SU894778A1 - Information transmission monitoring device - Google Patents

Description

(54) DEVICE FOR CONTAINING INFORMATION TRANSFER

one

The invention relates to computing and can be used to build information transmission lines between a digital computer and external devices.

A device for monitoring errors in the transmission of discrete signals is known, which contains terminal: blocks interconnected via successively connected relay posts, which incorporate repeater amplifiers. .

When a malfunction is detected by the terminal unit, a signal is emitted via the test channel, which uses a special switch to disconnect the output of the retransmission amplifier from the input of the next retransmission post and connect it to the reverse repeater amplifier. In this way, the terminal who have detected a malfunction performs a sequential check of all retransmission posts via information link 1.

The drawback of the device is the large time required for troubleshooting, due to the fact that the control is carried out by successively sending special tests to each of the retransmission posts, having previously switched amplifiers in them.

The closest in technical essence to the present invention is a device for controlling information transmission, comprising an information transmission unit, the output of which is connected via serially connected retransmission units to the inputs of a receiving information unit, each retransmission unit

(0 consists of the amplifiers of the AND, OR, and delay elements connected in series.

Claims (2)

In the event of a failure on one of the communication sections of the communication unit, the digital block that receives the I1 of the terminal determines the number of the faulty wire in the harness and the type of non-viscosity using a test combination. Test combinations are generated by a digital unit, transmitting information. After determining the number of the faulty wire in the bundle: the type of fault determines the location of the malfunction, for which another is sent to the line by a test box (nationally. By analyzing the number of pulses entering the receiving digital unit via the control panel when various tests are applied, it is possible to determine the faulty communication link section 21.; Thus, o6pa3OMj detection of the fact of a failure in the information transmission line and localization of the failure site is possible only during a test check of the communication link, which is a disadvantage of the known device, since requires a considerable amount of time needed to find the location of the fault.In addition, in the known device there is no possibility of promptly detecting the fact of a failure in the time of information transfer.When sending information there is no prize of credibility of the latter, which makes it necessary to take special measures to assess the reliability of the received information, such as double (triple) transmission of individual words of an information array, assessment of the reliability of transmission of an array by its checksum, and so on. Such techniques are smart The action of the information transmission channel is fast, which is unacceptable in some systems. The purpose of the invention is to reduce the time required for troubleshooting. The goal is achieved by the fact that in a device for monitoring an information transmission channel, containing an information transmission unit, the output of which is connected via serially connected retransmission units to the inputs of an information receiving unit, each retransmission unit consists of amplifiers and an OR element, into each unit Repeaters are entered: an adder, a code comparison unit, three control germs 4, and an encoder; the output of the first amplifier is connected via an adder to the input of the second amplifier whose output is connected to the first input of the block; whose second input is connected to the output of the third amplifier, the output of the comparison unit is connected to the first inputs of the OR element and the control trigger, the output of which is connected to the first input of the encoder, the first output of which is connected to the second input of the control trigger, the output of the first amplifier and the second output of the encoder of each the previous retransmission unit, are connected to the input of the first amplifier of the subsequent retransmission unit, the output of the OR element of each previous retransmission unit is connected to the second input of the OR element of the subsequent the retransmission unit, the output of the second amplifier of each previous retransmission unit is connected to the input of the third amplifier of the subsequent retransmission unit, the output of the information receiving unit is connected to the second inputs of the encoders of all the retransmission units. This makes it possible to reduce the time required for troubleshooting in the information channel due to the fact that with each catch of information the receiving unit will receive a signal of its reliability. In the event of a signal block receiving a malfunction, this signal interrogates the circuits of the scanning of all retransmission blocks and the code of the omer of the faulty relay block is led to the receiving block. The drawing shows a block diagram of an apparatus for monitoring an information transmission channel. The device comprises an information transmission unit 1, an information reception unit 2, retransmission units 3, each of which contains a first amplifier 4, a third amplifier 5, an adder 6, a