SU1269173A1 - Information transmission-reception device - Google Patents

Abstract

The invention relates to electrical communication and can be used in 1SCHFRA information transmission systems, to which the requirement of increased reliability is imposed. This requirement is achieved by using in the system two pairs of communication lines connected in series through a key block. In each pair, the communication lines duplicate each other and, in the event that one of the communication lines fails (or two communication lines in different pairs), the key block automatically connects healthy links. The device for transmitting and receiving information contains a parallel-code-to-serial converter 1, transmitters 2 performed on carrier frequency generators 3 and motors 4, communication lines 5 and 6, key block 7 made on keys (L 8-11, lines 12 and 13 communications, receivers 14, made on demodulators 15 and amplifiers 1b, lines 17 and 18

Description

communication and node 19 analysis. The node of ana-converters of sequential leasing contains triggers, blocks from a code into a parallel one, registers and orders J elements I, elements ШШ, keys, 1 з.п. f-ly, 2 ill.

1269173

Claims (2)

The invention relates to telecommunications and can be applied in digital information transmission systems. The purpose of the invention is to increase the reliability of the device. Figure 1 shows the structural diagram of the device; figure 2 is a functional diagram of the node analysis. A device for transmitting and receiving information contains (FIG. 1) a parallel-to-serial code converter 1, transmitters 2 made on carrier frequency generators 3 (light sources) and modulators 4, communication lines 5 and 6 (optical fibers), block 7 keys made on keys 8, 11 (optical switches), communication lines 12 and 13 (optical fibers), receivers 14, executed on demodulators 15 (photodiodes) and amplifiers 16, lines 17 and 18 of communication and node 19 analysis. Analysis node 19 contains (FIG. 2) trigger 20, comparison blocks 21 and 22, AND 23 element, OR 24 element, AND 25 element, triggers 26-28, serial to parallel converters 29 and 30, registers 31 and 32, Comparison unit 33, keys 34 and 35, element AND 36 and elements OR 37 and 38, the device operates as follows. Light sources 3 generate light signals arriving at the first inputs of the modulators 4 Modulators 4 are designed for mode. Optics signals in accordance with the original sequence of electrical signals received through the converter 1 napaj-code in sequence to the second inputs of the modulators. The modulated optical signals from the outputs of the modulators arrive at the inputs of optical fibers 5 and 6. From the first and second outputs of optical fibers 5 and 6, the modulated optical signals arrive at the information inputs of the optical switches 8-11, which are designed to automatically switch the modulated optical signals depending on the state of the device. In normal operation (with healthy fiber LEDs 5–13), optical switches 10 and 11 are open and optical switches 8 and 9 are closed. From the outputs of optical switches 10 and 11, the modulated optical signals are fed to the inputs of optical fibers 12 and 13. From the outputs of the fiber LEDs 12 and 13, the modulated optical signals arrive at. inputs of photodiodes 15, which are designed to select from a modulated optical signal a sequence of input information signals represented in electrical form. From the outputs of the photodiodes 15, a sequence of electrical signals is fed to the inputs of amplifiers 16. From the outputs of amplifiers 16, electrical signals are fed to the inputs of the analysis unit 19. Block 19 analyzes the electrical signals received at its information inputs. The electrical signals in blocks 21 and 22 are compared with the reference signal fed to the control input of unit 19. If the electrical signals are greater than (or equal to) the reference electrical signal, then both optical paths are in good condition. In this case, the electrical information signals are compared in block 33 between themselves and the information output of block 19 signals are received only when they coincide. If the electrical information signals differ from each other, then 3 they do not appear at the output of block 19. If one of the electrical signals at the information inputs of block 19 is less than the reference electrical signal, then one of the optical paths is faulty and the mode of operation of the block must be changed. management In the new mode, the electrical information signals transmitted by the healthy path without comparison are output to the device. If both electrical signals arriving at the information inputs of block 19 are less than the reference electrical signal, then both optical paths are faulty and the device's operating mode must be changed. If in normal operation (both (or one) optical paths are intact, the control electrical signal from the output of the trigger 20 of the block 19 opens the optical switches 10 and 11 (the optical switches 8 and 9 are closed at the same time), then if two optical paths fail, The tators 10 and 11 are closed, and the optical switches 8 and 9 are opened. At the same time, the electrical information signals of one healthy path (without comparison) appear at the output of the device, Analysis block 19 works as follows. In normal operation, the inputs go to the inputs of registers 31 and 32, which are intended for operative storage, From the outputs of registers 31 and 32, information electrical signals arrive at the information inputs of keys 34 and 35, as well as to the inputs of the comparator unit 33 The rectifier input of the unit 19 is fed to the inputs of the comparison units 21 and 12. The electrical signals in the serial code arrive at the other inputs of the comparison units 21 and 22. In normal operation, electrical signals are greater than (or equal to) the reference electrical signal. In this case, from the second outputs of the comparison units 21 and 22, the control signals are fed to the inputs of the element 25 and to the inputs of the flip-flops 27 and 28. The control signals from the output of the element 25 are fed to the input of the trigger 20 73.4 and to the input of the trigger 26. Triggers 20 and 26 are set to state 1, allowing