DE1127953B - Circuit arrangement for monitoring two-wire telecommunication lines - Google Patents

Description

Circuit arrangement for monitoring two-wire telecommunication lines In telecommunications systems there is often a need to keep the line wires constantly on To monitor wire breakage, earth faults or similar faults. Since over long distances Telecommunication lines that have been laid are often subject to the influence of external induction the connection of sensitive monitoring devices easily leads to a Disturbance of the individual switching means. The invention avoids this in that in a circuit arrangement for monitoring two-wire telecommunication lines Disturbances due to broken wires, earth faults and the like by means of a potential change the line cores responding device the monitoring device to the two Cores of the telecommunication line that are at opposite potentials to earth is switched on via a low-pass filter, which is used for interfering AC voltages of the frequency 162 / s Hz acts as a voltage divider of the order of magnitude 1000: 1, but DC voltage lets through. The evaluation of the occurring at the voltage subpoints of the low pass DC voltages can be implemented by gate circuits according to a further suggestion, which are equipped with diodes and, if an error occurs, the passage of a allow an indicator controlling pulse. The various at the individual disturbance possibilities of the telecommunication line occurring at its ends Evaluated potentials for blocking or unblocking the diodes of the gate circuits.

The invention is explained in more detail with reference to the drawing. It shows 1 schematically shows a circuit arrangement of a telecommunication line to be monitored with a low-pass filter for connecting the monitoring device, FIG. 2 is another Training of the low pass.

In the arrangement shown in FIG. 1, a telecommunication line formed from the cores La and Lb runs between a location A and a location B. In location B, these two wires are each connected to earth via a resistance of 100 kOhm. In A is located on the core La via a resistor of 100 ohms, the potential -24 V and the conductor Lb via a resistance of 100 kOhm, the potential -I-24 V. At the core La is a further Tiefpaßglied selected from the series connection of a resistor of 500 kOhm and a capacitor of 20 #tF is formed. This capacitor has a resistance of about 500 ohms at a frequency of 162 / s Hz, so that a voltage division of 1000: 1 results for an alternating voltage of this frequency. There is therefore practically no alternating voltage at terminal ä, even if there is an inductive influence on the telecommunication line with an interference voltage of 162 / s Hz, only the direct voltage component. An identical voltage divider is applied to wire Lb, so that only the direct voltage component also occurs at terminal b '. The monitoring device is connected to terminals ä and b '.

The illustrated in Fig. 2 further training of a low-pass element consists of two voltage dividers 30: 1 connected in a chain. The time constant a low-pass filter constructed in this way is less than the time constant of the low-pass filter of Fig. 1.

Claims (1)

PATENT CLAIM: Circuit arrangement for monitoring two-wire Telecommunication lines for faults due to broken wires, earth faults and the like by means of a Device responding to changes in potential of the line cores, characterized in that that the monitoring device to the two opposite earth on opposite Potential cores of the line is connected via a low-pass filter, which for interference AC voltages of the frequency 162 / s Hz as a voltage divider of the order of magnitude 1000: 1 works, but allows DC voltage to pass. Considered publications: German patent specification No. 969 213.