DE3225272C2 - Circuit arrangement for checking the subscriber line between a digital subscriber station and a digital switching device - Google Patents

Description

The invention relates to a circuit arrangement for checking the subscriber line between a to digital subscriber station and a digital switching device, the subscriber line on both sides by two halves on the line side connected in series via a capacitor Winding of the respective line transformer is completed, being parallel to the participant station side A capacitor that ensures reverse polarity protection for the DC voltage supply to the subscriber station Rectifier bridge with two zener diodes connected to a common DC voltage output connected diodes and being connected to a first connection of the exchange-side Capacitor a subscriber supply voltage source and to the other second connection of the same capacitor is connected to ground via a resistor

In the case of analog telephone subscriber equipment and modems, the alarm clock is in the idle state Subscriber station and the associated alarm capacitor in the subscriber line. Usual facilities To check the subscriber line, switch on a low-frequency test voltage via test coupler, with which the line loop can be checked for continuity and possibly line parameters can be determined. The low-frequency test voltage runs through the alarm clock and the alarm clock capacitor without the alarm clock to ring the bell.

For monitoring subscriber lines over which both direct current and ringing current are carried is, it is also known that in the direct current leads to the two wires of the subscriber lines Ammeters are switched on, both in the idle state and in the dynamic state Measure flowing currents and that these are fed to a comparison device and from this be evaluated as a criterion for the line condition (DE-AS 28 48 899).

It is also known to test a subscriber line by having the subscriber connection turns off and turns on a known impedance (defined termination) that one officially for a certain time turns on an alternator that in front of the subscriber terminal one on the Generator currents responsive monitoring circuit is switched on, this optionally the Subscriber terminal and a final checking device switched on and that with the final checking device switched on an impedance test is carried out officially (DE-AS 23 56 018).

The object of the invention is now to consist in providing a circuit arrangement for a simple test method to find, with the help of which the subscriber line between a digital subscriber station and a digital switching center in a simple manner and without additional effort at the subscriber station Loop passage can be checked.

This is achieved in that at the first termination of the switching-side capacitor in parallel an optionally connectable test voltage source in addition to the subscriber supply voltage source is arranged that the second connection of the switch-side capacitor with the inputs a first and a second parallel to each other designed for different voltage values Threshold detectors is connected that the first threshold detector to an existing subscriber supply voltage responds and that the second threshold detector for the common presence of Participant supply voltage and test voltage respond.

This has the advantage that without changing the digital subscriber station and with only a subscriber line in a simple manner with little additional effort at the digital exchange can be checked. Test couplers can be omitted.

A further development of the circuit arrangement according to the invention consists in that the test voltage source automatically in certain over a timer selectable intervals if there is no voltage display of the first threshold value detector for a short time is switched on.

This results in the advantage that an aforementioned subscriber line is automatically constantly checked for continuity by either Sprecbbetrieb the first threshold or with applied test voltage second threshold aif a corresponding display emits

A further development of the circuit arrangement according to the invention is that when the Test voltage source and failure of the second threshold detector to respond, an alarm signal is switched on will.

This has the advantage that the corresponding (missing) threshold value detector display the operating or maintenance personnel is addressed optically or acoustically and a necessary Reaction can take place.

The circuit arrangement according to the invention is explained in more detail with reference to a figure.

The figure consists essentially of a subscriber station TSt, a subscriber line Tlg and a switching device VE.

From the subscriber station TSt , a transformer Ü \ with the line-side winding parts w 11, wl2 and the capacitor C1 and a rectifier bridge with the diodes D 1 and D 2 and the Zener diodes Z1 and Z 2 are shown.

From the switching device VE is the transformer Ü2 with the line-side winding parts w21 and w 22 and the capacitor C 2 and also a supply voltage source US, a test voltage source UP with the switch 7 ^ a first (Si) and a second (S 2) threshold value detector 51 and S 2 and an ohmic resistor R limiting the test current are shown. ίο

The circuit arrangement according to the invention is based on the assumption that it relates to a digital, line-fed subscriber station TSt which is connected to a digital switching device VE via a subscriber line TLg. The subscriber line is terminated on the station side with two windings wll and w 12, which form the line-side winding of the transformer Ü 1 of the subscriber station. Both windings wll and wt2 are connected via a capacitor C1 which forms a direct current block.

