RU2032213C1 - Computer-to-multidrop-line interface - Google Patents

Abstract

FIELD: telemechanics. SUBSTANCE: common communication line used for message exchange is connected to controller that has marker detection and access units, receiver, transmitter, coding and decoding units, receiving and transmitting store units, clock generator, synchronizing and reference-freuqency units, communication adapter and command and status register, system interface and user computer units. Decoders of sync signal character combinations, start and end of message, acknowledgement signal, decoders of zero states of reversing counters controlling operation of first and second reversing counters whose outputs are connected via AND gate and INHIBIT circuit to inputs of command register, first and second flip-flops are all connected to data channels of controller. EFFECT: reduced time of multiaddress message transmission. 3 dwg

Description

 The invention relates to telecommunications and may find application in automated process control systems, in telemechanics and local computing systems.

 Known devices for interfacing computers with a common communication channel, most of which implement standard discrete message exchange procedures that differ only in the ways of organizing access of information transmitters to a common communication channel (mono channel).

 Multicast messages in known devices are carried out in two ways. With a small number of recipient addresses, the multicast message is transmitted alternately to each recipient as a regular unicast message.

 In the case of a large number of recipients, the message is transmitted to all recipients simultaneously. In this case, the transmission of confirmations (receipts) about the receipt of a message is made alternately in the algorithm for transmitting them by consumers as unicast messages.

 Closest to this device is the "WD 2840 Controller", containing the consumer's computer, the information and command outputs and inputs of which are connected through the system interface blocks to the subscriber inputs and outputs of the communication adapter, the channel outputs and inputs of which are connected to the information inputs and outputs of the transmitting and receiving drives, and the control inputs and outputs are connected to the corresponding outputs and inputs of commands and states, the access unit and the synchronization unit, the channel output of the encoding unit connected to the input of the transmitter, the output of which is connected to the mono channel, the information input of the receiving drive is connected to the output of the decoding device and the input of the synchronization unit, the input of the decoding device (unit) is connected to the output of the receiver, the input of which is connected to the mono channel, the output of the receiver is connected to the input of the synchronization unit and the input of the marker detection unit, the output of which is connected to the control inputs of the encoding and decoding blocks and the access unit, the outputs of which are connected to the control inputs of the adapter communication, register of commands and states, encoding and decoding blocks, a clock generator, the output of which is connected to the inputs of the synchronization block and the block of reference frequencies, the outputs of the clock frequencies of which are connected to the control inputs of the receiving and transmitting drives, encoding and decoding blocks.

 A disadvantage of the known device is the large transmission time of a multicast message.

 The aim of the invention is to reduce the transmission time of multicast messages and acknowledgment signals to bring these messages to the recipients.

 This goal is achieved by the fact that in the device containing the consumer's computer, the information and command outputs and inputs of which are connected through the system interface blocks to the subscriber inputs and outputs of the communication adapter, the channel outputs and inputs of which are connected to the information inputs and outputs of the transmitting and receiving drives, and the control inputs and outputs are connected to the corresponding outputs and inputs of the register of commands and states, the access unit and the synchronization unit, the channel output of the coding unit soy is dined with the input of the transmitter, the output of which is connected to the mono channel, the information input of the receiving drive is connected to the output of the decoding device and the input of the synchronization unit, the input of the decoding unit is connected to the output of the receiver, the input of which is connected to the mono channel, the output of the receiver is connected to the input of the synchronization unit and the input of the detection unit marker, the output of which is connected to the control inputs of the encoding and decoding blocks and the access block, the outputs of which are connected to the control inputs of the communication adapter, register commands and states, a clock generator, the output of which is connected to the inputs of the synchronization block and the reference frequency block, the clock frequencies of which are connected to the control inputs of the receiving and transmitting drives, encoding and decoding blocks, the first, second and third decoders are connected, the inputs of which are connected to the outputs of the transmitting drive, the fourth decoder, the input of which is connected to the output of the decoding unit, the first trigger, the inputs of which are connected to the outputs of the first and second decoders, the second igger, the first input of which is connected to the output of the third decoder, the first and second reversible counters, the installation inputs of which are connected to the output of the first decoder, the first and second elements And, the first inputs of which are respectively connected to the outputs of the first and second triggers, and the second inputs to outputs block of reference frequencies, the outputs of the elements And are connected to the inputs of the direct and reverse counts of the first reversible counter, the fifth and sixth decoders, the inputs of which are connected respectively to the outputs of the first and second reversible x counters, the direct counting input of the first reversible counter is connected to the output of the fourth decoder, and the counting input is connected to the output of the first element And, the third, fourth elements And and the element are FORBID, the outputs of which are connected to the input of the register of commands and states, the inputs of the third element And connected to the outputs of the second trigger, the fourth decoder and the first reversible counter, the inputs of the fourth element And connected to the outputs of the fifth and sixth decoders, the recording input of the element BAN is connected to the output of the third decoder ora, the reading input of the element is FORBID - with the output of the fifth decoder, and the input of the element is FORBID - with the output of the fourth element I.

