NIR Spectrophotometer NIR-A10
The NIR-A10 NIR Spectrophotometer is equipped with a grating monochromator, covering a wavelength range from 900 nm to 2500 nm and operating within a temperature range of 5 to 35℃. Its single-channel whole spectrum scanning capability ensures low dark noise and high sensitivity. Additionally, it includes a built-in high-quality PTFE reference module and polystyrene wavelength standard filter. By integrating data with the corresponding NIR data model, various components of the tested sample can be obtained simultaneously. This device is utilized for rapid non-destructive analysis of liquids such as oil, alcohol, and beverages.
| Wavelength Range | 900 nm to 2500 nm |
| Wavelength Accuracy | ≤ 0.2 |
| Wavelength Reproducibility | ≤ 0.05 |
| Bandwidth | 8 nm |
| Measurement Mode | Transmission |
| Optical System | Grating Monochromator |
| Stray Light | ≤0.1 % |
| Noise | ≤ 0.0005 Abs |
| Analysis time | 1 minute or above |
| Port | USB 2.0 |
| Temperature Requirement | 5 to 35℃ |
| Humidity Requirement | 5 to 85 % RH |
| Dimension | 360 × 460 × 240 mm |
| Power Supply | 90 to 250 V, 50/60 Hz |
| Weight | 12 kg |
- Designed with single channeled whole spectrum scanning
- Wavelength range spans from 900 to 2500 nm
- Includes built-in high-quality PTFE reference module and polystyrene wavelength standard filter
- Equipped with automatic reference calibration and monitoring wavelengths to ensure accurate and stable measurement results
- Real-time monitoring of ambient temperature and humidity, stored in spectrum file
- Offers 8 nm bandwidth
- Utilizes photomultiplier tube detection
- Easy to use, requires no sample preparation, and ensures sample integrity without damage
The NIR Spectrophotometer serves a diverse range of purposes across multiple industries. It plays a crucial role in chemical and polymer Quality Assurance/Quality Control (QA/QC) processes, facilitating quantitative analysis of production samples, and enabling the straightforward quantification of binary and ternary mixtures. Additionally, it is utilized in the identification of colored gemstones, determining the color origin in colored diamonds, and identifying the geographical origin for sapphires and emeralds. Beyond gemology, NIR Spectrophotometers also find application in telecommunication and laser characterization endeavors.
