SU654932A1 - Time interval metering method - Google Patents

Description

one

The method of measuring time intervals relates to measurement technology and may find application in the development of time interval meters.

A known method of measuring time intervals is based on a periodic shift of the measured interval relative to the counting ampuls. The disadvantage of this method is the slower response time.

There is also known a method for measuring time intervals based on circulating the measured interval along a closed loop with an increase in its duration by a calibrated value in each cycle of survey 2.

A disadvantage of the known method is the low measurement accuracy due to the instability of the circulation period.

The purpose of the proposed method of measuring time intervals is to increase the accuracy of measurements. This is achieved by the fact that short pulses with a constant duration corresponding to the beginning and end of the measured interval are circulated in a closed loop, and during each cycle of circulation they are expanded by a calibrated value to

as long as the inversion pulses do not occur, and the number of perfect inversion cycles is counted.

The essence of the method for measuring time intervals is as follows.

Pulses of constant duration, formed on the leading and trailing edges of the measured interval, are directed to a closed circulation loop.

During each cycle of circulation, circulation pulses are applied over an additional pulse of calibrated duration. As a result, the original pulses are sequentially expanded.

at each cycle of circulation by the same value. At the time of the merging of the circulating impulses formed along the leading and trailing edges of the measured interval, the circulation is disrupted,

since their total duration becomes longer than the circulation period. The measurement result is determined by summing the constant duration of a short pulse generated over the front

front, with a sum of calibrated increments of the duration of this pulse, obtained in the process of circulation. Thus, the instability of the circulation period does not introduce errors into the measurement process.

The drawing shows a block diagram of a device implementing a method for measuring time intervals.

The device contains elements OR 1,2, elements 3, 4 delays, divider 5, counter 6.

The device works as follows. in a way.

Pulses of calibrated duration, corresponding to the beginning and end of the measured interval tx, are fed to the input of the element OR 1, to the output of which elements 3 and 4 of the delay are connected in parallel. The delay of the measured interval created by element 3 is longer than the delay time of element 4 by the value of the DW. The magnitude of the AG determines the conversion resolution and must be less than the duration of the original pulses.

Thus, impulses are shifted to the inputs of the element OR 2, shifted relative to each other by the magnitude of the DW. The output of the element OR 2 is formed by pulses, the duration of which is longer than the duration of the original pulses by the value of the DW. These pulses arrive at the second input of the element OR 1. Next, the process of circulation of the pulses corresponding to the beginning and end of the measured interval occurs in a similar way, and in each cycle of circulation their duration increases by the value of the DW. The circulation pulses through divider 5 with division factor 2 arrive at counter 6. The circulation process stops at that moment in time when the initial pulses, having received each total increment of duration equal to Td:, merge. An impulse is generated, the duration of which exceeds the circulation period in a closed circuit consisting of elements 1, 3, 4, 2. This leads to the termination of the circulation process. At the end of the recirculation process, the code / V will be recorded in counter 6.

The duration of the measured interval is determined from the expression

t, L / DG + t ",

where Tn is the initial pulse duration corresponding to the leading edge of the measured time interval.

Claims (2)

1. USSR author's certificate number 386378, cl. G 04F 11/02, 1971. 2. USSR author's certificate N ° 393724, cl. G 04F 11/02, 1973.