 Figure 1 shows a functional diagram of the device; figure 2 is a timing chart; figure 3 - algorithm of the device: a - beginning; b — relay of the message from the computer to the communication adapter; c - frame generation; g - record frame in the transmitting drive; d - waiting for the marker; e - marker selection; g - channel occupation; h - frame transmission; and - switching the controller to the mode of receiving acknowledgment signals; k - recording in the command register the sequence numbers of the recipients of the frame by which acknowledgment signals were received (from the output of block 26 of Fig. 1); l - record of receipt forms; m - exception from the header of the address frame at which receipts were received; n - frame header compression (character shift) in the transmission drive; o - record commands to repeat the transmission of the frame (from the output of block 29 of figure 1); p - recording the command end of frame transmission; p - marker transfer; c - waiting for the transmission of the next frame.

 The device for interfacing a computer with a monochannel contains a consumer computer 1, blocks 2 of the system interface, a communication adapter 3, a register of 4 commands and states, a transmitting drive 5, an encoding unit 6, a transmitter 7, a marker detection unit 8, an access unit 9, a receiver 10, a decoding unit 11, a receiving drive 12, a clock generator 13, a synchronization block 14, a reference frequency block 15, the first 16, the second 17, the third 18, the fourth 19 decoders of combinations of the signs of the clock signal, the beginning, the end of the message and the acknowledgment signal, the first 20 and second 21 triggers first 22, Torah 23, third 24, fourth 25, AND gates, the first 26, second 27 down counters, the fifth 28, sixth 29 decoders zero states reversible counters element 30 inverted.

 Consumer computer 1 with its information and command outputs and inputs using blocks 2 of the system interface is connected respectively to the subscriber inputs and outputs of the communication adapter 3. Channel outputs and inputs of the communication adapter 3 are connected to the information inputs and outputs of the transmitting 5 and receiving 12 drives, and the control - with the corresponding inputs and outputs of the register 4 teams and states, block 9 access and block 14 synchronization. The output of the transmitter 5 drive is connected to the input of the coding unit 6, connected by its output to the input of the transmitter 7. The output of the transmitter 7 and the input of the receiver 10 are connected to a common communication channel (mono channel). The output of the receiver 10 is connected to the inputs of the marker detection unit 8, the synchronization unit 14, and the decoding unit 11, the output of which is connected to the inputs of the receiver 12, the synchronization unit 14, the acknowledgment signal decoder 19.

 The output of the marker detection unit 8 is connected to the inputs of the coding 6 and decoding 11 blocks and the access unit 9, the outputs of which are connected to the control inputs of the coding 6 and decoding 11 blocks, the communication adapter 3 and the register 4 of commands and states. The output of the clock generator 13 is connected to the inputs of the synchronization block 14 and the reference frequency block 15, the outputs of which are connected to the control inputs of the blocks 2, 3, 5, 6, 11, 12 and the inputs of the elements 22 and 23. The inputs of the decoder 16 are the clock signal, the decoder 17 signs of the beginning of the message, decoder 18 signs of the end of the message are connected to the input of the decoding unit 6. The output of the decoder 16 is connected to the installation inputs of the first 26 and second 27 reverse counters and the input of the first trigger 20, the output of which is connected to the input of the first element And 22, output p of the latter is connected to the input of the countdown of the first reversible counter 26 and the input of the direct count of the second reversible counter 27. The output of the second decoder 17 is connected to the second input of the first trigger 20. The output of the third decoder 18 is connected to the input of the second element And 23 and the recording input of the element BAN 30, the output which is connected to the input register entries 4 teams and states. The output of the second element And 23 is connected to the input of the direct count of the first reversible counter 26. The output of the fourth decoder 4 is connected to the input of the countdown of the second reversible counter 27 and the input of the third 24 element And 24, the output of which is connected to the input of the register 4 teams and states.

