DE1087178B - Method and circuit arrangement for the transmission of control characters from one of several transmitter organs to one of several evaluation organs via a two-wire connecting line - Google Patents

Description

GERMAN

The present invention relates to switching systems, in particular for telephone purposes, in which the digits of the subscriber numbers are first entered into special memories, which then pass on corresponding information to markers for evaluating the digits. One Such a system contains optional levels in which marking and switching operations with the help of the marker are to be made. The information used for this can be represented by one or more digits given to the participant number.

Fig. 1 shows an example of the part of a switching system that is considered here in the form of an overview plan. Only those parts are shown that are important for understanding the processes of interest here. The three elective levels K1, K 2 and K 3 are provided here. Each optional level has inputs and outputs, between which a connection is established by a marker M in the event of a switching order. If necessary, several markers can also be provided. Networks and crosspoints with contacts are located between the entrances and exits of an elective level, and connection paths are established when these are closed. The inputs of the option levels K 2 and K 3 are each connected to the outputs of the previous option level, that is, the option levels Kl and K 2, via connecting lines. The connecting lines between the options K1 and K 2 are indicated schematically by the arrow 12 and the connecting lines between the options K 2 and K 3 are indicated by the arrow 23. The direction indicated by the arrow 01 lines lead from the memories Sl ... Sn to the inputs of the selection stage Kl. It can also lead to other connection lines as the illustrated Wahls'tuf s and leading from other selection stages to the illustrated selection stages. This is also indicated schematically, namely by the arrow 1 y leading away from the option level K1 and by the arrow χ 3 leading to the option level if 3. B. in other telephone exchanges are located. The connecting lines between the marker M and the options Kl, K2 and K3 are indicated schematically by connecting lines. In the given case, only the connecting lines required for information and other transmissions are permeable.

In order to be able to carry out a marking and switching process, the marker is given in the Case connected to a store. After that, the marker must be put into action, and it must Procedure and circuit arrangement

for the transmission of control characters

from one of several donor bodies

to one of several evaluation organs

via a two-wire connection cable

Applicant:

Siemens Sd Halske Aktiengesellschaft,

Berlin and Munich, Munich 2, Wittelsbacherplatz 2

Dipl.-Ing. Peter Gerke, Georg Low, Munich, and Dipl.-Ing. Heinz Wagner, Heidenheim,

have been named as inventors

the dialing information is forwarded to him, ie there is an exchange of information between the memory and the marker. For reasons of operational safety, this exchange of information is expediently initiated by a request symbol, whereupon the actual information symbol is evaluated. If there are many connection requests, the existing connection from one memory to a marker will lead from one telephone exchange to another, namely when it leads via connection lines as shown by arrows 1 y and χ 3. Such connecting lines are subject to interference in their course between the telephone exchanges, e.g. B. by passing power lines nearby. The task here is to carry out the exchange of information between the memory and the marker in such a way that the activity of the marker is not impaired by any interference voltages and, in particular, that no incorrect connections are caused. In addition, the exchange of information should take place as quickly as possible, because the markers have to work very quickly in such switching systems as central facilities. In the worst case there are only two wires for the connection

009 587/30

lines, available. It would be the one in everyone Case of existing spores.

The invention now shows a way in which the objects outlined above can be achieved in a particularly expedient manner and with very little effort. The memory can be understood quite generally as organs which initially emit control characters, that is, as donor organs. These control characters are recorded and evaluated by other bodies and, if necessary, acknowledged. These other organs can be referred to as evaluation organs. In all those cases where control characters are transmitted from such a plurality of donor bodies to one of such _t Auswerteorganen over a two-wire, leading via Kopp'elpunkte connecting line to the invention can be applied. A first concrete example of this is the aforementioned character transmission from memories to markers in telephone systems. Another example is the transmission of dialing information from a subscriber station to a memory, which stores it for further evaluation, as is the case in newer telephone systems. Here, too, there are several donor organs, namely subscriber stations, and several evaluation organs, namely memories. The connecting lines are also two-core and run via coupling points.

The method according to the invention is therefore a method for the transmission of control characters from one of several donor organs to one of several evaluation organs via a two-wire, Connection line leading via crosspoints, as they are present in telephone systems. The method according to the invention is characterized in that the character transmission is carried out in two sections is handled and that in the first section the allocation of a donor body to a Evaluation unit by a direct current symbol transmitted via the wire and asymmetrical to earth as The request character is triggered and after the allocation in the second section the information character is transmitted, which is represented by an alternating current symbol, its alternating voltage in itself known way is symmetrical between the two wires of the connecting line.

