SU1101600A1 - Coverter of electric signal to liquid or gas pressure - Google Patents

Abstract

MULTI-CHANNEL DEVICE FOR CONNECTING SUBSCRIBERS WITH A DIGITAL EXCHANGE MACHINE, contains two groups of operating registers, three groups of AND elements, a shift register, a de coder's address encoder, an OR element and a control unit, the first input of which is connected to the serial code inputs of the working registers of the first group and device inputs, the first output of the control unit is connected to the control input of the shift register, and the second output is connected to the first inputs of the AND elements of the first and second groups, the second inputs of which are connected according to To the first and second groups of outputs of the decoder of subscriber addresses, the first inputs of elements AND of the third group are connected to the second group of outputs of the decoder of addresses of subscribers, the outputs of elements AND of the first and second groups are connected respectively to the control inputs of working registers of the first and second groups, information outputs of working registers of the first group form the information points of the device, the information inputs of the working registers of the second group form the information point of the device, and the outputs of the serial code Yes, they are connected to the second inputs of elements AND of the third group, the outputs of which are connected to the group of inputs of the element OR, whose output is the output of the serial code of the device, characterized in that, in order to improve the speed of the device j, the decoder of the operation code, the subscribers' addresses, are entered into it and a word count counter, the clock input of the shift register is connected to the clock input of the device, clock inputs of the working registers of the first and second groups and the second input of the control unit, the input is sequential The shift register code is connected to the input of a serial device code, the first and second groups of bit outputs of the shift register are associated with information in 4; subscriber address and word count counters, counting inputs and recording control inputs are connected to the third and fourth outputs, respectively the control unit, the output of the subscriber's address counter is connected to the input of the address decoder -about nyten, the output of the word-count counter is connected to the third input of the control unit, the fourth in Which qoe1 is one with the output of the operation code decoder, the information input of which is connected to the third group of the bit outputs of the shift register, and the control input to the fourth output of the control unit, the fifth and sixth inputs of which are respectively the input of the command signal and the input of the initial device, the control unit contains three trig

Description

Hera six elements And., three. the delay element, the clock counter and the OR element, the first single input of the first trigger is the first input of the block, the direct output is connected to the second output of the block and the first input 1 of the first And element whose output is connected to the counting input of the clock counter, and the second input with the second input of the block and through the series-connected first and second delay elements with the first input of the second element AND, the direct output of the second trigger is connected to the first inputs of the third and fourth elements AND, the outputs of which are respectively n The first and fourth outputs of the block, the single and zero inputs of the third flip-flop are the quadruple, Tb1M and third inputs of the block, and the direct output is connected to the first input of the fifth And element, the second input connected through the third delay element to the IZH element output, the first and the second inputs of which are connected respectively to the outputs of the sixth and third elements AND, the single input and the inverse output of the second flip-flop are connected respectively to the fifth input of the block and the first input of the sixth element AND whose output is The second output of the block, the second inputs of the third and sixth elements And are connected to the output of the first delay element, and the third inputs with the output of the clock counter and the second input of the second element And, the first zero inputs of the first and second triggers are connected to the sixth input of the block the second zero inputs - with the output The second element And, the inverse output, the direct output and the second single input of the first trigger are connected respectively to the installation input of the clock counter, the second input of the fourth element And and to the output of the fifth element I.

The invention relates to computing technology, in particular, to interface devices of subscribers with a digital computer, and can be used in control computing systems.

A multi-channel device for interfacing subscribers with a digital computer is known which contains a control unit, a shift register, a decoder, working shift registers, AND, OR, and NOT ij elements.

The drawback of the device is a tight linkage of one source subscriber to another subscriber receiver, which, if necessary, receiving and transmitting information from different subscribers leads to a decrease in speed.

