DE1912626C3 - Circuit arrangement for monitoring the coded statements of a corrector in telecommunications, in particular telephone systems - Google Patents

Description

The invention relates to a circuit arrangement for monitoring the coded statements of a corrector with a routing between the input and output wires, in which the output wires with the input wires marshalled control cores are assigned and via switching means of the corrector to the output and control cores the overall statement is checked.

Correctors are central control elements which, if necessary, are interconnected with a requesting register will. The information offered by the register via the input wires is transmitted via the corrector converted into other information, which is then fed to the register on the output wires.

In the case of multi-digit dialing information, a large number of input and output wires are required. especially when the individual digits of the input and output information in a testable Code to be represented. Such a code is associated with a relatively large control effort, so that during the transfer of information between the register and the corrector preferably on the binary code is used.

The introduction of the binary code has the disadvantage that the output from the corrector Statement is no longer verifiable. As in the German Patent specification 11 32 982 is shown, is already a simple monitoring circuit for such encoded Statements of a Urowerters known This monitoring arrangement is based on the consideration from the fact that a binary-coded statement is replaced by an adversarial, binary-coded statement becomes testable. For this reason, the known arrangement looks for each Output lead a control lead. These control wires are also routed with the input wires, in each case as a contradictory statement. In each Binary digit (output and assigned control wire) must have one marking and only one marking are present. The monitoring switching means connected to the output and control wires of the corrector derive a positive or negative statement from this. Since the number of control cores with the number of output cores increases and at least three switching devices per binary digit are required, the effort for monitoring the coded statements is still proportionate large.

It is the object of the invention, in the case of a circuit arrangement for monitoring the coded statements of a corrector, to significantly reduce the monitoring effort. In a circuit arrangement for monitoring the coded statements of a corrector with a routing between the input and output wires, in which the output wires with the input wires are assigned control wires and the overall statement is checked via switching means of the corrector on the output and control wires, in telecommunication , in particular telephone systems, this is achieved according to the invention in that the output wires marking a piece of information are combined into a group and each output wire of this group is assigned the value 1 for monitoring, that this group of output wires is assigned additional control wires to which the values are assigned 2 °, 2 ". 2 ² etc. are assigned that with this. Control cores a certain value is set for each statement and that when a statement is made by the corrector, the output and control cores are checked for this value.

The number of control wires is always smaller than the number of output wires. This reduces the number of monitoring switching devices and the part of the patch panel that connects these control wires with the input wires connects. The derivation of the positive and negative statements is also simplified, since only the The existence of a certain valence must be checked for all cores. This is expressed through it. that only one monitoring switch is required per wire.

For a binary code, the arrangement according to the invention is such that for a binary code with the number of digits η the control cores and the output cores for each statement are routed to the valency (n- 1,} and that the number of control cores by the number of digits a binary number is given, which is necessary for the representation of this valence. If only the digits 1 to 0 are to be represented, then a group includes η = 4 output wires and with two con-

»Roller blinds with the values 1 and 2 can make any statement of the corrector must be allocated to a total value of 3, since all four output cores are never at the same time be marked.

According to one embodiment of the new arrangement, the derivation of a good and bad statement is thereby made achieved that via working contacts of the monitoring switching means on the output and control wires of the corrector, if this value is present, a positive statement is forwarded to the register that the If the value is lower or higher, the positive statement is omitted or interrupted.

The invention is explained in more detail with reference to a circuit diagram shown in the drawing, wherein the display is limited to the transmission of one digit of the dialing information

The register Reg is coupled to the corrector UM via the output wires e 1. e2, e 4 and e 8 when the switching contacts / are closed in the requesting register via a switching means (not shown). The output wires el, e2, e4 and e8 lead in the register Reg on the recording Relais I, II, IV and VIII, which may include their own contacts 1, 2, 4 and 8 a holding circuit, even if the contact he the register assignment Relay closed is.

The information to be converted is applied to the input wires a 1 to an by the register Reg. These input wires are routed according to the desired assignment via diodes such as DW and Dn 8 with the output wires el, e2, e4 and e8. "The patch panel RF is extended by two control wires k 1 and k 2, which are also routed with the input wires can, as the diodes Dk 1 and Dk 2 show.

