DE3311257C2 - - Google Patents

Description

The invention relates to a circuit arrangement for Ver prevent the emission of interference signals by peripheral Modules, especially plug-in modules, a digi tal telecommunications switching system, especially remote voice switching system, to a central facility the switching system with which they have at least a time-division multiplex line in the In channel exchange of information.

In digital telecommunications switching systems, for example wise telephone exchanges are peripheral Facilities in the form of e.g. B. subscriber circuits and line sets over time-division multiplex lines, which of several such peripheral devices used the, with central facilities, for example one Group coupler or a group processor connected, an exchange of information in modules individual time channels. There may be several such time-division lines exist, at a time-division multiplex in the constellation assumed above line for voice transmission and a time division multiplex line for signal transmission.

For the proper operation of such systems be ensured that as few interference signals as possible get on the time-division multiplex lines, in particular this applies to faults caused by an assembly would go and fall into time channels that other construction groups are assigned. Such interference signals can Consequence of the failure of clock signals in or to the Assembly, a defect in the assembly or if  this is designed as a plug-in module, an unequal moderate contact or only a gradual increase the supply voltages when changing modules.

With regard to the latter, when inserting Plug-in modules possible interference signals are proposed to provide switching means through which the release besignale that the timed channel-appropriate intrusion of Effect modules on a time-division multiplex line, so long suppressed until after the Ver supply voltage when plugging in a certain period of time has elapsed and the supply voltage also has reached a certain threshold. The time span is dimensioned so that afterwards all bars and Release signals have settled in the functional direction.

Interference signals appearing in normal operation, which affect a Clock failure or a block defect are and can usually occur as permanent disorders however, this does not result from the time-division multiplex line be kept away.

The object of the invention is therefore a Specify circuitry in which also the delivery of interference signals in operation, also due to the Interference signals arising from the latter cause be changed.

According to the invention, this object is achieved with a circuit arrangement of the type mentioned solved that there is characterized by that each peripheral assembly has at least one monostable multivibrator, which in their output behavior through that of the assembly to deliver one of the time-division lines mentioned digital information itself is controlled by this information to the reset input of the flip-flop are supplied so that they are in exact correspondence  to change the bit combination of the digital information mations either their stable or their unstable Can assume state, with a switch to the in stable state only when an enable signal occurs is possible with which the monostable multivibrator is struck during the assembly concerned assigned period of time is generated and the by switch the digital information to one of the times causes multiplex lines, and further ver because of the monostable flip-flop slightly longer than the duration of the enable signal, and that the off the monostable multivibrator via a gate circuit is connected to the time-division multiplex line whose Permeability is determined by the release signal.

By the circuit arrangement according to the invention all possible sources of interference taken into account, d. H. the emission of glitches on the multiplex line is prevented in any case or at least only for such a short period of time possible that they are within the tolerance range of the overall system lie.

If the monostable tilt stage or the parts that are responsible for the information transmission are responsible, fail, then has an effect this kind of error only by falsifying the during the module-specific time spread out information sent, other assemblies are not disturbed. In addition, a sol Error from the received central facility recognize quickly.

Another embodiment of the invention is Release signal also with opposite effect as To supply the locking signal to that register of from which the digital information to the monostable  Reach flip-flop. The release signal remains as Continuous signal in its position, the register cannot record new information and send it to the monostable Pass on the flip-flop. If finally according to another another embodiment, the supply of the release signal the gate connection mentioned, to the monostable multivibrator and with opposite effect to the named register on the same conductor track of the module is at automatically with an incorrect permanent release signal security guaranteed.

The invention based on an embodiment example with reference to a figure tert.

The figure shows in order to understand the invention he required scope an arrangement with eight peripheral modules LTU 0 to LTU 7 which are connection units for subscriber lines or exchange lines of a telephone exchange and which are designed as plug-in modules. These plug-in modules are each connected to a common voice multiplexing SPHI and a common signal multiplex line SIHI, on which they each correspond in the allocated time channel with a central facility of the switching center, here with a group coupler (not shown) or a group processor (not shown).

