DE1955916C3 - Circuit arrangement for checking the functionality of conductors in a time division multiplex switching system - Google Patents

Description

Dm: The invention relates to a circuit arrangement for Checking the functionality of conductors on which direct current signals from a group of parts traveling to an electronic time division multiplex Switching system belong in which all participants trip divided into separate groups can be collected.

In particular, the invention relates to a device which can be switched into each group and is used for this purpose. Short circuits of the switch determine which direct current signals are transmitted on the common conductors of the group and the group accordingly to tsoiieren-Dte circuit arrangement according to the invention

comes in one after the time division multiplex principle working Ferasprecfa-Vennitdungsanlage zum Emsatz, where the Teünnehmerkrebe in individual groups are subdivided, which can be connected to one another via their own coupling switches. The subdivision of the Switching systems in groups of subscribers is useful for various reasons. A

An important reason is that one must limit the spread of a disturbance occurring in one of the groups of participants in the central facilities. In the case of division into groups, the disturbance does not spread to the entire system if one immediately

after the fault has been identified, the group to which the faulty group of participants belongs and thus isolates the fault

The problem solved by the invention is to focus on each group of participants g common conductors on which the direct current useful signals are sent, the presence of a constant voltage must determine which the entire signal exchange in the switching system would affect. When this tension appears

this means that one or more switches within the subscriber group are working incorrectly.

The circuit arrangement according to the invention is provided for each group. With a preferred one

Embodiment of the invention it contains an integrator circuit to which all signals are fed. which are present on the ladders to be tested. after going through a logical summing circle have been added. The integrator circle is at the beginning »Zeroed in every test scan cycle. At its output it supplies a voltage that leads to the number those time channels proportional to those on at least one of the conductors involved is a pulse has occurred The output signal of the integrator circuit

This is done by a comparison device with a Reference signal compared. The output signal of the comparison device controls the release or prevention the closure of the coupling switches switched on in the respective subscriber group.

4 <, The number of participants in each group depends on the structure of the system. but is never very large, so that there is not too many groups of participants in the event of a malfunction be excluded. The invention is based on the consideration that this number is usually less than that of the available time channels, so that some of them are always free, even if one presupposes that all subscriber groups are occupied by a conversation and direct current useful signals on send the leader of the group. According to this consideration, the aforementioned reference voltage becomes smaller than the value chosen which the output voltage of the integrator circuit would reach if its input voltage would be continuous, and higher than the value that the output voltage would reach if am Input of the integrator ^ ice with each test cycle of the Logical or binary value "one", which indicates the presence of useful direct current signals in so many time channels would appear, such as groups of participants in the group. The comparison device generates a prevention or blocking signal as soon as the value of the output signal of the integrator circuit exceeds the value of the reference signal and is indicated by the fact that a switch is constantly

This statement remains closed with everyone Test cycle hit, and the blocking information is used in the next sampling cycle The output signal of the comparison device is stored in a memory circuit, which is periodically shortly before the integrator circle is reduced to zero

The preferred embodiment of the invention will be explained in more detail with reference to the drawing.

In the drawing, the subscriber groups AU \ ... AU ₂ * belong. to which subscriber lines L] ... L ₂ * are connected to form a single group /. They send useful direct current signals on lines V _n and V _n . These lines are coupled via two switches h and I ₂ to lines V and V ₂ , respectively, which receive the direct current signals from all groups. A central control unit UC controls the connections between the various subscriber groups and the closing of the switches in the subscriber groups (in a manner known per se).

The control device labeled DC has two inputs which are connected to lines Vr and V _n . The logical sum of the signals present on these lines is obtained at the output of an OR element O \. The buzzer signal is applied to an integrator consisting of a diode 2s D, a capacitor C and a resistor R , which is periodically short-circuited by a switch /> and is actuated by a phase signal <fo. Is prior to the short circuit between the ends of the resistor a voltage which de ^r number corresponds to the time slots in which on at least one of the two lines V ', and Vp is a voltage from the logical or binary value "one" has been detected. D ^; The voltage across the resistor R is compared by a comparison device VC with a reference voltage VW, and if it is greater than this, a blocking command is stored in a bistable circuit FF on the basis of a signal generated at the output of the comparison device -Glieder Ai and a suspended ₂ applied enable signal, that is, the aND gates are disabled as a result, a signal ARj for closing the switches l · and / 2, which provides the central unit UC when present on the respective lines useful signals by means of the bistable circuit are locked so that the subscriber group is isolated. At the beginning of the next test cycle, the state of the two lines is checked by a phase signal φ®, which precedes the phase signal qpoi and is applied to the clear input of the bistable circuit FF in order to set it to zero . The bistable circuit remains deleted if the signal stored at resistor R is insufficient to switch the comparison device during the previous test cycle. The value of the reference voltage V ^, i is preferably chosen so that it is 50% of the voltage that would develop at the resistor R if there were a continuous DC voltage at the output of the diode D or the OR element Oi. If the number of signal channels in the described embodiment is 100, and if there is no disturbance within a group of 14 subscriber groups (the group takes 2-1 time channels), the maximum voltage that can develop between the ends of the resistor R is present , a value that is 2Ί ° ό Jes voltage value that would develop at the resistor R with a continuous output signal from the OR element. As a result, the comparison device does not switch over

1 sheet of drawings

Claims (2)

! Patent claims: ill. Circuit arrangement for checking the functional color of lantern on which öekhstrorastgnaie a group of participants. dfe belong to an electronic iiehmuhiplex switching system, in which all subscribers are divided into separate groups, are collected, characterized in that. that old conductors to be checked of a respective Giruppe are coupled to the input of a logical summing circuit (C) and that a section circuit (C R. fF) counts during each Priifaibtastzykhis dk: Zehkanile, with those at the output of the Sununienmgskreis (O ₁ ) A signal of a certain ESnär value ("one") appears which indicates the presence of useful signals on at least one of the checked! conductors and, in the case of the fixation, that the number of these time channels is greater than that of the subscriber groups present in the group (Aa) , throughout the following Prüfabtastzykluis a disable signal generated wekrhes a (ARJ command to close the alie in common conductor (V group ₁₎ f switched coupler switch makes / J ineffective 2. Circuit arrangement according to claim 1. characterized daä the Abschaitkreis consists of an integrator circuit (R. C) whose output is short-circuited at the beginning of each test defrost cycle (/ 3) and to whose input the output signal of the summing circuit (Oi) is applied; furthermore from a comparison device (VC) which compares the output signal of the integrator circuit with a reference signal (VW), the value of which is greater; as the value that the output signal of the inferior circuit reaches when the signal of the specific binary value ("On:") appears at the output of the summation circuit (O,) for a number of time channels that is equal to the number of participants' crisis ( Ai) of the group and is smaller than the value reached by the output signal of the integrator circuit if the specific binary value ("one") would appear for all time channels at the output of the summation circuit; and finally from a memory circuit (FF) which is set to zero with each test scanning cycle, and the locking signal stores that is generated by the comparison device (VC) when it receives a signal from the output of the integrator circuit (RC) which is greater than the reference signal .