SU752798A1 - Time to code adaptive recirculation converter - Google Patents

Description

The device relates to a pulse technique, in particular to devices for discrete measurement of time intervals.

A known time converter is a code containing delay lines, start and stop pulse formers, a recirculation failure trigger, two switches consisting of a trigger and two matching circuits controlled by it, an OR circuit, an additional delay line {.

The known converter is a time code, / containing a clock pulse generator of reference frequency, connected to the inputs of p-gates, n-triggers of lower-order bits, AND circuit, OR circuit, old trigger circuit, logic circuit OR NOT 2. A disadvantage of devices is There is a large amount of equipment and information redundancy when measuring time intervals in a wide range.

The closest in technical essence is a device containing a counter, five delay elements, an AND element, the first input of which is connected to the inputs of three delay elements 3.

The disadvantage of the device lies in the redundancy of information obtained by the 1st when measuring time, intervals in a wide range, provided that the relative error is specified. Ensuring a given relative error at the beginning of the range of measured intervals is achieved by increasing the quantization frequency.

However, the measurement of large time intervals using the same quantization frequency will lead to excessive accuracy and to the use of a large number of scaling circuits.

The purpose of the invention is to obtain a small current relative error in a wide range of time intervals.

Claims (3)

This goal is achieved by the fact that the adaptive recirculation transducer is a time code containing a counter, five delay elements, an AND element whose first input is connected to the inputs of three delay elements, four OR elements are entered, and a shift register whose input is connected to the output. the meter directly and through the fourth delay element - to the input of the higher bit 30 of the last decade of the counter, the input - bus is connected to the first input of the first OR element, the second input is connected to the output of the AND element and the input of the counter ik, the output of the first element OR through the fifth element of the delay is connected to the first input of the element AND, the outputs of the first, three delay elements are respectively connected to the first inputs of the second, third and fourth elements OR, their second inputs are connected to the outputs of the shift register, and the outputs - to the inputs of the element And. The drawing shows schematically the device. The device contains elements 1-4 OR, delay elements 5-9, element 10 AND, a decade counter 11, shift register 12. . The device works as follows. In the initial state, the decade counter 11 is zero, and in all, except for the first, bits of the shift register 12, units are recorded. The output signals of the shift register 12 block elements 3 and 4 OR and element 2 OR is opened. The converted time interval in the form of a square pulse with duration yy enters the input of element 1 OR, With the output of element 1 IL, through element 5 delay pulse duration D:}; is applied to the first input of the element 10 I, and through the delay element 6 and the open element 2 OR to the second input of the element 10 I. The third v fourth inputs of the element 10 And receive the enabling signals, i.e. unit voltage levels from the output of elements 3 and 4 OR. Thus, the first and second inputs of the element 10 And receives pulses of duration j; , shifted relative to each other by the value of i T, i.e. the delay time generated by the element 6 delay. On the output of the element lO and a pulse of duration T is formed, which is sent to the decade counter 11 and to the second input of the element 1 OR. The delay T, created by the delay element 5, is a little more than the maximum possible duration of the measured time interval. This provides the possibility of creating a pulse circulation process in a closed contour and elements 1, 5, 6, 2, and 10, with the duration of the inversion pulse being reduced by D T in each cycle. U T is chosen as small as possible so that the filling of the decade counter 11 would be sufficiently complete for small time intervals of the beginning of the range. For automatic switching, the selection criterion of the quantization step is the recording and the coded code corresponding to the measurand in all bits of the counting counter 11. The filling of the counter 11 is in the range from 10 to 100% of its total capacity. Depending on the measured interval, two cases are possible: the measured time interval is such that with the quantization step T, the counter is filled with less than 100% of its full capacity; the measurement interval is such that the decade counter will overflow. In this case, the quantization step i.T is too small, and the overflow pulse of the decade counter 11 is a signal to switch the quantization step to a larger one. From the output of the decade counter 11, an overflow pulse is applied to the shift register 12 and performs a zero shift in the second register bit 12 and is written to its first bit unit. In addition, the same overflow pulse passes through the delay element 9 to the first trigger of the last decade decade counter 11 and writes the unit CTapJijero bit. Then the counter readings will be the same as when quantizing a time interval with a step of 10 liters T. Thus, one is blocked. Elements 2 and 4 OR have become the lowest level of voltage, and element 3 OR is open. The inversion pulse now begins to circulate in a closed loop of elements 1, 5, 7, 3, and 10, with its duration decreasing by 10 DT in each circulation cycle. In other words, the device continues to measure, creating an illusion that the interval is quantized in 10 U T steps from the very beginning. Changing the scale when changing the quantization scale can be carried out by transferring the information in the sample device or the digital display system, synchronously with the zero shift in the register 12. The same two cases are possible when circulating with the quantization step of 10 D T. If the quantization step turns out to be small again, then the process of moving to one bit of the bit in register 12 and increasing by another ten times the quantization step will be repeated. The circulation process now takes place in a closed loop of elements 1, 5, 8, 4 and 10, and the inversion pulse is reduced in each cycle by 100 LTs, etc. / as far as possible within the meter. Invention Adaptive Recirculation Converter Time code containing a counter, five delay elements, an Element I, the first input of which is connected to the inputs of three delay elements, characterized in that, in order to obtain a small current relative error in a wide range of time interval measurements, four elements are entered into it and OR and the shift register, whose input is connected to the output of the counter directly and through the fourth delay element to the input of the higher bit of the last decade of the counter, the input bus is connected to the first input of the first OR element, the second input of which is connected to the output of the AND element and the counter input, the output of the first element OR through the fifth zlemen: delays connected to the first input of the element AND, the outputs of the first three delay elements respectively connected to the first inputs of the second, third and fourth elements OR, their second inputs connected to the outputs of the shift register, and the outputs to the inputs of the element I. Sources of information taken into account by expert examination 1. USSR author's certificate No. 346705, cl. H 03 K 13/20, - 1972. 2.Avtorskoe with the USSR vide videdelst 418971, cl. H 03 K 13/20, 1975, 3. Authors certificate of the USSR 513944, cl. H 03 K 13/20, 1976 (prototype). g