SU1714571A1 - Time intervals meter for slowly variable pulse sequences - Google Patents

Abstract

The invention relates to a measurement technique and can be used to analyze the statistical structure of pulse signals of a rather slowly varying pulse sequence. The aim of the invention is to simplify and improve the reliability of the meter. The time interval meter of slowly varying pulse sequences contains two pulse makers, a pulse generator, two pulse counters, two memory blocks, two delay elements and an OR element are entered into the meter. The introduction of these elements and the formation of appropriate bonds enable one to achieve the object of the invention. 1 illustrations The invention relates to a measurement technique and can be used to analyze the statistical structure of pulse signals with rather slowly varying pulse sequences. The purpose of the invention is to simplify and increase the reliability of the meter. The drawing shows the block diagram of the proposed meter. The time meter of the spans contains shaper 1 short pulses on the leading edge, forms ^ 1 wiper 2 short pulses on the falling front, generator 3 pulses, counters 4 and 5 pulses, the element OR 6, the elements 7 and 8 zadep ^ kki, blocks 9 and 10 of the memory, the installation 11 and input 12 tires. The input of the imaging unit 1 is connected to the input of the imaging unit 2 and 12, and the output is connected to the first input of the element OR 6 and the input of the block 10. The output of the imaging unit 2 is connected to the input of the element 1 and the counting input of the counter, 5, the input of the zero setting is connected to the bus 11, and the output to the address inputs of blocks 9 and 10. The second input of the OR element 6 is connected to the output of the element 7 and the return input of the block 9 and the output is connected to the input of the element 8. The zero-setting input of the counter 4 is connected to the output of the element 8, the counting input is connected to the output of the generator 3, and the output is connected to the information inputs of blocks 9 and 10. The operation of the meter is as follows. 11 a start impulse arrives, under the action, a cat The first counter 5 is set to zero. The contents of the counter 5 is fed to the address inputs of blocks 9 and 10 as the address code of the corresponding row of these blocks. Input Sequence-15 "^ SLV4

Description

Pulses flow through bus 12 to inputs of drivers 1 and 2. On the leading edge of the first pulse of the input sequence, driver 1 generates a short pulse that arrives at the inversion input of block 10, and the zero line of the last, having an address code equal to the contents of counter 5, is written the contents of counter 4. The same pulse from the output of the imager t passes through the element OR b and element 8, having a slight delay sufficient to record information from the output of the counter 4 into block 9 (or 10), to the input laziness of the counter 4. and the counter 4 is zeroed out. After the zeroing, the counter 4 produces the counting of the pulses of the generator 3 arriving at its counting input.

On the falling edge of the first pulse of the input sequence, the driver 2 generates a short pulse, which, entering the counting input of counter 5, increases its content by one. The same pulse through element 7, having a slight delay sufficient to complete the transient processes in counter 5, is fed to the input of block 9 and then through the element OR 6 and element 8 to the zero input of counter 4, the first line of block 9 is recorded containing in the counter 4 code of the number of pulses of the generator 3, received at the counting input of the counter 4 during the duration of the first pulse of the input sequence. Then, the counter 4 is zeroed with a pulse from the output of the former 2, which has passed through the element 7. the element OR 6 and the element 8 to its armwave entrance.

On the leading edge of the second pulse of the input sequence, the driver 1 again generates a short pulse which enters the inversion input of block 10, and the code of the number of pulses of the generator 3 received at the counting input of counter 4 during the duration of the first interpulse interval is recorded in the counter 4. Then, the counter 4 is zeroed with a pulse from the output of the former 1, which has passed through the element OR 6 and the element 8, and again starts counting the pulses of the generator 3 arriving at its counting input.

On the falling edge of the second pulse of the input sequence, the driver 2 again generates a short pulse, under the action of which the contents of counter 5 increase by one and become equal to two, and then the second lines of blocks 9 and 10 record the numbers corresponding to the duration of the second pulse of the second pulse and the second inter pulse, respectively. interval.

Then the cycle repeats.

The number of bits of counter 4 is determined by the time they are filled, which should not be less than the maximum pulse durations and interpulse intervals of the input sequences,

0 and the frequency of the oscillator 3 is selected on the basis of the required conversion accuracy. The number of bits in blocks 9 and 10 is equal to the number of bits of counter 4. The number of rows in blocks 9 and 10 and the number of bits of counter 5 are determined by the number of pulses of the input sequence.

After the end of the pulse sequence, block 9 contains a digital code for the duration of each pulse of the input

0 of the sequence, and block 10 is the digital code for the duration of each interpulse interval, with the line number of block 9 corresponding to the pulse number, and the line number of block 10 is the number of interpulse

5 interval.

Ph o rmula and 3 a b e and the Meter of time intervals of slowly varying pulse sequences, containing a pulse former on a leading edge, a pulse former on a falling edge, a pulse generator, two pulse counters and two memory blocks in which the inputs of the pulse formers on the front and rear edges are connected to the input bus, the input of the zero setting of the first pulse counter is connected to the installation bus, the counting input is connected to the output of the pulse former on the falling front,

0 and the output is with the address input of the first memory block, the output of the pulse former on the leading edge is connected to the access input of the first memory block, the counting input of the second pulse counter is connected to the output of the pulse generator, and the output is connected to the information input of the second memory block that differs by the fact that, in order to simplify and improve the reliability of the meter, the element OR and two

0 of the delay element, the first input of the OR element is connected to the output of the pulse former on the leading edge, the second exit to the access input of the second memory block and the output of the first delay element. connected by the input to the output of the pulse generator on the falling edge, and the output to the input of the second delay element connected by the output to the input of the zero setting of the second pulse counter, the information input of the first memory block 517145716

They are connected to the output of the second memory counter and connected to the output of the first counter pulses, and the address input of the second block of pulses.

Claims (1)

Claim A time interval measuring device for slowly varying pulse sequences, comprising a leading edge pulse generator, a rising edge pulse generator, a pulse generator, two pulse counters and two memory units, in which the front and rear edges of the pulse former are connected to the input bus, the zero input the first pulse counter is connected to the installation bus, the counting input to the output of the pulse shaper on the trailing edge, and the output to the address input of the first memory block hi, the output of the pulse shaper on the leading edge is connected to the revolution input of the first memory block, the counting input of the second pulse counter is connected to the output of the pulse generator, and the output is with the information input of the second memory block, characterized in that, in order to simplify and improve the reliability of the meter, an OR element and two delay elements are introduced into it, the first input of the OR element is connected to the output of the pulse former on a rising edge, the second input is connected to the input of the second block of memory and the output of the first element of the LCD connected to the input with the output of the pulse shaper on the trailing edge, and the output to the input of the second delay element connected to the output of the zero counter of the second pulse counter, the information input of the first memory block 1714571 is connected to the output of the second memory counter is connected to the output of the first pulse counter, and address input of the second block of pulses.