EFFICIENCY OF OPTICAL CALIBRATION IN HIGH PRECISION LASER RANGEFINDERS

Abstract

The effectiveness of the use of optical calibration in high-precision phase laser rangefinders has been evaluated. In order to ensure the specified accuracy of distance determination in order to establish the optimal frequency of distance measurement modes and optical calibration, an appropriate formula is recommended for estimating the switching frequency of signals at the input of the range finder measuring channel. It has been established that even when using optical calibration, the accuracy of distance measurement is affected by the error of the phase detector, which is part of the rangefinder. To minimize the influence of this error, a new method for the direct measurement of the phase shift in a range finder is proposed, as well as the use of a compensation method for measuring the phase shift. The corresponding block diagrams of rangefinders are considered, in which the proposed methods for measuring phase landslides are implemented, and analytical modeling of the processes that transform them is carried out. References 7, figures 2.