SU955167A1 - Device for data checking and transmission - Google Patents

Description

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The invention relates to the field of automation and computer technology, in particular to data transmission means used in software and hardware-software complexes of automated control systems.

A telemechanical device used for monitoring and controlling data transmission means is known, comprising a control panel, a synchronization unit, a digital printing machine, a printing control unit, a driver, a receiver and a transmitter. The device can work on, 5 two duplex communication channels SP

A disadvantage of this device is that it allows controlling the data transmission channels in the data transmission nodes, built 20 only by the hardware method of information processing.

The closest to the proposed technical entity is a device for monitoring and controlling an information transmission system that contains a block, whose signal output is connected to a display unit, a transmitting unit, the first two inputs of which are connected respectively to the output of the second information input block and the first output of the first block input information, control unit and information distribution unit 12.

A disadvantage of this device is the large time required for checking and detecting faulty parts of automated control systems, since it can operate only in either the Information input or the Information output mode, which reduces the reliability of the data transmission node. In addition, the device provides functional and technical control to the control of elements of automated control systems that implement only the hardware method of information processing. The purpose of the invention is to increase the reliability and speed of the device when working with information transfer systems, in which both software and hardware-software methods of information processing are used. The goal is achieved by the fact that in a device for controlling information transmission, containing a receiving unit, the first output of which is connected to the first input of the display unit, the transmitting unit, the first and second inputs of which are connected respectively to the output of the first and first output of the second information input unit, the control unit and an information distribution unit, a synchronization unit and a matching unit are entered, the first input of the first of which is connected to the output of the information distribution unit, the first output of the first matching unit Connected to the first input of the receiving unit, the second output of which is connected to the first input of the second matching unit, the first output of which is connected to the second input of the display unit, the third input of which is connected to the second output of the second information input unit, the third output of which is connected to the second The code of the second matching unit, the second output of which is connected to the third input of the transmitting unit, the output of which is connected to the first input of the control unit, the first outputs of which are connected to the second inputs of the first block and, the second output of which is connected to the second input of the control unit, the second output of which is connected to the fourth input of the indication unit, the output of the synchronization unit is connected to the third inputs of the first matching unit and the control unit, to the fourth input of the transmitting unit and to the second input of the receiving unit , the third output of which is connected to the cet by the twisted input of the control unit. The drawing shows a block diagram of the device and its connection with other devices. The device contains a receiving unit 1, a display unit 2, a transmitting unit 3, a first information input unit L, a second information input unit 5, a control unit 6, an Information distribution unit, a synchronization unit 8, a first matching unit 9, information processing equipment 10., A second matching unit 11; communication link service equipment 12. The first block of information input serves for non-operational, and the second. block 5 - for quick entry of information. The principle of operation of the device consists in receiving information from the data processing equipment 10 and from the communication service equipment 12 and converting it to the operator, as well as transmitting information entered by the operator or received during automatic control in the opposite direction. The following functions are used. Receiving unit 1 is designed to receive discrete information supplied to its input from data processing equipment -10, to convert it into a form convenient for output to unit 2 and for sending the relevant part of this information to the communication service equipment 12. The transmitting unit 3 is intended for transmission to the information data processing equipment 10, it is received -, -. from the first information input block k, the second information input block 5, and from the communication link service equipment 12. The first block of information input is intended for input into the transmitting unit 3 of information, which is rarely updated, with its subsequent transfer to the information processing equipment 10 (data transfer rate, type and presence of control reports, number of words in the message, signs of correction, and .). The first information input unit k plays the role of a long-term storage device, in which, if necessary, the information stored in it can be easily changed. The second information input unit 5 is designed to quickly change the .asDIO to the information transmitter and can be performed, for example, as a keyboard or telegraph apparatus. Such information may be, for example, applications of the operator for printing control reports or switching to the functional control mode, via a separate data transmission path, and so on. The display unit 2 is designed to output information to the operator from the communication service equipment 12 and from the data processing equipment 10 via the receiving unit 1 and the control unit 6, as well as information on the receiving and transmitting paths of communication with the processing equipment 10 , data and for confirms waiting for the passage in the data processing equipment 10 of the information read from the second information input unit 5. The display unit 2 is an indicator set and. signaling devices. The control block b is designed to control the passage of information through the receiving block 1, transmitting block 3 to check the state of the device using a special test, to check the state of the control circuits at the data processing equipment, to receive a request and generate response signals along the circuits management readiness to work with the data processing equipment 10. The information distribution unit 7 is designed to select a joint through which information will be received from the data processing equipment 10, since information is transmitted in parallel to all (both) joints, and the reception is selectively on one of them. In the simplest case, information distribution unit 7 can be performed, for example, in the form of a switch. The first and second blocks 9 and 11 of coaxing are designed respectively for electrically matching the levels of the signals of the data processing equipment 10 and the service equipment 12 of the communication channels with the signal levels of the proposed device. Blocks 9 and 11 are a set of amplifiers - co-consolation. The