second amplifier 7, a code comparison unit 8, an OR 9 element, a control trigger 10, an encoder 11. Adder 6 performs modulo two summation. The device works as follows. The information code from the output of the information transmission unit 1 is transmitted to the input of the information reception unit 2 via the first amplifiers 4, included in the retransmission units 3. Through the whole line, transmit the information code accompanies the check bit. In each retransmission block 3, the information code from the output of the first amplifier 4 goes to a group of inputs of the adder 6, from the output of which via the second amplifier 7 is output to the next retransfer block 3, as check digit with the transmitted information code. From the output of the second amplifier 7, the check sum simultaneously arrives at the input of the block 8 of code comparison, to the other input of which, through the amplifier 5, the check bit from the previous retransmission block 3 arrives. In block 8 of code comparison, the modulo two of the received code is compared with its test bit. In the case of non-comparison, the output of block 8 of code comparison generates an error signal, which, via the OR element 9, is transmitted to the next block 3 of retransmission and simultaneously detected by control trigger 10. Thus, a fault occurring in any retransmission block 3 is recorded in this block, and the control bit corresponding to the transmitted code, i.e., is transmitted to the next retransmission block. in the event of a malfunction, a check bit is generated for the wrong code. Irrespective of the place of its occurrence, the malfunction signal is transmitted through the element OR 9 to the information receiving unit 2. The OR element 9 of the retransmission block 3, starting from the second, has the necessary amplifiers (12) at its output. After receiving the information code with the Fail signal, a receiving signal is generated by the receiving unit’s control signal, which is transmitted to all the retransmission blocks in which the encoder is deflected. The output potential of the control trigger 10 on the generator is the sequence number of the retransmission unit 3 transmitted to the information receiving unit 2. Thus, following the information code received with an error, the number of the retransmission unit in which this error occurred appears in the information receiving unit 2. This uniquely identifies the location of the fault and allows it to be rectified. After the number code is read from the encoder 11, the control trigger 10 is reset. Thus, it is possible to repeat the transmission of information and determine whether the failure or malfunction was recorded during the transmission of information. It should be noted that if a fault occurs on the transmission line, such as a short circuit, a situation may arise when the number of the faulty retransmission unit is transmitted over the faulty line and transmission. Such a transfer is not difficult to accomplish by transmitting the code of the retransmission unit number (usually no more than two or three bits) over three groups of different transmission line buses. The total number of buses in a transmission line usually corresponds to the size of the information code. The equipment of the information receiving unit 2 performs the reception and evaluation of such a code using a majority pin two out of three. The proposed device is characterized by a short time spent on troubleshooting a transmission line, which is due to the fact that simultaneously with the receipt of each word of the transmitted information array, the receiving unit receives a signal about the reliability of this information and, when there is an error in it, almost simultaneously a retransmission unit in which a distortion of the transmitted information occurred. An apparatus for controlling information transmission, comprising an information transmission unit, the output of which through serially connected retransmission units is connected to the inputs of an information receiving unit, each retransmission unit consists of amplifiers and an OR element, characterized in that, in order to increase the speed of the device, an adder, a code comparison unit, a control trigger and an encoder are entered into each retransmission unit; the output of the first amplifier is connected to the input of the second amplifier through the adder; The first connection to the first input of the comparison unit, the second input of which is connected to the output of the third unit, the output of the comparison unit to the first inputs of the OR element and the control trigger, the output of which is connected to the first input of the encoder, the first input of which is connected to the second input of the control trigger, output the first amplifier and the second output of the encoder of each previous retractor unit; FDI are connected to the input of the first amplifier of the next retransmission unit, the output of the element OR of each previous retransmission unit with one with a second input of the OR gate unit subsequent retransmission, the output of the second amplifier of each repeater shsh previous one block connected to an input of the amplifier unit posleduyushego retraisl tion, the output information reception unit is connected to the second inputs of all the blocks encoders retransmission. Sources of information taken into account in the examination 1.Patent of France No. 2122213, cl. G 08 C 25/00, 1972. 2. USSR author's certificate N 6242S6, cl. G 08 C 25/00, 1976 (prototype). TT TT