Fiber Optic Spectrometer LB-10FOS has a precise spectral measurement across 350 to 1100 nm, ensuring reliable spectral analysis. It features an advanced optical bench for enhanced resolution and sensitivity. It is equipped with a 3648-pixel detector, ensuring high-resolution data capture and accurate spectral analysis. Our spectrometer has a clear digital display for real-time monitoring of spectral data during analysis.
$ 2900
Download CatalogSpecifications
| Wavelength Range | 350 to 1100 nm |
| Optical Resolution | < 0.75 nm |
| Sensitivity | 130 photons/count at 400 nm 60 photons/count at 600 nm |
| Corrected Linearity | > 99.8% |
| Signal-to-Noise Ratio | 300:1 |
| Stray Light | < 0.05% at 600 nm < 0.10% at 435 nm |
| Integration Time | 4 ms to 10 s |
| Detector | 3648 pixels |
| Pixel Size | 8 µm × 200 µm |
| Fiber Optic Connector | SMA905 to 0.22 NA single-strand fiber |
| Entrance Aperture Options | 5, 10, 25, 50, 100, 200 µm |
| Optical Design | Symmetrical Czerny-Turner |
| Focal Length | 101.6 mm |
| Trigger Modes | 2 types |
| Power Supply | 450 mA at 5 VDC |
| Connector | 30-pin connector |
| Dimension | 149 × 105 × 46 mm |
| Net Weight | 840 g |
Features
High optical resolution
Excellent photon sensitivity
Superior corrected linearity
Multiple gratings for UV & IR
High signal clarity
User-friendly software
Standard Accessories
Software
Optional Accessories
1.0/1.5/2.0 m 400 µm fiber
400 µm fiber holder
SMA905 or FC/PC 400 µm fiber
Applications
Fiber Optic Spectrometer LB-10FOS is used for precise analysis of absorbance, transmittance, and emission. It is used in research laboratories, hospitals, production lines, processing plants, chip fabrication units, and mining sites.
Frequently asked questions For Fiber Optic Spectrometer
1. What types of analyses can be performed with Labotronics Fiber Optic Spectrometer LB-10FOS?
Labotronics Fiber Optic Spectrometer LB-10FOS supports absorbance, transmittance, fluorescence, and emission measurements, making them versatile tools for diverse analytical needs.
2. How does the optical design of the Labotronics LB-10FOS improve performance?
The symmetrical Czerny-Turner optical design enhances spectral resolution and reduces optical aberrations, ensuring consistent and accurate results in spectral analysis.
3. Does the Labotronics Fiber Optic Spectrometer LB-10FOS support multiple grating options?
Yes, Labotronics fiber optic spectrometer LB-10FOS offers multiple grating configurations, enabling users to tailor measurements across UV, visible, and IR ranges depending on their application.
4. What is the primary use of a Labotronics Fiber Optic Spectrometer?
Labotronics Fiber Optic Spectrometers are used for precise spectral analysis of light, enabling accurate identification and quantification of materials in scientific and industrial applications.
5. How does a Labotronics Fiber Optic Spectrometer capture and analyze spectral data?
Labotronics Fiber Optic Spectrometers uses fiber optic probes to collect light from the sample and directs it through diffraction gratings, allowing the system to separate and measure specific wavelengths for detailed analysis.
6. Can Labotronics Fiber Optic Spectrometers be used for real-time monitoring?
Yes, our fiber optic spectrometers feature digital displays that allow real-time monitoring of spectral data during experiments, enhancing data accuracy and user control.
7. Are Labotronics Fiber Optic Spectrometers suitable for field applications?
Yes, Labotronics Fiber Optic Spectrometers feature a compact design and flexible fiber optic connectivity, making them ideal for both laboratory and field-based use in environmental, chemical, and biomedical studies.
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| Wavelength Range | 200 to 1100 nm |
| Optical Resolution | < 0.75 nm |
| Sensitivity | 130 photons/count at 400 nm 60 photons/count at 600 nm |
| Corrected Linearity | > 99.8% |
| Signal-to-Noise Ratio | 300:1 |
| Wavelength Range | 200 to 1100 nm (optional, max. 650 nm span) |
| Optical Resolution | < 1.0 nm |
| Detector | 3648 pixels |
| Pixel Size | 8 µm × 200 µm |
| Signal-to-Noise Ratio | 300:1 |
| Wavelength Range | 350 to 1100 nm |
| Optical Resolution | Depends on grating mark density and slit size |
| Detector | 2048 pixels |
| Pixel Size | 14 µm × 14 µm |
| Signal-to-Noise Ratio | ~ 450:1 |
| Wavelength Range | 200 to 1100 nm |
| Optical Resolution | Depends on grating mark density and slit size |
| Detector | 2048 pixels |
| Pixel Size | 14 µm × 14 µm |
| Signal-to-Noise Ratio | ~ 450:1 |
| Wavelength Range | 200 to 1100 nm |
| Optical Resolution | < 0.75 nm |
| Sensitivity | 130 photons/count at 400 nm 60 photons/count at 600 nm |
| Corrected Linearity | > 99.8% |
| Signal-To-Noise Ratio | 300:1 |
| Wavelength Range | 350 to 1100 nm |
| Optical Resolution | < 0.75 nm |
| Sensitivity | 130 photons / count at 400 nm 60 photons/count at 600 nm |
| Corrected Linearity | > 99.8% |
| Signal-to-Noise Ratio | 300:1 |
Address: Labotronics Scientific. 1007 N Orange St.,
Wilmington, DE 19801, USA
Mail: info@labotronics.com
WhatsApp: +1 579 401 0534
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