An example of a circuit arrangement that operates according to the method according to the invention is shown in FIG. This circuit arrangement comprises the memory S and the marker M. Of these two elements, only the parts of interest are shown and some of them are only shown schematically, in order to make the principle according to which the circuit arrangement is working particularly easy to recognize.

From the memory, S *, two line cores, which are denoted by α and b , lead to the marker M. These line cores lead, as already mentioned, via crosspoint contacts (not shown here) in the relevant selection stages. These dial levels can also be in different telephone exchanges. From the memory S ¹ , the transmitter devices are shown, which are used to output control characters, as well as receiving devices, which are used to receive acknowledgment characters. These transmitter devices include the contact w, via which the voltage - Ul can be applied to the two conductors α and b via a relay each to output the direct current symbol, which is asymmetrical to earth. Relay A is in the supply line to line wire α and relay B is in the supply line to line wire b. Relays A and B are used here as receiving devices for receiving acknowledgment characters. The alternating voltage of the alternating current symbol may be between the two wires of the connecting cable. It is therefore symmetrical to earth. The alternating current symbol may therefore be referred to herein as a symmetrical alternating current symbol in this regard. This symmetrical alternating current symbol is generated by the alternating current generator F and via the transformers Tl and T 2, the secondary windings of which are connected in series between the conductors α and b , in the given case these. Lead wires fed. The secondary windings of the transformers Γ1 and T 2 are connected to one another via the two capacitors C1 and C 2. Instead of using two separate transformers, the windings concerned can also be wound on a common core. This enables particularly good symmetrical relationships to be created. The connection point of the capacitors Cl and C 2 is connected to the connection point of the relays A and B with the contact w . This ensures that, after the contact tester is closed, a completely symmetrical alternating current supply of the two line cores α and b with respect to earth is carried out. The mentioned connection points are in fact, when the contact w is closed, in terms of alternating current via the direct voltage source, which supplies the voltage - Ul , to earth. The capacitors C1 and C 2 prevent a short circuit of the asymmetrical direct current symbol via the secondary windings of the transformers T1 and T2 . The circuit here is completely symmetrical in order to ensure a symmetrical supply of the alternating current symbol.

It can be provided that the alternating current transmitter F emits different alternating current signals in order to transmit the various selection information. For this purpose, alternating current symbols can be used, each of which consists of a code symbol from several symbol elements transmitted at different frequencies.

The devices belonging to the memory 5 "and described above are located in a specific telephone exchange. The line cores α and b lead to the other devices cooperating with the memory ^, which may be located in another telephone exchange.

The allocation of a marker to the memory is triggered with the help of the asymmetrical track current sign. This is done via two in series between the line wires and α b lying resistors Wl and W 2. At the center tap is connected derReihenschaltung arbiter Z. The resistors Wl and W 2 are equal among themselves and so · great that the relays A and B can not be made to respond by the linked with the direct current character stream. The allocation is associated with the closure of contacts via which the line cores α and b are connected to the allocated marker, which is designated here by M. 'These are the contacts ka and hb. Only a few devices of the marker are shown here. The symmetrical alternating current symbol is picked up via the transformers T 3 and T 4. These transformers are connected to the conductors α and b with their primary windings, which lead to the center springs

the changeover contacts q and r lead. The quiet side conditions leads. If z. B. the changeover contact q of the changeover contacts are switched over to the series circuit, so for the DC symbol, the normally open contacts pl and p2 are connected. The connection over the still closed connection point is connected to the voltage - Ul . The clock w is output from the memory, a low changeover contacts are closed with their working sides on a 5-ohmic circuit. This circuit is grounded. The secondary windings of the trans- goes from the contact w via the relay A ₁ the line formers T3 and T 4 are connected in series and wire a, the contact ka, the primary winding from the lead to the receiving device E for the sym- transformer T 3, the contact q against Earth and ac metric symbols. Instead boiled down to two on the DC voltage source that the clamping Separated transformers, the windings also ίο voltage - applying w to the contact Ul. The relay A can be wound on a common core. can now because of the

