Introduction: The XR3000 is a fiber optic spectrometer based on a CT-based optical design. The detector uses Hamamatsu infrared enhanced CCD area array sensor, and its effective spectral range is 780nm-1070nm. The spectrometer is mainly measured with a 785 nm Raman spectrum. The compact and robust design ensures that the spectrometer can achieve reliable and stable Raman spectroscopy measurements at 0-40°C. It provides a powerful guarantee for qualitative semi-quantitative Raman spectroscopy detection. Features: Compact size: Spectrometer overall size: 94mm ́72.5mm ́42mm, weighs only 420g High Resolution: Resolution is 8cm-1-12cm-1 High sensitivity: High performance back-illuminated area array CCD Good thermal stability: Spectral wavelength deviation < 1cm-1@ 0-40°C, sensitivity deviation <2% Technical Parameters: Physical parameters Overall size: 94*72.5*42 mm Total weight: 420g Spectral parameters Spectral range: 780nm~1070nm (0~3400cm-1) Resolution: 10cm-1 @1000 cm-1 (typical, 785nm Laser) <0.9nm@852nm Signal to noise ratio: 450:1@100ms 85% Full signal Dark noise: ~30RMS@ 100ms Integration time: 8ms~5s Dynamic Range: 50000:1 (single acquisition) Wavelength stability: 0.1nm@0-40°C Sensitivity consistency: <5%@0-40°C Device specifications Slits: W25um, H400um Detector: Hamamatsu S11510-1106 A/D Resolution: 16-Bit Power consumption: 220mA@5V CCD pixels: 2048 ☓ 64 Output interface: Mini USB Environmental parameters Working temperature: 0 ~ 40°C Operating Humidity: 5%-80%
Introduction: The XR3000 is a fiber optic spectrometer based on a CT-based optical design. The detector uses Hamamatsu infrared enhanced CCD area array sensor, and its effective spectral range is 780nm-1070nm. The spectrometer is mainly measured with a 785 nm Raman spectrum. The compact and robust design ensures that the spectrometer can achieve reliable and stable Raman spectroscopy measurements at 0-40°C. It provides a powerful guarantee for qualitative semi-quantitative Raman spectroscopy detection.
