DE1537895C - Circuit arrangement for evaluating a call in telecommunications systems - Google Patents

Description

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In telecommunication systems, especially telephone systems, are available as a relay with protected, magnetically controlled It is known to form contacts for calling a location from the veritable, which on an averaging device periodically ringing alternating current can be arranged to printed circuit, whereby send. At the point to be called, the complexity and space requirement of the circuit arrangement this ringing alternating current energizes a call relay, 5 are reduced.

which controls an auxiliary relay. This auxiliary relay must be An embodiment of the invention is in the

be provided with a delay; shown around the breaks drawing. This shows a circuit

between the individual periodic call flow order for evaluating periodic call transmissions.

To bridge broadcasts. To the connection line la, Ib, which of a

The implementation of this delay prepares io connection device, not shown, occupied

with switching arrangements with electromagnetic, is via a full wave rectifier VG

Relays whose magnetically attracted armature is connected to a call relay AR . The relay AR

nisch contact springs actuated, no difficulties. a capacitor C1 is connected in parallel and on

In the case of relays with magnetically controllable contacts, resistor R is connected upstream, which in known

so-called reed contacts, is a sufficient way of protecting against

Delay, however, is not easily possible. Richter VG let through alternating voltage peaks

The invention is based on the object to serve.

Use of a relay with magnetically controllable hits via wires 1 a, 1 b of the connecting cable

Contacts as a call pause bridging relay for alternating current on, then relay AR responds.

enable. · 20 His contact ar closes the circle of excitation for the

From Auslegeschrift 1 147 295 it is already winding I of a sequence relay W, which is also

known, with the help of a capacitor, a relay responds. The contact wl of the slave relay closes

To influence reluctantly by either the one circuit for relay H and the contact wl

Charging time or the discharging time of a capacitor, a circuit for the call alarm clock AW, which

which can be connected in parallel to the relay windings, which is fed from an alternating voltage source WQ.

The drop-out delay of the relevant relay is determined. The two windings of the pause over ■

In order to achieve very long delay times, however, bridging relays H are connected in series, as is necessary to bridge the call pauses constantly with the two poles of the operation in the case of periodic call transmissions, a charging circuit connected to a current source for a correspondingly large capacitor C1 is required . The ren is therefore necessary in the idle state. The invention improves this charging capacitor C.2. Through the contact wl orders essentially by the fact that not only the slave relay W is closed on the one hand a circuit for the charging or discharging time of a capacitor to the winding I of the relay H , so that reaching a sufficient delay time for this responds immediately. On the other hand, a call pause bridging relay is used, 35 second winding WII of the follow-up relay of the connection special that both time spans, i.e. both the connection point between the one occupancy of the Kon discharge time and the charging time successively to the capacitor Cl and the end of the winding II of the Creation of a sufficient total delay time Relay H connected to ground, i.e. to the same pole, for the call pause bridging relay to which the other assignment of the capacitor is also used. 40 C 2 is constantly. The capacitor C 2 discharges

The invention is based on a circuit thus via the winding II of the slave relay W. arrangement for the evaluation of a call in As long as the discharge current flows, the follow-up telecommunications system remains off, in which a periodic relay W held, even if the ringing current transmission calls periodically energized call relay and should have ended in the meantime and relay AR again a call pause bridging relay are provided, 45 dropped and thus contact ar should be open, with the call relay itself a follow-up relay can be switched after with complete discharge of the capacitor Cl. For such arrangements and the subsequent relay drops W and opens contact is proposed that the ringing pauses-over- wl. With this, the charging circuit for the Kondenbrückungsrelais in one, no contacts included- sator Cl effective again and over the Wickden, with two poles the operating current source I and II of the pause bridging relay H is connected to the charging circuit of a capacitor, the charging current of which keeps it energized,
Occupancy connected to the relay winding by The pause bridging relay H remains energized as long as a contact of the call relay or a caller is energized as ringing current transmissions are received periodically via a winding of the call relay or and the relays AR and W are energized. If the ringing current transmission can be switched on from the additional call sequence relay to the same pole 55 connection device with which its other assignment was terminated, then the last ringing currentdig is connected. Broadcast takes a much longer break than

