DE1061386B - Circuit arrangement for interconnecting lines of different characteristics - Google Patents

Description

GERMAN

In telephone technology, it is often necessary to use lines of different characteristics a unitary connecting link, represented for example by a pair of cords can be to connect. In many cases it is necessary to switch to the via the connecting link Make interconnected lines to match the characteristics of a line to coordinate that of the other line. For this purpose it is known the characteristics of each other to connected lines via a multiple by using different current levels used wire to transfer into the relevant link and in this link to Carrying out switchovers in the transmissions that terminate the lines to be interconnected to evaluate. For example, in private branch exchanges, there is the possibility of using a pair of cords Connections between extensions among themselves, between extensions and trunk lines as well as between branches and cross-connection lines, then appropriate Switches are made in the transmissions terminating the various lines will. Should the same pair of cords also be used for connections via long-distance lines with and without disconnectable Extension cords are made, so it is necessary that in this case the cord pair takes on yet another indicator that indicates when a plug is in the jack of a long-distance line is plugged. If long-distance lines are connected to one another via the pair of cords, it is necessary to switch off the attenuator in the case of amplified long-distance lines.

Since now for the transmission of the above-mentioned line characteristics over an existing one Pilot wire is worked with different current levels, it is initially not easily possible There are also other characteristics that deal with other line characteristics via the already existing, multiple-use wire into the relevant link to be transmitted so that they are evaluated in this link can.

The invention now shows a way of how you can without the use of an additional wire with the Existing pilot wires get by for the transmission of different line characteristics can, by suggesting that the only at a certain current level of a line wire in the link appealing and thus a certain line characteristic characterizing switching means be thrown off again by a subsequent change in current in the relevant line core

Circuit arrangement
for interconnecting lines
different characteristics

Applicant:
Telephone construction and normal time G. mb H. _r
Frankfurt / M., Mainzer Landstr. 134-146

Wilhelm Pfeil, Frankfurt / M., has been named as the inventor

and that the only temporary response of these switching means by further switching means of the link is used to identify a further line characteristic. For example a certain line characteristic due to the low-resistance through-connection of the occupancy wire, which in the connecting link leads, marked, so another line characteristic can use the same Wire are transferred by the fact that the occupancy wire is temporarily in the line transmission in question is short-circuited and then switched to high resistance again. The evaluation of one thing only temporary response in the event of a low-resistance formation of the occupancy circuit for Effect coming switching means can take place in an expedient manner in that these switching means when they are excited each charge a capacitor, which when these switching devices or Relay as a result of the temporary short circuit of the occupancy wire via a line in question

* o characteristic characteristic relay is discharged. If the characteristic of about the link interconnected lines is established, it is necessary, if necessary, in the two with each other connected line transmissions certain switchings in the voice lines, so in the assumed embodiment, the activation or deactivation of extension cables, to undertake. The corresponding switching commands can either be transmitted via another pilot wire of the connecting link, but you can also continue to do so, as by the invention: is proposed to use a certain change in potential in the occupancy wire of the link. In this case it is necessary that an in

909 577/101

voltage-dependent switching means connected to the relevant line transmission to the occupancy wire carrying out any switchovers in the voice lines for the transmission in question Switching means controls. A "via a voltage divider" is expediently used as the voltage-dependent switching means Polarized relay connected to this fixed reference voltage on one side, but also by a corresponding one switched transistor can be replaced. In this case, any switchover is in the Voice lines of the transmitter executing relay in the output circuit of the transistor, during which Input circuit with the assignment circuit of the relevant transformer or the relevant connecting link is coupled.

Some exemplary embodiments of the invention are shown in the drawing. Show it

Fig. 1 and 2 each a pair of cords for connecting lines of different characteristics, in which the transfer of the switchover command from the emery pair to the relevant line transfer takes place via a special pilot wire,

3 and 4a and b show a pair of cords or one side of a pair of cords in which the transmission These control commands are carried out via the same line wire that is used for the respective line characteristics is reported in the relevant string pair.

