RU2024203C1 - Device for communication system intermediate stations telecontrol - Google Patents

Abstract

FIELD: electric communication. SUBSTANCE: there are two terminal stations 1.1 and 1.2, each of which has a group equipment unit and channel forming units 3.1 - 3. N, M intermediate stations 4.1 - 4.M of communication system. Each group unit has break demands creator, address selector, micro computer and indication unit. Each unit 3 of channel formation has generating equipment unit of forward direction transmission, parallel-in series converter, regenerator of forward direction transmission, regenerator of reverse direction transmission, regenerator of telecontrol, generating equipment unit of reverse direction transmission and in series-parallel converter. EFFECT: device is used for communication system intermediate stations telecontrol. 4 dwg

Description

 The invention relates to telecommunications and can be used in the telecontrol of a communication system with intermediate stations.

 The purpose of the invention is to increase the number of simultaneously controlled paths of the communication system.

 In FIG. 1 shows an enlarged structural electrical diagram of a device for telecontrol of intermediate stations of a communication system; in FIG. 2 - structural electrical diagram of the group equipment of the terminal station; in FIG. 3 is a block diagram of a channelization equipment of a terminal station; in FIG. 4 - time diagrams of the operation of the device for telecontrol of intermediate stations.

 A device for telecontrol of intermediate stations of a communication system contains the first and second terminal stations 1.1 and 1.2, each of which includes a group 2 group equipment and blocks 3.1-3.N channel-forming equipment according to the number of controlled paths of the communication system, and intermediate stations 4.1-4.N systems communication. Unit 2 of group equipment contains a driver 5 of interrupt requirements, an address selector 6, a microcomputer 7, and an indication unit 8. Block 3 channel-forming equipment contains a block 9 of generator equipment of the forward direction of transmission, a parallel-serial converter 10, a regenerator of 11 forward direction of transmission, a regenerator 13 of television monitoring, a block of 14 generator equipment of a reverse direction of transmission and a series-parallel converter 15.

 The device operates as follows.

 Block 9 of the generator equipment of the direct direction of transmission of each path, working independently of the others, forms the clock frequency of the transmission (see Fig. 4 a, c) and sync transmission (see Fig. 4 bg). Synchro parcels of transmission of the SPper of all paths arrive at the corresponding inputs of the shaper 5 of the interrupt requirements, where the signals of the sync parcels are arranged in time in accordance with the priorities of servicing the paths or with the same priorities sequentially in accordance with the numbers of the paths.

 Shaper 5 sets the interrupt request signals to the control bus, in response to which the microcomputer 7 generates interrupt supply signals. They through the specified bus arrive at the shaper 5, which allows the formation of addresses of interrupt vectors on the data address bus. The addresses of the interrupt vectors correspond to the path numbers and are different for transmission and reception. After a period of time necessary for working out the transmission driver of the television monitoring program, after the first address of the transmission interrupt vector corresponding to the next path is received on the microcomputer 7. the microcomputer 7 of the leading terminal station 1.1 places a request signal, the address of this path, data representing the first byte of the request signal clock, and a command for generating a write signal on the control data address bus.

 The address and the command go to the address selector 6, which at the output generates from them a write signal (ZAP) of this path, which goes to the corresponding parallel-serial converter 10. By this signal, the latter converts the first byte of the clock signal from the parallel code in which it is presented on the bus , in serial and transfers it to the forward direction regenerator 11, where the indicated signal produces amplitude modulation of the information signal. After the formation of the second, etc., addresses of the transmission interrupt vectors, the second, etc. bytes of the request signal (see Fig. 4, e) of the first intermediate station 4, then the request signals of the second, etc. intermediate stations 4 of this path.

