SU1035797A1 - Multichannel system control device - Google Patents

Abstract

1.MANAGING SYSTEM OF MULTI-CHANNEL SYSTEM, containing a pulse generator and a counter connected to the decoder, which is so that, in order to increase the reliability of work, the element OR, RS-trigger, controller are entered into it. and terminal blocks, the output of the pulse generator is connected to the first input of the counter, the second input of which is connected to the control bus and the first input of the controller. and the third input is connected to the installation bus and the second input of the controller, the third input of which is connected to the output of the RS flip-flop, and the remaining inputs are connected to the corresponding inputs of the decoder and selection buses, and the outputs of the decoder are connected via the OR element to the s input of the RS-flip-flop, R - the input of which is connected to the first OUTPL1 of the controller, the second and third inputs of which are connected respectively to the first and second inputs of the terminal blocks. 2. The device according to claim 1, characterized in that the terminal unit contains a decoder and an element, and the inputs of the decoder g are connected to the first inputs of the terminals (the first block, and the output of the decoder is connected to the first input of the element I, the second input of which is connected to The second is the input of the terminal unit, and the output is with the OUTPUT bus.

Description

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The invention relates to automation, measuring and computer technology and can be used in automatic control systems, data acquisition, processing and transmission. A device for controlling multichannel systems is known, comprising control blocks, address buses and function codes, and Cl terminal blocks. . The drawback of the device is the complexity of the equipment. The closest to the proposed one is a control device for multi-channel systems containing a pulse generator, frequency dividers, counters and a P2 decoder. A disadvantage of this device is the low reliability of the function. The purpose of the invention is to increase reliability; The goal is achieved by the fact that an OR element, an RS trigger, a controller, and terminal blocks are introduced into a control unit of a multi-channel system containing a pulse generator and a counter connected to the decoder, the output of the pulse generator being connected to the first input of the counter, the second input of which is connected ft of the control bus and the first controller bypass, and the third input is connected to the installation bus and the second input of the controller, the third input of which is connected to the output of the R9 trigger, and the remaining inputs are connected to the corresponding input The decoder and selection buses, the decoder outputs are connected to the 6th input of the RS flip-flop / R-input connected to the first controller in the controller through the IL element, the second and third outputs of which are connected to the first and second inputs of the end blocks, respectively. Each terminal block contains a decoder and an element And, with the input of the decoder connected to the first inputs of the terminal block, and the output d. The encoder is connected to the first input of the element I, the second input of which is connected to the second input of the end block and the output to the output bus. The drawing shows the functional diagram of the device. The device contains a pulse generator 1, a binary counter 2, a deschrager 3, an element OR 4) I & -trigger 5 controller 6, selection bus 7, terminal blocks 8 consisting of decoder 9, element 10, output bus 11, control bus 12 and bus 1 installation. The device works as follows. forward pulse generator 1 generates a continuous sequence of pulses. According to the input level signal, binary counter 2 counts the forward pulses and, on the leading edge of the same signal, controller b, according to the signal on one of the buses 7, select the control signal arrangement to be implemented, corresponding to the assigned arrangement on the bus 7. Thus, at the outputs of the bits of binary counter 2 there are temporary codes for the time of action of the level signal of the load 12. Decryphra p 3 is incomplete and decrypts only those time codes that correspond to the position of the control signals in the implemented time arrangements. The outputs of the decoder are gated with a Signal via one of the buses 7 to select a realizable arrangement of control signals. All outputs of the decoder 3 are combined with the HJffl 4 element. At the output of the OR 4 element, a time sequence is obtained, with pulses that are allowed for one of the buses 7. This time sequence goes on one line and does not have addresses for a particular executive device. Any of the pulses from the output of the SHS 4 element sets the R $ -Trigger 5 input to the logical 1 state, which is the clocking signal for reading the next word, exchanging the trunk lines from the controller 6. The controller B transmits the control signal to one or more terminal blocks 8 and therefore to certain output buses 11 using existing trunk lines. On the leading edge of the level sigal, allowing the counting of the advancing pulses, the controller 6 records the starting address. The initial address corresponds to the time sequence that is allowed for sampling one of the buses 7. When logical 1 is output, the word is read at the output of the RS flip-flop 5 recorded in those bits of the data word, the numbers of which correspond to the index of control signals, Issued at a given time interval. At the end of the sampling of the data word, RS-flip-flop 5 is set to the O state at the input, and 1 is added to the address of the controller 6, which prepares this controller for the next clock signal. Simultaneously with

the data word to the trunk lines from the controller 6 receives the address and function code, which is perceived and decrypted by all the octal blocks 8, the decoder 9 of the terminal, block 8 is the same length. of all blocks 8. Element And 10 is connected to one of the main data lines and outputs a signal to the output slime. And only if the address of the general address to all blocks 8 is decoded. After the sequence of pulses is completed, counter 2 is connected to the R input and controller b is established

the initial state of the signal on the bus 13 of the installation to the arrival of the next level signal, allowing the account of the forward pulses.

Thus, the introduction of the OR element, the RS flip-flop, the controller and the end blocks allows for the placement of control signals in time stamps at any intervals between them. When programmatically selecting arrangements with high reliability, by reducing the number of connections and reducing equipment.

Claims (2)

"421124, cl. H 03 K 17/00, 06/21/72. . 1 '. DEVICE · MANAGEMENT OF A MULTI-CHANNEL SYSTEM, containing a pulse generator and a counter connected to a decoder, with the exception that, in order to increase the reliability of operation, an OR element, an RS-trigger, is introduced into it , a controller and terminal blocks, and the output of the pulse generator is connected to the first input of the counter, the second input of which is connected to the control bus and the first input of the controller, and the third input is connected to the installation bus and the second input of the controller, the third input of which is connected to the output of the RS trigger , and the rest of the inputs connected to the corresponding inputs of the decoder and the selection buses, and the outputs of the decoder through the OR element are connected to the 9th input of the R5 trigger, the R-input of which is connected to the first output of the controller, the second and third outputs of which are connected respectively to the first and second inputs of the terminal blocks. 2. The device according to p. 1, characterized in that the terminal block contains a decoder and an element And, the inputs of the decoder g connected to the first inputs of the terminal block, and the output of the decoder sub-G keys to the first input of the element And, J the second · input of which is connected with the second With the input of the terminal block, and the output with the output bus. 2