ATH5500-17 Shortwave Infrared Microscopic Hyperspectral Imager Introduction: ATH5500-17 is a small, high-definition, high-quality microscopic hyperspectral imager, which is composed of a high-power microscope, a hyperspectral imager, and a data processing workstation. The ATH5500-17 hyperspectrum adopts a high-performance CCD imaging device with 1920X1080 pixels (up to 2048×2048 pixels), which has clear imaging and low noise; it integrates an original high-compression ratio image compression algorithm, which greatly improves the storage life time. It can reach more than 3 hours, which fully meets the needs of drones; The ATH5500-17 imaging spectroscopy technology performs spectral imaging on samples. It has the characteristics of fast, accurate, high spectral resolution, high spatial resolution and strong versatility. It can be used for research in medicine, pathology, pharmaceuticals, and life sciences. As an experimental research equipment for medical institutions, scientific research institutions, medical schools, and pharmaceutical companies. feature: 1. Band range: 1000~1700nm 2. High spectral resolution: <35 nm 3. Customized version of infrared high transmittance microscopy system; 4. Objective lens magnification: Standard configuration: 4X, 10X, 20X; Optional: 40X, 100X 5.5 million pixel high-definition camera 6. High stability and high blue infrared light source lamp; 7. High-brightness LED lighting technical parameter: Wavelength range: 1000~1700nm Spectral resolution: better than 35nm Maximum number of bands: 1024 Maximum number of spatial bands: 2048 Image size: 11.26×5.63 mm Numerical aperture: F/2.4 (related to the objective lens) Quantization bits: 12bit Field of view coincidence: The offset is not more than 10% of the diameter of the microscope field of view Cleanliness: There is no pitting, scratches, bubbles and other defects in the field of view that obviously affect the observation, no obvious optical parts broken edges, oil stains and attachments The equipment can work normally within 10° inclination Stability The support is stable, the movement is stable, and the positioning of the activity links is firm Working voltage: 100~220V ±10% Electromagnetic compatibility: meet the basic performance and safety performance requirements under the electromagnetic compatibility test conditions Working temperature: -10℃~+40℃ Working humidity: 30%~75% Working pressure: 700hPa~1060hPa Microscope optical system: Infinity chromatic aberration correction optical system/ordinary optical correction system Optical magnification: 40~2000 times (8 gears in total) Objective: Infinity plan achromatic objective, standard: 4X, 10X, 20X; optional: 40X, 100X (oil) Converter: Three holes or five holes inward Condenser: Abbe condenser group (can be equipped with plug-in phase contrast, dark field, polarized light accessory interface) Stage: 220×148mm low-hand position double-layer X-axis steel wire transmission mechanical mobile platform, stroke 76X50mm, accuracy 0.1mm, damping double slice clamp Focusing mechanism: Coaxial coarse and fine focusing mechanism, fine adjustment scale value 0.002mm Lighting system: Koehler lighting system with 3W LED lamp brightness continuously adjustable Digital imaging system: 5 million pixels, high-definition digital USB interface, clear imaging, smooth picture. Can be connected to a computer for imaging and photographing, video recording, measurement, editing, saving and printing
Introduction: ATH5500-17 is a small, high-definition, high-quality microscopic hyperspectral imager, which is composed of a high-power microscope, a hyperspectral imager, and a data processing workstation. The ATH5500-17 hyperspectrum adopts a high-performance CCD imaging device with 1920X1080 pixels (up to 2048×2048 pixels), which has clear imaging and low noise; it integrates an original high-compression ratio image compression algorithm, which greatly improves the storage life time. It can reach more than 3 hours, which fully meets the needs of drones; The ATH5500-17 imaging spectroscopy technology performs spectral imaging on samples. It has the characteristics of fast, accurate, high spectral resolution, high spatial resolution and strong versatility. It can be used for research in medicine, pathology, pharmaceuticals, and life sciences. As an experimental research equipment for medical institutions, scientific research institutions, medical schools, and pharmaceutical companies.
