DE3200543C2 - - Google Patents

Description

Circuit arrangement for the connection of analog signals leading Telephone lines to a digital time division switch point, in particular digital private branch exchange.

The invention relates to a circuit arrangement for the connection telephone lines carrying analog signals to a digital Time division multiplex switching center, in particular digital subsidiary place facility.

According to FTZ guideline 12 R 4-3 of the German Federal Post Office (Requirements for private branch exchanges with digital speech channels circuit (PCM switching system, June 1981) is one Circuit arrangement known, in which in the receiving branch Subscriber line circuits there is an attenuator, whose attenuation value from a constant the reception level determining value depends. The connection terminal circuits have in their transmission branch an amplifier, the Ver Degree of strength of a constant decisive for the transmission level value depends on (see Appendix 5 in the FTZ- Directive).

Also with future digital switching systems is with An to draw conclusions that are realized in analog technology, which applies in particular to the subscriber lines, so that corresponding analog connection modules are required.

The voice quality in telephone networks with digital switching systems and analog connections is correspondingly defined by the over wearing properties of such analog connection circuits certainly.

It must currently be assumed that those in such Analog connection circuits do not have existing hybrid circuits are adaptive, but rather a line replica  have a compromise between the actually occurring line properties of such a fork scarf represent connected subscriber line circuits.

This in turn has the consequence that also when determining the Transmission properties of the analog connection circuits Kom accepting promises. If available  complex two-wire resistors can be used for Transmission characteristics with regard to the return Damping achieve favorable conditions, it remains however, the problem of defining and measuring the Transmission properties, e.g. B. Level on a complex Resistance.

There is also a desire, as with conventional ones Switching systems is common, insertion loss between defined real resistances as well right between defined complex resistances to be able to measure the frequency range of the voice band.

The object of the present invention is therefore analog Connection circuits for digital time division switching bodies to indicate under the circumstances and both within the framework of the current damping plan enable reasonable transmission quality, as well as for the Measurement and maintenance technology create the conditions they are at conventional or purely digital switching centers given are.

According to the invention, this object is achieved in a circuit arrangement of the type mentioned at the outset in that its subscriber line circuits serving to connect subscriber lines terminate the relevant subscriber line with an impedance which is approximately equal to the effective impedance of the line simulations of the hybrid circuits of the subscriber stations connected to the subscriber lines, that their connection to other switching centers leading connection lines connecting connection circuits complete the connection line in question with a real resistance that is approximately equal to the two-wire impedance of the subscriber stations that the transmission branches of the subscriber connection circuits have an amplifier, the gain of which in addition to a constant, for the Send level significant value additionally from the value R of through a connection terminal circuit Real termination resistance formed and depends on the complex value of the complex terminating resistor formed by a subscriber line circuit in the ratio (R + Z) / Z , and that the receiving branches of the subscriber line circuits have an attenuator, the attenuation value of which, in addition to a constant value determining the reception level, also depends on the aforementioned Resistance values R and Z depend on the ratio (R + Z) / R.

A further embodiment of the invention consists in that the impedance of the line replicas in the fork circuits of the connection terminal circuits equal to that simulation impedance in the subscriber stations is. According to yet another embodiment of the invention is the impedance of the line simulations in the fork circuits of the subscriber line circuits a means value of the impedances of each with a part subscriber station connected subscriber line circuits.

Show the advantages of the measures according to the invention yourself based on the explanations below management example of the circuit according to the invention arrangement in which reference is made to a figure.

In the figure, a digital private branch exchange DN is indicated, to which telephone lines carrying analog signals are connected. These are subscriber lines NAsl , which establish a connection with analog subscriber stations Tln , and at least one exchange line HAsl , which establishes a connection to a local exchange OVST .

The connection of the subscriber lines NAsl takes place in each case via a subscriber line circuit SLCA , whereas the connection of the trunk line HAsl is served by a connection line circuit TCA .

The mentioned connecting or connecting lines are two-wire lines, whereas the connection in the switching network KN of the digital extension is four-wire, which means that in addition to the subscriber stations Tln , the above-mentioned connection circuits SLCA and TCA each have a hybrid circuit for the two-wire Have four-wire transition.

