DE2064117C3 - Multi-level switching network with electronic crosspoint contacts - Google Patents

Description

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The subject of the main patent is a multi-stage switching network, the connection paths of which between switching network connections each lead via an intermediate feed line located between two coupling point contacts, the latter being connected to a battery via a choke, so that the choke current fed in a connection path is shown in power parts on the intermediate feed line , each of which flows to one of the interconnected switching network connections. The cross-point contacts of the switching network require an operating direct current that exceeds the holding current in order to remain in the conductive state. In the coupling network, the current components of the inductor current each represent the operating direct current, while they flow in an established connection path. A limiter circuit is connected to the intermediate feed line, which limits the value of the potential of this intermediate line to a range which lies between two limits which differ by a finitely large value. The limiter circuit D can also, for. B. be formed by two antiparaliel and series-connected Zener diodes, this series connection being parallel to the choke, as shown in the figure belonging to the main patent.

An essential task of the subject matter of the main patent and its further developments is the elimination of disturbances both when setting up a connection path via a multi-level switching network with electronic crosspoint contacts as well as in maintaining the same.

The object of the present invention is also the reduction of disturbances, which in particular the Maintaining, but also affecting the establishment of the connection path via such a switching network can. It has been shown that in particular long-lasting interference voltages, which of a Koppeifeldanschluss go out, sometimes for an interruption the established connection path or to prevent the establishment of a connection path if these glitches try to generate a current in the established connection path, which is opposite to the holding current

To avoid the disturbances described, the invention provides that in the after Main patent trained Koppelfeid the operating direct current in an established connection path between each of the interconnected switching network connections and the coupling point adjacent to the relevant coupling field connection in each case two direct current components, each of which has a high alternating current resistance Connection resistance are conducted that in each case at the switching network connection in the longitudinal direction to the relevant Connection path between the switching matrix connection and the neighboring crosspoint one for the first direct current component permeable diode is inserted that on one side of this diode, namely between this diode and the relevant neighboring coupling point, in the transverse direction to the connection path the second connection resistance, which at least slightly exceeds the holding current Receives direct current component, is attached, and that on the other side of this diode of the first connection resistor, which absorbs the second direct current component, is connected.

The invention and further developments thereof are explained in more detail using the exemplary embodiment shown in the figure.

The figure shows a connection path between the two switching network connections AiI, K2 , to be precise before the connection path is set up. After controlling the crosspoint contacts of this connection path in the conductive state, the connection path can be set up, and it flows in the established connection path, as indicated in the main patent, generally via the battery U and the choke L or, in Sonuor cases via the limiter circuit D, a choke current or Limiter current in the intermediate feed line Z In the intermediate feed line Z, this current is split into two current parts, the first current part flowing to the switching matrix connection Ki and the second current part flowing to the switching matrix connection Kl.

In particular, to avoid the disruption that the connection path, once established, is undesirably interrupted again by long-lasting overvoltages occurring at the switching matrix connections AiI, Zi2, the diodes Di, DA are inserted into the connection path in the longitudinal direction according to the invention, namely between the switching matrix connection AiI and K2 and the respectively neighboring coupling point Hi or HA. According to the invention, between this diode Di or Di and the relevant adjacent coupling point Hi or HA , in each case in the transverse direction to the established connection path, the second connection

Terminal resistor 52 attached Each of these terminal resistors can therefore be regarded as a component of the switching network connections Ki, Kl , since these terminal resistances are attached to the switching network terminals. In addition, in this embodiment, the first connection resistor 5Ί is attached between this diode and the relevant switching matrix connection in each case in the transverse direction to the connection path established.

Because of the connection resistors 52, the operating sirom, which flows in the established connection path via the coupling points HX, H3 or HZ, H4 , is shown in two direct current components at that circuit point at which the connection resistors 52 are connected to the connection path. One direct current component flows via the connection resistor 52, this direct current component according to the invention at least slightly exceeding the holding current of the coupling point contacts. The other Gleichsiroman part flows above the diode Dß or D4 - in this embodiment without further branching - each through the first connection resistors 51 by the coupling network connections Ki and Kl are blocked with the help of capacitors C in the present embodiment. Here it is provided that the operating direct current branches into only two direct current components in a connection path established between each of the interconnected switching network connections Ki, K2 and the coupling point H3 or f / 4 adjacent to the respective switching network connection. Each of these two direct current components is smaller than the total operating direct current, and each of these two direct current components is passed through a terminal resistor 52 and 51, respectively. According to the invention, these connection resistances have a high alternating current resistance, so that the useful alternating currents flowing between the switching matrix connections Ki, K2 are practically not attenuated by the connection resistances.