the passage of optical signals through optical switches 10 and 11 and electrical signals through element 36. Triggers 27 and 28 are set to state O, prohibiting the passage of information electric signals through key 34. an insulating signals at the output of the comparison unit 33 on is a control signal from the AND gate 36 and OR gate 37 to the control input of the key 33 to permit the passage informahschonnyh electric signals output from the register 32 via switch 35 and an OR gate 38 to the output device. If the informational electrical signals do not match at. The output of the comparator unit 33 does not appear and the informational electrical signals through the switch 35 do not pass through the output of the device. If one of the optical paths fails, the electrical signal supplied to the corresponding informational input of unit 19 is less than the reference electrical signal. At the same time, from the output of the matching unit 21 or 22 of the comparison, the control signal is fed to the input of the element OR 24, from which code it enters the input of the trigger 26, which is set to the state O, prohibiting the passage of electrical signals through the element 36, When two optical signals paths electrical signals at the inputs of the block 19, less than the reference-. electric signal. In this case, from the first outputs of the block 21 and 22, the control signals are fed to the inputs of the element 23, from the output of which controls the signal goes to the input of the trigger 20, which is set to the state O, prohibiting the passage of optical signals through the optical switches 10 and 11 and allowing optical signals to pass through optical switches 8 and 9. Trigger 26 remains in the state O and prohibits the passage of electrical signals through an AND 36 element. Use optical switching to form the optical path then, by the corresponding control signal, one of the triggers 27 and 28 is set to state 1, allowing information electric signals to pass through the key 34 and 35 (without comparison) to the device output. Thus, the device remains operational when the first 5 and fourth 13 fails or the second 6 and third 12 optical fibers, which prolongs the service life of the device and increases its reliability. 1. A device for transmitting and receiving information, comprising on the transmitting side of the nepBbMj a second transmitter, whose inputs are combined and being an input of the device, the outputs of the first and second transmitters are connected respectively to the first and second communication lines, on the receiving side of the first, The second receivers, the outputs of which are connected respectively to the first, second information inputs of the analysis node, the information output of the analysis node is the device code, characterized in that, in order to increase the reliability of the device The key block, the third fourth, fifth and sixth lines of the first, second, third and fourth information inputs of the key block are connected to the first and second lines of communication, the first and second keys of the key block are connected via the third the communication link with the input of the first receiver, the third, fourth outputs of the key block are connected via the fourth communication link with the input of the second receiver, the control input of the analysis node is the control input of the device, the first, second control outputs of the analysis node are connected to Respectively through the fifth, sixth communication lines. With the first, second control inputs of the key block, 2. The device according to claim 1, so that the analysis node contains comparison blocks, triggers, AND elements, OR elements, serial to parallel converters, registers and keys, first output The first comparison unit is connected to the first inputs of the first element AND, the first element OR and the 736 input house of the first trigger, the second output of the first comparison block is connected to the first input of the second And element and the installation input of the first trigger, the first output of the second comparison block is connected with a setup input at 1 second the trigger and the second inputs of the first element OR and the first element AND, the output of the first element AND are connected to the installation input O of the third trigger, the output of the first element OR is connected to the installation input O of the fourth trigger, the second output of the second comparator is connected to the installation input About the second trigger and the second input of the second element And the output of the second element And connected to the input set to 1 of the third and fourth triggers, the output of the fourth trigger is connected to the first input of the third element And the outputs of the third element And and The first trigger is connected respectively to the first and second inputs of the second OR element, the output of which is connected to the control input of the first key, the output of the first serial to parallel converter is connected via the first register to the information input of the first key and the first input of the third comparison unit, the output of the third comparison unit connected to the second input of the third element, And the output of the second converter of the serial code into parallel is connected through the second register with the second input of the third block with and the information input of the second key, the output of the second trigger is connected to the control input of the second key, the outputs of the first and second keys are connected respectively to the first and second inputs of the third OR element, the output of which is the information output of the analysis node, the combined first input of the first comparison unit and the input of the second serial to parallel converter, the combined first input of the second comparison unit and the input of the first serial to parallel converter and the combined e second inputs of the first and second blocks are respectively comparing the first and second information inputs of the control unit ana7 Lisa, - the forward and inverse outputs of the third flip-flop are sootvet12691738 governmental first n second analysis by the control unit outputs.