Abstract
We report a novel fully real-time automatized optomechatronic dual-aperture common-path interferometer system for obtaining the phase difference between two interferograms by using the technique of phase-shifting interferometry. A motorized system is used to shift an additional phase transversally to the optical axis by ruling translation. For each high-resolution ruling displacement step of 0.793 μm, an interferogram is recorded by a CCD camera. The phase difference between the two successive recorded interferograms is then automatically calculated by computational self-calibrated algorithms. The proposed device provides more accurate measuring than typically used manual processes. Real-time phase differences are obtained from a robust low-cost optomechatronic system. Analytical calculation of the phase is performed automatically without the requirement of additional or external tools and processes, reducing the significant rework delay. A set of 47 interferograms were captured in real time then recorded and analyzed, obtaining an average phase shifting of 2.483 rad. Analytic explanation and experimental results are presented.
Highlights
Mass production through highly automated manufacturing processes has highlighted the need for more efficient precision surface measurement systems and testing processes.In automated manufacturing, the quality of the workpiece surface is highly related to the machining process [1]
It is necessary to develop automated measurement systems, based on optical interferometry with real-time operation, that are immune to disturbances during the measurement of noisy interferograms
We present an automated dual-aperture common-path interferometer (DACPI) system for obtaining the phase difference between the probe and the reference window in real time
Summary
Antonio Barcelata-Pinzón 1 , Ricardo Iván Álvarez-Tamayo 2, * and Patricia Prieto-Cortés 3. Faculty of Mechatronics, Electronics, Bionics and Aerospace, Universidad Popular Autónoma del Estado de Puebla, Puebla 72410, Mexico
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