SU851113A1 - Method of measuring luminous flux indensity - Google Patents

Description

The invention relates to photometry and can be used in optical systems for receiving, converting, transmitting, processing and storing information, as well as in control systems. The known method of measuring the intensity of the light flux by photographing it and converting the light flux into an electric signal tl3 However, the known method has a low speed, which hinders the implementation of a number of tasks associated with the use of photographic methods in image processing on computer transmission of specific information via communication lines etc. The closest to the present invention is a method of measuring the intensity of the light flux by converting the light flux into an electric current and then determining the intensity of the light flux by the magnitude of the electric / current amplitude 2. The main disadvantage of this method is its speed limitation due to high ;; the inertia of the electric current meters (for the fastest modern analog-digital converters, the time spent on one reading exceeds 10 s). The purpose of the invention is to increase the speed of the measurement process. The goal is achieved by the method of measuring the intensity of the light flux by converting the light flux into a digital code, deflecting the light beam by passing it through the medium, the refractive index of which depends on the intensity of the light flux, and converting the deflection angle of the light beam into a digital code. The drawing shows a diagram of the meter that implements the proposed method. The meter contains aperture 1, a baffle 2 and an array of photodetectors 3, the outputs of which are the output of the meter. The meter works as follows. A coherent optical radiation flux passed through aperture 1 is incident on the deflector 2, made

for example, according to the scheme of an electric waveguide grating modulator.

Under the action of the light flux, the deflector crystal, when the applied voltage is constant, changes the refractive index and, therefore, the angle of incidence of the incident beam depends on the intensity of the light flux passing through the diaphragm. The refracted beam falls on the matrix of photodetectors 3. The value of the intensity of the light flux is determined from the position of the photodetector, from whose output an electrical signal is received. As a deflector crystal, the material of which converts the luminous flux into the deflection angle of the light beam due to a change in the refractive index of this material depending on the intensity of the light incident on it, materials with, for example, Kerr or Vogt effects can be used. The speed of this meter is determined by the time of restructuring of the deflector and the photoresponse photoresponse time, i.e. in sum, when using, for example, silicon photodetectors with the p-i-n structure do not exceed a few nanoseconds.

Using the proposed method in comparison with the known method for at least an order of magnitude increases the speed of the measurement process.

Claims (2)

Invention Formula The method of measuring the intensity of the light flux by converting the light flux into a digital code, which differs in that, in order to increase the speed of the measurement process, the light beam is deflected by passing it through a medium whose refractive index 5 depends on the intensity of the light flux, and convert the deflection angle of the 5th beam in a digital code. 0 Sources of information taken into account in the examination i. . . 1. USSR author's certificate 410264 cl. G 01 J 1/00, 1972. g 2. Grishin M. p. and others. Automatic input and processing of photographic images on a computer, M., Energie, 1976, p. 55 (prototype).