In the figure, only one of the peripheral construction groups LTU 0 is shown in more detail, where, in addition, only those parts of the invention according to the invention are shown which are related to the information exchange with the signal multiplex line SIHI.

The delivery of signal information to the signal multiplex line SIHI takes place via a driver circuit TR, which is permeable depending on the occurrence of an enable signal. This enable signal is supplied from a register R 1 loaded by a clock T.

From there it also arrives at an information input of a monostable multivibrator M, at whose reset input R a signal R 2 also affected by a register R 2 also affected by the clock T reaches the actual signal information. The conditions here are preferably such that when a bit of the signal formation of binary value "1" is present, the flip-flop assumes its unstable state when the enable signal is present, and since a signal corresponding to binary value "0" is output to the driver circuit Tr at the utilized output, whereas, when a bit of the signal information with the binary value "0" occurs, the monostable multivibrator is reset and thereby outputs a signal of the binary value "1" at the output mentioned. This means that the output signal of the monostable multivibrator follows the information applied to the reset input R, which is why the register R 2 must contain the inverted bit pattern of the signal information to be transmitted on the signal multiplex line SIHI.

The dwell time of the monostable multivibrator is slightly longer than the duration of the enable signal. This ensures that even if the signal information only includes bits of the binary value "0" and thus the information in the register R 2 only includes bits of the binary value "1", the monostable multivibrator switched from the rising edge of the enable signal to the unstable state, which then, as stated, emits a signal of the binary value "0", does not return to the stable state before the end of the signal information, in which it would emit a signal of the binary value "1", so that here too the correspondence with the actual signal information tion is given. Since the driver TR is blocked when the enable signal is terminated, a signal transmission to the signal multiplex line SIHI outside the allocated channel time cannot occur with such a dwell time that exceeds the information duration.

Should z. B. when inserting the module the release Si signal that is linked to the system cycle of the system, last longer than normal or even as a continuous signal then it would only be possible once be that the monostable multivibrator in its unstable State is switched and that during their dwell time interference signals on the signal multiplex line SIHI ge long. The disturbance is so short and rare that within the scope of ver falsification of signaling information in central Share the switching center and thus accepted who that can.

As the figure shows, the enable signal read from the register R 1 is also fed back to a second input of the register R 2 for the signaling information, with the result that the output of this register is set to fixed potential after the eight bits of a signaling word have been sent is and can no longer cause ken that the monostable multivibrator is switched. This lock is only released when the periodically following release signal occurs.

The multiplex line SPHI, which, as explained for the Voice information can be transmitted in the same way against the occurrence of interference pulses ge be secured.

Claims (3)

1.Circuit arrangement for preventing the emission of interference signals by peripheral modules (LTU 0 to LTU 7 ), in particular plug-in modules, a digital telecommunications switching system, in particular a telephone switching system, to a central facility of the switching system with which they line via at least one time-division multiplex (SIHI ; SPHI) are in the exchange of information, characterized in that each peripheral module (LTU 0 to LTU 7 ) has at least one monostable multivibrator (M) which controls its output behavior itself from the digital information to be specified by the module via one of the time-division multiplex lines mentioned is done by this information to the reset input (R) of the flip-flop so that it can assume either its stable or its unstable state in exact correspondence to the change in the bit combination of the digital information, with a switch to the stable state only with order Reten a release signal is possible, with which the monostable multivibrator is applied, which is generated during the period assigned to the relevant assembly and the switching of the digital information causes one of the time multiplex lines, and furthermore the dwell time of the monostable multivibrator is slightly longer than the duration of the enable signal, and that the output of the monostable multivibrator is connected via a gate circuit (TR) to the time-division multiplex line, the permeability of which is determined by the enable signal. 2. A circuit arrangement according to claim 1, characterized in that the release signal is also supplied with an opposing effect as a locking signal to a register (R 2 ) from which the digital information reaches the mono-stable flip-flop (M), which means that when the release signal is applied Register can no longer record and pass on new information. 3. A circuit arrangement according to claim 2, characterized in that the supply of the enable signal to said gate circuit (TR), to the monostable multivibrator (M) and with opposite effect to said register (R 2 ) via the same conductor track of the module.