RU1800288C - Method of determining flux density of radiation from a moving remote object - Google Patents

Abstract

Usage: in solving geophysical and other problems. SUMMARY OF THE INVENTION: measurement of the incident radiation flux by independent photodetectors, two photodetectors with cosine angular characteristics are used in the measurement process, which are arranged so that their optical axes are mutually perpendicular and lie in the same plane with the direction to the source, then the output signals are measured both photodetectors when the studied flux falls on them, after which the radiation flux density is calculated by the formula W v (Ki ja) 2, where W is the flux density , KI and K2 - permanent photodetectors, ji g and - the output signals of photodetectors. 1 ill. ate with

Description

The invention relates to the field of photometric technology, and more particularly to methods for recording light flux density from a moving remote source and can be used in solving geophysical and other problems.

An object of the invention is to increase the accuracy of photometric measurements.

The drawing shows a diagram of a device that implements the proposed method.

The photometer includes two photodetectors 1 and 2, which have cosine angular characteristics, and are arranged in such a way that their optical axes are mutually perpendicular.

The device operates as follows,

First, calibration is carried out by determining the values of the constants k, numerically equal to the output signal of each of the photodetectors when a radiation flux with a unit density in the normal direction is incident on it. Further, the photometer is oriented so that the optical axes of the photodetectors lie in the same plane with the direction to the source. Then, the output signals are measured when the studied stream is incident on the photodetectors, after which the radiation flux density is calculated by the formula

00

oh oh

go with

00

(KI-J2) 2, where W is the radiation flux density, Ki is the constant of the 1st photodetector, Ka is the constant of the 2nd photodetector, the output signal of the 1st photodetector,

2 output signal of the 2nd photodetector.

Claims (1)

. . Using the proposed method for determining the light flux density with changes in the mutual orientation of the photometer and the radiation source associated with the movements of the latter, the measurement accuracy can be significantly increased in the range of working angles from 0 to 95 degrees. The characteristics of the manufactured photometer sample show the possibility of reducing the measurement error to a level of less than 3% in the range of angles from 0 to 80 degrees. SUMMARY OF THE INVENTION A method for determining a radiation flux density from a moving remote source 5 a detector, namely, that the incident radiation flux is simultaneously measured by independent photodetectors, characterized in that, in order to improve the accuracy of determining the radiation flux density, the incident radiation flux is measured using two photodetectors with cosine angular characteristics, set so that their optical axes are mutually perpendicular and located in the same plane with the direction to the source, while the radiation flux density W is determined by the formula: W V ("i-jif-KKa-J2) 2, where Ki is the constant of the 1st photodetector; KZ - constant of the 2nd photodetector; --. ---. ------ .--. ka; J1 - output signal of the 1st photodetector; Jz - output signal of the 2nd photodetector