DE2028907C3 - Circuit arrangement for switching through direct current signals running parallel to the established speech path via signal lines for the simultaneous transmission of additional information in a time-division multiplex telephone exchange system with the speech signals if necessary - Google Patents

Description

Circuit arrangement for switching through parallel to the established speech path via signal lines running direct current signals for simultaneous transmission with the voice signals if necessary of additional information in a time division multiplex telephone exchange system, in which the control of the amplitude sample transmitter and the amplitude sample receiver - Time channel switch - by a decoding device with these via control lines and a line output connected memory is effected, at the output of which the addresses of the to connecting participants appear simultaneously and repeatedly with the pulse repetition frequency of the control pulses.

In telephone switching systems, it is often not enough to just share the voice information between the to transfer to individual participants. Rather, there is a need to also provide additional information, for example, to transmit lamp signals or election information. To transfer this additional > Information is usually used for direct current signals.

There are already arrangements in time division multiplexed telephone switching systems known through which the direct current signals of the additional information are converted into alternating current signals and like voice signals

κι be transmitted over a time-division multiplexed speech path. The disadvantage of these arrangements is, however, that additional facilities such. B. DC-AC converter, must be provided.

It is also a time division multiplexing arrangement for the

Transmission of the additional information in a telephone exchange system known with a space-division multiplex voice network through which the additional information is transmitted in direct current required number of required connection

JO lines can be significantly reduced (DE-OS 19 21 782). The disadvantage of this arrangement, however, is in particular that a separate control device is necessary for the transmission of the additional information.

ji The invention is based on the object in a time-division multiplexed telephone switching system the expense of control devices for the transmission of signals that are required in addition to voice information. This task will

solved in accordance with the invention in that the signal lines arranged in front of the time channel switches (11 - 18) via the control lines of the time channel switch (7-10) connected gate circuits to those arranged in parallel with the multiplex line (.95)

T ₁ signal busbars (19-22) are connected.

An advantageous embodiment of the invention is that the signal lines with outgoing Traffic separately to one input of an IJND- belonging to a first group of AND gates.

Ui gatters are given and the signal lines with incoming traffic each at an output of a second group of AND gates associated AND gate lie that the second input of one of the first group of AND gates associated AND

r. Gatters to one of the control lines for the amlitude sample transmitter is connected, while the first input is one of the second group of AND gates associated AND gate is connected to one of the control lines for the amplitude sample receiver,

^r iii that furthermore the outputs of the AND gates of the first group are each connected to a signal bus and there are connections from the signal bus to the respective second inputs of the second group of AND gates.

r, The advantages achieved with the invention consist in particular in that the through-connection of the DC signals to be transmitted in addition to the voice information, and takes place simultaneously over the same control lines such as control

W) the amplitude sample transmitter or amplitude sample receiver. This eliminates the need for a separate control device for the direct current signals.

An embodiment of the invention is shown in the drawing and described in more detail below

h ¹ ) ben.

The subscribers TA and TB are connected to the hybrid circuits TSA and TSB via the two-wire lines I and 2, respectively. From the hybrid TSA leads the

outgoing phone line J to a Amplitudenprob? nsender APSi, which in turn is connected to a bus bar SS to the hybrid circuit TSA also performs the incoming Sprechleituiig 4, which is about the amplitude sample receiver APE I also to the busbar SSangeschlossen.

In a manner corresponding to the hybrid circuit TSA , the hybrid circuit TSB is connected to the busbar SS .

The control lines 7, 8, 9, 10 lead from the control inputs of the amplitude sample transmitters APS 1 and APS2 or the amplitude sample receivers APE 1 and APE1 to the decoding device J1. The decoding device 31 is connected via the connecting line 34 to the line output J2 of the calling subscriber RT and via the connecting line J5 to the line output 32 of the called subscriber GT. The line output 32 is in turn connected to a memory \ i via the lines $ 6, 37, 38.

A total of 8 AND gates 23 to JO are connected to the control elements 7,8,9,10 already mentioned, with the outputs of AND gates 25, 2b and 29, JO via the signal lines 13, 14 and 17, 18 respectively the devices of the participants TA and TB are switched and the outputs of the AND gates 2J, 24 and 27, 28 lead to the signal bus bars 19, 20 and 21, 22. The signal busbar 21 is connected to an input of the AND gate 25 and to the output of the AND gate 27, while the busbar 22 is connected to an input of the AND gate 26 and to the output of the AND gate 28. The / wide input of AND gates 2i, 24, 27, 28 is connected to the device of subscriber TA or to the device of subscriber TB , while the second input of AND gates 25, 26 and 29, 30 to ι the control lines 8 and 10 respectively.

