DE2419358C2 - Circuit arrangement for de-attenuation of electronic switches with linear current-voltage characteristics, in particular of coupling elements of a telephone exchange - Google Patents

Description

The invention relates to a circuit arrangement for undamping electronic switches with linear Current-voltage characteristics, in particular of coupling elements in a telephone exchange.

In conventional telephone exchange systems, the subscribers are, among other things, via metal contacts of the Coupling network connected to one another. The replacement of these metal contacts with electronic switches, such as it through the advancing development of the technology of these components and those associated with them Cost reduction has become possible, however, brings with it problems, essentially with the comparatively complicated transmission properties of an electronic switch are related. In particular, these switches have a higher resulting resistance than corresponding metal contacts, which is particularly unfavorable in multi-level switching networks.

Electronic switches with linear current-voltage characteristics are e.g. B. MOS transistors low modulation. The undamping of such electronic switches is therefore the task of b5 present invention. The invention solves this problem in that the to be undamped electronic Switch connected between a controllable, negative resistor and a first measuring resistor is that parallel to this series connection is a second measuring resistor, both measuring resistors the have the same resistance value that the circuit is closed via a direct current source, and that current measuring circuits are inserted into the two branches of the parallel connection, which measure the value of the feed each measured current to a comparison and control circuit, which in turn has a Control output regulates the value of the negative resistance in such a way that the through both branches of the Currents flowing in parallel have the same value, the first measuring resistor by a The capacitor connected in parallel is short-circuited in terms of alternating current and the useful current to be transmitted is coupled in or decoupled from the electronic switch on both sides.

The advantages of this circuit arrangement are that no control of the negative resistance Setpoint is required and when using several electronic switches, e.g. B. in the switching network one Exchange tolerances between the electronic switches do not affect the accuracy have the scheme.

The invention will now be explained with reference to figures, the principle according to the invention for automatic De-attenuation of a switching network of a telephone exchange is used. It shows

F i g. 1 circuit arrangement for undamping a coupling element in a switching center with a asymmetrical switching network,

F i. 2 circuit arrangement for undamping a coupling element in a switching center with a symmetrical switching network.

The circuit arrangement according to FIG. 1 shows an electronic switch RON as a representative of the switching network KF , which switch is used here as a coupling element. The voice stream to be transmitted via this coupling element is coupled via transmitters 01 and Ü2 from subscribers 7 "or from the connection set K. A controllable, negative resistor - R is used to dampen the coupling element RON . A first measuring resistor is connected to the secondary winding of the subscriber-side transmitter Ül RM 1 is connected to a direct current source G. The measuring resistor RMi is alternately bridged with a capacitor C. The speech current therefore finds a resistance

= RON + (- R)

The direct current source G with the voltage UM generates a measuring current IM, which is divided into the partial measuring currents IMt and IM 2 . The partial measuring current IMi flows through the measuring resistor RMi, the transformer Oi, the coupling element RON, a first current measuring circuit A 1, the transformer Ü2 and the negative resistance - R. Accordingly, the following applies

IMl =

AROUND

RMl + RON rR

(2)

The partial measuring current IM2 flows through a second measuring resistor RM 2, which has the same resistance value RM as the first measuring resistor RMt, and a second current measuring circuit A 2. The following applies:

IMl =

AROUND

AROUND

RMl RM

The attenuation of the coupling element RON now takes place:

R = RON + (-R) = O
Substituting in (2) one obtains:

IMl =

AROUND ₌ AROUND RMl RM

(la)

(4)

If one compares (4) with (3), one immediately recognizes that (la) is fulfilled (= the coupling element RON is undamped) when the negative resistance -R is adjusted in such a way that the two measured currents IMi and IM 2 den have the same value. Therefore, the results of the current measurements in the current measuring circuits A 1 and Λ 2 are applied to the inputs of a comparison and control circuit KR , which * adjusts the negative resistance - R accordingly

The principle of the invention consists in sending a measurement current, the partial measurement current IM 1, through the arrangement and, by comparison with a reference current, the partial measurement current IM 2, to obtain a criterion for setting the negative resistance - R. The use of a reference current has the additional advantage that fluctuations in the direct current source G affect the control process and the quality of the

Do not affect regulation.

F i g. 2 shows the corresponding circuit arrangement for use in exchanges with a symmetrical switching network.

The arrangement consists essentially of two symmetrical halves, each half corresponding to FIG. 1 is constructed, but only one direct current source G is provided here as well. A capacitor C is used to separate the partial measuring currents / Aiii and IM2 \ . This arrangement allows the two partial circuits to be controlled independently. It is of course also possible to achieve a common regulation by z. B. a common reference current is used or by suitable combination of the two components of the circuit that are present in each case.

The mode of operation of the circuit according to FIG. 2 otherwise corresponds to that described under FIG and the corresponding components of the circuits have the same function, so a closer look Description of the circuit according to FIG. 2 can be dispensed with.

It should also be noted that the secondary losses of the transformer shown in FIGS are automatically compensated and that the primary losses can be compensated for in that the negative resistance is chosen to be higher by a certain amount regardless of the regulation.

1 sheet of drawings

Claims (2)

Patent claims: 1. Circuit arrangement for undamping electronic switches with linear current-voltage characteristics, in particular coupling elements of a telephone exchange, characterized in that the electronic switch (RON) to be undamped is connected between a controllable, negative resistor (-R) and a first measuring resistor (RMl) is that a second measuring resistor (RM 2) is parallel to this series connection, both measuring resistors (RMi, RM2) have the same resistance value, that the circuit (S) is closed via a direct current source (G) , and that in the two branches the parallel circuit current measuring circuits (A 1, A 2) are inserted, the dtn value of the respective measured current to a comparison and control circuit (KR) , which in turn regulates the value of the negative resistance (-R) via a control output in such a way that the through both branches the currents flowing in parallel (/ Ml, IM 2) have the same value, with the The first measuring resistor (RM X) is short-circuited in terms of alternating current by a capacitor (C ) connected in parallel and the current to be transmitted is coupled in or decoupled from the electronic switch (RON) on both sides. 2. Circuit arrangement for de-attenuation of coupling elements of a telephone exchange, according to claim 1, characterized in that two structurally identical circuits (S) are provided, which are fed by a common direct current source (C), and that two negative resistors (-Rt, - R2 ) are available, which can be controlled independently of one another via comparison and control circuits (KR i, KR 2).