It will now first address the cooperation between larger direct currents. If instead of the memory S and the marker M as well as the changeover contact q, the changeover contact r is described in the interim exchange linked with it. After marker M is turned over, 15 relay A now acts on relay B instead of closing contact w in memory S. If the Umdie voltage - U at the connection point between switching contacts q and r are switched over at the same time, the resistors W1 and W2 are triggered and the relays A and B are triggered via the talk at the same time. The allocation device Z connected to the location, the assignment of these relays means the inclusion of the allocation of a marker. The AC corresponding acknowledgment character in the memory p.
character that is in memory S via the transformers 20. It should also be noted that one of the changeover contacts q and r or both is placed by the Um- Tl and T 2 also on the wires α and b , now also arrives at the marker M the circuit. Since not work contacts is interrupted pl and p2 and at rest for the AC signal. After switching the switchover are therefore open, but no changeover contact q are the primary windings of the transcurrent flow. The contacts ka and kb were thus 25 formatorenT3 and T 4 via the changeover contact q, during the allocation process without current load, earth, voltage source Ul with negligible closed. It is therefore possible to use alternating current resistance, normally open contact p2 and um for the allocation of contacts, although they only have a small switching switching contact r connected to one another. In compensation, they have the advantage of being connected to one another in a meaningful way, so that they can be activated very quickly. After 30, if instead of the changeover contact q the changeover closure of the contacts ka and kb also occurs on the contact r has been switched. When both sections of the line switching contacts leading to the marker have been turned over, the primary wires α and b are at voltage - U 1. This can be used to wind the transformers T 3 and T 4 by reporting that the marker has been allocated - these changeover contacts are directly connected to one another. In the marker M , the receipt of the receipt and the associated working contacts /> 1 and p 2 are then closed. As a result, the bound information can now in turn be reported back to the one circuit for the alternating current symbol, that is, once again acknowledged. The one associated with the alternating current symbol, and here with very little effort. Alternating current, which after closing the work- It is namely still the alternating current contacts pi and p2 via the transformers Γ3 4o sign on the conductors α and b. This can now- "and Γ4 flows, also causes one to disappear via their secondary- more, which causes the windings and the alternating current flowing back to the marker via the receiving device E acknowledgment reception in the memory, which reports the reception. This is done here by means of the for e vorfangseinrichtung brings to respond. It is seen resting contact ^ which is pointed out for the feedback that the AC 45 is opened and thus the supply of the trans character about the in-memory relay A transformers. Tl and T2 by the AC and B is not short-circuited, as this relay prevents the signal. The feedback from the reception has a relatively high alternating current resistance. The acknowledgment can also be interacted in another way at the receiving device E. The current signal is still recorded, and then the 50 direct current signs on the line wires it can be switched off by the information transmitted when the contact w continues to open, and the activity of the marker M is evaluated. It is now what the feedback represents in this case. After the cooperation between such a feedback message, the memory 5 * and the memory 5 * and the memory 5 * and the memory marker M in general when the transmitter 55 marker M are working together can then separate from each other again in a manner that is not necessary here and is also of greater interest,
and evaluation organs desired that the donor organ It will now be considered how to relate to the above

receives an acknowledgment of the completed evaluation of the information provided by the described operating processes. This happens to interference voltages on the conductors α and b from here by switching one of the two switching effects. These interference voltages are transmitted to the two contacts q and r or, if necessary, from both umbilical wires, each with the same polarity, against switching contacts. This allows three different earths to be transmitted and given when a sym acknowledgment symbol is used. One of these metric lines, as it is here, acknowledgment characters can be used here, for example. B. mean that one is also in the same amount. In the case of the interfering voltages-free connection path to a desired output, it is therefore an asymmetrical output that was found and switched through; another 65 earth-lying voltages. Now the reception can mean that, because of the busy situation, no through-installation E for the alternating current signal could be made as a result of switching; the third of the selected circuit can only be used to respond to additional information if the "two line wires a" can be added, e.g. that the connected connection and b each have different voltages as they go to a telephone exchange with other operating 7 ° linked with the provided alternating current symbol

in the idle state of the marker, such a control voltage is supplied that they are blocked. In contrast, when the marker is in the idle state, the base terminal p 'of the transistor P is supplied with a control voltage such that it is conductive. The voltages - U 2 and - UZ are used there as operating voltages. The voltage - UZ is more negative than the voltage - U 2, and this is more negative than the voltage -Ul. Also are still in memory

to excite these relays, as they occur in the operating case already described, in the forward direction are flowed through.

The collectors of the transistors Q and R are connected to the primary windings of the transformers T 3 and T 4 instead of the center springs of the changeover contacts q and r. Their emitters are connected to earth. Lies between their collectors

are. On the other hand, it cannot be made to respond by interference voltages. By the invention Method for character transmission is therefore prevented here from the marker wrong Collects information and establishes incorrect connections, which must be avoided in any case. Should an interference voltage simulate a requirement sign, so have such an effect, that thereby unnecessarily the delivery of a marker

If a memory is carried out, this would not be a process that interferes particularly with the relays A and B, the directional conductors Ga and Gb , since the marker is then switched. They are polarized in such a way that, due to the currents, there is no voting information to be supplied at the same time,
therefore no further and wrong processes can be triggered.

