Description:
UV Visible spectrophotometer UV-510CS combine C-T type parallel double beam optical circuit and single chip computer control system to improves accuracy. It can measure wavelength range of 190 to 1100 nm with spectral band width of 2 nm. Connectivity to computers through USB and print data using parallel port printer. Auto zero and auto wavelength options for the convenience of the user. The data output includes T, A, C, E and standard curve which is displayed on 7-inch touch screen LCD display. Dual light source and huge storage capacity to store sets of data.
Specifications:
Wavelength |
Range | 190 to 1100 nm |
---|
|
Accuracy | ±0.5 nm |
---|
|
Repeatability | ≤0.2 nm |
---|
|
Setting | Automatic |
---|
|
|
Photometric |
Mode | T,A,C,E |
---|
|
Display Range | -0.3 to 3 A |
---|
|
Accuracy | ±0.3% τ |
---|
|
Repeatability | 0.15% τ |
---|
|
|
Spectrum Bandwidth |
4 nm |
Baseline Stability |
0.001 A/h @500 nm |
Optical System |
Single beam |
Light Source |
Import Deuterium Lamp & Tungsten Halogen Lamp |
Detector |
Import Silicon Photodiode |
Stray Light |
≤0.05% τ (220 nm NaI,340 nm NaNO2) |
Display |
LCD Screen (128×64 Dots) |
Power Requirement |
AC 220 V/50 Hz 110 V/60 Hz, 120W |
Dimensions (W ×D ×H) |
480×350×220 mm |
Weight |
15 kg |
Features:
- Manual setting of wavelength ranges of 190 to 1100 nm with spectral band width of 2 nm
- Automatic auto zero adjustment and automatic adjustment of wavelength
- Micro computer system with single clip controls the quantitative and kinetics analysis
- Import deuterium lamp & tungsten halogen lamp are installed as illuminant source
- 7-inch touch screen LCD display to view the T, A, C, E parameters
- Vast Storage memory can save sets of kinetics analysis data, quantitative data and standard curve
- Silicon photodiode detector to get efficient and reliable results
- The out puts are transfer and stored via USB port and parallel printer
Applications:
Used in various fields like pharmaceuticals industry, food industry, microbiology etc. Used for measurement of substance concentration such as protein, DNA or RNA, growth of bacterial cells, and enzymatic reactions. Used in experiments in fields of physics, molecular biology, chemistry and biochemistry. Monitoring dissolved oxygen content in freshwater and marine ecosystems. Used for medical health, clinical examination, biochemistry, petro-chemistry, environmental monitoring and quality control as qualitative and quantitative analysis.