SU1661974A1 - Device for pulse sequence generation - Google Patents

Abstract

The invention can be used for non-destructive testing of joined layers of homogeneous materials. The aim of the invention is to increase speed. The purpose of the invention is achieved by introducing into a device for forming a pulse sequence of trigger 3, first 4, second 5, third 6 and fourth 7 elements AND, first 8 and second 9 elements OR, first 10 and second 11 counters, first 13 and second 14 elements delays and new functional relationships. In addition, the device comprises a generator 1, a pulse shaper 2, a pulse distributor 15 and N channels 16.1 - 16.N forming pulses. The increase in speed is achieved by alternately measuring the counters 10, 11 time intervals between the pulses of the input sequence and thus combining the operations of measuring time intervals and recording the measured values in channels 16.1 - 16.N of the formation of pulses. 1 il.

Description

9 elements OR, the first 10 and second 11 counters, the first 13 and second 14 elements and new functional connections. In addition, the device contains a generator 1, a pulse shaper 2, a distributor 15 pulses per n channels 16.1-16.p of pulse shaping. The increase in speed is achieved by alternately measuring with the counters 10, 11 time intervals between the pulses of the input sequence and thus combining the operations of measuring time intervals and recording the measured values into the channels 16.1-16.p of the formation of pulses. 1 il.

The invention relates to a pulse technique and can be used for non-destructive testing of interconnected layers of dissimilar materials.

The purpose of the invention is to increase the speed of the device for forming a sequence of pulses.

The drawing shows a functional diagram of an apparatus for generating a sequence of pulses.

The device contains a generator 1, a driver 2 pulses, a trigger 3, the first 4, the second 5, the third 6 and the fourth 7 elements And the first 8 and second 9 elements OR, the first 10 and second 11 counters, multiplexer 12, the first 13 and second 14 elements delays, pulse distributor 15, N pulse shaping channels 16.1-16.p, first 17 and second 18 input buses, first 19.1-19.p and second 20 output buses, Generator 1 output 1 is connected to the first inputs of the driver 2 pulses, first 4 and the second 5 elements And to the third inputs of the channels 16.1-16.p forming pulses, four These inputs are connected in order of decreasing numbers of channels 16.1-16p of pulse formation, respectively, to the outputs of the distributor 15 pulses, in order of increasing their numbers. The first input bus 17 is connected to the second input of the imaging unit 2 pulses, the output of which is connected to the input of the first delay element 13, to the second inputs of the third 16 and the fourth 17 elements And to the counting input of the trigger 3. The second input bus 18 is connected to the second inputs of the first 8 and the second 9 elements OR to the reset inputs of the distributor 15 pulses and the trigger 3, the direct output of which is connected to the second input of the first element AND 4 and the first input of the third element AND 6. The inverse output of the trigger 3 is connected to the control input of the multiplexer 12, to the second input of the second element And 5 and to the first input of the fourth element And 7. The outputs of the third 6 and fourth 7 elements And are connected respectively to the first inputs of the first 8 and second 9 elements OR, the outputs of which are connected respectively to the reset inputs of the second 11 and first 10 counters. The outputs of the first 4 and second 5 elements And are connected respectively to the counting inputs of the first 10 and second 11 meters, the outputs of which are connected respectively to the first and second inputs of the multiplexer 12, the output of which is connected to the fifth inputs of the channels 16,1-16, p pulse formation The outputs of which are the first output bus 19.1-19. of the device, the output of the last channel 16. of the formation of pulses is connected to the first input of this channel.

5 The output of each channel 16.1-16.p-1 pulse shaping is connected to the first input of the same channel and to the second input of the next channel. The output of the last bit of the distributor 15 pulses is connected to the input of the second delay element 14, the output of which is connected to the second output bus 20 of the device and the second input of the first channel 16.1 of the formation of pulses. The output of the first element 13 delay

5 is connected to the input of the distributor 15 pulses.

Each of the channels 16.1-16.p formation of pulses contains a trigger 21, the element And 22 and the counter 23, the output of which

0 is the output of channel 16. To the formation of pulses (, 2p), the first and second

the inputs of which are connected respectively to the inputs of the reset and trigger setup 21. The third, fourth and fifth inputs of the channel

5 16. To the formation of pulses are connected respectively to the first input of the element And 22, to the recording input of the counter 23 and to the information input of this counter. The trigger output 21 is connected to the second input.

0 element And 22, the output of which is connected to the subtractive input of the counter 23.

The device works as follows.

The device is reset to the initial state by the signal arriving on the bus 18, the trigger 3 is reset. The counter is set to the zero state of the counter 10 and 11 and the distributor 15 pulses.

The pulse of the initial sequence is received by the shaper of 2 pulses from the bus 17. The shaper of 2 pulses with each input pulse generates a signal synchronized by the pulses of the generator 1. The time intervals of the initial sequence are measured by filling these intervals with the pulses of a known frequency 1 and counting the number of these pulses 10 and 11. At the same time, the first pulse from the output of the driver 2 pulses throws trigger 3 into one state. Through the open element And 4 to the counting input of the counter 10 receives the pulses of the generator 1. The second pulse from the output of the imaging unit 2 pulses through the open element And 6 and the element OR 8 to the reset input of the counter 11, preparing this counter to measure the next time interval. This pulse triggers the trigger 3 to the zero state - the element 4 is closed, and through the element 5 the generator 11 pulses go to the input of the counter 11, i.e. measurement of the second time interval occurs. At the same time, the code of the first time interval is stored on the counter 10. The counter 10 is zeroed by the third input pulse, which is fed to the reset input of the counter 10 through the open element AND 7 and the element OR 9. The next time interval measurement cycle occurs.