It is now assumed that a register Reg on the input side of the corrector UM marks only one input wire per group, i. h "The input is made in the (1 from / 7) code, where π = 10 must be if the digits 1 to 0 are to be converted. An input header, e.g. B. a 1, is then coupled to the output wires e 1, e 2, e 4, e 8 according to the desired output information. The input wire a 1 is only routed to the output wire e 1 via the diode DIl. Since all output wires e 1 to e8 have the value 1 in the statement for monitoring, this statement must be brought to the monitoring value 3 assigned to all overall ^{statements via the diode DJt 2 and the control wire Jt 2 with the value 2 1 = 2.} Since the input wire an is already coupled with three output wires, namely el, e2 and e8, there is no additional coupling to the control wires JtI and Jt 2.

In the UM corrector there is a monitoring switching center on all output wires and control wires! switched on, as the relays I, II, IV, VIII, KI and / CIl show on the wires e 1. e2, e4, e8, k 1 and Ar 2. The switching means K 1 and K H show that these monitoring switching means can switch their own holding circuit via the contacts Aril, A: 21 when the occupancy contact cu of the corrector occupancy relay is closed.

The working contacts of the monitoring switch control a switch center! GU, which indicates the presence of monitoring value 3. This relay is always energized when an output wire and the control wire Jt2 are marked, e.g. 14, D4, k 23, D6, if two output wires and the control wire k 1 are marked, e.g. 24, 43, Ar 13, D6, or if three output wires and no control wire are marked, e.g. B. 13, 23.82, DS. In any case, the relay GU responds and forwards this statement to the relay GR of the register Reg via the contact gu.

If the value of all wires is smaller, the relay GU does not respond, e.g. B. 13, 23 or 43, k 13, since a marking of the control cores or a marking of the output cores is missing.

If the value exceeds the value 3 specified for monitoring, then the relay AL also responds in addition to the relay GU , e.g. B. 41.81, k 22, AL and 44, 84, k 23, D6, GU. The contact al interrupts the circuit to the relay GR of the register. If the relay GR in register Reg does not respond, an alarm signal can be triggered or other switching processes can be initiated, which, however, need not be discussed in more detail within the scope of the present invention.

1 sheet of drawings

Claims (3)

Patent claims: 1. Circuit arrangement for monitoring the coded statements of a corrector with a routing between the input and output wheels, in which the output cores are assigned control cores with the input cores and the overall message is checked via switching means of the corrector on the output and control cores -, in particular telephone response, characterized in that the output wires (el, e2, e4, e8) marking a piece of information (e.g. a digit of a number) are combined into a group and each output wire of this group is used for monitoring the Value 1 is assigned that this group of output cores additional control cores (Ar 1, A 2) are assigned to which the values 2 °, 2 ¹ , 2 ^J etc. are assigned that with these control gears (A 1. A 2) for each statement (D 11, Dk 2) has a certain value (z. B. 3) is set and that with a statement by the corrector (UM) the output and control cores to this value ü are checked. 2. Circuit arrangement according to claim 1, characterized in that for a binary code with the number of digits η the control cores (A 1, A 2) and the output cores for each statement on the valence (n- \) are routed and that the number of control cores through the number of digits in a binary number is given that are required to represent this value (n- \). 3. Circuit arrangement according to Claims 1 and 2. characterized in that via normally open contacts (U to 14, 21 to 24, 41 to 44, Ml to 84, A 12 to A 14. A 22 to A 24) of the monitoring circuitry (I, 11, IV. VIII, Kl K II) on the output and control wires (el, e2, e4, e8, Al. A 2) of the corrector (UM) when present (e.g. B. 14, D 4, A 23 or 12. 23, 42, D 5) of this value a positive statement (GU, gu ) is forwarded to the register (Reg) that if there is a lower or higher value (e.g. 12 . 23 or 21, 41. A 22) the approval is omitted or interrupted (al, AL) .