SU1322441A1 - Device for delaying pulses - Google Patents

Description

The invention relates to automation and computing and can be used as a device for delaying a sequence of pulses in the processing of complex signals.

The purpose of the invention is to increase the reliability of the device by eliminating the possibility of failures and splitting the output pulse.

The drawing shows the functional electrical circuit of the device.

The device contains the first 1, second 2, third 3 pulse shapers, first 4, second 5, third 6 and fourth 7 elements OR, first 8, second 9 and third 10 counters, a group of counters 11 consisting of reversible counters (AND - 1 ) - (11-N), sensor 12 code, first 13 and second 14 elements And, first 15 and second 16 triggers, first 17 and second 18 multiplexers and generator 19.

The input of the pulse former 1 is the input of the device, and its output is connected to the second input of the first element AND 13 and the first input of the first element OR 4, the output of which is connected to the summing input of the counter 9, and the second input of which through the second driver 2 of the pulses is connected to the transfer output The second counter 9, the information outputs of which are connected to the first inputs of the first element I 13 and the control inputs of the first multiplexer 17, whose outputs are connected to the summing inputs of reversible counters (11 - 1) - (11 - -N), you The input inputs of which are connected to the outputs of the second multiplexer 18, the information input of which is connected to the information input of the first multiplexer 17 and the output of the generator 19, and the control inputs connected to the information outputs of the counter 10, the transfer output of which through the driver 3 is connected to the input of the element OR 5, the output which is connected to the summing input of the counter 10, and the second inputs of which are connected to the transfer outputs of the reversible counters (11-1) - (11-N), the installation inputs of which are connected to the installation inputs 9 and 10, and through element 6 - with a zero input of the trigger 16, and connected to the second output of the sensor 12 code, the first outputs of which are connected to the pre-installation inputs of the counter 8, the executive pre-installation input of which is connected to the output of the And 13 element and the first the trigger input 15, the output of the latter is connected to the input element And 14, the second input of which is connected to the output of the generator 19, and the output is connected to the subtractive input of the counter 8, the output of which is connected to the second input of the trigger 15 and one of the inputs of the elements OR 5 7, the corresponding inputs of the OR element 6 are connected to the transfer outputs of the odd AND - 1, 11-3, ..., AND - - (N-1) reversible counters, and the inputs of the OR element 7 to the transfer outputs of the even 11-2 , 11-4, ..., 11-N reversible counters, the output of the element OR 7 is connected to a single input of the trigger 16, the output of which is the output of the device.

The device works as follows.

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Into the sensor 12 of the code, information is stored by storing a binary code corresponding to the value of K, which serves to represent the magnitude of the delay Tz in the form

5k

ТЗ Р-, where fr - the frequency of the im1g

pulses produced by the generator 19. Before starting work, the sensor 12 gives out a pulse to its second output,

0 which prepares the device for operation — zeroes counters 8-10, reversible counters (11 - 1) - (11-N) and through the element OR 6 trigger 16. The device is ready for operation.

5 The input sequence of the device passes to the input of the pulse generator 1, which generates short pulses corresponding to the significant moments of the input pulse sequence, i.e. fronts and cuts. These short pulses arrive at the first input of the element OR 4 and at the second input of the element AND 13. The first inputs of the element AND 13 are inverse and, since at the initial moment the counter 9 is in the zero state, the first pulse arriving at the second the input element And 13, passes on its output and then on the executive input of the counter 8, thereby setting it to the state of the value / (whose binary code affects the inputs of the presetting of the counter 8 from the first

0 sensor outputs 12 code, as well as the first input of the trigger 15, transfer it to one state. A single potential from the output of the trigger 15 opens the element And 14, and the clock pulses, the passage from the output

from generator 19, through element I 14, goes to the subtracting input of counter 8. At the same time, the pulse from the output of imaging unit 1, passing through the element OR 4, goes to the summing input of counter 9, transferring the zero combination to its binary to 0, the unit code.