 Request signals via the communication line are sent to the first intermediate station 4 of the path, where the addresses of the intermediate stations are decrypted. If the address corresponds to this intermediate station 4, then it inserts a response with the status information of this intermediate station 4 into the places of the response signal (see Fig. 4, e) and transmits a request signal to the next intermediate station 4. If the address does not correspond to the first intermediate station 4, it simply transmits a request signal with empty places for a response signal to the next intermediate station 4. Having passed through the communication line through all intermediate stations 4 of this path, request signals with filled places for signals from eta arrive at the regenerator 12 of the reverse direction of transmission of the second terminal station 1.2, operating in slave mode. From the output of the regenerator 12 of the reverse direction of transmission, the demodulated request signal is fed to the input of the TV monitoring regenerator 13, at the outputs of which the clock frequency and the restored request signal are generated (see Fig. 4, e).

 These signals are fed to a serial-to-parallel converter 15, controlled by read signals (CT), where the request signals are converted into a parallel code for transmission to the microcomputer 7. By dividing the clock frequency, the reverse transmission generator unit 14 generates the synchronization signals of the reception of DSS (see Fig. . 4, g), which are fed to the shaper 5 requirements of interruptions. Interacting in the same way as on the leading terminal station 1.1, the interrupt requirements generator 5, the address selector 6 and the microcomputer 7 executing the slave station program transmit the given request signal to the second terminal station 1.2 through the parallel-serial converter 10, the forward direction regenerator 11 and a communication line to the last intermediate station 4. At the same time (between service interruptions) microcomputer 7 runs a program for processing information received in the response signals of the intermediate stations 4 and provides the processed information to the display unit 8 for display. The intermediate stations 4 of the channel transmit the request signals with the inserted response signals through the communication line back to the first terminal station 1.1, which processes and displays the received information similarly to the second terminal station 1.2. Similarly, the device operates when the first terminal station 1.1 is slave, the second terminal station 1.2 is the master.

 In case of damage in the communication line in the direction from the slave to the leading terminal station at the intermediate station 4, closest to the place of damage from the leading terminal station 1.1, the loop for transmitting request signals is closed, the leading terminal station 1.1 displays information about the status of intermediate stations 4 located on its side from the place of damage, the slave terminal station 1.2 continues to display information about the status of all intermediate stations 4. In the event of damage in the communication line in the direction from the master terminal station to slave works similarly, but the slave becomes master and vice versa.

Claims (1)

 DEVICE FOR TELECOMMUNICATION OF INTERMEDIATE STATIONS OF THE COMMUNICATION SYSTEM, containing at each terminal station an indication unit and, according to the number of controlled paths of the communication system, direct transmission direction regenerators, the output of each of which is connected to the input of the corresponding communication line, television monitoring regenerators and reverse direction regenerators, input and output each of which is connected respectively to the output of the corresponding communication line and to the input of the corresponding television monitoring regenerator, characterized in that, in order to increasing the number of simultaneously monitored communication paths, interrupt driver, interrupt selector, address selector and microcomputer connected to a common trunk, and series-connected direct-drive generator equipment and a parallel-serial converter and serial-connected generator equipment are introduced at each terminal reverse transmission direction and series-parallel converter, while you The odes of the write and read signals of the address selector are connected respectively to the inputs of the write signals of the corresponding parallel-to-serial converters and to the inputs of the read signals of the corresponding serial-parallel converters, the data bus of which is connected to the data bus of the parallel-serial converters and to the data bus of the common computer main line, corresponding to the input and the output of which is connected respectively to the output and input of the display unit, the outputs of the synchro-transmission blocks transfer generator of the equipment of the direct direction of transmission and the outputs of the clock packages of receiving blocks of generator equipment of the opposite direction of transmission are connected to the corresponding inputs of the shaper of interrupt requirements, the output of each parallel-serial converter is connected to the input of the corresponding regenerator of the direct direction of transmission, and the first and second outputs of each regenerator of telecontrol are connected respectively to the first and the second inputs of the corresponding block of generator equipment reverse Lenia transmission, a second input coupled to a second input of the respective serial-to-parallel converter.

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