SU1149441A1 - Device for measuring spatial-energy properties of luminous radiation - Google Patents

Abstract

DEVICE FOR IZMBRESHSH IffOCTPAHCTBEHHO-energy parameters of light radiation, comprising peredakntsuyu television tube with a deflection system, the display unit and a scanner whose output is connected to the first input of the deflection yoke and the first control to tsemu entry display unit, characterized in that, with In order to increase the accuracy of measurements and noise immunity, a slit diaphragm with a displacement block, blocks of the first and second harmonic components of the video signal, respectively, are inserted into it, The scanner, the adder and the scanning voltage generator, the output of which is connected to the first inputs of the adder and the selection unit of the first harmonic component of the video signal, the output of which through the integrator is connected to the second input of the adder, the slit diaphragm optically connected to the transmitting television tube, the output of which is connected to the second input of the block of the first harmonic (L component of the video signal and through the block of the second harmonic signal from the component of the video signal to the input of the display unit, The second input of the diverting system is connected to the output of the adder, and the output of the displacement unit is connected to the second input of the indication unit. CD Npan 4

Description

The invention is related to the technique of television and can be used to measure light emission parameters.

A device for measuring the transparency of the energy parameters of light emission is known, which contains a matrix of transducers, a light signal whose outputs through amplifiers are connected to the corresponding inputs of a multi-channel indicator L

However, the limited dimensions of the matrix and the number of transducers do not allow one to obtain a sufficiently detailed picture of the spatial-energy parameters of the light emission.

The closest to the present invention is a device for measuring the spatial-energy parameters of light radiation, comprising a transmitting television tube with a deflecting system, an indication block and a scanner whose output is connected to the first input of the diverting system and to the first control input of the display block, with This output of the transmitting television tube is connected to the input of the display unit 2

However, the known device has an extremely high accuracy of measurements of the spatial characteristics due to geometric distortions of the B sweep of the transmitting television tube and is not due to the disturbing action of extraneous sources of light radiation.

The purpose of the invention is to increase the measurement accuracy and noise immunity.

This goal is achieved by the fact that a device for measuring the spatial energy parameters of light radiation, containing a transmitting television tube with a deflecting system, a display unit and a scanner, the output of which is under2C11 is connected to the first input of the diverting system and K to the first control input / block display, slit diaphragm with displacement block, blocks of the first and second harmonic components, respectively, entered. the video signal, the integrase unit l, the adder and the scanning voltage generator, the output of which is connected to the first inputs of the adder and the unit of the first harmonic component of the video signal, the output

Koioporo is connected via the integrator to the second input of the adder, the slit diaphragm is optically connected to the transmitting television tube, the VIEH-OD of which is connected to the second input of the selection unit of the first harmonic component of the video signal and through the block of the second harmonic component of the video signal to the input of the display unit, the second the input of the diverting system is connected to the output of the adder, and the output of the motion unit is connected to the second control input of the display unit.

The drawing shows the structural electrical circuit of the proposed device.

A device for measuring the spatial and energy parameters of the light radiation contains a slit diaphragm 1 with a displacement unit 2 transmitting a television tube 3 with a deflecting system 4, a unit 5 for separating the first harmonic component of the video signal, a unit 6 for integrating J a scanning voltage generator 7, an adder 8, a block 9 for allocating a second harmonic component of the video signal; a display unit 10 and a scanning unit 11.

The device works as follows.

The slit diaphragm 1 is installed along the light beam, which forms an optical field on the screen of the transmitting television tube 3. The sweep block 11 delivers such a signal to the first input of the deflecting system 4 so that the electron beam follows the aperture axis aperture 1, and to correct this movement using the scanner voltage generator 7, a short-line scan is carried out in a direction perpendicular to the slit aperture axis 1. From the video signal of the transmitting television tube 3 at the output of the block 5 Neither the first harmonic component generates a signal proportional to the displacement of the position of the electron beam relative to the maximum illumination of the optical field along the axis perpendicular to the axis of the slit. Next, the signal proportional to the displacement is integrated in the integration unit 6 and the result of the integration is combined with the signal of the scanning voltage generator 7 adder 8, which provides a short-term scan of the optical field, and this scan occurs around the maximum of the security. Using these blocks, the long-line scanning path is corrected so that the path coincides with the slit-aperture slit axis 1. The intensity of the light flux is measured by the magnitude of the signal that is generated at the output of the second harmonic component of the transmitting television tube 3 Thus, the measurement of the intensity of the light flux occurs along two mutually perpendicular axes, and along the same axis the measurement occurs due to si drove from the scanning unit 11, and on the other axis due to the automatic tracking of the slit of the slit diaphragm 1 1 1 when moving it with the help of the moving unit 2, i.e. On the display unit 10, signals arrive at each moment of time corresponding to the position of the analyzing electron beam, respectively, from the scanner unit 11 and the unit; 2 displacements of the slit diaphragm 1, as well as a signal proportional to the local intensity of the luminous flux from the output of block 9. In the invention, by eliminating the non-linearity of the sweep, the measurement accuracy is improved, and since the intensity of the radiation of the luminous flux is judged by the amplitude of the second harmonic component, The spectral composition of interfering signals is significantly reduced and noise immunity is increased, which distinguishes the proposed device from the known one.

Claims (1)

DEVICE FOR MEASURING SPACE-ENERGY LIGHT RADIATION PARAMETERS, comprising a transmitting television tube with a deflecting system, an indication unit and a scan unit, the output of which is connected to the first input of the deflecting system and to the first control input of the indication unit, characterized in that, in order to increase the accuracy of measurements and noise immunity, a slit diaphragm with a moving block, highlighting blocks of the first and second harmonic components of the video signal, an integra block, respectively, are introduced into it the adder and the scanning voltage generator, the output of which is connected to the first inputs of the adder and the extraction unit of the first harmonic component of the video signal, the output of which through the integration unit is connected to the second input of the adder, the slit diaphragm is optically connected to the transmitting television tube, the output of which is connected to the second input of the unit separation of the first harmonic component of the video signal and through the block selection of the second harmonic component of the video signal to the input of the display unit, the second input is open the shedding system is connected to the output of the adder, and the output of the displacement unit is connected to the second input of the display unit. rFHFTTTlS