DE1246808B - Arrangement for monitoring binary decryption matrices, in particular logical AND links and an entire time division multiplex transmission system - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

H03k

German class: 21 al - 36/18

Number: 1246 808

File number: V 28729 VIII a / 21 al

Filing date: June 24, 1965

Opened on: August 10, 1967

The invention relates to an arrangement for monitoring the operation of a time division multiplex transmission system including a binary decryption matrix on the receiving side, command transmitter on the transmission side and transmission path, especially logical AND operations.

For the decryption of the switching states occurring in a dual counter for the purpose of implementation these switching states to another number system, e.g. B. decimal or octal system etc., are Diode networks are used, with the help of which a logical AND connection is made at the individual outputs of the binary levels occurring potentials is executed. The output potentials of the AND links are then processed further depending on the intended use of the arrangement.

A fact that is often troublesome in such decryption circuits, generally from the Diode networks adapted to the specific purpose exist, the fact that the network makes false statements supplies when one of the diodes, which is part of the logic circuit, fails or when one Input of an AND gate is interrupted. In this case, the wrong ones appear alongside the correct ones L signals at the output of the circuit. Such a failure is not critical if the resulting false statement is easily recognized as such or when it comes to attachments whose use defects of this type can be accepted.

However, applications in which industrial processes are controlled appear more alarming and where the defect of a part of the system working according to the principles mentioned becomes too serious Malfunctions in the controlled system or even personal injury. In such cases there is usually the requirement that, in the event of a defect in the control system, the controlled system may occur, but not to faulty switching.

An example of this is remote control or data transmission using time division multiplex systems, the essential components of which are appropriately decoded dual counters.

A known principle of a monitoring circuit is shown in FIG. It should be assumed, that with any number of outputs at a certain time only one has an L-signal, all the others carry an O-signal. The blocking element, which consists of diode 1 and resistor 2 and is connected to each of the outputs, brings the L signal of any output to a collective arrangement for monitoring binary
Decryption matrices, in particular
logical AND operations as well as one
entire time division multiplex transmission system

Applicant:

VEB Funkwerk Dresden,
Dresden N15, Meschwitzstr. 26th

Named as inventor:
Dipl.-Ing. Werner Kötitz,
Heinz Döhler,
Gottfried Bahr, Dresden

rail 3, the potential of which is determined by the size of the resistors 2, 4. If one of the defects described occurs, none or more than one output carry L signals. This shifts the potential of the busbar 3. The task of the monitoring circuit 5 is to signal such potential deviations.

According to this principle, arrangements are also known in which the potential of the busbar is monitored according to the code used or, in general terms, it is checked

whether for a code Γ ¹ ) of the m possible conditions η different conditions are met at the same time.

These arrangements have the disadvantage that only

with a certain code ( ^m \ a monitoring

can be made. However, if the coding is changing, the number of conditions η is not programmed, no monitoring can be carried out with the known arrangements because the busbar potential does not change in the program.

The purpose of the invention is to eliminate the disadvantages of the prior art.

The invention is based on the object of a circuit arrangement for monitoring the mode of operation a binary decryption matrix that works in particular with logical AND operations and those for converting time-nested binary information signals on a common input

709 620/462

Claims (3)

