DE1286140B - Check circuit for the determination and separation of faulty components in switching networks - Google Patents

Description

The invention relates to a test circuit for the components of Coupling matrices with crosspoint decoupling diodes and column and row switches for telecommunications, in particular telephone systems, in which all line or column lines mutually decoupled via diodes for a test current direction (Row, column) summarized by a test switch for each test current direction a test potential demanding the decoupling diodes in the reverse direction can be switched on are, so that in the event of a false earth or shunt of a column or row line or a test current indicating this in the event of a loss of blocking resistance of a decoupling diode flows.

For the usual tasks in switching technology, for example for the connection or line selection or for the control of time division multiplex switching systems, the use of crossbars and switching matrices of various types is known. Particularly in the telephone and telex switching technology are concerned with security and the error-free selection of lines, in particular for reasons of telecommunications secrecy, very high demands. Double or multiple connections are therefore not allowed come about as a result of errors. From this requirement results Necessity, the circuits and possibly wrong selection To continuously check components of switching matrices for their operational safety. This applies in particular to coupling fields with decoupling diodes and / or their own crosspoints with column or column switches designed as electronic switches (semiconductor elements) Line switches.

The German Auslegeschrift 1055 616 shows a known such Test circuit, in which the defective components, such as decoupling diodes, line or column slider, are not switched ineffective, but only determined and be located.

The invention aims at detection and also separation defective components of switching matrices for telecommunication systems, in particular telephone dialing systems by means of the initially specified, known from the German Auslegeschrift 1055 616 Test circuit.

The identification and separation of the defective components is thereby achieves that each cross-point own decoupling diode and / or each line or A fuse is connected upstream of each column switch, which in the event of an error occurring test current pulse responds and the faulty cross point and / or the row or column switch from the assigned row or column lines separates.

The test circuit is advantageously improved by the fact that each line or column line each have two or more row or column switches and each cross point two or more decoupling diodes are provided and that each component mentioned its own fuse is connected upstream. i This increases the reliability and The operational safety of switching networks is significantly improved because the short-circuit endangered Row and column switches and the decoupling diodes inherent to the crosspoint are double available and protected by their own i fuse.

The invention is explained in more detail with reference to the drawing. This shows a circuit for switching matrices known in principle, with the help of which selection or Call of telephony, teletype or remote control lines according to the coincidence principle take place.

Each line itself is selected by control signals generated, for example, in the secondary winding A of the transformer provided at each cross point. To select a specific secondary winding A, the associated column C and row L must be activated. If one of the column transistors T 1 or T 2 and one of the row transistors T'1 or T'2 is conductive, a current only flows through the primary winding b, whereby the desired line via the secondary winding A is selected.

A number of errors can occur in the operation of such a switching network, which ultimately lead to undesired lines being selected. When it comes to telephone or telex connections, this can result in double or even multiple connections, which are undesirable because of the need to maintain telecommunications secrecy, among other things. A wrong choice can arise, for example, if one of the column transistors T 1 or T 2 (which are connected in parallel for safety reasons) has an internal short circuit, so that the column line CL is constantly carrying potential. The same applies if, for example, one of the two row transistors T'1 or T'2 is internally short-circuited and the row line LL has a continuous current flowing through it. A short circuit of one of the decoupling diodes D 1 or D 2 also leads to an incorrect selection. The secondary winding A is selected here if any row or column lines with the exception of CL and LL are carrying current.

To prevent possible errors as a result of a short circuit it is necessary to deactivate any short-circuit-affected component.

For this purpose, according to the invention , a fuse is connected upstream of each transistor T1, T2, T'1 and T'2 and each decoupling diode D 1 and D 2 that are specific to the intersection, which in the simplest case is a fuse F1, F2, F'1 and F'2 or "1, F" can be 2.

However, connecting the fuses upstream does not have any effect in the event of a short circuit necessarily their response, since the size of the short-circuit current mostly through other components is limited.

Therefore, all row and column lines can be connected directly to the full test voltage via a test switch designed as a Thyratron Tx or Ty. To check the column transistors T, the thyratron Ty is switched on. Should one of the column transistors T.. have an internal short circuit, then the current rises so far in its circuit that the fuse F.. appeals to. In the same way, the row transistors T '. . checked by switching on the thyratron Tx. To check the decoupling diodes D. . both thyratrons Tx and Ty are switched on at the same time, so that in the event of an internal short circuit, one of the decoupling diodes D. . whose fuse F "... responds and switches off and displays the defective decoupling diode.

Claims (2)

Claims: 1. Test circuit for the components of switching matrices with crosspoint decoupling diodes and column or row switches for telecommunication, in particular telephone dialing systems, in which all row or column lines are mutually decoupled via diodes for a test current direction (row, column) combined by a Test switches for each test current direction can be connected to a test potential that loads the decoupling diodes in the reverse direction, so that in the event of a false earth or shunt of a column or row line or a loss of blocking resistance of a decoupling diode, a test current indicating this flows, characterized in that each decoupling diode (D 1, D 2) and / or each line or column switch (T'1, T'2, T 1, T2) a fuse (r '"r'2,F'1,F'2, F1, F2 ) is connected upstream, which responds by the test current pulse occurring in the event of a fault and the faulty cross point and / or row or column switch v on the row or column lines (LL, CL) . 2. Test circuit according to claim 1, characterized in that each row or column line (LL, CL) has two or more row or column switches (T'1, T'2, T l, T2) and each cross point (P ) two or more decoupling diodes (D 1, D 2) are provided and that each component of the type mentioned is preceded by its own fuse (F'1, F'2, F1, F2, F "1, F'2).