SU752214A1 - Time interval-to-digital code converter - Google Patents

Description

(54) TRANSFORMER OF TIME INTERVALS TO DIGITAL CODE

one

The invention relates to a measurement technique and can be used in various fields of science and technology for measuring time intervals in a series of pulses. five

A known time interval transducer is a digital code comprising a reference frequency generator connected to the first inputs of two matching elements, the second inputs 10 of which are connected to the corresponding outputs of the control trigger. and the outputs of the matching elements are connected to the counting inputs of two pulse counters, the outputs of which bits 15 are connected respectively to the first inputs of the n matching elements, the second inputs of which are connected to the polling buses of the counters, the source of the sequence of pulses, the delay element, two 20 elements of the match and trgr, whose counting output is connected to the output of a source-pulse train, and the outputs of an additional trigger are connected to the first inputs of two additional matching elements, the second inputs of which The x are connected via a delay element to the output of the reference frequency generator, and the outputs of the additional matching elements are connected to the inputs of the control trigger 1. The disadvantage of the converter is the limitation of the accuracy of the conversion of time intervals to a digital code by the period of the pulse of the reference generator in connection with the direct relationship between the error and the period.

The purpose of the invention is to reduce the error in the conversion of time intervals into a digital code.

The goal is achieved by the fact that in the time converter to a digital code containing a geerator of the reference frequency, the first and second pulse counters, the outputs of which are respectively connected through matching elements to the output buses, the second inputs of which are connected to the corresponding polling pulse buses, trigger, counting the input of which is connected to the input bus, and the direct and inverse outputs are connected respectively to the first inputs of the first and second And elements, the second inputs of which are connected to the output of the first about the delay element, and their outputs are connected respectively to the first and second inputs of the control trigger, the second delay element, the first and second pulse distributors and the OR element are introduced, the second input of the delay element is connected to the output of the reference frequency generator, the first input of the OR element , and the first inputs of the pulse distributors, and its output is connected to the second inputs of the pulse distributors and the second input of the element OR, the output of which is connected to the input of the first delay element, the direct and inverse outputs the control trigger is connected respectively to the third inputs of the first and second pulse distributors, the outputs of which are connected respectively to the inputs of the first and second pulse counters.

FIG. 1 shows a block diagram of the device; in fig. 2 timing charts of the device.

The device contains a generator 1 of the reference frequency, the first and second distributors 2 and 3 pulses, the first and second delay elements 4 and 5, the first and second counters b and 7 pulses, and the elements 8 and 9 of the match, bus 10 and 11 polling pulses, the control trigger 12, the first and second elements 13, 14 And, the trigger 15, the element 16 OR.

The device works as follows.

From pulses arriving at the input, trigger 15 switches over the counting input and alternately opens elements 13 and 14 I.

The pulses from the generator 1 and the pulse delayed by a half period in the delay element 5 pass through the element 16 OR to the inputs of the elements 13 and 14 AND, and depending on which of them is opened by the potential from the output of the trigger 15, the pulses pass to S or R - inputs of control trigger 12 and switch it, which gives permission for the passage of pulses to counters b and 7.

At that time, while the counter is counting, the numeric code of the preceding time interval from the sequence arriving at the input is stored in another counter 7, and by issuing an appropriate pulse, the polling code is output to the means of storing the measurement result.

The introduction of pulse distributors allows one to reduce the methodical error of the converter by a factor of two. Counters 6 and 7 respond to each pulse of & B from U-f sequences

and and (fig. 2), i.e. when the oscillation period of the generator 1 of the reference frequency T, the counter responds to every half-period of oscillation. The input pulse on segment T may appear in time interval data, for example, between pulses 1 and 1 (Fig. 2) or between pulses 1 and 2. If the OR element is missing and the delay element is connected only to the generator output

0 of the reference frequency, as in the known case when the input pulse appears at the moment of time, shown in FIG. 2, trigger 12 does not switch from 1 ° pulse, but from pulse 2, which

f will result in an additional error of 0.5 Td.

Claims (1)

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