By suitably dimensioning the relay windings, usually between two periodic ringing currents

and the capacitor can be the strength of the charging broadcasts. The time constant of the charging circuit of the

current and that of the discharge current as well as the 60 capacitor Cl is dimensioned so that a short "time"

Duration of the charge or discharge des.Konden- after the usual break between two

sators are dimensioned so that by summation periodic Rufstromsverkehr the still flowing

At both times the call pause bridging relay is no longer sufficient with the rest of the charging current, relay H energized

Security to keep your contacts during a call break, and this falls off.

keeps closed. 65 -During the excitation of the pause-bridging

The circuit arrangement according to the invention for relais H closes a contact / il a circuit for

allows all relays related to the call lamp AL of the called station //, the

the evaluation of the periodic Rufstromsehdungen is fed from the AC power source WQ and

is periodically interrupted by means of an interrupter U so that the call lamp lights up and flickers. A contact h 2 of the pause bridging relay closes a circuit for an astable multivibrator, which is formed from the transistors Tl and Tl and a capacitor C3. In this circuit there is a capacitor cirfür.den there is a constant charging circuit via resistors R 4 and RS , which are dimensioned so that a very weak charging current flows. At the moment when the contact / i2 closes, the capacitor CA is fully charged and releases its positive charge through a resistor R 3 to the base of the transistor Tl, so that it becomes conductive. An assignment of the capacitor C 3 is connected to the KollektoF of the transistor T1, for which there is a constant charging circuit via the resistor R1, the diode Gl and the transistor T2 in the idle state. Ground is connected to the connection point between the right assignment of the capacitor C 3 and the diode Gl via a high-resistance resistor Rl. If the emitter-collector path of the transistor Tl becomes conductive, then the other assignment of the capacitor Cb is switched to the negative pole. The capacitor C3 is thus reloaded. When the capacitor C 3 is completely recharged, a more positive voltage is applied to the base of the transistor T 2 via the tap of the voltage divider formed by the resistors R 2 and R 9, and the base of the transistor T 2 is switched to be conductive. Via the emitter-collector path of the transistor T 2 and a protective resistor R 8, negative voltage is now applied to the circuit, which is kept closed by the contact h2 of the pause bridging relay. This negative voltage reaches the base of a transistor T3 via a resistor R 4, which is switched to be conductive. A relay RW is energized in the emitter-collector circuit of this transistor T3. The contact nvl of the relay RW switches the call lamp AL to another point N, which could accept the call. Parallel to the call lamp AL of the first exclusively called point H and a contact rw 2 switches the call alarm AW of the second point N parallel to the call alarm AW of the first point H.

ίο The dimensioning of the charging circuit of the capacitor C 3 makes it possible to determine the point in time when the call forwarding relay RW should respond. The switching of the astable multivibrator allows bridging a fixed period of time if dimensioned appropriately.

As soon as the contact h 1 opens again after the break bridging relay H has dropped out, the astable multivibrator and the evaluation circuit with transistor T3 return to their starting position.

Claims (1)

Claim: Circuit arrangement for the evaluation of a Call in telecommunications systems with a call relay excited by ^ periodic call transmissions ^ as and a call pause bridging relay, characterized in that the call pause bridging relay (H) is located in a charging circuit of a capacitor (C2) which is connected to both poles of the operating power source and which is connected to both poles of the operating power source and whose assignment is connected to the relay winding (HII) a contact (wl) of the call relay or a call sequence relay (W) can be connected via a winding of the call relay or the call sequence relay (IfII) to the same pole with which its other assignment is constantly connected. 1 sheet of drawings