RU2050018C1 - Device for receiving and transmission of binary signals - Google Patents

Abstract

FIELD: computer engineering. SUBSTANCE: device has K units for receiving and transmitting binary signals. Each unit has OR gate 2, which has M inputs, where M>K, AND gate 3, memory unit 4 and delay gate 5. Output of memory unit 4 is connected to M-th input of OR gate 2 through AND gate 3. Second input of AND gate 3 is connected to input of delay gate 5, which output is connected to setting input of memory unit 4. Output of delay gate is used as control output of unit for receiving and transmitting binary signals. Input of delay gate is used as control input of unit for receiving and transmitting binary signals. Output of OR gate 2 is used as information output of unit for receiving and transmitting binary signals Units for receiving and transmitting binary signals are connected to provide circuit, in which control output of i-th unit for receiving and transmitting binary signals is connected to control input of (i+1)-th unit, while information outputs of all units are connected to corresponding information inputs of K-th unit. Output of this unit serves as output of device. EFFECT: increased functional capabilities. 2 dwg

Description

 The invention relates to computer technology and can be used in systems for diagnosing objects with a hierarchical design, mainly computer systems, as part of the diagnostic system of unified built-in tools located in the structural modules of the diagnostic object, or can be used as part of computer systems in devices, transmitting the memory status of digital devices of a computing system.

 A known device for receiving and transmitting binary signals, which contains shifting registers that allow you to write binary bits from the memory elements of the computer system to the bits of the shift register, received in the shift register in parallel, and transmit these signals sequentially by the required number of register shifts [1] The register first receives a binary signal, and then transmits it. This allows sequential scanning and transmitting information about the state of the memory elements of the computing system to its output in systems with a hierarchical design, where with a large number of structural modules in the system and levels of the hierarchy of the system, parallel transfer of such information to the system output is practically impossible, since it would require an unacceptably large the number of contacts in the connectors of structural modules.

 A disadvantage of the known device is the need for additional equipment that generates control shift signals during periods of information transfer by the scanning device using the shift register.

The closest device is a device for receiving and transmitting binary signals, which contains a node for receiving and transmitting binary signals, including an M-input OR element, an And element, a memory element and a delay element, while the output of the memory element through the And element is connected to the Mth the input of the M input element OR, the second input of the AND element is connected to the input of the delay element, the output of which is connected to the installation input of the memory element, the remaining (M-1) inputs of the M input element OR are information inputs of the receiving node transmitting binary signals, an additional information input which is the input of the storage element, a control input of a delay element input, data output M output-input OR gate, and the control output of the output of the delay element [2]
A disadvantage of the known solution is the significant hardware costs in the formation of a data package of diagnostic systems in objects with a hierarchical structure, caused in this case by the need to use a special control unit that generates control signals.

 The aim of the invention is to reduce hardware costs when forming a data package of diagnostic systems in objects with a hierarchical design.

 This is achieved by the fact that in the device for receiving and transmitting binary signals containing a node for receiving and transmitting binary signals, including an M-input OR element, an AND element, a memory element and a delay element, while the output of the memory element through the And element is connected to the Mth the input of the M input element OR, the second input of the AND element is connected to the input of the delay element, the output of which is connected to the installation input of the memory element, the remaining (M-1) inputs of the M input element OR are information inputs of the binary channels, the additional information input of which is the input of the memory element, the control input is the input of the delay element, the information output is the output of the M-input element OR, and the control output is the output of the delay element, K-1 additional nodes for receiving and transmitting binary signals, where K <M, nodes for receiving and transmitting binary signals are connected to a circuit in which the control output of the i-th node for receiving and transmitting binary signals is connected to the control input of the (i + 1) -th node for receiving and transmitting binary signals, information outputs the first (K-1) -th nodes of receiving and transmitting binary signals are connected to the corresponding information inputs of the K-th node of receiving and transmitting binary signals, the output of which is the information output of the device for receiving and transmitting binary signals.

 Figure 1 shows a functional electrical diagram of a device for receiving and transmitting binary signals; figure 2 structural electrical diagram of the node receiving and transmitting binary signals 1.K.