Overall, the result is that when using the 15th
method according to the invention, although only two
Line cores used are a plurality of
Signs can be exchanged between the organs connected by these lines and that
certain interferences to these line cores den 20 nor the series connection of the directional conductors GZ ₁ Gl ₁ G 2 character exchange in an inadmissible manner and G 4. can influence the tap between the directional conductors G1 . This is the case even if. and G 2, with its collector, the transistor P and the respective devices are closed very quickly. Its emitter is connected to earth. The. Discussion. As already described, from the handle between the directional conductors G 3 and Gl and memory to the marker information with the help of 25 between the directional conductors G 4 and G 2 is transmitted via the symmetrical alternating current signals. The resistors WZ and Wi are the earth-lying acknowledgments, which the marker is fed to the memory - voltage - UZ. In addition, the KoI are there, but are transmitted with the help of asymmetrical lectors of the transistors Q and R via the directional direct current signals. The use of the conductors G 5 and G 6 is also applied to the similarly different symbols for these two voltage - U2 , which are against earth. The directional conductors G 3 and G 5 gears allow simple receiving and the directional conductors G 4 and G 6 are polarized in such a way that devices are provided which are not influenced by the changeover if they are not influenced by the voltages alone , but through - U 2 and -173 are in the transmission state, the direct current signs to be recorded there. If the transistor P is conductive, as relays A and B are at rest here 2 be ready to receive while the alternating current connection point between the resistor WZ and symbol is being transferred from the memory. There is therefore no switching between the output of information between the resistor W 4 and the directional conductor G 4 and the recording of receipts 40 ground in the directional conductor GZ and at the memory connection point. This has the consequence that the directional director is necessary. As well as G 3, G 4, G 5 and G 6 received by the marker assume the locked state. Information has been evaluated, an acknowledgment A conductive connection between the primary winding signals can be issued and memory can therefore be recorded immediately from the dependency of the transformers TZ and Ti. The different in the idle state of the marker are not. The repugnance of these signs also enables the 45 to stand WZ and Wi. prevent the AC voltage from being short-circuited after the receipt of the voltage source for the voltage -UZ.Acknowledgments in the memory by opening the contact ν ,

can be switched off, whereby a feedback. It will now be considered how this elec-

for the receipt of the acknowledgment tronic circuit arrangement which can be considered here. All of these characters can be transmitted and received immediately in each case up to 50 incoming and outgoing characters. This wraps up. After the marker has been closed, the exchange of information can therefore be processed at a very high speed connected to the contacts ka and kb. This has been made possible, the circuit for the recording that the marker must be closed after the handling of an alternating current sign. To this end, the transistor P is blocked immediately for dispatch 55 in the marker. As a result, the directional conductors G 3, G 5, G 4 and G 6 are put into the open state for a different connection request. It is therefore about the

Guide lines G5 and G6 one for the alternating current

g sign permeable connection between the

60 primary windings of the transformers TZ and Ti , which are either opened, closed or established. The AC symbol can now. on-

be taken.

To include the AC sign too

acknowledge, DC circuits are to be closed, in this is for the con-6g provided in the marker, where response currents for the relays A and B flow clocks pl, p2, q and r shown in Fig. 3. At. Body this can. For this purpose one of the Tran contacts are the three pnp transistors Pj Q and R ₁ sistors Q and R or both are made conductive, the directional conductors Gl ₁ G2, GZ ₁ Gi ₁ G5 and G6 and by making the transistor Q conductive the resistors WZ and Wi are provided. The base DC circuit for the relay A is established , that of the terminals q ' and r ^{r of} the transistors Q and R is 70 earth via the, transistor Q _{1 is} the primary winding of the

stands.

In the circuit shown in FIG
changes to the company council in the two bodies j

are to be knocked down. These switching contacts can, if
a very high working speed is required,
can also be implemented by electronic means.

Transformer Γ 3, the contact k α, the line core a, the relay A, the directional conductor Ga, the contact w to the voltage source with the voltage - U 1 and back to earth. In a corresponding manner, the relay B can be set under response current by making the transistor R conductive. The current of the alternating current symbol is not interrupted. After the transistor Q becomes conductive, the directional conductor G 5 is switched to the blocking state. The series connection of the conductive transistor Q and the voltage sources for the voltage - U 2, however, form a shunt to the directional conductor G 5 that is permeable to alternating current. If the transistors Q and R are both conductive, they establish a direct connection between the primary windings of the transformers T 3 and Γ 4.

