the null branch of the bridge is now also influenced by the forward signals sent. This can lead to incorrect switching measures and traffic can be severely disrupted. This is especially true for long-distance dialing, with over AC signals can be transmitted in both directions on the connecting line. The mentioned disadvantage is eliminated according to the invention in that switching means are provided which are able to distinguish whether the signal receiving means are properly influenced by incoming signals or whether due to malfunctions (e.g. extreme mismatching of the feeding hybrid circuits) a wrongly influenced by outgoing signals.

Since the backward signals differ in length from the forward signals during long-distance dialing, d. H. a backward pulse lasts longer than a forward pulse, the length of the signals picked up by the signal receiver. It can then be easily distinguished from which side the signal receiver is affected. An exemplary embodiment is given with reference to the drawing the invention described in more detail. The drawing shows the main circuits of an outgoing AC transmission.

First, the forward pulsing in the outgoing AC transmission shown will be described. On the office side of the blocking element (local line transformer OL Ü) the relay A picks up the direct current surges coming from the office via the α wire in a known manner. As long as relay A is energized, the signal generator is connected to the transformer Ü of the feeding hybrid circuit through its contact ax , and contact az closes the signal circuit of the hybrid circuit in order to give the signals to the trunk line. The hybrid circuit forms a bridge arrangement which is fed by the signal generator and in 6g of which the signal receiving relay / is located in the zero branch formed by the local line transformer OLO. The secondary windings of the transformer U form the other branches of the bridge. Since the bridge is normally balanced, the alternating signal currents only flow in the remaining bridge branches, i.e. in the long-distance line, while the zero branch remains de-energized. The signal receiving relay / is therefore normally not influenced by outgoing signals. For reverse signals that come via the long-distance line, the signal receiving relay / is not in the zero branch, so that the reverse signals from / can be picked up undisturbed. The relay / takes over the forwarding of the reverse signals.

The case is now considered that the hybrid circuit is disturbed by mismatch. For example be a bridge branch short-circuited. Because the bridge is out of balance now Both forward and backward directed signals can excite the signal receiving relay /. As mentioned above, the forward and reverse signals differ in their length. One Relay switching now controls the length of the signals received by the relay /. Since it lasts for a short time Signals only occur with forward signal output, these can only be taken from / recorded characters originate from their own fork feed and must therefore be eliminated as false signals. this happens in the relay circuit in the following way:

If the signal receiving relay / picks up proper reverse pulses, the relay circuit above

1. +, », ei, EH, -

the relay EH energized. By closing contact eh 1, winding I of relay E also receives current:

2. -b *, «Al, E {1), -.

The contact ei creates a holding circuit for relay E and separates circuit 1 for relay EH , which drops out with a delay. At the end of the recorded pulse, contact i falls back and opens circuit 2, so that relay E is also de-energized and drops out. For the duration of the actuation of the relay E , earth potential is applied to the δ wire leading backwards to the exchange facility through contact ez , and in this way the backward character (s) is passed on.

If the signal receiving relay / is only excited by short pulses, first relay EH is brought back in circuit 1 and then relay E (I) in circuit 2, as already described above. If the recorded alternating current pulse is now shorter than the sum of the response times of the relays Bif and E, increased by the drop-out time of EH, ie if contact i drops out as long as the relay EH is still activated, then in the circuit

3. +, *, E (LI), eh2, c, EH, -

the relays E and EH continued together. This circuit is only interrupted when the

Claims (4)

Allocation of the transmission is canceled and contact c of the not shown allocation relay opens. Meanwhile, contact 02 sends a permanent signal on the δ wire backwards to the exchange facility. This symbol indicates that the short pulses received by the signal receiving relay / are errors. A false influence of the receiving relay as a result of disturbances in the feeding hybrid circuit is thus signaled backwards to the central office and is recorded and evaluated there like a busy response, ie the connection is triggered in a known manner and an alarm is given. ¹ S PATENT CLAIMS: I. Circuit arrangement for the transmission of alternating current signals of correct frequency over telecommunication lines in both directions, which is designed as a hybrid circuit for feeding the signals onto the connecting line, characterized in that switching means (E, EH) are provided which are able to differentiate between whether the signal receiving means (/) are properly influenced by incoming signals or whether due to disturbances (e.g. extreme mismatching of the feeding hybrid circuits) there is an incorrect influence by outgoing signals. 2. Circuit arrangement according to claim 1, characterized in that the distinguishing means is the length of the signal receiving means (/) Check the recorded signals. 3. Circuit arrangement according to claim 1 and 2, characterized in that a relay circuit (E, EH) is dimensioned as a differentiating means such that signals which exceed a certain minimum duration are properly evaluated, while signals of shorter duration are detected as errors. 4. Circuit arrangement according to claim 1 to 3, characterized in that the switching state in which the relay circuit (E, EH) detects errors, a criterion for certain switching operations (e.g. occupancy feedback, triggering, alarm). 1 sheet of drawings © 709 8J2 / 44 12.