 The device for receiving and transmitting binary signals contains K nodes for receiving and transmitting binary signals 1.1-1.K (see figure 1), each of which includes (see figure 2) an M-input element OR 2, where M> K, element And 3, a memory element 4 and a delay element 5, while the output of a memory element 4, the input of which is an additional information input 6, is connected via an AND 3 element to the corresponding input of the M-input element OR 2, the second input of the And 3 element is a control input 7 and connected to the input of the delay element 5, the output of which is connected to the installation at the input of the memory element 4. Moreover, the nodes of the reception and transmission of binary signals from 1.1 to 1.K-1 (see figure 1) are connected to a circuit in which the control output of the i-th node of the reception and transmission of binary signals (output of the delay element 5 ) included in this node) is connected to the control input of the (i + 1) -th node for receiving and transmitting binary signals (input of the delay element 5 included in this node), and the information outputs of the nodes for receiving and transmitting binary signals 1.1-1.K -1 (outputs of the corresponding M-input element "OR" 2) are connected to the corresponding information inputs K of the node for receiving and transmitting binary signals, the information output 8 of which is the information output of the device for receiving and transmitting binary signals, and the control output 9 of this node for receiving and transmitting binary signals is the control output of the device for receiving and transmitting binary signals.

 The device operates as follows.

 At the initial time, one of the M inputs has an additional information input 6, which is the local diagnostic input of the node for receiving and transmitting binary signals 1.1 (1.K), a binary signal of local diagnosis is received, signal log. "1" or signal log. "0". This signal is supplied to the first input of the memory element 4, setting the memory element 4 in the corresponding state.

 Upon receipt of the control signal at the control input 7 of the receiving and transmitting binary signals node and, accordingly, at the second input of the And 3 element from the output of the And 3 element, the binary signal "local diagnosis" stored in the memory element 4 will be received at the information output 8 of the receiving and transmitting binary signals node 4 "

 The control signal received at the control input 7 of the receiving and transmitting binary signals node is also fed to the input of the delay element 5 from the output of the delay element 5, after a delay interval the signal is fed to the control output 9 of the receiving and transmitting binary signals, as well as to the second input of the element memory 4, which is the reset input, setting the memory element 4 in the state log. “0” to enable the binary receiving and transmitting unit to operate in the next session of receiving and transmitting the binary signal of “local diagnosis”.

 In subsequent clock instants, the M-1 information inputs of the Kth node for receiving and transmitting binary signals alternately receive signals from the nodes for receiving and transmitting binary signals located in structural modules of the corresponding hierarchy levels of the computing system. These signals are transmitted to the information output 8 of the device, forming a group signal.

 The delay time of the delay element 5 is either one machine clock, or in computing systems with several synchronization series, it can, if necessary, increase the speed, make up the time interval between the pulse fronts of the two closest synchronization series, or a multiple of this interval.

Claims (1)

 A device for receiving and transmitting binary signals, comprising a node for receiving and transmitting binary signals, including an M-input OR element, an AND element, a memory element and a delay element, wherein the output of the memory element through the AND element is connected to the Mth input of the M-input OR element , the second input of the AND element is connected to the input of the delay element, the output of which is connected to the installation input of the memory element, the remaining M-1 inputs of the M-input element OR are information inputs of the node for receiving and transmitting binary signals, additional information the ionic input of which is the input of the memory element, the control input is the input of the delay element, the information output is the output of the M-input element OR, and the control output is the output of the delay element, characterized in that K-1 nodes for receiving and transmitting binary signals are introduced into it, <M, the nodes for receiving and transmitting binary signals are connected to a circuit in which the control output of the i-th node for receiving and transmitting binary signals is connected to the control input of the (i + 1) -th node for receiving and transmitting binary signals, the information outputs of the first of the second (K 1) -th nodes of receiving and transmitting binary signals are connected to the corresponding information inputs of the K-th node of receiving and transmitting binary signals, the output of which is the information output of the device for receiving and transmitting binary signals.

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