DE3525566A1 - Circuit arrangement for identifying earth key functions in telephone switching systems - Google Patents

Abstract

The invention relates to a circuit arrangement for centrally controlled telephone switching systems, in particular telephone PBX systems, with subscriber terminals which are equipped with earth keys to forward call connections or to set up line connections to the operator's position, and whose a/b wires are monitored for loop current changes, short-circuits and earth faults. The indication device (IE) has the first switching means (S) for loop current monitoring of the a/b wires within a specific current range, while the second switching means (SU) is activated when the upper limit of the loop current is exceeded, and the third switching means (X) signals the >>earth fault<< when the current level falls below a specific value on the b wire. This circuit arrangement can be used for line-individual loop current change monitoring in centrally controlled telephone switching systems for analog and digital subscriber terminals. <IMAGE>

Description

The invention relates to a circuit arrangement for centrally controlled telephone switching systems, in particular telephone private branch exchanges, with subscriber terminals which are equipped with earth keys for forwarding call connections or for establishing line connections to the switching center, and whose a / b wires are monitored for loop current changes, short-circuit and earth faults.

In the known telephone switching systems, the detection of the earth button function is realized by a relay with two windings, each partial winding being connected to the a / b wires in such a way that, with the presence of the loop current, the partial windings act in opposite directions and thus the relay with its Contacts is held in the idle state. When the earth button is pressed, earth potential is reached via the b wire and thus short-circuits the partial winding in the infeed area of the b wire. The partial winding within the a wire thus takes effect and the relay is actuated with its contacts. In addition, a corresponding relay is provided for detection of the so-called loop current, which is also in the supply circuit of the a / b wire. This so-called loop relay is dimensioned so that the existing loop condition remains recognized regardless of the function of the earth button by the fact that one of the partial windings of the loop relay detects this loop condition. The loop current interruptions, earth faults on the a / b wires and the earth button press can be recognized and evaluated accordingly by appropriately linking the relay contacts to one another. In connection with the monitoring of the various switching states, complex resistor transistor networks are also known, which evaluate the respective switching states in a similar manner.

With all known circuits, however, can not be prevented that briefly, for example when switching on or. Switch off the supply voltage or in the event of an interruption the connecting line through capacitor charging or Unloading false reports are reported. In particular in centrally controlled telephone exchanges, whose Control processes run digitally, lead to such false statements to an additional load on the central processing units, since these erroneous statements can only be obtained through elaborate Test sequences suppressed in the so-called last look process can be.

The object underlying the invention is specify a circuit arrangement in which the different Line states - loop interruption, loop current, Earth fault - can be determined in the same way at however, in the event of line breaks or when switching on and off the supply voltage even in the short term False statements about the line status are signaled and also the so-called overload cases due to line short-circuits are detectable with. According to the invention this by the combination of features 1.1 to 1.4 reached.

With the use of the switching means directly monitoring the current within the indication device, it is achieved that the various line states are always displayed without errors even when the supply voltage is interrupted. It is to be regarded as essential to the invention that the existing switching states with different switching shafts are determined on the a / b wires. The different switching thresholds are selected so that the usual interference voltages that influence these lines cannot falsify the result of the line states. When the supply voltage is switched off, the higher switching threshold which is always reached first is provided for the live a wire, which according to an advantageous embodiment of the invention immediately indicates the line state "interruption", while the state "earth fault" determined with the third switching means, the switching threshold below the higher switching threshold, is no longer evaluated.

Can also be particularly advantageous with the second switching means the overload case can be recognized, in which by timely Switching off the supply voltage will destroy of components is avoided.

According to a further embodiment of the invention, it is provided that the indication device is connected to the a / b wires of the subscriber terminals via an analog multiplex device, so that the indication device can be used as a central switching device for monitoring and evaluating the lines of several subscriber terminals.

The invention is explained in more detail in an exemplary embodiment shown in the figures, FIG. 1 for line monitoring showing the known switching devices, while FIG. 2 shows switching devices of the circuit arrangements according to the invention in detail.

