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VIS Spectrophotometer ONDA TOUCH V-11 SCAN
The VISIBLE Spectrophotometer is designed for precision and ease of use. With a wavelength range of 320 – 1100 nm and a 5″ color touch screen, this single beam spectrophotometer offers versatile functionality, including photometry, quantitative analysis, spectral scanning, and performance verification. Its user-friendly interface supports multiple languages and comes with USB flash memory for efficient data management.
Experience reliable and high-quality performance with the VISIBLE Spectrophotometer by ONDA, perfect for your laboratory needs.
Key Features
VISIBLE Spectrophotometer
- Wavelength Range: 320 – 1100 nm
- Display: 5″ color touch screen
- Passband: 4 nm
- Beam Type: Single beam
- Light Source: Tungsten
- Memory: USB flash memory support
- Operating System: Multi-language
Functions:
- Photometry
- Quantitative Analysis
- Spectral Scanning
- File Management
- Performance Verification
Included Accessories:
- 4 Optical Glass Cuvettes (10mm)
- 4-Position Cell Holder (10mm)
- Power Cord
- Dust Cover
- USB Flash Memory
- Calibration Report
Specifications
Accuracy (photometric) |
±0,2 a 0 – 100 % T |
Accuracy (wavelenght) |
±1 nm |
Power supply |
100 – 240 V |
Bandwidth |
4 nm |
Connection |
USB A – USB B – RS232 |
Dimension |
456 x 360 x 185 mm |
Display |
Colour display 5” touch, fixed, 480 x 272 px |
Basic photometry |
Yes |
File Management |
Yes |
Communication interfaces |
Touch screen |
Selectable languages |
IT – EN – ES – DE – FR – PT |
Diffused light |
< 0,1 % T |
Memory |
236 kB (internal) expandable with USB stick |
Name |
ONDA V-11 SCAN spectrophotometer |
Weight |
75 W |
Photometric range |
0 … 9999,9 Conc |
Photometric range |
0 … 200 % T |
Photometric range |
-0,3 … 3 Abs |
Wavelenght range |
320 … 1100 nm |
Range (UV/Visible) |
Visibile |
Detector |
Silicon photodiodes |
Photometric resolution |
0.001 |
Wavelength resolution |
0.1 nm |
Spectral scanning |
Yes |
Optical system |
Single beam |
Sources |
Tungsten – halogen |
Stability |
0.002 Abs/hr (500 nm after 2 hours warm-up) |
Standard cell support |
Manual 4 pos., cuv. square optical path 10mm |
System Utilities |
Yes |
Sample compartment |
Accessible from above and the front |
Performance verification
|
Yes |
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