DE1049926B - Relayless subscriber circuit for telecommunication systems with dialer operation, in particular telephone systems - Google Patents

Description

GERMAN

To reduce the effort for telecommunication systems with dialer operation, relayless are already available Subscriber circuits proposed in which the individual subscriber lines in the exchange are coupled to one another via diodes and resistors. In these known arrangements the safe exam causes difficulties.

There are already relayless subscriber circuits known in which the base of a transistor is directly connected to one wire of the connection line of a telephone subscriber, whose the other wire is connected to the negative line voltage via a resistor. This known arrangement requires a transistor for each participant.

The aim of the invention is to reduce the complexity of such relayless subscriber circuits by applying them to reduce common evaluation elements for several subscriber lines without increasing the security Reduce. This achieves the invention in that one by the call status of several participants variable impedance forms part of a bridge circuit powered by AC voltage Whose two electrodes of a transistor are located when the voltage-free tapping points are adjusted, which in such a way are biased so that the transistor can flow a current through a connected to the third electrode The starter relay blocks as long as the bridge is balanced. The arrangement according to the invention enables it, for each subscriber line only one diode and a partial winding of the useful as Transformer designed impedance to be provided. It allows a voltage test in a simple manner directly over the subscriber line by means of a to the speaking arms of a call seeker connected transistor circuit.

An embodiment of the invention is shown in the drawing, which shows the essential circuits of a call seeker and the connection circuits of four participants. The two wires of the connection line of each subscriber Tn are bridged in the exchange by the series connection of a diode D and an inductance L. The inductances L 1, L 2 etc. of several participants, for example ten participants, are wound on a common core K , which carries a common secondary winding 6 ″. The impedance of this secondary winding 5 ¹ depends on whether the windings of the individual inductances L are open or are short-circuited via a subscriber's connection line and the subscriber set.

The secondary winding S ¹ is located in one of the resistors Rl, R2 and the series circuit of a resistor i? 3 with a capacitor Cl bridge formed. On one diagonal of this bridge relayless subscriber circuit

for telecommunication systems with dialer operation, in particular telephone systems

Applicant:

Telefonbau und Normalzeit G.m.b.H., Frankfurt / M., Mainzer Landstr. 134-146

Walter Gerhard, Neu-Isenburg,

has been named as the inventor

the alternating voltage of a source Q is applied, which is approximately 2 volts. On the other diagonal of this bridge are the base and emitter of the transistor TrI, the collector of which is connected to the negative voltage.

The base of the transistor is connected to positive voltage via a resistor R 4. As long as the bridge is balanced, no voltages occur at the tapping points A and B. The transistor Tr 1 is blocked under the influence of the positive potential at the base. The one connected between the emitter and earth

Relay on receives no power. \:

If one of the participants lifts his handset and

thereby closes a circuit which connects the two ends of their associated inductances L with each other, thereby the inductance of the secondary winding 5 is changed ". Thus, the. balancing the bridge is eliminated, and the AC voltage appearing at the tap points A and B of the source Q .. Once under your influence of these alternating voltage, the potential of the base of the transistor is negative, the transistor conducts current now is flowing in the circuit collector -. emitter current through the coil of the relay to the during the construction of the magnetic field in the relay in Wick 'lung II additionally induced voltage holds the Basiä of the transistor negative than the emitter and the transistor in the current-conducting state, has attracted to Re ^ lai at A the tap points A and B bridging capacitor C 2 limits the sensitive;. ness of the assembly to the required Measure.

The number of participants, whose windings L interact with the impedance vS ", depends on the constructive ^: conditions of the transformer with the core K. Several bridge arrangements

809748/104

genes each with an impedance S can work together with the same transistor Tr 1. All bridge arrangements are then connected in parallel at their tapping points A and B. The relay on and transistor Trl are yorgesehen common for all participants who are connected to the contact field of the call viewfinder AS.

The relay An closes a circuit for the drive when energized by means of contact at 1 In order to not cause any disturbance when calling the respective subscriber line from the line selector through the diode in the branch to each subscriber line, according to the invention, only a half-wave of an alternating current is used as the ringing current sent out, which is polarized so that the diode blocks each subscriber line. The ringing voltage can be generated from the alternating current network. For this purpose, a voltage converter SW with an am

magnet DM of a free call seeker AS. The primary winding and two secondary I II

drive magnet DM works with a relay F in an interplay. A contact d switches on the winding I of the relay F , and contact f interrupts the circuit of the drive magnet DM.

A second winding of the relay F is connected to the collector of the transistor Tr 2. The base of the transistor is usually connected to the positive pole via a high-resistance resistor R 10, so that the transistor Tr 2 blocks and the winding II of the relay F receives no current.

The base of the transistor Tr 2 is also connected to the switching arm b of the call seeker AS, while the switching arm α of the call seeker has a negative voltage across the diode D 6, which is tapped at a voltage divider formed from the resistors R6 and R7. When the switching arms a, b of the caller AS overflow meet the connecting line of the calling subscriber, in which the two wires of the voice line are galvanically connected _; then the negative potential of the switch armesa reaches the base of the transistor Tr2 via the switch arm b. This becomes conductive and the winding II of the relay F is continuously excited. Contact / therefore keeps the circuit of the rotary magnet DM interrupted, so that the switching arms stop.