 The output of the first 26 reverse counter is connected to the input of the fifth decoder 28 and the input of the third element And 24, the output of which is connected to the input of the register 4 teams and states. The output of the second reversible counter 27 is connected to the input of the sixth decoder 29, the output of which is connected to the input of the fourth AND element 25, the output of which is connected to the inhibitory input of the FORBID 30 element. The output of the sixth decoder 28 is connected to the read input of the FORBID 30 element, the second input of the AND element 25 and the input of the second trigger 21, the output of which is connected to the input of the second 23 and third 24 elements I.

 The device, if used as part of a discrete message transmission system using corrective codes for exchanging codograms between rows of transceivers connected to a common communication channel, operates as follows.

 Formed using consumer computer 1, a unicast or multicast codogram with the necessary service signs, sender and recipient addresses in accordance with the structure depicted in figure 2 (p. 6), using blocks 2 of the system interface is transmitted to the communication adapter 3. Communication adapter 3 generates a message frame, writes it to the transmitting drive 5, and upon completion of the frame recording, transfers the access unit 9 to the marker standby mode. When block 8 detects a marker received from the mono channel and received a marker signal received by receiver 10, the latter acts on the coding 6 and decoding 7 blocks and access block 9, the output signals of which are fed to the control inputs of blocks 3, 4, 6, 11 and translate the transmission paths and receiving, respectively, the modes of transmitting information and receiving acknowledgment signals about bringing the message frame to the recipients.

 This mode of operation is implemented using the procedures indicated in figure 3 (g, h, and,) in accordance with the accepted standards for the exchange of information on local area networks and the applicable technical base.

 The transmission of the message frame is provided by the supply of clock pulses from the output of the block 15 of the reference frequencies and control signals from the output of the communication adapter 3 to the inputs of the transmitting drive 5 and the encoding unit 6. Code combinations of the message from the information output of the transmitting drive 5 through the encoding unit 6 using the transmitter 7 are transmitted to mono channel and further to the receivers of message recipients.

 The initial clock pulses necessary for the operation of the device are generated by the clock generator 13, the synchronization unit 14 and the block 15 of the reference frequencies.

 Upon receipt from the output of the transmitting drive 5 of the code combination of the clock signal at the input of the first decoder 16, its output signal acts on the first input of the first trigger 20, and the installation inputs of the first 26 and second 27 reverse counters, translating them into zero states.

 The output signal of the trigger 20, supplied to the first input of the first element And 22, allows the last output to the inputs of the direct account of the first 26 and second 27 reverse counters of cyclic pulses of the boundaries of the address combinations received at the second input of the element And 22 from the output of the block 15 of the reference frequencies. The termination of the supply of these pulses to the inputs of the direct counting of the reversible counters 26, 27 occurs when a combination of the sign of the beginning of the message is allocated by the second decoder 17, the output signal of which arriving at the second input of the trigger 20 puts it in a state in which the resolving signal is removed from the input of the element And 22 .

 Thus, the counting and storing of the first 26 and second 27 reverse counters of the number of addresses of recipients of a multicast message is ensured.

 When the combination of the end of the message sign is selected by the third 18 decoder, its output signal is fed to the recording input of the element BANNED 30 and to the first input of the second trigger 21. The output signal of the trigger 21 is enable for the second 23 and third 24 elements I. The second element And 23 provides input the countdown of the first reversible counter 26 from the block 15 of the reference frequencies of the pulses of the corresponding boundaries of the time intervals, in which acknowledgment signals from message recipients must be transmitted alternately. The third element And 24 provides parallel code transfer from the output of the first 26 reverse counter of the numbers of time intervals into which the acknowledging signals from the message recipients arrived, to the input of the register of 4 commands and states. This is ensured by supplying to the third input of the And element 24 the output signals of the fourth decoder 19 combinations of characters for receiving messages from the mono channel through the receiver 10, the decoding unit 11 to the inputs of the receiving drive 12 and the fourth 19 of the decoder.

 At the same time, it is assumed that the message recipients transmit acknowledgment signals at the end of frame reception at time intervals formed in the reverse order of the address combinations between the combinations of sync signal signs and the beginning of the message (the addressee who received the message whose address is located before the message start sign transmits the receipt first; the destination with the address combination after the clock sends the receipt last).