In all figures, those switching means which perform the same function are also identified by the same reference symbols. The relays A and E represent the occupancy relays of the query and connection side of the respective cord pair, while the relays DA and DV respond in the case of a low-resistance configuration of the relevant occupancy circuits, the low-resistance configuration of an occupancy circuit being determined by the relevant transmitter side. If the relays DA and DV respond due to a corresponding line connection, certain switchings in the transmissions that are not of further interest here are made via their contacts in the o "-wire in FIGS. 1 and 2. If the relays DA and DV caused to drop again by a subsequent temporary short-circuit of the incoming and outgoing occupancy cores c, relays FA and FV are thereby excited in FIGS. evaluate.

If, in the arrangement according to FIG. 1, the interrogation plug ASt is inserted into the jack of an extension line, only the relay A responds as a result of a corresponding design of the transmission terminating this line. When inserting the plug Ast in the Klinkexirier outside line speaks to the relay A well;. The contact ", the relay DA on the WicklungI to as low impedance negative potential is turned in Prüfaugenblick in the Official transformer to the c-wire in a known manner dal lifts the short circuit r for the winding II of the relay DA on so that the relay DA remains energized when the normal potential is switched on again to the c-wire in the relevant exchange transmission . The contact da2 switches the relay FK on via winding I, which however has no function, if the relay DA is continuously energized, the contact cid 3 is in fact upstream of the contact fk 1 in the O ^r -Ader ₁ via which any switchovers in the transmissions are controlled.

If, on the other hand, the plug is inserted into the jack of a long-distance line, the relay DA together with the relay A is again excited by current amplification at the test moment. At the same time comes in the relevant line transmission, which is shown in Fig. 1 in excerpt, the relay C to respond, which switches on the relay CH with its contact c2. Relay C is dropped again via contact ch 1, and for the duration of the drop-out delay of ίο relay C there is temporarily earth potential on the c wire via contacts c1 and chi , which short-circuits relays DA and A. It should also be mentioned here that earth is intermittently connected to the c-wire at KlemmePV via a test distributor. By applying short-term earth potential to the c-wire, the relay DA drops out, while the relay A is dimensioned in such a way that it remains addressed during this time. The relay FK ₁ whose winding I was switched on via the Kontaktiia 2 remains energized via the contact fk 1 and its winding II even after the relay DA has dropped out. Furthermore, there is a relay CA in the O ^r wire, which, due to its high-resistance winding II, initially prevents the relay K connected in the connected transmission to the rf wire from being able to respond. The relay K is intended to carry out any necessary switchings in the transmission in a manner not shown.

If the connecting plug VSt is now also inserted into the jack of a long-distance line, the same switching processes occur on the connection side of the pair of cords as they also occurred on the interrogation side of the pair of cords when the plug ASt was plugged in. The S5 relay DV is therefore also initially excited via its winding I, which is then thrown off by the application of temporary earth to the c-wire. The relay CV in the O ^r wire on the connection side of the plug is activated, and when the contacts \ o cv 1 and col are closed, the high-resistance windings II of the relays CA and CV are short-circuited. Thereby, the relay K can now respond to the necessary switching in the 'phone lines 5, so the activation or deactivation of extension members to make in the two interconnected transmissions.

In the arrangement shown in FIG. 2, the relays A and DA or E and DV work in the same way as in FIG. 1. If the interrogation plug jo ASt is again plugged into the jack of an exchange line or cross-connection line, the relays A speak and DA on. But is carried out the connection of the line pair by means of the interrogation plug ASi a butted or electrically long pipeline,) 5 so to speak at first, the relays A and DA, and is carried out as in FIG. 1 by closing of the contact c1 and moving the contact chi a temporary Short circuit of the occupancy wire For the duration of the response of the relay DA , the capacitor C1 is charged via the contact> ° öo 2, and if the relay DA drops out as a result of the short circuit mentioned, the capacitor C1 discharges via the relay FA connected via the contact ο 2. With the contact fa 1 this relay switches to a hold 'S circuit and also switches the J wire to the relay F with the contact fa2 . When the relay FA responds, the connected long-distance line is identified in the cord pair.