synchronization unit 8 is designed to generate clock pulses that control the operation of all nodes of the device, as well as to synchronize the exchange of information with the data processing equipment 10. The device works as follows. When the device power is turned ON, the control unit 6 analyzes the state of the entire device and, if it is healthy, issues a display to the display unit 2. A ready-to-work signal When the data processing equipment 10 comes through the first control unit 9 to the control input of the control unit 6 The transfer request in the control unit 6 generates response signals of readiness for operation, which are transmitted to the processing equipment 10 from the control output of the control unit 6 through the first matching unit 9. In the presence of all these signals from the data processing equipment 10, through the information distribution unit 7, information signals are received at the information input of the receiving unit 1. In order to synchronize the operation of the receiving unit 1, clock pulses from the synchronization unit 8 are received at its clock input. The information (service and useful), arriving at the information input of the receiving unit 1 in a sequential code, is written down word by word, decrypted, transformed, and from its signal output goes to the first input of the display unit 2 as output to the operator by turning on the corresponding indicators. From the control output of the receiving unit 1, it is decrypted and transformed, and the information through the second matching unit 11 is fed to the equipment 12 servicing the communication channels. From the information output of the receiving 5nof (.a 1 part of the information (service information) of each message recorded in the receiving unit 1, goes to the control unit 6, in which this information is compared with the reference and, if they match, from the signal output of the control unit 6 to the input The display unit 2 receives a signal for normal reception of information and resolution of output of useful information to the operator. Otherwise, a signal of no reception is output. The operation of the transmitting unit 3 consists in reading the information received on its first input from the first input block k, to the second input from the second information input block 5 and to the third input from the communication service equipment 12. Through the second matching block P, and writing it out. Reading and writing information occurs synchronously with the arrival of clock pulses to the clock input of the transmitting unit 3 from the synchronization unit 8. The information recorded by the emitter of the unit 3 informs 7 through the information output of the control unit b, the operation of which is synchronized with the operation of the transmitting unit 3 acts of pulses. In the control unit 6, the control bits of the received information are compared with the reference and if they match, the signal of the normal operation of the transmitting unit 3 is output from the signal output of the control unit 6 to the display unit 2. At the same time, the output of the information through the information output of the control unit 6 and equipment 10 through the first matching unit 9. If the check bits do not match with the reference information, the information output of the control unit 6 is not received, and no transmission signal is output to the display unit 2. In order to synchronize the exchange of information with the processing equipment 10, the synchronization block 8 is transmitted from the synchronization unit 8 through the first matching unit E to the data processing equipment 10, which accompanies the transmitted information. Information entered into the transmitting unit 3 from the first output of the second information input unit 5, i.e., to the data processing equipment 10, from the output of the second information input unit 5 is also fed to the fourth input of the display unit 2 for output to the operator. Some of the information entered from this information input unit 5 to the transmitting unit 3, which is intended to control the communication service equipment 12 from the output of the second information input unit 5, via the second matching unit 11, goes to the communication service equipment 12. After execution of the command embedded in the information transmitted to the service equipment 12 from the control output of the receiving unit 1 or from the output of the second information input unit 5, to the third input of the display 2 via the second unit .1 1 agreement from the service equipment 12 communication channels receive a confirmation signal on the execution of this command. The synchronization unit 8 is a clock pulse generator controlling the operation of the entire device 7 The control unit 6 consists of the control elements of the receiving unit 1 and the transmitting unit 3 based on the comparison circuits and the shift registers of the delay elements, keys and the test test sensor. The device is designed to implement the following functions of centralized monitoring and control: displaying the status of data transmission paths, communication channels, communications and data transmission, remote control of equipment operation modes and its redundancy, alarm in case of emergency. The device provides for the exchange of information between the data transfer operator, information processing equipment and communication service equipment. The device, in comparison with the known ones, permits monitoring and. control in data transfer nodes built as with software; so with the hardware and software implementation of the information processing algorithms, increasing the efficiency of the functioning of the nodes due to the high flexibility and reliability of the monitoring and control system. The ability to build such a system is provided by the characteristic features of the device, which are as follows: standard butt joints with a well-defined set of circuits are used to connect the proposed device to the processing equipment; To exchange information of the proposed device with data processing equipment, one of the standard information processing algorithms was used. These features simplify the device, centralize monitoring and control in data transmission nodes and make this device universal. The versatility of the device allows it to be connected at any of the nodes having standard joints to the data processing equipment through any of the free joints, which increases the reliability of the data transmission node and allows efficient use of the data processing equipment joints with the data transmission equipment. In addition, an increase in the reliability of the data node can be achieved due to the fact that the non-operational information that is entered from.

The non-operational information input unit may be stored in the long-term memory of the data processing equipment and upon leaving the device of the proposed device, the data transmission unit will function using the non-operational information contained in the memory of the data processing equipment, i.e. . if only a device for monitoring and control fails, the entire data transmission node will not fail.

When using the device, no additional I / O devices are required for tS stranded data processing equipment and data transmission equipment with communication service equipment, which simplifies the structure of the data transmission node.

Claims (2)

1..Ilin V.A. Telecontrol and telemetry. M., Energie, 197, p. 317-321. 2. USSR Author's Certificate No. It01986, cl. G 06 F 3/00, 1970 (prototype).