SU1037318A1 - Data transmission-receiving device - Google Patents

Abstract

A DEVICE FOR TRANSMITTING AND RECEIVING INFORMATION, containing n information transmitting amplifiers and a strobe transmission amplifier, the outputs of which are connected to the first inputs of the corresponding information receiving amplifiers and the ctpoCa receiving amplifier, n elements and and inverter, and TL and receiving By the fact that, in order to increase the informativeness of the device, n & OL contact, n output flip-flops, (n-l5 inverters, n integrating circuits, n controllable keys, (p-1) booster reception amplifiers, first entrances to and connected to the corresponding communication channel, the outputs of the information receiving amplifiers. And the receiving amplifiers of the strobe are connected respectively to the first inputs of the respective control triggers, the first and second outputs of which are connected respectively to the first and second inputs of the corresponding And elements and output triggers. The first and second outputs of Topbix are the first and second outputs of the device, the outputs of the elements And through the corresponding sequentially connected integrating (L chain and the inverter are connected to the first in By the stroke of the corresponding controlled key, the second input of which is connected to the common wire r - and the output is connected to the second inputs of the information receiving amplifiers and the strobe, the outputs -i of the inverters are the third outputs of the device.

Description

The invention relates to automation and computing and can be used to build information transfer devices in digital computers.

A device for interfacing with a communication line is known, which is used for organizing the exchange of functional blocks of computer systems on Blesk containing a receiver and a transmitter, each of which contains an AND-NES element, an IS-Receiving element, a communication line, an NOT element. In the process of operation, the transmitter is connected by a control signal to the communication line and, from the transmitter output, the information is fed through a connected line to the input of the receiving element AND-NOT 1.

The disadvantage of this device is that in the process of transmitting and receiving information, the monitoring of the operation of its nodes is not performed.

The closest to the proposed technical entity is a device for receiving and transmitting information, containing n amplifiers for transmitting information and a strobe transmission amplifier, the outputs of which through corresponding communication channels are connected to the inputs of the corresponding information receiving amplifiers and the strobe connected to the first inputs of the corresponding And elements, the outputs of which are the first outputs of the device, the output of the strobe receiving amplifier is connected to the input of the inverter, the output of which is the second inputs of the connections with elements I. Working devices based on the simultaneous transfer of the respective communication channels of information signals and the strobe signal, wherein said signals have opposite polarities. On the receiving side, the condition of opposite polarity is checked for the received information signals and the strobe. If the check is positive, information is provided to the recipient 2

The disadvantages of the known device are the lack of monitoring of the equality of channels and the transmitting part of the equipment, as well as the impossibility of shutting down if necessary (for malfunction or for performing per-channel checks) of each individual or group of information channels.

The purpose of the invention is to increase the information content of the device.

The goal is achieved by the fact that a device containing information transmitting amplifiers and a strobe transmission amplifier on the transmitting storsen, the outputs of which are connected to the first inputs of the receiving information amplifiers and the receiving amplifier of the strobe through the communication channels through the communication channels. an inverter, (nl) additional strobe receiving amplifiers are introduced, the first inputs of which are connected to the corresponding communication channel and (n-1) inverters, controlling 1 & 1 keys, n control triggers, n output triggers, n integrating chains, the outputs of the information receiving amplifiers and the receiving amplifiers of the strobe are respectively connected with the first inputs of the respective control triggers, the first and second outputs of which are connected respectively to the first and second inputs of the respective elements And the output triggers, the first and second outputs of which are the outputs of the elements And through the corresponding series-connected integrating chain and the inverter are connected to the first input of the corresponding controlled key, the second turn is connected to ground, and an output connected to a second input of the amplifier and receiving information tup ba inverter outputs are third device outputs.

FIG. 1 shows a block diagram of the proposed device for the case when the number of information channels in FIG. 2 and 3 - time diagrams of his work.

The device for transmitting and receiving information comprises information transfer amplifiers 1-3, amplifier 4. strobe transmissions, communication channels 5–8, information receiving amplifiers 9–11, gate receiving amplifiers 12–14, control keys 15–17, trigger triggers 18–20, output triggers 21–23, And 24–26 elements that integrate chains 27-29 and inverters 30-32.