If the connection plug VSi is plugged into an auxiliary ό jack, then "speaks due to the high-

Claims (9)

ϊ 061 ohmic formation of the occupancy circuit only the relay E in the cord pair. If, on the other hand, the connecting plug is inserted into the pawl of an end-reinforced long-distance line, the same processes occur on the connecting side of the pair of cords as; they have already been described for the interrogation plug. The relay FV is activated by the discharge of the capacitor C 2, and the relay K is switched on via the contacts fa2 and fv3 or fv2 and fa3 in the transmissions of the two interconnected long-distance lines, which short-circuit the attenuators. The transmission of the final signal can be controlled in such a way that a low-resistance negative potential is again applied to the c-wire from the long-distance transmission, as a result of which the relays DV i «or DA are switched on again. Via the contacts da3 and fa4 or dv3 and fvA, the tail lamps Sla or Slv are then made to respond at the switchboard. The relay F connected to voltage in the middle of the J wire in the pair of cords is used to record a flicker indicator if necessary. If one of the relays FA or FV is excited, the relay F can be switched on via the J wire from the relevant transmission by actuating the flicker contact / 2. Since these signaling processes are of no particular importance in the context of the present invention, they have not been shown in detail. As mentioned above, the embodiments according to FIGS. 3 and 4 a, 4 b differ from the embodiments according to FIGS. 1 and 2 in that the transmission of any switching commands from the pair of cords to the transmissions connected to one another via the pair of cords does not takes place via a special J wire, but via the assignment wire c. If the interrogation plugs ASt or connection plugs VSt are plugged into the extension jacks, only relays A and E respond in the connection cord. If, however, the interrogation plug ASt is inserted into the jack of an amplified or electrically long long-distance line, the relay DA in series with the relay A speaks via the low-resistance occupancy relay C of the transmission that terminates this long-distance line, and the contact da2 charges the capacitor Cl on. Contact c2 switches on relay CH, which switches off relay C with its contact ch 1. Until relay C drops out, contact c1 applies positive potential to the c wire, so that relay T responds while relays DA and A are de-energized. The relay DA goes into the rest position, while the relay A is dimensioned in such a way that it remains addressed, since after the relay C has dropped, negative potential is again applied to the c-wire via the relay T. The relay T, however, has such a high resistance that the relay DA only receives fault current and cannot respond again. If the relay DA goes into its rest position, the capacitor C1 discharges via the relay FA, which responds and switches to a holding circuit via the contact fa2. In the Schnnrpaar it is now indicated that the interrogation plug ASt is plugged into the jack of an end-reinforced or electrically long long-distance line. If the connecting plug VSt is now also inserted into a corresponding pawl, these processes are repeated with the relays DV, E and FV. After the relays DA and DV have dropped out, an additional resistor WiZ or Wik is connected to the test leads via the contacts fvl and fal. This changes the voltage at point B of the test wire. A voltage divider is formed by the resistors Wil and Wi2, which is dimensioned so that the potential at point A corresponds to the potential at point B if the resistance WiZ in the test wire is short-circuited. As soon as the resistance WiS becomes effective and if the voltage at point B changes as a result, there is also a voltage difference between points ^ and B, and the sensitive polarized relay P switched on between these points responds. This switches on the relay K with its contact p, which switches off the attenuator from the long-distance line with its contacts. The reset of the relay P at the end of the occupancy takes place via the contacts k2 and t2. Since the relay T drops out when the connection is disconnected before the relay K, a pulse is temporarily given to the reset winding II of the relay P, which returns this relay to its starting position. As shown in Fig. 4a, instead of the polarized relay P between the points A and B of the voltage divider or the test wire, a transistor can also be connected, which the relay K over when a voltage between the points A and B occurs switches on the emitter-collector circuit. The contact 3 connects a capacitor C 3 to the base of the transistor, which prevents the full negative potential from being applied to the base of the when the plug is pulled, i.e. when