In theFig. 1 one of the known loop and earth key monitoring circuits in conventional technology shown. The subscriber terminalTE is here with the Earth buttonET equipped, after their actuation earth potential to theb-Ader can be switched on briefly. The a/b-Veins are in a known manner by the not designated  DC capacitor separated from each other and be over at the loop relayS and the earth button detection relay X DC-fed. As the also shown combination of contacts from the switch contacts s,x 1,x 2nd can recognize the different states on the lines by an appropriate combination of the corresponding switch contacts are displayed. So can be seen that with the switch contact not actuateds and also not actuated switch contactx 1 a break is present, provided there is operating voltage at this switching device is switched on. Only the switch contacts  activated, this loop state cans about the contact combination s,x 2nd be displayed. are both the loop relayS as well as the earth button detection relay x excited, the "Earth fault" fault occurs on either by pressing the earth buttonET briefly is caused, or by faulty cables as a permanent error - this earth fault is shown  through the arrow mark - can occur. In the presence of this Switching states can then be the corresponding ones in a known manner Measures, for example switching off the operating voltage, Initiation of mediation processes, etc. carried out will.

TheFig. 2 shows the circuit arrangement according to the invention with the indication deviceIEin which the first switching means S the monitoring of "interruptions", the second Switching meansSU the monitoring of "short circuits" and that third switching meansX the monitoring of "earth faults" of the correspondinga/bVeins. The feed from the a/b- Cores take place behind the infeed and lead if necessary directly to the corresponding switching meansS,SU,X, the switching thresholds arranged in certain current ranges are. For example, the first switching meansS in d 35 Indication deviceIE designed so that the Loop current in thea-Wire in the range from 5 mA to 120 mA  is recognized as cheap and permissible. With the lowering of the Current value below 5 mA is from this first switching meansS  detected on "break" and this signalU, the above the undefined gate, if the valid one is not available Loop current  and the upper current range of 120 mA, so , comes to the appropriate evaluation. Similar thing applies to the confirmation of the loop criterionS, which also does not exceed the maximum value of 120 mA may be - well  - And both switching thresholds of the first and third switching meansS,X within the valid Area - sos greater than 5 mA, less than 120 mA andx smaller Is 4 mA.

The fault state "earth fault" E , in which the a or b wire comes into contact with earth, also includes the short-circuit case of the a / b wires. In contrast to the conventional circuits, in which it was not possible to differentiate between the earth key press and the earth fault, this short circuit case or this "earth fault" E is only signaled when the loop current is exceeded by 120 mA, regardless of whether the current is on the b wire decreases any value in the event of a short circuit, or drops below the threshold value of 4 mA in the event of an earth fault. With this switching sequence, the so-called overload cases can be clearly identified and the supply voltage can subsequently be switched off to avoid component destruction.

If the indication means IE by means of the analog multiplexing means AM for monitoring a / b veinlets connected to this, so this indication means IE multiple independent a / b veinlets can be used within a line terminal unit as a central device for monitoring.

Claims (3)

1. Circuitry for centrally controlled telephone switching systems, in particular telephone private branch exchanges, with subscriber terminals which are equipped with earth keys for forwarding call connections or for establishing line connections to the switching center and whose a / b wires are monitored for loop current changes, short-circuit and earth faults, characterized by the combination of features
1.1 The circuit arrangement has an indicator device ( IE ) which monitors the loop current in the a / b wires for different functional states,
1.2 the indication device ( IE ) is equipped with switching means ( S , SU , X ) which detect the functional states individually for the line,
1.3 the switching means ( S , SU , X ) are designed in such a way that line-specific switching shafts can be differentiated and evaluated in relation to their function, including maximum permissible interference voltages,
1.4 the line-specific switching thresholds are selected such that the loop current in the a wire can be detected approximately in the range greater than 5 mA, less than 120 mA and in the b wire greater or less than 4 mA. 2. Circuit arrangement according to claim 1, characterized by the combination of the features
2.1 the indication device ( IE ) detects with a first switching means ( S ) for "interruption" when the loop current in the a wire is less than 5 mA, and with a second switching device ( SU ) for short circuit when the loop current in the a - Wire is greater than 120 mA,
2.2 the indicator device recognizes with the first switching means ( S ) in the loop current range of the a wire in connection with a third switching means ( X ) to "earth fault" when the loop current in the b wire is greater than 4 mA. 3. Circuit arrangement according to claim 1, characterized by the feature
3.1 the indication device ( IE ) can be connected to the a / b wires of the subscriber terminals ( TE ) via an analog multiplex device ( AM ).