Single Beam UV-Vis Spectrophotometer US-C10
US-C10 Single Beam UV-Vis Spectrophotometer is a sleek, tabletop device equipped with a Silicon photodiode detector and both Tungsten and Deuterium lamps for illumination. Covering a wavelength range from 200 nm to 1000 nm with a 4.0 nm bandwidth, it effortlessly sets wavelengths automatically. For quantitative analysis via standard curves, it allows direct input of K and B factors. Engineered with single chip microcomputer control, it features an LCD screen for displaying multiple datasets and boasts ample memory storage. With its array of measurement methods, the LUS-C10 ensures high performance and reliability.
Wavelength Range | 200 to 1000 nm |
Spectral Bandwidth | 4.0 nm |
Optical System | Single beam |
Wavelength Accuracy | ±0.2 nm |
Wavelength Repeatability | 0.2 nm |
Wavelength Resolution | 0.1 nm |
Photometric Display Range | -4 to 4 A |
Photometric Mode | T, A, C, E |
Photometric Accuracy | ±0.2% τ |
Photometric Repeatability | 0.2% τ |
Light Source | Tungsten lamp, Deuterium lamp |
Stray Light | ≤0.05% τ (220 nm NaI, 340 nm NaNO2) |
Stability | 0.001 A/h @500 nm |
Noise | ± 0.002 A @500 nm |
Display | LCD display (128*64 dots) |
Baseline Flatness | ± 0.001 A |
Detector | Silicon photodiode |
Power Supply | AC 220/110 V, 50/60 Hz |
Dimensions (L×W×H) | 460×330×210 mm |
Net Weight | 11 kg |
- Compact, tabletop, single-beam UV-Vis spectrophotometer
- Equipped with a silicon photodiode detector, tungsten, and deuterium lamps as light sources
- Offers a wide wavelength range of 200 nm to 1000 nm with automatic setting
- Features an LCD screen for displaying multiple sets of data
- Includes a maximum 10-point standard curve measurement function
- Allows direct input via K and B factors for quantitative measurement of standard curves
- Provides a large memory space to store multiple sets of data and curves
- Ensures high performance and reliable results with a user-friendly interface
Single Beam UV-Visible Spectrophotometers serve a wide array of purposes including the analysis of band gaps, optical coatings, and thin films. They are also instrumental in quantitative analyses, kinetics studies, wavelength scanning, as well as DNA and protein analysis. These instruments find applications across various domains such as biological research, the bio-industry, pharmaceutical analysis, teaching and research, environmental protection, food hygiene, clinical examination, and health and epidemic prevention.