The diodes D 1 to D 4 at the branches of the subscriber lines are polarized so that they block the negative voltage of the switching arm α. Therefore, this test potential is only transferred to the 6-wire via the hook switch of the calling subscriber.

After shutting down the call seeker, a relay C , not shown, is energized, the contacts el and c2 of which switch on a feed bridge relay RA to the switching arms a and b and thus to the subscriber line. The two windings of the relay RA , together with the resistance of the connection line and the telephone set, form a voltage divider with respect to points C and D of the subscriber line. In this case, point C is negative compared to point D. Thus, the diode D 1 of the subscriber line remains blocked by the supply voltage.

The tap points E and M of the voltage divider of the test circuit are chosen so that the voltage at point M is negative compared to the voltage at point E , but positive compared to the voltage at point C, and that the voltage at tap E is negative compared to the voltage at point D. Under these conditions, the diodes D 6 and the transistor Tr 2 are blocked, that is, the starter and the test circuit are switched off by the supply voltage. The setting of the call seeker is maintained by opening contact c 3.

If another call seeker is now running over the existing connection while searching, the test device of this call seeker cannot influence the supply circuit and cannot check it, since supply voltage is already applied to the relevant line. Windings I and II are provided. The secondary winding II is connected in the opposite direction to the winding I, and a diode D 8 is connected upstream of it. The winding I generates the ringing AC voltage, and the ^un Wickl g H generates the required compensation for the one half-wave counter voltage. This is superimposed on the capacitor C 3 of the call alternating voltage. At the terminals G ₁ H there is therefore only a half-wave of the alternating current with the desired amplitude, which is used as the ringing voltage without a rectifier being in the ringing circuit itself.

Claims (11)

Claims. 1. Relayless subscriber circuit for telecommunication systems with dialer operation, in particular telephone systems, characterized in that an impedance dependent on the call status of several subscribers forms part of a bridge circuit fed by AC voltage, at which two electrodes of a transistor TrI are located when comparing voltage-free tapping points (A, B) , one electrode of which is biased so that the transistor blocks the flow of current for a starter relay during adjustment. 2. Relayless subscriber circuit according to claim 1, characterized in that the secondary winding (S) of a transformer with several primary windings is located in the bridge arm, one of which is connected to the branch of a subscriber line and depending on whether the wires of the subscriber line are open or together are connected, the inductance of the secondary winding changes. 3. Relayless subscriber circuit according to Claim 1 and 2, characterized in that each primary winding (Ll to L 4) is preceded by a diode (Dl to D 4) in the branch of a subscriber line. 4. Relayless subscriber circuit according to claim 1, characterized in that the starting relay is switched on in the emitter circuit of the transistor and that the conductivity of the Transistor at the emitter negative voltage across a second winding of the relay and transmitting a diode back to the base of the transistor to keep it conductive. 5. Relayless subscriber circuit according to claim 1 to 4, characterized in that the base of a transistor (Tr 2) and test voltage via a diode (D 6) are applied in such polarity that only with a galvanic connection to the voice currents leading arms of the call seeker The test voltage is applied to the base of the voice wires in the calling subscriber station, but the diodes (Dl to Z) 4) in the branches of each subscriber line block the test voltage. 6. Relayless subscriber circuit according to claim 1 to 5, characterized in that the supply voltage applied to the voice line after stopping the caller is dimensioned relative to the test voltage so that the transistor of the test circuit and the diode (D 6) block again. 7. Circuit arrangement for telecommunication switching devices with relayless subscriber circuits according to claim 1 to 6, characterized in that for calling a desired subscriber instead of ringing alternating current only half-waves of such polarity are sent out by the diodes (D 1 to D 4) in the branch the subscriber line cannot be let through. 8. Circuit arrangement according to claim 7, characterized in that the half-wave of the ringing current is generated from the alternating voltage of a network by negative feedback of a half-wave obtained by means of half-wave rectification to the full alternating voltage, the half-wave rectifier (D 8) being only in the negative feedback circuit. 9. Circuit arrangement according to claim 7 and 8, characterized in that the negative feedback circuit to a capacitor lying in the ringing circuit (C 3) is connected. 10. Circuit arrangement according to claim 1, characterized in that in the output circuit of the transistor there is a winding of an electromagnetic relay (AnI) , the second winding (AnII) of which is connected to the input circuit of the transistor, so that when the transistor responds in the A current change occurring in a winding induces a voltage in the second winding which occurs at the input circuit of the transistor. 11. Circuit arrangement according to claim 1 and 10, characterized in that in the connection of the second winding (AnIT) of the relay with the input circuit of the transistor (TrV) there is a current- direction-dependent resistor (DS) . Considered publications:
German patent specification No. 954 799. 1 sheet of drawings 1 809'7W104 1.59