SU553610A1 - Interface device - Google Patents

Description

the correction node contains a cell of imitation and a cell of limiting the duration of the signal and OR elements. The control signal bus “subscriber availability” is connected to the input of the simulation call and via the first element OR to the first output of the correction node. The first output of the simulation cell is connected to the input of the first OR element, the second - to the input of the second OR element. The wiring signal bus of the subscriber is connected to the input of the simulation cell, the input of the cell limits the duration of the signal and the input of the second OR element, the output of which is connected to the second output of the correction node. The output of the restriction cell is connected to the third output of the correction unit. FIG. 1 shows a block diagram of the device; in fig. 2 is a block diagram of a circular transmission unit. The device contains a reception control unit 1, which generates control signals for receiving an address byte and transmits subscriber signals during reception and subsequent bytes, a switching unit 2, designed to switch source and subscriber control signals, a decoder 3, which is used to generate a subscriber address in accordance with the code in address byte, block of circular transfer 4, designed to form generalized control signals "subscriber readiness, subscriber control and" error, circular signals "ready Source and source control bins, time block 5 for counting the time taken to transmit a message, OR 6 elements predefined for combining control signals from the source with the same signals of the circulating transmission block. Signals 7 receive signals “readiness of the control source and“ control of the source, io chiyam 8 - to the source signals, “readiness of the subscriber,“ correction of the subscriber and “error, and on buses 9 - information from the source. The device also contains tires 10-12 of the summarized signals, respectively, of the subscriber readiness, subscriber control and error, source readiness tires 13, 14, and source control respectively, SCI 15i - 15m, 16i-16m, 171-17m subscribers of information in the group of signals “subscriber readiness, subscriber change and error, respectively, bus 18, circular signal, readiness of source, bus 19 of circular signal, control of source, bus 20 sync signals, bus 21i-2 n grutsp subscribers ( where n is the number of brute subscribers). The transmitting circuit block contains correction signal control units 22 consisting of imitation 23 control signals, limiting cells 24 signals of the Subscriber Direction and the elements OR 25 of the unification of the signals of the subscriber readiness and the control of the subscribers. The unit 4 also contains a transmission status analysis node 26, which is intended to control the imitation and restriction of the signals "subscriber readiness and abraciation abopeitis, as well as for limiting the duration of the signal" control source, elements 27 and 28 of matching subscriber readiness and "aging" the subscriber from the correction nodes and subscribers, the OR element 29 of the unification of sigals "subscriber uravleniya from the correction nodes of the uravleni signals The device works as follows. After the signal "readiness of the source via bus 7" is received, the reception management unit 1 organizes reception of the address byte from the source to address decoder 3. According to the signals of the decoder switching unit 2 connects the subscriber specified in the address to the control signals through his switching elements. Information to subscribers is transmitted over buses 9, which are divorced to all subscribers in parallel. After the subscriber is connected to the source, the interface device participates in the transmission of subsequent bytes of information only as a source and subscriber signal translator. Upon completion of the source readiness signal on bus 7 (transmission of the message is completed), the reception control unit 1 sets the device back to its initial state, after which it is ready to receive the next message. If, as part of the address byte, the code of the circular transfer is received to a group of subscribers, the switching unit 2 issues control signals "source readiness and source control" to all users of this group via transmission circular block 4 and OR 6 elements, and also broadcasts to the source bus 8, the generalized signals "subscriber readiness, subscriber control and errors received on buses 10-12 from the corresponding block 4. Source control signal (bus 19 with circular non-distributive) is output from the circular transmission unit 4 subscriber ntam only after coincidence signal "subscriber management by all subscribers, and the group is removed after n minute" power control signal on the tires 7 and 14. SYNTHESIS signals "ready CALLER and" subscriber management upavl depend on the signals output of the subscribers grupy follows. The signal "readiness of the combatant is given when there are signals the readiness of the subscriber from all subscribers, coordinates from the subscribers through the elements OR 25 are available at the inputs of the element And 27, and then the switching unit 2. The signal" the control of the subscriber begins on the leading edge of the first signal The subscriber control ends on the falling edge of the last

signal "subscriber management. In this case, the signals "control of the subscriber from the subscribers pass the limitation cell 24, then are combined on the element OR 29, from the output of which is sent to the switching unit 2.

