OCT-100 Online Detection System-Fornitore globale

Room 1010, Building A, Longyu Center, No.1 Longyu Middle Street, Huilongguan, Changping District, Beijing

Optical coherence tomography technology generates images with micrometer resolution and millimeter imaging depth based on the backscattering of light from different material layers within the sample, providing structural information about the sample. At present, it is mainly used to detect the coating thickness of current pills, effectively guiding the coating machine to carry out more scientific drug preparation work, and has broad application prospects in biomedical, testing, medical and pharmaceutical fields.

light source	uwbSLD
Output Optical Power	>6milliwatt (Front panel)
Output fiber optic interface	FC/APCSingle-mode fiber
Probe working distance	5 mm
Spectral detector	grating spectrometer
spectral range	740nm-920nm
Pixels	1024*1000
Image acquisition rate	>3frame/second
Signal dynamic range	>40 dB
thickness resolution	<20 um
axial resolution	< 10μm
lateral resolution	< 100μm
Imaging depth	> 1.0 mm
sensitivity	> 60 dB
Spectral acquisition frequency	120 kHz
Output frequency of coating cross-section diagram	>1 fps
INPUT VOLTAGE	220V AC
power consumption	40 W max
network/data transmission	USB 3.0 Micro-B
External dimensions	300 mm(Long)300 mm(Width)135 mm(High)
weight	8 Kg(Excluding computer weight)
Ambient Temperature	-20°C ~ 55°C (-4°F~131°F)
Working environment humidity	20-80% RH
attachment	Equipped with a computer,USB3.0Data cable, probe, power cord

Other applications:

Ophthalmology

OCT can achieve three-dimensional imaging of important ocular tissues such as cornea, lens, retina, and choroid; In terms of cardiovascular function, OCT can achieve endoscopic coronary artery imaging; Detection and quantitative analysis of small atherosclerotic plaque rupture, fat calcified macular layer, fibrous atherosclerotic plaque and normal arterial wall.

Skin related

OCT can achieve skin structure imaging with a resolution of 15-20 μ m and a depth of 1.5-2mm; In terms of vascular imaging, OCT can achieve label free three-dimensional microangiography, obtaining three-dimensional imaging of blood flow perfusion within tissues

In terms of neuroimaging

OCT can be widely applied in the development of neurobiology, retinal neuroimaging, and mechanism research of image-guided cell peripheral nerves.

In terms of industrial applications

OCT can achieve online/offline material detection, detection of silicon and plastic microelectromechanical systems (MEMS), quality control of solar panels, quality control of composite materials (such as turbine blades), and detection of micro engineering plastic prototype parts.