A. E. Shakhanov scite author profile

The article discusses the development of the circuitry of acousto-optic (AO) laser displacement interferometers (LDI) and the values of resolution and speed of controlled displacements achieved by them. The issues of frequency matching of blocks of AO LDI are discussed: AO modulator, photodetector device (FDD) and frequency generator. The features of phototransformation of the FDD under its illumination by three spatially combined optical streams are studied. Of these, two streams are of different frequencies, created as a result of diffraction in the AO modulator and are used to measure the phase shift from the controlled displacements of the object in the AO LDI. The third optical stream is amplitude-modulated with a frequency close to the difference frequency of the first two optical streams. This technique leads to a twofold transfer (double heterodination) of the phase shift from the offsets to the electrical signal of the difference frequency between the three optical streams. The schemes of AO LDI with a constant value of the frequency of the amplitude-modulated optical flow and with its auto-tuning are considered. The features of the use of cooled FDD in AO LDI are discussed.

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On construction of jet-drop optical measuring systems: analysis of optical, dynamic and metrological parameters in visualization of surface of product

Leun¹,

Varepo²,

Shakhanov³

et al. 2019

OSB

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Статья посвящена вопросам использования струйно-капельных оптических измерительных систем для измерений отклонений формы, в том числе шероховатости поверхности изделий при обработке. Рассматриваются вопросы передачи изображения, управления фокусным расстоянием за счет слияния нескольких капель одного или нескольких гидропотоков. Обсуждаются вопросы передачи изображения движущимися и упавшими на поверхность обрабатываемого изделия каплями. Представлена методика расчета требований по быстродействию, предъявляемых к регистрации изображения микроскопа совместно с движущейся каплей, в зависимости от ее размеров, используемой жидкости и скорости ее движения. Рассматривается разработанная методика расчета погрешности позиционирования движущихся капель для одно-и двухосевого управления траекторией движения капельного потока. Ключевые слова: струйно-капельная оптическая измерительная система, электрокаплеструйное устройство, управляемый капельный поток, слияние капель, позиционирование капли, вынужденный капиллярный распад струи, капельный микроскоп.

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A. E. Shakhanov

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Improving the circuitry of high-precision high-speed acousto-optic laser interferometers of displacements with frequency matching of component blocks and double heterodyning at phototransformation stage

On construction of jet-drop optical measuring systems: analysis of optical, dynamic and metrological parameters in visualization of surface of product

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