JINSP Company Ltd.
JINSP Company Limited is a professional supplier with over 17 years of experience in spectral detection technology product development and manufacturing.
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| No | Item | Description |
| 1 | Name | SR50C Fiber Optic Spectrometer |
| 2 | Chip Type | Linear array CMOS, Hamamatsu S11639 |
| 3 | Effective Pixel | 2048 |
| 4 | Sensing Area | 28.7mm *0.2mm |
| 5 | Optical Design | M Type C-T light path |
| 6 | Numerical Aperture | 0.14 |
| 7 | Entrance Slit Width | 10μm, 25μm, 50μm, 100μm, 200μm (customizable) |
| 8 | Dimensions | 79mm*68mm*42mm |
| 9 | Weight | 220g |
The device is equipped to detect and analyze various properties of light across different spectra, including the absorption, transmittance, and reflectivity of ultraviolet, visible, and near-infrared radiation. It is capable of identifying the specific wavelengths of light sources and lasers, which makes it an invaluable tool in scientific research and industrial applications.
In the realm of environmental protection, this instrument plays a crucial role in monitoring air quality and water purity. It is particularly useful for detecting the presence of smoke and assessing water quality, thereby contributing to the preservation of our natural surroundings.
Furthermore, the device is adept at performing Laser-Induced Breakdown Spectroscopy (LIBS), a technique used to analyze the elemental composition of materials. It can also capture and interpret fluorescence spectra, which are essential for studying the emission of light by substances when they absorb energy.
Additionally, the device is capable of measuring Raman spectra, a powerful method for identifying the molecular structure of various compounds through the scattering of light. These capabilities make the device a versatile and indispensable tool for a wide range of scientific and industrial applications.
The high signal-to-noise ratio is achieved through the use of a low-noise CMOS signal processing circuit. This circuitry ensures that the device delivers an outstanding signal-to-noise ratio, which is crucial for accurate and reliable measurements. The low noise levels mean that the device can capture even the faintest signals with clarity, enhancing the overall performance and precision of the measurements.
The High Luminous Flux is a result of the device's integration with a cylindrical mirror. This mirror significantly improves the luminous flux, ensuring that the device emits a strong and consistent light output. This feature is particularly beneficial in applications where high-intensity light is required, such as in spectroscopy and other optical measurements.
The Low-Temperature Drift is managed through the incorporation of an Integrated Temperature Sensor and a Temperature Drift Compensation Algorithm. These components work together to monitor and adjust for temperature variations, ensuring that the device maintains its accuracy and performance across a range of environmental conditions. This feature is essential for maintaining consistent and reliable results in sensitive applications.
Lastly, the device boasts a Small Volume, making it compact and easy to handle, while also being Lightweight. Despite its small size, it does not compromise on performance; instead, it delivers Excellent Performance, making it suitable for a wide range of applications where space and portability are important considerations.
