DE2419288C2 - Circuit arrangement for de-attenuation and equalization of electronic switches, in particular of electronic coupling elements of a telephone exchange - Google Patents

Description

The invention relates to a circuit arrangement for attenuation and equalization of electronic devices Switches, in particular of electronic coupling elements of a telephone exchange.

In conventional telephone exchanges, the subscribers are among other things via metal contacts of the switching matrix connected to each other. The replacement of these metal contacts with electronic switches, as it is due to the advancing development of the technology of these components and the resulting associated cost reduction has become possible. however brings with it problems that are essentially related to the comparatively complicated transmission properties of an electronic switch. In particular, these switches have a higher resulting resistance than corresponding metal contacts, which is also still dependent on current, which leads to distortion and thus an inferior Transmission quality.

It is the object of the present invention to eliminate these problems.

The object is achieved in that a terminal of the electronic switch with the no-load stable Side of a controllable negative resistor is connected that parallel to the electronic switch a first rectifier circuit and a second rectifier circuit in parallel with the negative resistance is switched. that the output of the two rectifier circuits with inputs of a comparison circuit connected is. whose output is connected to a controller, and that the output of the Controller is connected to a control input of the negative resistor, whereby this so it is controllable that the absolute amount of the voltage drops on the electronic switch and on the negative Resistance is identical. The advantage of the arrangement according to the invention is that it works with all electronic shoulders of any current-voltage characteristic can be realized that when used several electronic switches, e.g. B. the negative used in the switching network of an exchange Resistors can be arranged centrally and thus cost-effective solutions are made possible and that in particular the influence of the inevitable tolerances between the electronic components eliminated will.

The invention will now be explained with reference to figures.

It shows

F i g. 1 shows the basic circuit diagram of the invention.
2 shows the circuit arrangement according to the invention for de-attenuation and equalization of an electronic coupling element erroneously asymmetrical coupling network,

F i g, 3 like F i g. 2 for a symmetrical switching network. Fig. 1 shows the basic circuit diagram of the invention.
An electronic switch has a U (J) characteristic. His resistance and the

Called distortions can be compensated for by a switching element with a - U (J) characteristic; here - U (J) can be represented by a negative resistance, provided that U (J) is a real function, which is assumed in the following.

The current / flows from point X to point Y through the electronic switch RON and the negative resistance - R; in doing so, it causes voltage drops Ui (I) and U2 (I) ₁ that occur at rectifier circuits G 1 and GT. issue. The following comparison circuit K causes a regulator RG to adjust the negative resistance —R in such a way that the absolute values of the two voltage drops Ui (I) and U2 (I) match. This arrangement therefore uses the useful current to be transmitted to derive the controlled variable.

The specific application of this principle in connection with a telephone exchange is shown in FIG. 2. It is assumed that the voice line is asymmetrical. The speech stream runs through the transformer Üi (from / to the connection set V), through the electronic coupling element RONi of the switching network KF and through the transformer Ü2 (to / from the subscriber T).

To measure the voltage drop at the electronic coupling element RONi , the potential at point A is required (cf. FIG. 1). It is therefore necessary to double the switching elements of the switching network; the rectifier circuit G i accordingly receives the potential at point A via an electronic coupling element RON2. Since no current flows in the measuring circuit, the additional coupling element RON 2 does not cause an error.

The doubling of the coupling elements can also be used to z. B. different To transmit control pulses.

A difference compared to the basic circuit diagram of FIG. 1 results from the insertion of the transformers Ü 1 and Ö2, the losses of which cannot be automatically compensated. However, it is possible to achieve a blanket compensation for these losses by increasing the negative resistance. This is in FIG. 2 represented by the hatched part of the negative resistance - R, whereby the tap B (see. F i g. 1) for measuring the voltage drop across the negative resistance -R is drawn on this resistor Coupling element RONi and on the non-hatched part of the negative resistance - R coincide in their absolute value.

The arrangement of the other circuit components (rectifier circuits Gl and G 2, comparison circuit K and regulator RG) corresponds to the arrangement in the basic circuit diagram of FIG. 1.

It should also be noted that the idle stable side of the negative -vViderstands - R the iat the group switch / iFzugewandte page

The negative resistance - R can e.g. B. can be implemented by a negative feedback operational amplifier whose negative feedback resistances, or one of il.nen, are controllable.

F i g. 3 shows the circuit arrangement according to the invention in connection with a telephone exchange with symmetrical coupling field. Apart from two transformers Uli and £ / 12 applies to this Circuit according to the under F i g. 2 What has been said, so to a more detailed explanation of the circuit details can be dispensed with.

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: 1. Circuit arrangement for de-attenuation and equalization of electronic switches, in particular of electronic coupling elements of a telephone exchange, characterized in that a terminal of the electronic switch (RON) is connected to the no-load stable side of a controllable negative resistor (-R) that parallel to the electronic switch (RON) a first rectifier circuit (Gi) and parallel to the negative resistor (-R) a second rectifier circuit (G2) is connected so that the output of the two rectifier circuits (Gi, G 2) is connected to inputs of a comparison circuit (K) whose Output is connected to a controller (RG) , and that the output of the controller (RG) is connected to a control input of the negative resistor (-R) , whereby this is controllable in such a way that the absolute amount of the voltage drops (Ui, U2) on electronic switch (RON) and on the negative resistance ( - / y is identical. 2. Circuit arrangement for de-attenuation and equalization of electronic coupling elements, wherein the switching network of the exchange is connected to a connection set via tinen first transmitter and to the subscribers via second transmitter, according to claim 1, characterized in that the first transmitter assigned to the connection set (Ü 1 ) is connected between the negative resistance (-R) and the respective coupling element (e.g. RON ') that each coupling element (τ. Β. RONi) within the coupling network (KF) is assigned a two λ coupling element (RON2) , both coupling elements are controlled jointly, and that the second coupling elements (e.g. RON2) on the subscriber side (T) of the switching network (KF) with their associated coupling points (RONX) and on the side assigned to the connection set (V) with the first rectifier circuit (G 1) are connected so that to measure the voltage drop (Ulf parallel to the respective coupling element (RONi) a series connection of the second m coupling element (RON2) and rectifier circuit (G 1) lies. 3. Circuit arrangement for de-attenuation and equalization of electronic coupling elements, wherein the switching network of the exchange is connected to a connection set via a first transformer and to the subscribers via a second transformer, according to claims 1 and 2, characterized in that the second equal-frequency circuit (C '· 2) only part of the negative resistor (-R) is connected in parallel and that this part is chosen such that the excess negative resistance value of the negative resistor (-R ) at least approximately compensates for the losses of the transformer (Üi. Ü2). 4. A circuit arrangement for undamping electronic coupling elements according to claim 1, 2 and 3, characterized in that two circuits, each consisting of a negative resistor (- * R) and a coupling element (eg RON 11), are arranged symmetrically to one another and correspondingly are connected. 5. Circuit arrangement for undamping of Electronic coupling elements according to Claim 2 or 4, characterized in that, with the exception of the second coupling element (RON2, RON2i, RON22), all circuit components provided for undamping a coupling element (RONi, RONU, RON12) are on the side facing the connection sets (V) of the switching matrix (KF) are arranged centrally.