The closest to the invention to the technical essence is a multichannel device for interfacing subscribers with a digital computer that contains a control unit, the first input of which is connected to the first input of the device, the first output of the control unit is connected to the control input of the shift register and the second output to the first input of the first and the second elements And, the second input of each of the first elements And connected to one of the first outputs of the first decoder, each of the second outputs of which is connected to the second input of the corresponding second element and And to the first input of the third element And, the outputs of the first elements And are connected to the control inputs of the corresponding working registers of the first group, the serial code inputs of which are connected to the first input of the device, and the information outputs to the corresponding information outputs of the device, the outputs of the second And elements are connected to the control inputs of the working registers of the second group, the inputs of which are connected to the corresponding informational M inputs of the device, and the outputs of the serial code to the second inputs correspond In the third third AND elements connected by outputs to the inputs of the OR element, the output of which is connected to the output of the serial code of the device, each output of the first decoder is connected to the input of the corresponding NOT element of the group, the outputs of which are connected to the clock of the corresponding working registers, the third, quarter and the fifth outputs of the control unit are connected respectively to the first input of the input element I, the control input of the output register and the installation input of the shift register, whose codes are connected to the first multiplex inputs, the second inputs of which are connected to the information inputs of the device, and the outputs of each multiplexer are connected to the corresponding bit inputs of the profitable register, the output of the serial code of which is connected to the output of the device, the second input of the input element I is connected to the input of the device 2j. A disadvantage of the known device is the low speed in the exchange of information with several subscribers because of the need to; each exchange of numerical information to produce a command parcel. The aim of the invention is to increase the speed of the device. Delivered: the goal is achieved in that a device containing two groups of operating registers, three groups of AND elements, a shift register, a subscriber address decoder, an OR element and a control unit, the first input of which is connected to the serial code inputs of the first group of working registers and inputs device, the first output of the control unit is connected to the control input of the shift register, and the second output is connected to the first inputs of the AND elements of the first and second groups, the second inputs of which are connected respectively to the first and second groups of outputs the decoder addresses of subscribers, the first inputs of elements AND of the third group are connected to the second group of outputs of the decoder addresses of subscribers, the outputs of elements AND of the first and second groups are connected respectively to the control inputs of the working registers of the first and second groups, the information outputs of the working registers of the first group form the information output devices, the information inputs of the working registers of the second group form the information input of the device, and the outputs of the sequential code are connected to the second inputs of the elements I The groups whose outputs are connected to the group of inputs of the OR element, the output of which is the output of the serial device code, entered the decoder of the operation code, the subscriber address counter and the word number counter, with the clock input of the shift register connected to the clock input of the device, clock inputs of the working registers the first and second groups and the second input of the control unit; the input of the serial code of the shift register is connected to the input of the serial code of the device; the first and second groups / bit outputs are register and the shifts are associated respectively with the information inputs of the subscriber address counters and the number of words, the counting inputs and the write control inputs of which are connected respectively to the third and fourth outputs of the control unit, the output of the subscriber address counter is connected to the input of the subscriber address decoder, the output of the word number counter is connected to the third input of the control unit, the fourth input of which is connected to the output of the decoder of the operation code, the information input of which is connected to the third group of bit outputs shift registers, and the control input is the fourth output of the control unit, the fifth and sixth inputs of which are respectively the input of the command signal and the input signal of the initial installation of the device, as well as the fact that the control unit contains three flip-flops, six AND elements, three the delay element, the clock counter and the OR element, the first single input of the first trigger is the first input of the block, the direct output is connected to the second output of the block and the first input of the first And element whose output is connected to the counting input of the counter acts, and the second input — with the second input of the block and through the successively connected first and second delay elements with the first input of the second element AND; the direct output of the second trigger is connected to the first inputs of the third and fourth elements AND whose outputs are respectively the first and fourth outputs unit, the single and zero inputs of the third flip-flop are the fourth and third inputs of the block, respectively, and the direct output is connected to the first input of the fifth And element, the second input connected through the third delay element to output 5, 1 of the OR element, the first and second inputs of which are connected respectively to the outputs of the sixth and third elements AND, the single input and the inverse output of the second trigger are connected respectively to the fifth input of the block and the first input of the sixth element AND whose output is the third the output of the block, the second inputs of the third and sixth elements And are connected to the output of the first delay element, and the third inputs - with the output of the clock counter and the second input of the second element And, the first zero inputs of the first and second triggers are connected to the sixth the input of the block, the second zero inputs — with the output of the second element I, the inverse output, the direct output, and the second single input of the first trigger — are connected respectively to the installation input of the clock counter, the second input of the fourth element I, and with the output of the fifth element I. .1 is a block diagram of the device J ja of FIG. 2, a functional block diagram of the control unit. The multichannel device contains (Fig. 1) block 1 control register 2 shift, counter 3 addresses of subscribers, counter 4 word numbers, decoder 5 addresses of subscribers, decoder operation code, elements 7 of the first group, working registers 8 of the first group, elements 9 of the second groups, working registers 10 of the second group, elements 11 of the third group, element OR 1-2, output 13 of the serial device code, information output 14 of the device, input 15 of the serial code of the device, clock input 16 of the device, inputs 17 and 18 of the command signal and start no y ctaHOBKH devices, information output 19 of the device. FIG. 1 also shows the bus inputs and outputs 20-59 elements of the device. Control unit 1 contains (Fig. 2) triggers 60-62J elements And 63-68, delay elements 69-71, a 72-cycle counter and an OR element 73. Control unit 1 is intended for generating control signals providing information exchange with a digital computer. Shift register 2 is intended for receiving a serial code word from a digital computer and converting it into a parallel one. 0 Command word of a digital computer contains an operation code, subscriber's address (An), the number of exchanged words (K). The operation code determines the operation mode of the device — entering information into the DVM I.PI and its output from the DVR to subscribers. Subscriber Address The address of the first subscriber with whom information is exchanged. In accordance with the number of words exchanged (K), information is successively exchanged with K subscribers, starting with the subscriber sadres A and ending with the subscriber with address A, + K. In accordance with the contents of the command, register 2 has three groups of bits. The outputs 33 of the first group of bits of the register 2 contain the address of the subscriber and are connected to the information inputs 36 of counter 3, the outputs 34 of the second group of bits contain the number of words exchanged and are connected to the inputs 39 of the counter 4, the outputs 35 of the third group of bits are connected to the inputs 42 of the decoder 6 - Counter 3 is used to store and modify the addresses of subscribers with whom the digital computer carries out information. The decoder 5 selects the required working register 8 or to according to the address in the counter 3. Each of the working registers 8 is designed to receive from the digital computer a sequential code of a numeric reference, translate it into a parallel one and transfer it to the subscriber. The device works by following. The device operates in two modes: output information from a digital computer and input it into a digital computer. During operation of the device, clock pulses are received from the digital computer via input 16 to input 31 of register 2, input 21 of block 1 to clock inputs 50 of registers 8 and clock inputs 54 of registers 10. Before starting operation, input 18 sends an input signal to input 23 in which the zero state is set at the outputs 26 and 29 of block 1. 7 1.10 Then, an input is sent to input 22 via input 17. An instruction that is memorized in block 1. When it appears from the digital computer at input 20 of block 1 and input 30 of register 2, the sequential code for command sprinkling the block 1 produces a shift resolution at output 26 that permits receiving the coded command parcel code in register 2 shift. Both in the mode of outputting information from the digital computer and in the mode of inputting it into the digital computer after the command has been received from the output 28 of block 1 to the input 38 of the counter 3, the input 41 of the counter 4 and the input 43 of the decoder 6, the control signal is received recording the address of subscribers from outputs 33 of register 2, the number of words exchanged from outputs 34, and decryption of the code of operations coming from outputs 35 of the register to the decoder 6.