Amplifiers 9-11 of receiving information and amplifiers 12-14 of strobe reception are made according to standard schemes of the device of signal conditioners coming from communication channels to their first signal inputs. The second inputs of the amplifiers are control - the state of these inputs determines the presence of signals arriving at the first inputs at the outputs of the amplifiers.

The controllable switches 15-17 connect the respective information reception amplifiers 9-11 and the gate 12-14 to the common wire of the device.

The time constant of the integrating circuits 27-29 is chosen in such a way as to ensure the appearance of a single logic level at the inputs of inverters 30-32 only when And 24-26 elements occur at the outputs of a sequence consisting of a certain number (for example, two or more) pulses whose frequency and duration are the same as in the information sequence. The device works as follows. Before starting operation, the triggers 18-20 and the output triggers 21-23 are set to the zero state. At the inputs of the controlled keys 15-17 there are no signals. At the same time, the controllable keys 15–17 are open and ensure the connection of the corresponding information receiving amplifiers 9–11 and gate 12–14 with the common wire of the device. At the same time, information reception amplifiers 9-11 and strobe 12-14 are ready to receive signals arriving at and} from the first inputs. Antiphase informational impulses and: impulses of a strobe with an output of amplifiers 1-3 of information transfer and an amplifier of 4 transmissions of a gate through channels 5-8 of communication, respectively, arrive at the first inputs of amplifiers receiving information 9-11 and of a gate 12-14. The number of reception amplifiers of both information 9-11 and gate 12-14 is equal to the number of information channels 5-8 of the communication device. From the outputs of each pair of information receiving amplifiers and the gate (9 and 12, 10 and 13, 11 and 14) the antiphase pulses arrive at the S and R inputs of the trigger 18-20 control, respectively, and from their outputs, through the output trigger 21-23, on the information outputs of the device. In addition, from the outputs of the flip-flops 18-20 control signals are fed to the inputs of the corresponding elements and 24-26, and from their outputs to the inputs of the integrating circuits 27-29. During normal operation of the device, at both inputs of each of the AND 24-26 elements, logical 1 occur due to the finite trigger time only for the duration of the falling edge of the pulse: H9 to one and the pulse rise at the other output of the trigger 18-20. From the outputs of the elements 24-26 and 26, these pulses fall on the inputs of the integrating chains 27-29. The frequency of such pulses "is determined by the switching frequency of the control triggers, i.e. the frequency of the signals to the inputs of the information receiving amplifiers 9-1.1 and the gate 12-14. Consider the operation of the device in the event of a malfunction. Let there be a line break in communication channel 5. At the same time, at the output of the amplifier 9, the reception of information on Wits ZNY: Logical.level, arriving at the s-input of the trigger 18 control. Then, the arrival at the R-input of this gee trigger 18 for controlling the strobe pulses from the output of the strobe amplifier 12 will result in the direct output (d) of the trigger 18 for controlling pulses synchronous with the pulses at its R-BXO and antiphase (Fig. 2) . On. the inverse of the trigger of the control 18 is then set at a constant voltage corresponding to a single logic level. At the times noted in FIG. 2, single logic signals are applied to both inputs of AND 24, which follow at the frequency of arrival of information and have a duration equal to the duration of the strobe pulse (information). From the output of element 24. These signals arrive at the integrating chain 27. After the integrating chain 27 has accumulated a certain number (for example, two or more) pulses, a single logical level appears at the output, which triggers the inverter 30. It appears on the inverter output 30 signal is fed to the control output of the device. The same signal is fed to the input of the control key 15, which is locked and thus disconnects the information receiving amplifiers 9 and the gate 12 with a common wire, as a result of which these amplifiers are locked at their inputs and now irrespective of state. The first inputs provide zero signal levels at 1 output. These zero levels, acting simultaneously on the S and R inputs of the trigger 18 of the control, provide for the appearance of single logical levels on both of its outputs. Reception of information from the faulty channel is stopped, and a signal indicating a malfunction appears at the corresponding control output of the device. ; The device works in a similar way in case of a failure in the information channels 6 and 7 of the system. If link 8 has failed, through which strobe pulses are transmitted, then on. R-inputs of flip-flops 18-20 kontol simultaneously appear zero logic levels. When information pulses arrive at the S-inputs of these flip-flops, single logic levels are set up at the forward outputs of the control flip-flops 18-20, and inverse ones appear pulses synchronous with the inputs and antiphase to them (Fig. 3). | At the times noted in FIG. 3, to both inputs of the elements 24-26 and 26, there are single logic signals that follow on