The supply voltage for the digital subscriber station supplied via the subscriber line is taken from both ends. A rectifier bridge is therefore connected downstream of the connections of the capacitor C1 as protection against polarity reversal. In order to obtain overvoltage protection at the same time with the help of this rectifier bridge, two of the four necessary diodes are provided as Zener diodes Zi and Z 2 . The other two diodes Di and D 2 are common diodes for rectifier bridges of this type.

On the side of the switching device VE , the subscriber line is also terminated with two windings iv21 and w 22 , which form the line-side winding of the transformer Ü2 of the switching device and which are also connected via a capacitor C2 .

One connection of the capacitor * C2 is connected to a supply voltage source US and at the same time via a switch T to a test voltage source UP. The other terminal of the capacitor C 2 is connected to a first threshold value detector S 1 and, in parallel therewith, to a second threshold value detector S 2. In addition, this connection is connected to ground via a resistor R.

If one now assumes that a connection is switched via the subscriber line by lifting the handset from the subscriber station TSi or from the switching device VE , then the supply voltage supplied by the supply voltage source US is fully transmitted to the voltage-requiring units in a known manner via the rectifier bridge the subscriber station switched on. As a result, a normal loop current flows and the threshold value detector S1 provided for this current flow or the corresponding voltage drop at R provides a corresponding display. This display indicates that the connection line is OK and that, of course, the corresponding subscriber terminal is also connected.

If the entire circuit arrangement is at rest, then a second voltage source - a test voltage source UP - can be switched on from the side of the switching device parallel to the supply voltage source US via a switch.

In the aforementioned case (established connection) the following circuit is present: (e.g.) +, US, w21, w 11, Zl, structural units, D 2, w 12, w 22, R, ground.

If the test voltage is additionally applied at rest, the Zener diodes Zl and Z 2 become permeable due to their protective function due to the higher total voltage (US + UP) and the following circuit results: (UP (T) + US), w21, wl 1, Z1, Z2, w 12, w 22, R, mass.

In this case, due to the increased voltage drop across R , the threshold value detector S 2 also responds. From this it can be seen that the subscriber line is OK and the subscriber station is connected to the subscriber line.

Due to the increased DC voltage applied, there are no in the digital device of the subscriber station Functions triggered.

You can now connect the test voltage source US for constant checking of the subscriber line TLg z. B. can be made automatically via a timer at fixed intervals and trigger a corresponding alarm if the threshold detector S 2 is not displayed. It is useful to derive a corresponding signal from the threshold value detector S1 to control the switch T , so that the test voltage is only applied when the circuit arrangement is at rest, i.e. no normal loop current is flowing and there is thus an indication on the threshold value detector S1.

In addition, it should be noted that such a connection line check is also symmetrical can be made by adding two more in parallel to the first terminal of the capacitor C 2 Threshold detectors such as S1 and S2 are switched on. This provides a control over the created Input voltage.

On the basis of the above, the problem set can be achieved in a simple manner.

1 sheet of drawings

Claims (4)

Patent claims: 1.Circuit arrangement for checking the subscriber line between a digital subscriber station and a digital switching device, the subscriber line being terminated on both sides by two halves of the line-side winding of the respective line transformer connected in series via a capacitor The rectifier bridge ensuring the direct voltage supply of the subscriber station is connected with two diodes designed as Zener diodes connected to a common direct voltage output and with a subscriber supply voltage source connected to a first connection of the switching-side capacitor and ground to the other second connection of the same capacitor via a resistor, characterized in that an the first connection of the switch-side capacitor (C 2) parallel to the subscriber supply voltage source (US) an optionally additionally switchable test voltage source (UP) is arranged, that the second connection of the switching-side capacitor (C 2) is connected to the inputs of a first and second parallel threshold value detectors (Si, S2) designed for different voltage values, that the first threshold value detector (Si ) responds to an existing subscriber feed voltage and that the second threshold value detector (S 2) responds to the joint presence of subscriber feed voltage and test voltage. 2. Circuit arrangement according to claim 1, characterized in that the test voltage source (US) is automatically switched on briefly at certain intervals selectable via a timing element when the voltage display of the first threshold value detector (Si) is not present. 3. Circuit arrangement according to claim 1, characterized in that when the test voltage source (US) is switched on and the second threshold value detector (S 2) does not respond, an alarm signal is switched on. 4. Circuit arrangement according to claim 1, characterized in that the resistor (R) connecting the switch-side capacitor (Cl) to ground is dimensioned so that it prevents an excessively high loop test current when the test voltage is applied, but that the latter is still clearly different from the normal loop current differs in speech operation. 55