From the outputs of the counter 3, the address of the subscriber is fed to the decoder 5 and a signal appears at one of the outputs 44 or 45 of the decoder 5, depending on the address of the subscriber. In the mode of information output from the digital computer after the command sending from the digital computer through the input. 15 receives a serial code of a number, which is fed to the inputs 48 of registers 8 and input 20 of block 1. In this case, output 29 of block 1 to inputs 46 of the elements 7 and the signal is given a shift resolution, the duration of which corresponds to the length of the serial code. At the same time, the input 49 of the corresponding register 8c of the code of one of the elements 7, input 47 of which, in accordance with the subscriber’s address, receives a signal from one of the outputs 44 of the decoder 5, receives a control signal permitting the writing of a serial code from input 50. From output 58 Register 8 information is provided to the corresponding subscriber through the information output 14 of the device. At the end of the reception, the successive code of the number from output 29 of block 1 is the signal. The shift resolution is removed, the output of output 27 of block 1 to input 37 of counter 3 and to input 40 of counter 4 is signaled, the contents of counter 3 are increased, and the contents of counter 4 are reduced by unit

and if the contents of counter 4 is not zero, which is determined by the signal from the output of counter 4 to input 24 of block 1, from output 29 of block 1 to inputs 51 of the elements And 9 the shift enable signal is received.