3 4 used in binary signals on separate outputs 4. Time-nested information carries an L signal, and its outputs are routed to a common busbar via suitable decoupling no decryption output leads L signal elements (fault case B, ζ. Β. Existence are switched incorrectly, the potential of which is monitored by a suitable or by disturbances in the transmission path upstream device for deviation from the rest potential 5 in information that is normally mislead and which in the event of a deviation causes an error, unused time channels or failure of the signal or a shutdown of the system, synchronization of the Systems) - statement: L; Proposal. The further embodiment of the invention 5. time-nested information carries an O signal, which is intended to make it possible for special cases, in the case of one or more A of the decryption, that only certain channels for an information ίο lead to L_si j (incident cz B with execution J transmission, monitoring of logic elements is provided) - Statement: L. the diode networks of the encoder and monitoring of the entire transmission path. According to the invention, the object is achieved by providing an L signal (negative voltage jump) at its output, so that the busbar, except for all outputs, when the rest potential of the busbar 7 in the decryption matrix still exceeds or falls below the time-nested voltage values , th information signals of all transmission channels in the idle state of the circuit is transistor 9 of such size and polarity that it blocks, while the transistors 10, 11 conduct current through compensation in trouble-free operation is almost 0 volts. This condition prevails. This potential is retained with a device in operating case A, in which no L-Situng is monitored. If a potential deviation occurs, a signal passes through the blocking elements 12 and there is also no error signaling or the system being switched off. To also the command transmitter on the transmitter 25 is coupled. The circuit side and the transmission path to monitor behaves analogously, in case of operation B, in which, although an output of the invention still provides that on the collective decryption via one of the blocking elements 12 a rail only channel outputs of the decryption L signal the busbar 7 connects, but the matrix is connected, for which an assignment with Si at the same time an opposing polarity information pulse is provided via signals on the encoder side. If the balance resistor 6 arrives at the busbar 7 due to disturbances in a not precoupled for signals. This results in a compensation for the time-switched information channel, which does not signal the quiescent potential of the busbar 7, a pulse on the busbar is shifted. In the event of a fault A, more than one of these is not coupled to the busbar, since the associated output of the decision-L signal is not connected to the busbar via several blocking elements 12 on the collection matrix. In this case it is compensated by; There is a potential deviation, the opposite polarity information pulse is not compensated and the monitoring device causes a malfunction, the negative potential predominates, the message is displayed or the system is switched off. In this case, the transistor 10 of the emitter-coupled amplifier (transistor 9, 10) The invention is blocked in the following embodiment, an example based on FIG. 2 explained in more detail: 40 and through the diode 12 the ent-The circuit in Fig. 2 is with counting circuit F1, standing negative voltage jump to the off-F2, F 3, decryption matrix 8, the blocking elements gang. In the event of a fault B, only the positive In-12 and the busbar 7 as well as the over-formation pulse reach the busbar 7, while the monitoring circuit with transistors 9, 10 and 11 in no L signal via the blocking elements 12 follows a compensation principle like the circuit F i g. 1 built. In 45 sation brings about, it predominates the positive potentiating matrix 8 additional AND connections are made tial. As a result, the transistor 11 is blocked. The negative voltage of the output pulses of channels 1, 2, 3 to η occurring at its collector via the associated diode inputs Dl, Z) 2, D 3 is conducted via the diode 14 to the output up to Dn in time-nested information. In the event of a fault C, the circuit behaves according to signals. This information, consisting of L-0 signals, as in the case of a fault A, since the potential of the collective mation signals is, according to the invention, shifted strongly towards negative values across the rail, balance resistance 6 is also applied to the collective. Rail 7 switched. Thus, the downstream claims monitoring device supplies a 0 signal at its output in the event of operation and a 55 1. Circuit arrangement for monitoring the L signal in the event of a malfunction. Mode of operation of a time division multiplex transmission - The following cases are listed: systems including a binary decision - 1. Time-nested information carries a 0 signal, lungs matrix on the receiving side, command no output of the decryption leads L signal generator on the sending side and transmission path, (operating case A) - statement: 0; ^6o in particular a logical and-contraction, . . the impulses from a payment circuit and timed 2. Time-nested information carries an L signal, nested information signals are fed to the decryption output carries an L signal _{and its} outputs are connected to a busbar via suitable decoupling (BetnebsfallB) statement elements 3. Time-nested information carries a low signal, 65 are, where the busbar potential carries through more than one output carries an L-signal (disturbance a suitable device for deviation from case A, e.g. B. is monitored in the event of failure ofLinking element rest potential, which is monitored in the event of a deviation menten) - statement: L; an error signal or a shutdown of the