SU548836A1 - Method for digital measurement of time intervals - Google Patents

Description

one

The invention relates to the field of measurement technology and can be used in the development of time interval meters.

There is a known method for measuring time intervals, in which the measured interval is quantized by a pulse of a counting sequence with a further fixation of the number of pulses 1.

There is also known a method for digitally measuring time intervals by quantizing them 2.

In order to achieve high measurement accuracy of such a method, a complex circuit implementation is necessary.

The purpose of the invention is to improve the measurement accuracy and simplify the circuit implementation.

This is achieved in that, according to the proposed method, the measured time interval is compared with the response time of a chain of sequentially actuating bistable elements, and the result is the number of time that the measured time interval triggered by the end of the measurement, and the response time of the bistable element is used as a quantum.

The drawing shows a diagram of a device for performing a disset, where: 1-4 are bistable elements, 5 is a measuring input, 6 is an input, 7 is a control element.

An optocoupler is used as a bistable element. The measured interval is quantized by the response time of the optocoupler, which reaches the values of sec.

The duration of the time interval in this case is set by the light flux with the required wavelength and intensity. A light note is fed through the measuring input 5 to the photodetector of the first optocoupler 1, to the input from which the excitation potential is preliminarily supplied, as well as to the photocell 7, which provides the control potential to the other optocouples 2, 3, 4.

The first ontron is excited in a finite time m. At the same time, a glow / candle current flows through it, sufficient to light the light emitter. The light emitter of the nerve optocoupler irradiates the photodetector of the second optocoupler,

during the same time r. Thus, two optocouplers will be excited in a time of 2m, three in a time of 3m, and so on. During the time / rm, the optocouplers will be excited, the number of which on a certain scale will be expressed by

corresponding time / gt. At the moment when the measured time interval is finished, photocellite 7 stops feeding the excitation potential to the inputs of the optocouplers 2, 4. The light emitters of the excited optocouplers will be

Claims (2)

continue to shine, however, new optocouplers will not be excited by a lack of excitation potential. Thus, the measured time interval is converted into a digit corresponding to the number of optocouplers excited during this time. The time t depends on the physical nature of the elements of the optocouplers and can vary if necessary. DETAILED DESCRIPTION OF THE INVENTION A method of digital measurement of time intervals by quantizing them, differing from HUI, so that, in order to improve the measurement accuracy and simplify the circuit implementation, the measured time interval is compared with the response time of a successively operating 11-bit bistable elements by the end of the measured interval, the time of operation of the bstable element is used as a quantum. Sources of information taken into account in the examination: 1.Avt. St. 363068, cl. G 04F 10/04, 1971 (prototype). 2. Gitns E. I. Transformers of information for electronic digital computing devices. M., “Energne, 1970, p. 209.