From the output of the element I9, corresponding to the address given by the decoder 5, to the input 53, the corresponding register is. Thus, each next numeric parcel of, the DVR will be written into register B with the address advanced by one compared to the previous one. . In the mode of inputting information into the digital computer, the device operates as follows. After the reception of the command parcel, depending on the subscriber address, one of the outputs 45 of the decoder 5 will receive a signal arriving at the input 52 and the input 56 of the corresponding elements of AND 9 and AND 1.1. Simultaneously from the decoder 6, a signal is input to the input 25 of the block 1. Input 10 sends a signal permitting the shift of the information stored there, which came to the input 55 of the register 10 from the information input 19 of the device. G output register 10 serial code is fed to the input 57 of the corresponding element And 11, and from its output to the corresponding input 39 of the element And 12, from the output of which through output 13 enters the digital computer. After transmitting the serial code from output 29 of block 1 of the signal, the resolution of the shift is removed and if the contents of counter 4 are not equal to zero, from 27 of block 1 to input 37 of counter 3 and to input 40 of counter 4 a signal is sent that increases the contents of counter 3 and counter 4 is decremented by one. After that, from the output 29 of the block .1., The shift resolution signal is output and a sequential code is generated from register 10, the address of which is one more than the address of register 10, from which the previous sequence was retrieved. If, after transmitting the next numeric parcel to the digital computer, the contents of counter 4 will become zero, then from the output of counter 4 to input 25 a signal is sent, which in block 1 prevents the formation of a signal Shift resolution, i.e., input and information in DVR ends. 91 The control unit 1 operates as follows. Throughout the operation of the device through the input 21 of block 1 to the inputs of the delay element 69 and the element And 63 receive clock pulses. Before starting work through the input 23 of unit 1 on. The inputs of the flip-flops 60 and 6 are given a signal. The initial setting is that they are set to the zero state. At the same time, at the inputs of IbZiIbbi elements, outputs 29 and 26 of block 1 appear zero signals, and a single signal is supplied to the input of counter 72, which sets the counter 72 to the zero state. Then, through the input 22, a signal is sent to the trigger 61 input. sets the trigger 61 to a single state, in which a positive potential is established at the inputs of the elements 66 and 65. The command is received by the control unit 1 as follows. When a command is sequenced to and yes, the input 1 of the block 1 trigger 60 is set to 6 single state, in which the output signal 29 is given a positive signal. This signal is fed to the output 26 of block 1. Presence of a signal The resolution of the shift at the input of the And 63 element serves as the resolution of the passage of clock pulses from the output of the And 63 element to the input of the counter of 72 clocks. After the counter 72 counted the number of clock pulses, the duration of the command sending, the signal appears at its output. End of word, input to the inputs of AND 64 elements. Both 65 and 68. When the output of the delay element 69 clocks the signal, the end of the word from the output of the element 65 is output to output 28. When the clock pulse at the output of the delay element 70 to the inputs of the triggers 60 and 6.1 from the output of the element And 6A, a signal is received, which is used to reset these Griggers and the 72J counter, after which the signal to enable the shift from the outputs 29 and 26 of unit 1 is removed. 0 This concludes the command prompt. When information is output from the digital computer, unit 1 operates as follows. After issuing a command parcel, at input 20 to the input of trigger 60 from the digital computer, the sequential code of the numerical parcel arrives, at which the trigger 60 is set to one state and to the input 29 of block 1 a shift resolution signal is received that permits the passage of pulses from input 21 of the block 1 through the element And 63 to the input of the counter 72 clocks. After the 72 clock ticker counted the number of clock pulses corresponding to the duration of a numerical sequence, a signal appears at its output. The word end arrives at the inputs of the And 64, And 68, and 65 elements. When a clock pulse appears at the input of the And 68 element from the output of the delay element 69 signal The end of the word comes from the output of the element And 68 to the output 27 of block 1. When a clock pulse appears from the output of the element. Delay 70 from the output of the element 64, a signal is given to the inputs of the trigger 60 and 61, setting these triggers to zero condition, b ca. 1 is ready to accept the next parcel number. When you enter information in the digital computer unit 1 works as follows. From the digital computer to the input 20 of the control unit receives a command parcel. After taking the last bit after -. the verification code of the command parcel at the output of the 72 clock cycles produces a signal. The end of a word is output to the output 28 of the block 1. Then through the input 25 to the input of the flip-flop 62 a signal is received, according to which the flip-flop 62 is set to one, and to the input of the And 67 element single signal. At the same time, the signal End of the word is fed to the input of the element OR 73, from the output of which is then fed to the input of the delay element 7 and then to the input of the element And 67. From the output. And the element And 67, the signal is fed to the input of the trigger 60, setting it to single state. Next, block 1 works like an analogue for displaying information in a digital computer. eleven . 110 After counting the number of pulses corresponding to the duration of a numerical parcel, counter 72 forms at its output a signal. End of word arrives at the input of element AND 68, from the output of which this signal is fed to input 27 of block 1 and input of element OR 73, s the output of which the signal arrives at the input of the delay element 71. If the flip-flop 62 is in the single state, then the signal from the output of the element 67 is fed to the input of the flip-flop 60, setting it to the single state. Then repeat the procedure for generating signals Shift resolution and End of word. After the input of the number of numeric words specified in the command prompt is completed, input 24 of the signal sets the trigger 62 to the zero state. Thus, the device provides the possibility of exchanging an array of numeric information over a single team dressing, which reduces the time spent by the digital computer to exchange information with subscribers.

