SU456250A1 - Method for measuring single time intervals - Google Patents

Description

one

The invention can be used in measurement technology.

A known method of measuring single time intervals is based on the use of two memory strings of pulses having a different frequency.

The method is based on counting the number of periods of one of the THESE sequences from the beginning of the measurement until the moment when the pulses of both sequences coincide.

To implement this method, high stability of both sequences and the absence of transients are required. An additional error is introduced by the determination of the moment of coincidence of the pulses of both sequences.

The purpose of the invention is to improve the resolution and increase the accuracy of measurement while reducing the stability requirements of the storage sequences.

The proposed method is characterized in that the measurement is carried out in two cycles of the same predetermined duration, and the second cycle is started by simultaneously starting both storage sequences, with continuous generation of a sequence of strobe pulses. As an estimate of the measurement, we take the difference in the number of coincidences of strobim2 averaged over the number of measurement periods.

pulses, pulses of one sequence and pauses of the other two measurement cycles.

The drawing shows a block diagram of the meter one-time intervals.

The input terminals of start channel I and stop channel 2 are connected respectively via triggers 3 and 4 to the inputs of the storage generator 5 and 6. The outputs of the generator 5 start-drop, the generator of strobe pulses 7 and the inverter 8 of the storage generator 6 stop-drop are connected to the inputs coincidence circuit 9, the output of which is connected to the input of the result counter 10. The output of the storage generator 6 is also connected to the input of the scale counter I, the output of which is connected simultaneously to the control input of the reverse of the counter 10 and through the control unit 12 to the inputs three Gere 3 and 4.

The single interval meter works as follows.

Start-impulse and stop-impulse overturn triggers 3 and 4, respectively, triggering thereby storage generators 5 and 6, the output of which appears a series of square impulses, the beginnings of which are shifted relative to each other pa time / + t, where t is the time the measured interval, and t is the time determined by the nonidentity of the start and stop channels.

The pulses from the generators 5 and 6, inverted by the inverter 8, and the continuous pulse from the generator of the pulses 7 arrive at the coincidence circuit 9. The pulse, which coincides in time with the pulse of the first and pause of the second sequence with the coincidence circuit 9, goes to counter 10.

At the same time, the scale counter 11 counts the number of pulses of the second sequence. The overflow pulse from the counter 11 switches the counter 10 to the reversing account and, through the control unit 12, triggers triggers 3 and 4, turning off the generators 5 and 6, and again, now simultaneously, triggers the latter. This provides a shift between two sequences by the value of m.

At the same time, the strobe pulses passing through the coincidence circuit 9, in the second measurement cycle, are subtracted from the result of the first peak. When the scale counter 11 is refilled, the measurement is stopped with the help of the control unit 12. Result 10 counter, switched to direct mode again, shows the measurement result.

Subject invention

A method of measuring single time intervals based on the use of two

memorizing periodic sequences of pulses, whose beginnings are shifted between themselves by an interval defined by measurable and one continuous sequence of strobe pulses, differing also in order to improve resolution and increase accuracy, the measurement is carried out in two cycles of the same specified duration the second cycle is started by simultaneously launching both storage sequences; during both measurement cycles, the number of coincidences in time is calculated; , One storage sequence of pulses and pauses other storage sequences, and as the measured interval otsepki taking the difference of the results of the first and second measurement cycles, averaged for memorizing the number of periods, it sequences in one ukladyvayuschihs

measurement cycle.

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