Optical Test & Metrology

Fiber-optic spectrometers are a type of precision instrument that uses optical fibers as the optical signal transmission medium, combines spectroscopic technology and photoelectric detection technology, and realizes the analysis of parameters such as wavelength and intensity of optical signals. Their core advantage lies in breaking the "fixed optical path" limitation of traditional benchtop spectrometers, and achieving "long-distance, in-situ, and multi-channel" spectral detection through the flexible transmission capability of optical fibers.

Raman spectroscopy systems are a class of analytical systems that, based on the Raman scattering effect, enable "fingerprint-level" identification of substance components, structures, crystal forms, and more by detecting the characteristic spectra generated by molecular vibration/rotational energy level transitions in substances. Their core value lies in "non-contact, non-destructive, and rapid qualitative and quantitative analysis".

A complete spectroscopy system is an integrated and customized spectroscopic analysis solution. By systematically matching and optimizing light sources, sampling modules, spectrometer main units, data processing systems, and auxiliary equipment (such as temperature control, pressure control, and automatic sampling devices), it forms a closed-loop detection system covering "optical signal excitation - acquisition - analysis - output".

Online spectrometers are a type of real-time spectroscopic analysis equipment specifically designed for scenarios such as industrial production and environmental monitoring. Through the in-depth integration of spectral detection modules, on-site sampling systems, and automated control units, they achieve "in-situ, continuous, and unattended" component analysis and quality monitoring of target substances.