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Claims (1)

A MULTI-CHANNEL DEVICE FOR PAIRING SUBSCRIBERS WITH A DIGITAL COMPUTER Raspberry, containing two groups of working registers, three groups of AND elements, a shift register, an address decoder of subscribers, an OR element and a control unit, the first input of which is connected to the inputs of the serial code of the working registers of the first group and the inputs of the device, the first output of the control unit is connected to the control input of the shift register ^ and the second output is connected to the first inputs of the elements And of the first and second groups, the second inputs of which are connected respectively to the first and second groups of outputs of the decoder addresses of subscribers, the first inputs of the elements of the third group are connected to the second group of outputs of the decoder of the addresses of the subscribers, the outputs of the elements of the first and second groups are connected respectively to the control inputs of the working registers of the first and second groups, the information outputs of the working registers of the first group form information output of the device, information inputs of the working registers of the second group Form the information input of the device, and the outputs of the serial code are connected to w to the inputs of the AND elements of the third group, the outputs of which are connected to the group of inputs of the OR element, the output of which is the output of the device’s serial code, characterized in that, in order to improve the device’s performance, an operation code decoder, a subscriber address counter and a word count counter are introduced into it the clock input of the shift register is connected to the clock input of the device, the clock inputs of the working registers of the first and second groups and the second input of the control unit, the input of the serial code of the shift register is connected inen with the input of the serial code of the device, the first and second · groups of bit outputs of the shift register are associated respectively with the information inputs of the counters of the addresses of the subscribers and the number of words, the counting inputs and inputs of the recording control are connected respectively to the third and fourth outputs of the control unit, the output of the counter of the addresses of the subscribers is connected with the input of the subscriber address decoder, the output of the word count counter is connected to the third input of the control unit, the fourth input of which is βοβ <dined with the output of the decoder opcode of a torus having an information input connected to a third "group bit shift register outputs and a control input - to the fourth output of the control unit, fifth and sixth inputs which are respectively input command signal and the input signal the initial installation of the device, wherein the control block comprises three trigTIShTOGG ^and> 'R ^' ^ ger six elements and .tri delay element, and TSLI clock counter element, wherein the first input of the first trigger unit is a first input unit, a direct output connected to the second vyho ohm of the block and the first input of the first element And, the output of which is connected to the counting input of the clock counter, and the second input - with the second input of the block and through the series-connected first and second delay elements with the first input of the second element And, the direct output of the second trigger is connected to the first inputs the third and fourth elements And, the outputs of which are respectively the first and fourth outputs of the block, the single and zero inputs of the third trigger are respectively four. the third and third inputs of the block, and the direct output is connected to the first input of the fifth AND element, the second input is connected through the third element to the output of the OR element, the first and second inputs of which are connected respectively to the outputs of the sixth and third AND elements, single, input and the inverse output of the second trigger are connected respectively to the fifth input of the block and the first input of the sixth element And, the output of which is the third output of the block, the second inputs of the third and sixth elements And are connected to the output of the first delay element, the third inputs with the output of the clock counter and the second input of the second element And, the first zero inputs of the first and second triggers are connected to the sixth input of the block, the second zero inputs are with the output of the second element And, inverse output, the direct output and the second single input of the first trigger are connected respectively with the installation input of the clock counter, the second input of the fourth element And and the output of the fifth element I.