The mode of operation of the arrangement described will now be explained.

The connection of the speech lines J, 5 or 4, 6 takes place via the amplitude sample transmitters APS I, APS2 ι or via the amplitude sample receivers APEX, APE2. To control these amplitude sample transmitters APS I, APS2 and amplitude sample receivers APE I, A PE 2 , the circulating memory J3 is used, in which the addresses of the subscribers with outgoing and incoming traffic are stored separately and in coded form. If the two subscribers TA and 7 ″ B are to be connected to one another, the addresses assigned to them appear at the output of the memory 33 simultaneously and repeatedly with the pulse repetition frequency of the control pulses evaluates and activates the amplitude sample transmitter ASPX, A PS 2 or the amplitude sample receiver APE 1, A PE 2.

At the same time, the amplitude sample transmitter APSX of participant TA and the amplitude sample receiver APE2 of participant TB and the amplitude sample transmitter A PS 2 of participant 77? and the amplitude sample receiver APEX of the subscriber TA is actuated. This process, known per se, is now used according to the invention to transmit the DC signals required in addition to the speech information in pulses. This is done in such a way that the opening of the AND gates 23 to 30 is brought about by the pulses emanating from the memory JJ and required for the connection of the speech lines J to 6. If, for example, there is a direct current signal on the signal line II, then pulse extracts from this direct current signal are sent to the signal bus 19 via the AND gate 2J in the rhythm of the pulse repetition frequency of the memory JJ. The AND gate 2J is permeable to the direct current signal as long as a pulse is present at the input of the amplitude sample transmitter APSX , because during this time a signal is also applied to its second input. From the signal busbar 19, the pulse extracts from the direct current signal arrive at an input of the AND gate 29. Since the amplitude sample receiver APE2 is also activated at the same time as the amplitude sample transmitter APSi , a signal is also present at the second input of the AND gate 29. Thus, the AND gate 29 is switched through for a short time and sends a pulse segment from the direct current signal to the signal line 17 . B. light up a signal lamp.

The transmission of further direct current signals from the subscriber TA to the subscriber TB or vice versa takes place in a corresponding manner. It is also easily possible to exchange additional information between more than two participants according to the principle according to the invention.

1 sheet of drawings

Claims (2)

Patent claims: 1.Circuit arrangement for switching through direct current signals running parallel to the established speech path via signal lines for the simultaneous transmission of additional information in a time-division multiplex telephone exchange system, in which the control of the amplitude sample transmitter and the amplitude sample receiver - time channel switch - is carried out by a time channel switch with these via control lines, a decoding device and a line output connected memory is effected, at the output of which the addresses of the subscribers to be connected appear simultaneously and repeatedly with the pulse repetition frequency of the control pulses, characterized in that the signal lines (11-18) arranged in front of the time channel switches are connected to the control lines of the Time channel switches (7-10) connected gate circuits are connected to the signal busbars (19-22) arranged parallel to the multiplex line (S ¹ J). 2. Circuit arrangement according to claim I, characterized in that the signal lines with outgoing traffic (11, 12; 15, 16) are separated from one input of one of a first group of AND gates (21, 24; 27, 28) associated AND Gates are given and the signal lines with incoming traffic (H, 14; 17, 18) are each at an output of a second group of AND gates (25, 26; 29, 10) associated AND gate that the second input of a the first group of AND gates (23, 24; 27, 28) associated AND gate to one of the control lines (7; 9) for the amplitude sample transmitter (APSi, A PS 2) is connected, while the first input is one of the second group of AND gates (25,26; 29, JO) associated AND gate with one of the control lines (8; 10) for the amplitude sample receiver (APEX, APE2) is connected, that also the outputs of the AND gates (23, 24; 27 , 28) of the first group on one of the signal busbars (19, 20, 21, 22) and from di its signal busbars (19, 20, 21, 22) connections to the respective second input of the second group of AND gates (25, 26; 29.10) exist.