 The structure of the acknowledgment signal does not contain address information, since it is identified by the sender of the message by the number of the time interval in which it is received. The acknowledgment signal from the output of the fourth decoder 19 is simultaneously fed to the input of the counting down of the second reversible counter 27. When the fifth decoder 28 fixes the zero state of the first reversible counter 26, the counting of time intervals for waiting and receiving receipts is stopped by supplying the output signal of this decoder to the second input of the trigger 21. The output the signal of the decoder 28 also enters the readout input of the element FORBID 30 and allows the input of the fourth element AND 25, the second input of which receives a signal from the output of the sixth of the decoder 29, the locking state of the second zero-down counter 27. In this case, in the absence of a inhibitory signal from the output of the fourth AND element 25, the output signal of the FORBID 30 element, which is input to the register of 4 commands and states, provides retransmission of the frame by the recipient who has not transmitted a receipt based on the results of the first message reception.

 Necessary for the retransmission of the change in the message header and its compaction due to the non-inclusion of the addresses of the recipients from which the acknowledgment signals were received, they are carried out by the communication adapter 3 by the implementation of the io procedures shown in FIG. 3.

 Reception of receipts from all recipients of the multicast message is fixed by the output signal of the fourth AND 25 element when signals from the outputs of the fifth 28 and sixth 29 zero state decoders of the first 26 and second 27 reverse counters arrive at its inputs.

 The signal from the output of the fourth element And 25, arriving at the input of the register of 4 commands and states, the device is put into standby mode for transmitting the next frame of the message.

 The timing diagram of the operation of the device when transmitting a multicast message is shown in figure 2.

 The second transmission illustrates the operation of the device when retransmitting a message to one of the recipients who did not receive the message in the first transmission cycle, and at the same time explains the operation of the device when transmitting a unicast message.

 The algorithm of the communication adapter 3, shown in figure 3, consists of well-known procedures and does not require any changes in the algorithms of operation of units 2 of the system interface and the consumer computer 1.

Claims (1)

 DEVICE FOR COMPATING A COMPUTER WITH A MONOCHANNEL, containing system interface units, the information and command outputs and inputs of which are the inputs and outputs of the device of the same name for connecting to a computer and are connected respectively to the subscriber inputs and outputs of a communication adapter, the channel outputs and inputs of which are connected to information inputs and outputs transmitting and receiving drives, and the control inputs and outputs are connected to the corresponding outputs and inputs of the register of commands and states, the access unit and the synchronization unit The channel output of the encoding unit is connected to the input of the transmitter, the output of which is the output of the device for connecting to the multi-channel, the information input of the receiver is connected to the output of the decoding unit and the input of the synchronization unit, the input of the decoding unit is connected to the output of the receiver, the input of which is the input of the device to the multi-channel, the output of the receiver is connected to the input of the synchronization unit and the input of the marker detection unit, the output of which is connected to the control inputs of the coding and deco the clocking unit and the access block, the outputs of which are connected to the control inputs of the communication adapter, the register of commands and states, the encoding and decoding blocks, a clock generator whose output is connected to the inputs of the synchronization block and the reference frequency block, the clock frequencies of which are connected to the control inputs of the receiving and transmitting drives, encoding and decoding blocks, characterized in that, in order to reduce the transmission time of multicast messages and acknowledging signals to bring these messages To the recipients, the first, second and third decoders are introduced into it, the inputs of which are connected to the output of the transmitting drive, the fourth decoder, the input of which is connected to the output of the decoding unit, the first trigger, the inputs of which are connected to the outputs of the first and second decoders, the second trigger, the first the input of which is connected to the output of the third decoder, the first and second reversible counters, the installation inputs of which are connected to the output of the first decoder, the first and second elements And, the first inputs of which respectively inens with the outputs of the first and second triggers, and the second inputs with the outputs of the block of reference frequencies, the outputs of the first and second elements And are connected to the inputs of the direct and reverse counts of the reversible counter, the fifth and sixth decoders, the inputs of which are connected respectively to the outputs of the first and second reversible counters , the input of the direct count of the first reversible counter is connected to the output of the fourth decoder, and the input of the countdown to the output of the first element And, the third, fourth elements And and the element BAN, the outputs of which are connected to the input the record house of the register of commands and states, the inputs of the third AND element are connected to the outputs of the second trigger, the fourth decoder and the first reversible counter, the inputs of the fourth element And are connected to the outputs of the fifth and sixth decoder, the input of the entry of the FORBID element is connected to the output of the third decoder, the read input of the FORBID element - with the output of the fifth decoder, and the input of the element BAN - with the output of the fourth element I.

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