SU393725A1 - MEASURING TIME INTERVALS - Google Patents

Description

one

This invention relates to a measurement technique and is intended to measure the duration of the time interval between two light pulses.

Known time interval meter containing optical keys and a pulse counter.

When one of the keys is triggered, a stop signal is sent to the pulse counter. The accuracy of the known device is determined by the discreteness of the delay lines and is in the order of tens of nanoseconds. In addition, it is not used to measure the time intervals between light pulses, since this requires a conversion of the light pulse to an electrical one, which introduces additional errors in the measurement.

The aim of the invention is to improve the accuracy of measuring the time intervals between light pulses.

For this, the time interval meter contains an input beam splitter, an output beam splitter and a circulation loop, with the first output of the beam splitter being connected to one of the key inputs, the second output to the input of the circulation loop, the output of which is connected to the first pulse counter and using the output beam splitter to the second key input, and the output

last summed to the second input of the pulse counter.

The drawing shows schematically the proposed time interval meter.

It contains an input beam splitter 1, mirrors 2 and 3, an optical key 4, mirrors of a circulation circuit 5 and 6, a light intensity amplifier 7, a beam splitter 8, an output

beam splitter I pulse counter 10.

The meter works as follows.

The first light pulse limiting

measured light interval arrives at

the input beam splitter / and is divided into two equal but the intensities of the part. The reflected part with the help of mirrors 2 t 3 is dropped onto the key 4 and absorbed by it, and the passing part enters the circulation circuit (elements 5-8), in which the circulation of light impulses is established. During each cycle of circulation, the light circuit passes through the amplifier 7 (the gain is 2), which compensates for the loss of light on the beam splitters 1 and 8, due to which the circulation does not terminate. The light coming out of amplifier 7 hits the beam splitter 8. The part of the light reflected from the splitter 8 enters the circulation circuit, and the beam splitter 9 passes by two

parts. Reflected from the beam splitter 9 part

It hits the pulse counter 10, and the passing one goes to key 4 and is absorbed by it.

Thus, after the appearance of the first pulse in the circulation circuit, the circulation of the light pulse is established, and during each cycle of circulation, a pulse arrives at the counter 10, which is detected by it.

When a second pulse appears, limiting the measured interval, the light pulse reflected from the beam splitter / and mirrors 2 and 3 is dropped on the key 4. From the circulation loop through the splitter 9, the pulse 4 will also be pulsed. Since both inputs of the key will be illuminated, at its output there is a pulse that stops the counter 10. Simultaneously with the stop of the counter 10, it is necessary to cut off the power supply to the amplifier 7, as a result of a short circuit around the circulating circuit.

By knowing the period of circulation and the reading of the counter 10, it is possible to calculate the duration of the pause between the pulse that starts the device and stops it. At the same time, the accuracy of measuring the time interval is limited by the accuracy of the circulation transition, which can be equal to 10 sec.

Subject invention

A time interval meter containing an optical key and a pulse counter, characterized in that, in order to improve measurement accuracy, it contains an input beam splitter, an output beam splitter and a circulation loop, the first output of the input beam splitter being connected to one of the key inputs, and the second output to the input of the circulation circuit, the output of which, with JU The output beam splitter is connected to the first input of the pulse counter and to the second input of the key, and the output of the latter is connected to the second input of the pulse counter at.

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