With this formation logic, the generalized signals "subscriber readiness and subscriber management" satisfy the time requirements of all subscribers, which allows the message to be transmitted to several subscribers at the same time, without disrupting discipline, the exchange imposed by a unified set of communications.

In the absence of signals, subscriber availability or subscriber control from any of the subscribers of the group (as a result of subscriber failure or disconnection), the condition for generating crawled subscriber readiness and subscriber control signals is violated.

In addition, this condition is violated if the signal "subscriber control is not removed for a long time by any of the subscribers of the group.

In all cases, the circular message transmission will not be completed.

To avoid such a situation, simulated cells 23 and a limitation cell of signal duration 24 are provided in circuits of circular transmission 4, as well as a block of time 5, which takes into account the time taken to transmit a message. The transmission time is determined by the duration of the source readiness signal. The countdown of the time spent on the transmission of a message, time block 5 starts from the leading edge of the source readiness signal, for which the input of time block 5 is connected to the signal circuit.

If this time exceeds a predetermined time, then from time block 5 a signal is received through circuit 20 to transmission analysis unit 26 of circular transfer unit 4.

Depending on the signals of the AND 28 and OR 29 elements, the transmission state analysis node 26 generates a signal allowing the switching on of the simulation cell 23 or the duration limit cell 24. As a result, the unnecessary control signals of subscribers are imitated or disabled, which creates conditions for the further transmission of the message and completion of communication. Consequently, during the circular transmission of the first message to a group of subscribers, all non-working (faulty or disabled) subscribers are blocked and participate in the exchange of information are not accepted. Simulation cells 23 and duration limits 24 are disabled when the signals are restored.

The proposed device, in comparison with the prototype, by introducing n blocks of a circular transmission, a block of time, a switching unit and a reception control unit, allows transmitting messages to several asynchronously operating subscribers without disturbing the discipline of exchange. This greatly improves the speed of the information transmission channel. The specific increase in speed depends on the number of subscribers in the groups, as well as on the ratio of targeted ps to circular transmissions.

Claims (3)

1. An interface device containing a decoder and OR elements is distinguished so that, in order to increase speed without disrupting the exchange discipline, n circular transfer units (where n is the number of subscriber groups), input unit are entered into it, switching unit and reception control unit; moreover, the outputs of the reception control unit are connected via a time unit with each circulating transmission unit and directly to the input of the decoder, the progress of which is connected to the input of the switching unit connected by two-way communication with the reception control unit and the circular transmission unit and a circular transmission through the elements OR are connected to the outputs of the device, and the inputs of the switching unit and a circular transmission are connected to the input of the device. 2. A device according to claim 1, characterized in that in it the transfer gear unit contains correction nodes according to the number of subscribers in the group, the first and second AND elements, the first and second OR elements, and the transmission status analysis node; wherein the inputs of each correction node are connected to the subscriber readiness bus and the output of the transmission state analysis node; the first, second and third TT outputs of the correction nodes are connected respectively to the inputs of the first and second AND elements and the first OR element; the outputs of the And elements are connected to the inputs of the transmission state analysis node; the outputs of the first element I, of the elements OR of the node for the analysis of the state of transmission are connected to the outputs of the circular transmission unit; the inputs of the second element OR are connected to the bus “error from the subscribers of the group. 3. The device according to claim 2, in which each correction contains an imitation cell, a signal duration limiting cell, OR elements; moreover, writing the control signal "readiness the subscriber is connected to the input of the simulation cell and through the first element OR to the first output of the correction evil; the first output of the simulation cell is connected to the input of the first OR element, the second output is connected to the input of the second OR element; The control signal bus of the subscriber control is connected to the input of the simulation cell, the input of the limitation cell of the signal duration and the input of the second OR element, the output of which is connected to the second output of the correction node; the output of the duration limit cell is connected to the third output of the correction node. Sources of information taken into account for the CPRP; 1. US patent N ° 3539998, cl. 340-172.5 publ. 13.02.71 2. Avt. swith USSR № 481 895, cl. O 06F 3/04 dated 04/04/74 (irotype), HER