As a result, after the action of the first pulse corresponding to the significant moment of the input pulse, the element And 13 is closed. In addition, the control inputs of multiplexer 17 are appended with a binary code, e.g., inits, with the result that its information input is switched to its first output, which is connected to the summing input

the reversible counter 11-1 of block 11. Therefore, the pulses coming from the output of the generator 19 are summed up in the counter 11-1, until the next pulse from the output of the driver 1 puts the counter 9 into the next state. Then the input of the multiplexer 17 is connected with its second output, and the filling of the counter 11-2 begins, i.e. in the counter (11 - 1) - (11-N) the code corresponding to the length of the single and zero levels of the input sequence is recorded, while the counters II - 1, 11-3, 11-5, and so on, the code corresponding to the values of the single levels, and in counters 11-2, II-4, 11-6 and so on - zero levels. The volume of the counters (II - 1) - (11-N) and the clock frequency of the generator 19 (depending on the speed of the input pulses) are chosen so that these counters do not overflow when recording the code of the value corresponding to the maximum duration of the informed message. at the same time, the number of bits is sufficient for the subsequent reading of this code with a given accuracy.

After the clock pulses coming from the output of the AND 14 element to its subtracting input, the counter 8 is zeroed, an overflow pulse appears at its transfer output, which translates the trigger 15 into the zero state, the passage through the OR element 7 translates the trigger 16 is in the unit state and, the passage through the element OR 5 is fed to the summing input of the counter 10. As a result, the formation of the delayed input sequence for the time T3 begins at the device output. At the outputs of counter 10, a unit code is generated that goes to the control inputs of the multiplexer 18. The information input of the multiplexer 18 is switched to its first output, and the counting input of the counter 11 - I receives pulses from the generator 19. Once counter 11-1 is zeroed out (and this happens after a time equal to the duration of the first single pulse of the input sequence), an overflow pulse appears at its output, which, passing through the OR 6 element, translates the output trigger 16 into Nya Ullevi state and extending through an OR gate 5 is supplied to a summing input of the counter 10. As a result, the output device is formed by a pulse of equal duration first input unit impulse, and spaced from it on the time interval Ts. At the outputs of the counter 10, the binary code of the number two is formed, and the information input of the multiplexer 18 is scaled to its second output. In this case, the duration of the input zero pulse following the first single pulse is read from the counter 11-2; a transfer pulse through which the OR element 7 translates the trigger 16 into a single state, etc. Thus, at the output of the device, a sequence of pulses is formed, corresponding to the input, but delayed relative to it for a predetermined time Tj per Q holder.

Claims (1)

Invention Formula Pulse delay device containing first, second and third counters, 5 first and second elements AND, first, second, third and fourth elements OR, code sensor, generator, first and second triggers, with the first code sensor outputs connected to the preset inputs first counter, information The outputs of the second counter are connected to the first inputs of the first element AND, the output of the first trigger is connected to the first input of the second element AND, the second input of which is connected to the generator output, the output of the third element OR is connected to the first installation input of the second trigger, the output of the fourth element OR is connected to the second installation input of the second trigger, the output of which is the output of the device, characterized in that, with the aim 0 increase reliability by eliminating the possibility of failures and splitting the output pulse, the first, second, and third pulse shapers, the first and second multiplexers, and a group of counters consisting of N reversing counters, are introduced into it; 5, the input of the first pulse shaper is the input of the device, and its output is connected to the second input of the first element AND and the first input of the first OR element, the second input of which is connected to the output of the second pulse shaper, the input of which is connected to the transfer output of the second counter, summarizing the input of which is connected to the output of the first OR element, and the outputs are connected to the nerve inputs of the first element AND and to the control inputs of the first multiplexer, the outputs of which are connected to the summing inputs of reversing etchikov group counters, subtracting inputs of which are connected to the outputs of the second multiplexer, control inputs of which 0 connected to the outputs of the third counter, the transfer output of which is connected to the input of the third pulse generator, the output of which is connected to the first input of the second OR element, the output of which is connected to the summing input of the third counter, and 5 second inputs are connected to the transfer outputs of reversible counters of a group of meters, and the transfer outputs are odd 1. 3, 5, ... N-1 (if N is an even number) reversing 0 The first counters are connected to the first inputs of the third OR element, and the transfer outputs of even 2, 4 ... N reversible counters are connected to the first inputs of the fourth OR element, and the second code sensor output is connected to the installation inputs of the second and third counters and reversible counters of the counter group, and also with the second input of the third element OR, and the generator output is connected to the information inputs of the first and second multiplexers, with the second input of the second element And, the output of which is connected to the counting input of the first counter a, the executive input of the test installation of which is connected to the output of the first element I and the first input of the first trigger, and the transfer output is connected to the second input of the first trigger, the third input of the second element I and the second input of the fourth element I.