The purpose of the guides Ga and Gb should also be stated. The directional conductor Ga prevents the relay A from being traversed by a current when the marker is in the idle state, which, without the presence of earth, via the voltage source for the voltage - Ul via the contact w, the relay A, the line core a, the contact ka, the primary winding of the transformer T 4, the directional conductor G 3, the resistor W3, the voltage sources for the voltage - t / 3 would flow back to earth. The same applies to the direction director Gb.

Claims (13)

Patent claims: 1. A method for the transmission of control characters from one of several transmitter organs to one of several evaluation organs via a two-wire connecting line leading via crosspoints, in particular for the transmission between markers and memories in telephone systems, characterized in that the character transmission is carried out in two sections and that in doing so In the first section, the assignment of a transmitter element (S) to an evaluation element (M) is triggered by a direct current signal (earth) transmitted via the wire and asymmetrical to earth as a request symbol, and after the assignment in the second section, the information symbol is transmitted, which is an alternating current symbol is shown, the alternating voltage of which lies in a manner known per se symmetrically between the two wires (a, b) of the connecting line. 2. The method according to claim 1, characterized in that the receipt of a character by the evaluation element (M ) triggers the delivery of an acknowledgment character for the transmitter element (S) , and vice versa. 3. The method according to claim 2, characterized in that in the transmitter member (S) provided receiving devices (A, B) are ready to receive acknowledgment characters for this already during the delivery of an alternating current character. 4. The method according to any one of the preceding claims, characterized in that a character circuit for the recording of characters in the evaluation element (M) is closed only after the switching of the allocation causing switching contacts (ka, kb) . 5. The method according to any one of the preceding claims, characterized in that characters occur continuously and that their disappearance is also used as information. 6. Circuit arrangement for carrying out the method according to claims 2 to 5, characterized in that a receiver (E) for alternating current characters is connected in the evaluation element (M) to the line cores (a, b) in such a way that it can only respond to symmetrical alternating current characters . 7. Circuit arrangement according to claim 6, characterized in that after evaluation of an alternating current character by the evaluation element (M) for the purpose of acknowledgment in the evaluation element (M) one or two DC circuits are closed, each via a line core (a or b) and a Direct current responsive receiving device (A or B) for acknowledgment characters in the transmitter element (S) and through each of which a response current flows for these receiving devices (A, B). 8. Circuit arrangement according to claim 7, characterized in that the voltage source (- UY) is used for the direct current character triggering the allocation to produce a response current for a receiving device (A, B) for acknowledgment characters. 9. Circuit arrangement according to claim 8, characterized in that the asymmetry of the direct current symbol with respect to earth is used to give different types of character acknowledgments by placing one, the other or both wires (a, b) in the evaluation element (M) on earth . 10. Circuit arrangement according to one of claims 7 to 9, characterized in that the delivery of the alternating current character is terminated in the transmitter element (S) to acknowledge receipt of character acknowledgments. 11. Circuit arrangement for performing the method according to one of claims 1 to 5 or Circuit arrangement according to one of Claims 6 to 10, characterized in that the alternating current symbol consists of a code character made up of several character elements transmitted at different frequencies. 12. Circuit arrangement according to one of claims 7 to 11, in which the contacts to be provided in the evaluation element for closing the circuit for the alternating current symbol and for closing DC circuits, for actuating receiving devices for acknowledgment symbols in the transmitter element are realized by electronic switching means, characterized in that in Evaluation organ (M) is connected to the line adeni (a, b) each with a transistor (Q, R) serving as a switch with its collector, the emitter of which is connected to earth, so that between the collectors a first series connection of two differently polarized directional conductors (G 5, GS) and a second series connection of two differently polarized directional conductors (G 3, G 4) and two resistors (W 3, Wi) , with operating voltages (- U2, - US) connected to earth at the center taps of the series connections are that under their influence, the directional conductors (G3, G4, G 5, G 6) assume the on-state that at the connection points of the resistors (WZ, Wi) and directional conductors (G 3, G 4) of the second series connection and on earth a star connection of two directional conductors 009 587/90 (G 1, GZ) and a transistor (P) with its emitter connected to earth, which serves as a switching transistor. 13. Circuit arrangement according to claim 12, characterized in that in the transmitter element (S) directional conductor (Ga ₁ Gb) in the leads to the Receiving devices (A, B) for acknowledgment characters are inserted, which prevent these receiving devices (A, B) from being energized by the operating voltages ( -172, -US) applied in the evaluation element (M) in its idle state. 1 sheet of drawings © 009 587/90 8.60