frequency of information. Further processes in the device are similar to those that take place in case of a failure in the information communication channel. The difference is that in case of a failure in the transmission channel, the strobe stops receiving both strobe signals and information signals from all channels simultaneously. Accordingly, malfunctions are generated simultaneously on all channels.

When the power supply source of any information transfer amplifier (2.1 and 3) leaves the device, processes similar to those described for the case of failure of the corresponding information channel 5-7 occur.

When the power source of the 4th strobe transmission amplifier fails, the processes in the circuit are similar to those described for the failure case of the 8th strobe transmission channel.

In the event of malfunctions, the reception of information by the appropriate channel or the device as a whole is stopped and a corresponding signal is given, which can be used to indicate the state of the apparatus and take the necessary measures.

Thus, the proposed device provides transmission and reception of information between the nodes of a computing device, as well as, in contrast to the known, the intranet ability of the device is increased, since it automates the detection of malfunctions and increases serviceability due to the fact that the state of the channels is monitored. the transmission and communication nodes of the transmitting side, and when a fault is detected, a corresponding signal is automatically generated.

The technical and economic effect of the application of the proposed device consists in providing an operative automatic control of the reception of the transmission, which is carried out in the course of operation, without the submission of additional control tests.

The proposed device ensures the disconnection of receivers of information through the channels in which malfunctions are detected, thus excluding the processing of obviously incorrect information. At the same time, it is possible to issue information on the presence of a malfunction, which reduces the time spent searching for the failed node and restoring the device.

B, - the difference from the known device, which is a set of equipment for testing logical blocks and containing devices for transmitting and receiving information between logical nodes embedded in its structure, the proposed device makes it possible: to monitor faults in the channels

communication between logical nodes. At the same time, they are monitored as breaks, for example, due to poor-quality joining of connectors in

testing equipment and short circuits (due to errors during installation, etc.);

monitor failures in the transmit information and strobe enhancers

. for example, the bridging of their output elements caused by the failure of these elements;

to monitor failures of power supplies serving information transfer amplifiers and strobe, such as those caused by blown fuses in the corresponding sources, and other malfunctions x- occurring at the source;

disconnect the information receiving amplifiers corresponding to the channel in which the failure was detected immediately upon detecting a malfunction and thus exclude the issuance of incorrect information to the recipient;

g

provide information about the current failure to the indicating device in order to increase the efficiency in troubleshooting.

Figg

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Claims (1)

A device for transmitting and receiving information, comprising η information transmitting amplifiers and a strobe transmitting amplifier, the outputs of which are connected through the corresponding communication channels to the first inputs of the corresponding information receiving amplifiers and a strobe receiving amplifier, η elements And and an inverter, characterized in that, for the purpose, to increase the information content of the device, η control triggers, η output triggers, (nl) inverters, η integrating circuits, η controlled keys, (n-1) Surob receiving amplifiers, the first inputs of which are connected, are introduced into it are dined with the corresponding communication channel, the outputs of the information receiving amplifiers and the gate receiving amplifiers are connected respectively to the first inputs of the corresponding control triggers, the first and second outputs of which are connected respectively to the first and second inputs of the corresponding AND elements and output triggers} the first and second outputs of which are the first and the second outputs of the device, the outputs of the elements And through the corresponding series-connected integrating circuit and the inverter are connected to the first input corresponding its controllable switch, a second input coupled to ground, and an output connected to second inputs of amplifiers receiving information and strobe outputs are the third inverter device outputs. m oo