SU1534313A1 - Laser meter of microfluctuations of optical fiber diameter - Google Patents

Abstract

This invention relates to instrumentation technology. The purpose of the invention is to improve the accuracy by eliminating the influence of the discreteness of the photodetector. The meter consists of a laser source 1, an objective 3, a scanning mirror 4, a photodetector 7 and a phase detector 9. Fluctuations of the fiber diameter in the control zone result in a shift in the interference pattern arising from the scattering of laser radiation on the fiber. The shift of the interference pattern leads to a phase shift of the signal from the photodetector 7 relative to the signal controlling the rotation of the mirror 4. 1 sludge.

Description

11 is again connected to the output of the filter- 15 should be approximately the same 10 and the offset of the LD is applied)

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the opposite sign. In this case, at the output of the device, the signal changes by

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Claims (1)

Invention Formula yy B equivalent to such a change fiber diameter & 0, -l, in which the interference pattern is shifted by one lane. The path difference ftS in this case is one wavelength, so the following expressions can be written: ,; , L 1 where K, sin + -Jn2 + 1-2ncosr; H is the scattering angle. Of & D- (7) and (8) 1 Lee. we have K, & Ufl (YU) The & U signal, proportional to the change in the diameter of the DG, is fed from the output of the meter to the recording instrument (recorder, etc.). When H Ts2,5 case .(eleven) Uu-d : ° we have Kch 1. In this 20 25 thirty A laser micrometer for measuring the diameter of an optical fiber containing an optically coupled laser source and beam expander, an optically coupled lens and photoreceiver, and a low-pass filter, which is equipped with an optically coupled scanning mirror to improve accuracy. , a cylindrical lens and a diaphragm located between the lens and the photoreceiver, a phase detector, the first input of which is electrically connected to the photoreceiver's output, and the output to the input of a low-pass filter, followed by tion connected 35 by an adder, the first input of which is connected to the output of the low-pass filter, and a deflector mechanically connected with the scanning mirror, a generator, the output of which is connected 40 to the second inputs of the phase detector and adder, and the bias source, the output of which is connected to the third input of the adder.