SU935962A1 - Time interval meter - Google Patents

Description

(METER OF TIME INTERVALS

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The invention relates to a pulse technique and can be used to create systems operating in the time division mode, analyzing systems functioning in time of computer complexes and separate units of computer mathematical support.

A device is known that contains a time interval generator, time interval counters, and AND elements that allow for the reading and reading of time tlj.

However, in the known device, it is not possible to read the readings from the time interval counter at an arbitrary point in time without decreasing the accuracy of the reading.

The closest to the invention to the technical essence is a device containing time interval counters, time interval generator and element I. The first, second and third time interval counters allow you to take time readings in seconds, minutes and hours, respectively, with the output of the time interval generator with the input of the first counter .. time intervals, the output of which is connected to the input of the second counter of time intervals, the output of which is connected with the input of the third time counter 23 intervals. In this case, each of the time interval counters can be binary-decimal 23.

A disadvantage of this device is also the fact that there is no possibility to read the readings from the time interval counters at an arbitrary point in time without decreasing the accuracy of the reference.

The purpose of the invention is to expand the functionality of the time sensor by ensuring that the counter of time intervals is read at an arbitrary point in time without reducing the accuracy of the reference. The goal is achieved by the fact that the time interval meter, which contains the time interval generator and time interval counter, has a clock pulse generator and synchronization unit, the inputs of which are connected to the time slot generator outputs, the clock generator and time counter of which inputs are connected to sync block outputs The synchronization unit may contain serially connected first trigger, first element AND, second trigger and second element AND, serially connected third trigger, third element AND, fourth trigger and fourth element AND, as well as three delay elements, the first and second inputs of the synchronization unit connected to the first inputs of the first and third triggers, respectively, the second inputs of which through the first and second delay elements are connected to the outputs of the first and third elements I, respectively, the second inputs of which connected to the third input of the synchronization unit and through the third delay element with the second inputs of the second and fourth elements And whose outputs are connected to the outputs of the synchronization unit, while the second outputs of the second and fourth flip-flops are connected to the third inputs of the fourth and first elements I. . 1 shows a block diagram of a time interval meter; in fig. 2 - functional block diagram synchronization. From the epithel of time intervals (Fig. 1) there is a generation | of 1 synchronizing pulses: - a time interval generator, a synchronization unit 3, a time interval counter C, a time interval reading signal bus 5, a time counter counter, output bus 6, outputs 7 and 8 count 4 time slots, which are

respectively, the signals of the end of the recalculation and the end of the readings of the time interval counter, the input 9 of the counter t time intervals, which is the signal of the recalculation, the inputs 55 10-12 of the synchronization unit-3, which are respectively the output signal of the time interval generator 2. 9

provided

(12)

(3) (M 4 readout signal and output C1 of the generator of synchronizing pulses 1, input 13 of counter i time intervals, which is a read signal. Synchronization unit 3 (FIG. 2) contains triggers, elements 18-21, and also delay elements 22-24. The time meter measures as follows: The inputs 10 and 12 of the synchronization unit 3 receive signals from the outputs of the generators 1 and 2, which allows the output of the synchronization unit 3 to receive recalculation signals that arrive at the input 9 of the counter 4 time intervals. the end of the transfers occurring in the counter 4 at its output 7, a signal is generated which is fed to the input of the synchronization unit 3 and resets the trigger 16 to O. The read signal from the output 13 of the synchronization unit 3 occurs at the output of the AND 21 element then and only when the trigger 16 is located and the trigger 17 in the state. The recalculation signal at the input 9 of the counter 4 occurs when the trigger 16 is set to one, which is provided by the signal passing from the generator 1 of synchronizing pulses through the AND 18 element, which causes one trigger potential 1, as well as zero potential of the trigger 17, which is set to 0 by the termination signal for reading at the output 8 of the counter. Thus, the meter provides an independent reading of time intervals and readings, i.e. even when signals are simultaneously detected at inputs 10 and 11 of synchronization unit 3, the signals at its outputs 9 and 13 are not simultaneously generated. Correct operation of the meter is ensured by executing the barely-moment of time at which the signal of the end of transfer at the output 7 of the counter 4 is generated; - the time at which the over-count signal is generated at the output 10 of the generator 2 time intervals; -frequency of generation of signals by the generator 2 time intervals; -frequency of generation of signals at the output of the generator 1 of synchronizing pulses -the time at which the signal at the end of the reading of the readings at the output of 8 counters is produced; the point in time at which the read signal is generated on bus 5; a time interval equal to the time when nepexoj processes terminate when the triggers 14-17 are installed in one of two stable states; the delay time of the signal at element 22. Thus, the proposed measuring unit, as compared with the known ones, makes it possible to perform reading and reading from the time interval counter at an arbitrary moment of time without reducing the reference accuracy. FormulaJA of the Invention 1. A time meter, containing re; iepaTop time intervals and a time interval counter, characterized in that, in order to expand its functionality, a clock generator and a synchronization unit are inputted to it, the inputs of which are connected to the time generator generator outputs synchronizing pulses and time counter, the inputs of which are connected to the outputs of the synchronization unit. 2. The meter according to claim 1, which is based on the fact that the synchronization unit contains the first trigger, the first element, the second trigger, and the second element, and the third trigger, the third element, the fourth trigger and the fourth element, , as well as three delay elements, the first and second inputs of the synchronization unit are connected to the first inputs of the first and third triggers, respectively, the second inputs of which are connected via the first and second delay elements to the first and third outputs respectively And elements, the second inputs of which are connected to the third input of the synchronization unit and through the third delay element to the second inputs of the second and fourth elements I, whose outputs are connected to the outputs of the synchronization unit, while the second, outputs of the second and fourth triggers are connected to the third inputs of the fourth, respectively and the first elements I. Sources of information taken into account during the examination 1. EA Drozdov, A. P. Tibratov. Fundamentals of building and functioning of computing systems. M., Energie, 1973. p. 191, fig. . 2. In the same place, S. 19512

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Claims (2)

Claim 1. A time interval meter comprising a time interval generator and a time interval counter, characterized in that, in order to expand the functionality, a synchronization pulse generator and a synchronization unit are introduced into it, the inputs of which are connected to the outputs of a time interval generator, a synchronization pulse generator and a counter time intervals, the inputs of which are connected to the outputs of the synchronization block. 2. The meter according to Claim. Characterized in that the synchronization unit comprises a first trigger, a first element And, a second trigger and a second And element, a third trigger, a third And element, a fourth trigger and a fourth And element, and also three elements delays, and the first and second inputs of the synchronization unit are connected to the first inputs of the first and third triggers, respectively, the second inputs of which through the first and second delay elements are connected to the outputs of the first and third ele and And, the second inputs of which are connected to the third input of the synchronization unit and through the third delay element with the second inputs of the second and fourth elements And, the outputs of which are connected to the outputs of the synchronization unit, while the second. the outputs of the second and fourth triggers are connected to the third inputs of the fourth and first elements, respectively.