The interference voltages that can occur at the coupling network connections Ki, Kl can not cause the holding current in the established connection path to be undershot: even if the diodes Dl. EA provided according to the invention are controlled by these interference voltages into the blocking state, the second connection resistor 52 continues to flow such a large current component that the connection path, once established, is no longer interrupted by the long-lasting interference voltages mentioned. The direct current component flowing through this connection resistor is, according to the invention, greater than the holding current. As long as no such interference voltages in the switching network connections Ki Kl occur, the current flowing in built connecting Reverse current flows each partially through the terminal resistor 52 and partly through the terminal resistor 51. The latter connection resistance 51 serves the diode CSS or D \ safe in the to control the conductive state as long as no interference voltages occur at the relevant switching network connection.

If such interference voltages occur at the coupling field connections Ki or K2 during the establishment of a connection path, the operating direct current can also flow with a strength exceeding the holding current at least via the connection resistor 52 if the diodes D3, EA are switched to the blocking state by the interference voltages should. The measure according to the invention also does not prevent the intended construction of a connection path and also offers a guarantee that this construction will even then be carried out without interference if short or even long-lasting interference voltages, which would be suitable to impair the construction, in the to be connected Koppelfeldanschfüssen Ki, Kl should occur.

In a further development of the invention it is provided that the one having a high alternating current resistance Terminal resistor 52 or 51 is each formed by an overdriven transistor. Oversteered Transistors as connection resistors have the excellent property that they are not just one have a very high AC resistance, but also have a particularly low DC resistance. Because of the small DC resistance created by overdriven transistors Connection resistances are advantageously not only the energy losses of the useful alternating currents, but also the energy losses caused by the operating direct current are particularly low.

If, in the above-mentioned development, the direct current component flowing through the overdriven transistor in question should still be too large and a limitation of this direct current component by reducing the voltage of the battery U or by a different dimensioning of the limiter circuit D is not desired in the present case, it can be used to limit the Direct current component are also provided that in series with the transistor 51 or 52, a member limiting the relevant direct current component, z. B. an ohmic resistor R is located. In this way, the power consumption of an established connection path can be kept particularly low, even if this direct current component is limited by appropriate control of the transistor 51 or 52, e.g. B. is not desirable because of the heating of this transistor.

The connection resistors are also suitable for interrupting the established connection path Serving transistors by at least partially controlling them to the non-conductive state for this purpose.

1 sheet of drawings

Claims (3)

Patent claims: 1. Multi-stage switching network with electronic switching point contacts according to patent 17 62661, in particular for public telephone switching $ systems, characterized in that the operating direct current is in a connection path established between each of the interconnected switching network connections (ZiI ₁ K2) and the one adjacent to the respective switching network connection Coupling point (Hi, HA) branches into two direct current parts, each of which is routed via a connection resistor with a high AC resistance, that in each case at the coupling network connection in the longitudinal direction »ura relevant connection path between the switching network connection (AiI, K2) and the neighboring coupling point (Hi, HA ) a for the first direct current component permeable diode (Di, DA) is inserted that on one side of this diode, namely between this diode (£ 8, DA) and the relevant adjacent coupling point (Hi, HA), in the transverse direction to the connecting path of the second connection resistor (5 2), which absorbs a direct current component that at least slightly exceeds the holding current, and that the first connection resistor (51), which absorbs the second direct current component, is connected to the other side of this diode (Di, DA). 2. Multi-stage switching network according to claim 1, characterized in that the connection resistance is formed by an overdriven transistor. 3. Multi-stage switching network according to claim 2, characterized in that the transistor is in series with a member (R) limiting the direct current component.