Thus, counters 10 and 11 alternate for counting the number of pulses determining the duration of time intervals. Moreover, during the time when one counter counts the number of pulses of the current time interval, another counter stores the code of the value of the previous time interval. This makes it possible to combine the measurement of time intervals with the recording of codes for the values of time intervals in the counter of 23 channels of 16.1-1 bp without intermediate storage of these codes.

Alternately, recording information about the values of time intervals in the counters 23 of channels 16.1-16.p occurs as follows.

The multiplexer 12, controlled by the signal from the inverse output of the trigger 3, passes to its output the code of that counter, which is in the storage state of the value code of the measured time interval. With the switching of trigger 3, the code of another counter appears at the output of multiplexer 12, which up to this point is in the mode of measuring the time interval. So the multiplexer

12 alternately passes to the inputs of the counters 23 channels 16.1-1 bp codes of the values of all time intervals of the initial pulse sequence, starting with the 5th first interval. These codes are written to the counters 23 by pulses from the outputs of the distributor 15 pulses that are delayed relative to the pulses from the output shaper

10 2 pulses element 13 delay. This is necessary so that the write pulses arrive at the corresponding inputs of the counters 23 not at the moments of changing information at the outputs of the multiplexer 12, i.e. for

15 exclude reading false information. The output of the pulse distributor 15 is not used. The recording of information about the values of the time intervals occurs in the following order: the signal from the first output of the distributor 15 pulses corresponding to the second input pulse in the channel 16 records the value of the first time interval, the signal from the second output of the distributor 15 and 5 pulses Channel 16.P-1 records the value of the second time interval, etc., the value of the last time interval is recorded in channel 16 1 by a signal from the last output of the distributor 15 and 0 pulses.

The formation of a sequence of pulses by channels of the formation of pulses begins with the launch of channel 16.1 by a signal from the output of delay element 14, to

5, the input of which is given a signal from the last output of the distributor 15 pulses. The pulse from the output of the delay element 14 is the first pulse of the output sequence. With this pulse the trigger 21 of channel 16.1 is set. Through the element And 22 to the counting input of the counter 23 receives the pulses of the generator 1. Since the counter 23 of the channel 16.1 recorded the code corresponding to the value of the last

5 time interval of the original sequence, then the output of the overflow of this counter after a time equal to the last time interval of the original sequence, appears pulse arriving on the bus 19.1, to start channel 16.2, and to the reset input of the trigger 21 channel 16.1, Element And 22 channel 16.1 is locked. Channels 16.2-1 bp alternately start and form the remaining pulses of the sequence, similar to channel 16.1.

The use of the proposed device allows the formation of an inverse sequence of pulses. Moreover, the combination of time interval measurement operations with the operation of recording the value of the previous time interval into the pulse shaping channels eliminates the intermediate storage of the values of the measured time intervals and, consequently, improves the device performance as compared with the known device.

Claims (1)

The invention The device for forming a pulse sequence comprising a generator, a pulse shaper, a pulse distributor and N pulse forming channels, the output and the first input of each of which are combined, the output of each of the pulse forming channels, except the last, is connected to the second input of the next the pulse shaping channel, the generator output is connected to the first input of the pulse generator and the third inputs of the pulse shaping channels, the fourth inputs of which are in order of age pulse shaping channel numbers are connected respectively to the outputs of the pulse distributor, in order of decreasing their numbers, the outputs of the pulse shaping channels are connected to the first output bus of the device, characterized in that, in order to increase speed, a trigger, multiplexer, first and the second OR elements, the counters and the first and second delay elements, the first, second, third and fourth elements AND, the generator output is connected to the first the inputs of the first and second elements AND, the outputs of which are connected to the counting inputs of the first and second counters, respectively, the reset inputs of which are connected respectively to the outputs of the second and first elements OR, the first inputs of which are connected respectively to the outputs of the fourth and third elements AND, the direct output of the trigger is connected to the second input of the first element And the first input of the third element And, the inverse output of the trigger is connected to the second input of the second element And, to the first input of the fourth element And and the input control the multiplexer, the first and second inputs of which are connected respectively to the outputs of the first and second counters, the output of the multiplexer is connected to the fifth inputs of the pulse shaping channels, the second input of the pulse generator, is the first input bus of the device, the second input bus of which is connected to the reset inputs of the trigger and distributor pulses and the second inputs of the first and second elements OR, the output of the pulse shaper is connected to the second inputs of the third and fourth elements AND, to the counting input of the trigger and the input the first delay element, the output of which is connected to the input of the pulse distributor, the last output of which is connected to the input of the second delay element, the output of which is connected to the second output bus of the device and the second input of the first channel of formation of pulses.