Introduction: Plasma 2000-type inductively coupled plasma is the result of steel research nanke "major national scientific instruments and equipment development". Full-spectrum acquisition is achieved using a medium-graded grating optical structure and a research-grade CCD detector. Instrument stability, low detection limit, rapid analysis, low operating costs. It can be used for sample analysis in various fields and disciplines such as geology, metallurgy, rare earth and magnetic materials, environment, medicine, biology, marine, petroleum, new chemical materials, nuclear industry, agriculture, food inspection, water quality and other disciplines. Can quickly and accurately detect from trace to constant about 70 kinds of elements. Features: Excellent optical system 2. Solid-state efficient RF generator, the volume is more compact 3. Process automation, condition monitoring and automatic protection 4. Research-grade detector, high UV quantum efficiency 5. Strong analytical spectrum 6. Intuitive and informative 7. Multi-window multi-method 8. powerful editing 9. Smart spectrum calibration Intelligent interference correction Technical Parameters: 1. Optical system: two-dimensional ladder in the optical system, focal length 400mm 2. Spectral range: 165nm ~ 900nm, optical resolution: 0.007nm (at 200nm) 3. Raster specifications: Ladder grating, 52.67 engraved lines / mm, size: 100mm x 50mm 4. Transistor solid-state RF generator, small and efficient 5. 40.68MHz frequency to improve signal to noise ratio, improve the detection limit 6. Automatic matching adjustment 7. Fully assembled torch, reducing maintenance costs 8. computer-controlled variable speed 10 roller four or two peristaltic pump, with a quick cleaning function 9. Good stability of experimental data: Repeatability RSD ≤ 0.5% (n = 10); Stability: RSD ≤ 2.0% (more than 3 hours)
Introduction: Plasma 2000-type inductively coupled plasma is the result of steel research nanke "major national scientific instruments and equipment development". Full-spectrum acquisition is achieved using a medium-graded grating optical structure and a research-grade CCD detector. Instrument stability, low detection limit, rapid analysis, low operating costs. It can be used for sample analysis in various fields and disciplines such as geology, metallurgy, rare earth and magnetic materials, environment, medicine, biology, marine, petroleum, new chemical materials, nuclear industry, agriculture, food inspection, water quality and other disciplines. Can quickly and accurately detect from trace to constant about 70 kinds of elements.