the connection is triggered via the contact t2, which is still activated in this case Transistor is given. This relay is counter-excited via the winding II of the relay T and thus made to drop out. Another variant for replacing the polarized relay P by a transistor is shown in FIG. 4b. Here, the point B of the test wire at the emitter of the transistor Tr, whose base is connected to the point of the voltage divider formed from the resistors Wil wadWi2, lies above the contact t 2. The relay K is in turn in the collector circuit. The voltage dividers J ^ il and Wi2 are dimensioned so that the voltage between points A and B is ineffective for the transistor when the resistor Wi3 (Fig. 3) is effective in the c-core of the pair of cords. The switching mode of the relay K is therefore reversed than in the two other arrangements mentioned above. The relay K now switches on the attenuator in the energized state, while in the embodiments according to FIGS. 3 and 4 a it switches the attenuator out of the line in the energized state. The advantage of the arrangement according to FIG. 4b over that of FIG. 4a is that the transistor is not so endangered if the operator pulls the plug of the pair of cords out of the pawl, since in this case the negative potential is via the relay T cannot be fully effective due to the upstream diode D l. Claims .; 1. Circuit arrangement for interconnecting lines with different characteristics With the help of a uniformly designed connecting link in which the characteristics of the respective Cables are transmitted via a Leitangsader that is used several times due to the use of different current levels and to carry out switchovers in the lines that terminate the lines to be interconnected Transmissions are evaluated, characterized by the fact that the only with a certain Current stage of a line core (c core) in the connecting link (pair of cords) responding and thus a certain line characteristic characterizing switching means (J) A ₁ DV) are thrown off again by a subsequent change in current in the line core concerned and that the only temporary response of this switching means by further switching means {FK in Fig. 1; FA, FV in Fig. 2, 3 and 4) of the connecting link is used to identify a further line characteristic. 2. Circuit arrangement according to claim 1, characterized in that the identification of the further line characteristics in the final transmission of the line in question after the low-resistance through-connection of the occupancy wire in the connecting link, this wire is temporarily short-circuited and then switched to high resistance. 3. Circuit arrangement according to claim 1 and 2, characterized in that the occupancy relay {A) of the connecting member is kept energized during the temporary short circuit of this wire, both in the case of a high-resistance and a low-resistance configuration of the occupancy circuit. 4. Circuit arrangement according to claim 1 to -3, characterized in that an responding only in the low-resistance formation of the occupancy circuit relay {DA, DV) during its excitation a capacitor {Cl, C 2) charges that when the said relay drops as a result of a temporary short circuit of the occupancy wire (c wire) is discharged via a relay that characterizes the relevant line characteristic {FA ₁ FV). 5. Circuit arrangement according to claim 1 to 4, characterized in that the control of the in the line transmissions due to the line characteristics transferred to the link, any switching measures required Via another pilot wire of the connecting link and the relevant line transmission he follows. 6. Circuit arrangement according to claim 1 to 4, characterized in that the control of the in the line transmissions due to the line characteristics transferred into the link any necessary switching measures by means of a change in potential in the occupancy wire of the connecting link and the relevant Line transmission takes place. 7. Circuit arrangement according to claim 1 to 4 and 6, characterized in that a voltage-dependent switching means connected in the line transmission to the occupancy wire controls the switching means (K) executing any switching in the voice lines of the transmission in question. 8. Circuit arrangement according to claim 1 to 4, 6 and 7, characterized in that as a voltage-dependent Switching means connected to a fixed reference potential on one side via a voltage divider applied polarized relay (P) is used. 9. Circuit arrangement according to claim 1 to 4, 6 and 7, characterized in that the possible switchings in the voice lines of the transmitter executing relay {K) in the output circuit of a transistor {Tr) is arranged, whose input circuit with the occupancy circuit of the transmitter and connector in question is coupled. 1 sheet of drawings © 909 577/101 7.