DE1179601B - Circuit arrangement for increasing the crosstalk and / or backhoe damping for devices in preferably carrier-frequency telecommunications systems - Google Patents

Description

Circuit arrangement for increasing the crosstalk and / or back hearing loss for devices in preferably carrier-frequency telecommunication systems The invention relates to a circuit arrangement for devices in preferably carrier-frequency telecommunications systems to increase the crosstalk and / or back hearing loss between two asymmetrical ones Four-pole chains, e.g. B. between the transmitting and receiving part of four-wire TF amplifiers, by means of crosstalk compensation through additional coupling elements, e.g. B. capacitors.

In telecommunications technology is essential for smooth operations the highest possible crosstalk and / or backlash attenuation is required, which is achieved by Reducing mutual coupling, e.g. B. by attaching a crosstalk compensation, is achieved in the case of two interfering lines.

It is known that on the pipeline side, through balancing, d. H. by inserting additional coupling elements into the coupling pipe system, z. B. by additional capacitors, a satisfactory compensation can be achieved. In such symmetrical telecommunication lines connect the additional coupling elements two speech arteries with each other that are not. belong to the same line, or they connect a voice wire of a line to earth, e.g. B. with the cable jacket or a corresponding reference point. The compensation points are often here far from the amplifier field ends.

It is also known in telephone systems with contact switching networks, in which a first type of line (e.g. incoming lines) with a second Type of lines (e.g. outgoing lines) are meshed in terms of coordinates and in each of which a line of the first type with a line of the second type over Electromagnetically operated coupling contacts arranged at the crossing points of the lines stranded wire can be interconnected to increase the crosstalk attenuation individual line Shunt capacitors of the same capacity are to be provided.

Apart from the fact that these are also symmetrical lines it is disadvantageous that this arrangement is due to the large number of identical shunt capacitors and through the use of the electromagnetically actuated two-pole coupling contacts is very complex.

So if one assumes that on symmetrically designed long-distance lines an optimal balance can be achieved, but it increases with symmetrical Wiring on the device side and using the same method, d. H. Activation of equalizing capacitors, because of the many switching contacts available, the effort very substantial. This is because symmetrical lines have the disadvantage that they are fundamentally need two switching contacts when switching. Since this type of cable is in In many cases it is still necessary to shield the cables at certain points To earth the points, another switching contact is necessary. The number of Switching contacts continues to increase when a carrier frequency device is switched over for several operating modes should be suitable. However, it is desirable to have the number to keep the switching contacts as small as possible. The use is suitable for this of unbalanced lines. However, it is now known that the crosstalk and J. or, the back loss of unbalanced lines is often too low, which is particularly important applies to the back loss in four-wire operation and can only be achieved through very complex Can correct shielding measures.

This disadvantage is caused by the circuit arrangement according to the invention thereby avoided that in the rest of the carried out in asymmetrical wiring Devices, certain line sections between each two selected four-pole one or both four-pole chains connected to earth and preferably as two-core shielded Line sections are formed and that for crosstalk compensation between one Line part of the ungrounded line sections and earth an impedance, preferably a capacitor is connected.

Another feature of the invention is that the crosstalk compensation - on the four-pole chain in the transmitting part at the point of the highest level or in the receiving part is made at the point of lowest level. The invention and their mode of operation is explained in more detail below with reference to the drawing: F i G. 1 shows a carrier-frequency repeater station with essentially asymmetrical Line routing with the line floating in two sections on the receiving side is switched; a two-core shielded cable is used for this in this case, whereby an influence on the operational damping of the system is avoided.

The transmitting part is made up of the transformer Ui, the direction switch R W1, the contact arm a of the operating mode switch S, which is used to set various operating modes, the asymmetrically switched intermediate amplifier Z1, which contains, among other things, the line equalizer LE 1 and the amplifier V 1 , the Contact arm d of the mode switch S, the direction switch R W2 and the transformer Ü2.

The receiving part is switched analogously in reverse order. It contains the transformer 1 = I3, the filter F2, the contact arms e and f of the mode switch S, the asymmetrically switched intermediate amplifier Z2 with the line equalizer LE2 and the amplifier V2 as well as the contact arms b and c of the mode switch S, where the filter F1 and the Follow transformer Ü4.

In this example, according to the invention, the line sections between LE2 and F2 and between V2 and F1 are grounded on the receiving side, which is a prerequisite that the corresponding connection points at the four-pole terminals F2, LE2, V2 and Fl are also switched to floating; One conductor of each of these two-core shielded lines is connected to earth via an impedance in the form of a capacitor C2 or Cl.

Of course, the crosstalk compensation can also be provided between RW2 -> V1 and LE1 -> RW1 or between R W2 -> V1 and V2 -> F1 or RW1 -> LE1 and LE2 -> F2.

F i g. 2a shows a known, paired asymmetrical line routing with surface grounding, while FIG. 2b an unbalanced line and F i g. 2c shows a two-core, shielded line which is connected to earth in a manner according to the invention. In the latter two cases, one of the ungrounded conductors is connected to earth via the impedance CA , which corresponds to the impedances C1 and C2 in FIG. 1 corresponds. In the opposite direction, as shown in FIG. 2 shows normal unbalanced line routing given.

In order to keep the interference as low as possible, compared to known methods in which z. B. the compensation is carried out far away from the amplifier field ends, the impedance is switched on here directly at the points where, as expected, the interference can be prevented particularly effectively. This is in the example according to FIG. 1 in the receiving direction at the input of the line equalizer LE 2 (low input level) is the case where the influence from the output of the transmission amplifier V1 (high output level) is compensated for.

The particular advantage of the arrangement according to the invention consists in the low technical effort, it is only to be switched to earth-free and any Symmetrization and special shielding measures are not required. Any additional couplings, which occur through switching contacts, etc., are through the circuit arrangement with recorded.

The entire circuit arrangement is based on a bridge circuit, when there is optimal crosstalk equalization when bridge equilibrium is present.

Claims (2)

Claims: 1. Circuit arrangement for devices in preferably carrier-frequency telecommunications systems to increase the crosstalk and / or hearing loss between two asymmetrical four-pole chains, z. B. between the transmitting and receiving part of four-wire TF amplifiers, by means of crosstalk compensation through additional coupling elements, z. B. capacitors, characterized in that certain line sections between each two selected four-pole one or both four-pole chains connected to floating and preferably as two-wire shielded line sections in the otherwise executed in asymmetrical wiring devices. are formed and that for crosstalk compensation. an impedance, preferably a capacitor (C i or C 2), is connected between a line part of the unearthed line sections and earth. 2. Circuit arrangement according to claim 1; characterized in that the crosstalk compensation is carried out on the four-pole chain in the transmitting section at the point of highest level or in the receiving section at the point of lowest level. Documents considered: German Auslegeschrift No. 1 133 765; French patent specification No. 912 524.