INVESTIGATION OF THE DEVELOPED SPECTROPHOTOMETRIC SENSOR FOR COLORIMETRIC DEVICES USING OPTOELECTRONIC RGB COMPONENTS

Автор: E. E. Maiorov, A. V. Arefiev, R. B. Guliyev, V. P. Pushkina, G. A. Tsygankova

Журнал: Научное приборостроение @nauchnoe-priborostroenie

Рубрика: Системный анализ приборов и измерительных методик

Статья в выпуске: 4, 2023 года.

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The study highlights the development of a spectrophotometric sensor for colorimetric devices using optoelectronic RGB components. Foreign colorimeters, which include spectrophotometers, have a high cost and are sometimes inaccessible to a domestic consumer, therefore, the development of a spectrophotometric sensor for domestic colorimeters built on optoelectronic RGB components may draw interest. The work defines the goal and sets the task of the study. A block diagram, a lighting system with a photometric integrating sphere, and the appearance of a spectrophotometric sensor are presented. The spectral distribution of the signal I(λ) in the measuring channel at level "0" and at level "1" is obtained. The wavelength scale sensor was calibrated using normalized emission lines from a mercury-helium lamp and blue glass of the SS6 make. The resulting error λ = 0.5 nm of calibration of the wavelength scale was obtained. The linearity of the transmission scale was investigated, and the photometric error was estimated in terms of comparing the measured and calculated transmission values T(λ) for colored neutral glasses. The measurement error was no worse than T  0.5%.

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Spectrophotometric sensor, wavelength scale, transmittance, measurement error, glasses, linear interpolation, colorimeter

Короткий адрес: https://sciup.org/142238618

IDR: 142238618

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