According to the invention the connection of subscriber lines serving subscriber line circuits SLCA are designed such that they terminate the subscriber line NAsl in question with an impedance that is approximately equal to the impedance ZNT of the hybrid circuit of the subscriber station Tln connected to the subscriber line. This is achieved by appropriate design of the hybrid circuit located in the subscriber line circuit SLCA . As a result, there is a sufficiently good return loss, even with a short length of the subscriber lines, which ensures that the subscriber does not overhear his own word or room noise in the telephone.

The connection connection circuit TCA serving to connect a connection line HAsl is designed according to a further feature of the invention in such a way that it terminates this connection line HAsl with a real resistance which is approximately equal to the two-wire impedance ZT of the subscriber station Tln . This is achieved by appropriate training of the hybrid circuit located in this connection terminal TCA .

According to a further feature of the invention, the transmission branches of the subscriber line circuits SLCA have an amplifier V , the gain of which is in the ratio (R + Z) / of the value R of the real terminating resistor formed by a connecting terminal circuit TCA and of the complex value Z of the complex terminating resistor formed by a subscriber line circuit. Z depends, further in the reception branches of the subscriber connection circuits SLCA each have an attenuator Dä , z. B. before the output line amplifier, whose attenuation value depends on the mentioned resistance values R and Z in the ratio (R + Z) / R.

Based on the latter measures follows for insertion loss when measuring on the closed Four-wire circuit and between complex impedances flat frequency response. Even if between real impedances measurements are taken with the four-wire circuit open, there are frequency-independent results. It is therefore also possible, half-channel measurements with commercially available devices, whose impedance is real.

These ratios are further favored if, according to a further embodiment, the impedance ZNTCA in the hybrid circuits of the connection connection circuits TCA is made equal to the terminating impedance ZLCA formed by the subscriber line circuits SLCA , so that it is approximately equal to the impedance ZNT of the line simulations of the hybrid circuits of the subscriber stations Tln .

The impedance of the line simulations ZNSLCA in the hybrid circuits of the subscriber line circuits SLCA is chosen according to one embodiment of the invention so that it is an average of the impedances of the individual subscriber line lines NAsl each connected to a subscriber station Tln .

In the typical operating case, in which the subscriber line NAsl is relatively short, this constellation results in an operating loss which corresponds to that in a pure analog switching system.

If the digital switching center, as assumed in the figure, is a private branch exchange and the subscriber lines NAsl are atypically long, attenuations (shock absorption) caused by mismatches between subscriber station and line are nevertheless compensated for in internal connections.

Claims (3)

1. Circuit arrangement for the connection of analog signals leading telephone lines to a digital time multiplex switching center, in particular digital substation, characterized in that their subscriber lines (NAsl) serving subscriber line circuits (SLCA) complete the relevant subscriber line with an impedance that approximately equal to the effective impedance (ZNT) of the line simulations of the hybrid circuits of the subscriber stations connected to the subscriber line (Tln) is that their connection line circuits (TCA) serving to connect to other switching centers terminate the relevant connecting line with a real resistance, of approximately equal to the Zweidrahtimpe impedance (ZT) of the subscriber stations is that the transmission branches of the subscriber line circuits (SLCA) a stronger Ver (V) whose reinforcing rkungsgrad next to a constant applicable to the transmission level value in addition to the value R of the real terminating impedance and constituted by a connection terminal circuit (TCA) from the complex value Z of by a subscriber line interface circuit (SLCA) terminating resistor formed in comparison ratio (R + Z) / Z depends, and that the receiving branches of the subscriber line circuits have an attenuator (Dä) , the attenuation value depends not only on a constant value determining the reception level, but also on the resistance values R and Z mentioned in the ratio (R + Z) / R. 2. Circuit arrangement according to claim 1, characterized in that the impedance (ZNTCA) of the line simulations in the hybrid circuits of the connection circuit (TCA) is equal to the said imitation impedance (ZNT) in the subscriber stations (Tln) . 3. Circuit arrangement according to one of the preceding claims, characterized in that the impedance (ZNSLCA) of the line simulations in the fork circuits of the subscriber line circuits (SLCA) is an average of the impedances of the individual subscriber lines (NAsl) each connected to a subscriber station.