Overview
YOKE T2600S UV-Visible Spectrophotometer adopts a new optical path design and preferred accessories, with superior instrument performance, which can significantly meet the analytical work needs of professional users. The instrument can be widely used in organic chemistry, biochemistry, drug analysis, food inspection, environment protection, life science and other fields of scientific research and production.
Features
1. Using 7-inch TFT large-screen true-color LCD display and Omron touch button, the operation feels comfortable and durable, and the screen can directly display various scanning Linear dispersion and patterns.
2. Support U disk storage, data files can be opened and edited without professional software, support excel, txt and picture formats, and can output * .csv, * .qua, * .tet, * .bmp four formats.
3. With RS-232C serial port (printing), USB drive (online), USB HOST (connected to U disk) a variety of data output interfaces, and standard 16GB memory.
4. Using ARM11 processor, it can store 2000 test data or 500 Linear dispersion.
5. Optical inspection system and reinforced thickened aluminum baseplate design are adopted to effectively eliminate vibration or deformation effects; double-decked design completely separates the optical path from the circuit, improving resolution and Stability.
6. The use of photoelectric signal detection device reduces the signal-to-noise ratio of the instrument and improves Stability.
7. Optional built-in automatic injection flow system is available, making it convenient for customers to use.
8. Optional swirl/spin 8-link automatic Colorimetric dish rack to ensure that the light path is centered and improve the performance of the instrument.
Principle
The instrument is based on the UV-Vis Spectrophotometric method, spectrophotometry principle. Its Optical inspection system uses a proportional dual beam of light design. The light emitted by the light source is separated by a monochromator to form a monochromatic light of a specific wavelength. This monochromatic light is divided into two beams, one through the sample solution and the other as a reference. The light intensity signal of the two beams is received by the photoelectric Detector and converted into an electrical signal. After calculation by the processor, the Absorbance or transmittance of the sample is obtained, so as to realize the qualitative or quantitative analysis of the substance.
Applications
Organic chemistry, biochemistry, pharmaceutical analysis, food inspection, environment protection, life sciences
Standards
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Steps
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Notice
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