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SN-ICP6000
Scienovo
Zn:2.5; Ni:5;Mn:2.5;Cr:5;Cu:5;Ba:0.5
2 hours RSD <1%
RSD < 0.5%
1 Years
OEM /ODM Service
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Product Description |
Features
The inductively coupled plasma optical emission spectrometer of SN-ICP6000 series is a new full-spectrum direct-reading ICP-OES product launched by Shanghai Scienovo Scientific Instrument Co., Ltd. based on years of experience in the development of spectral instruments, incorporating the high-reliability radio frequency power supply, stable constant temperature two-dimensional spectrophotometer system spectroscopic system, high-speed CCD sensor for refrigeration and anti-spill design, easy-to-use torch chamber and sampling system, and combining with the original FSC spectral correction technology, thus providing stable performance and good experience for users.
Stable classic optical system
Classical echelle two-dimensional spectroscopic system
Thermal balance optical chamber with rapid response and constant temperature ensures the instrument stability
The distributed sealed argon filling design based on fluid mechanics simulation enables the optical system to quickly create a. high-purity argon atmosphere, and realize ultraviolet analysis, saving time and argon
The semi-isolated design of the host and the optical system balances the heat exchange, helping the optical system. accommodate the changes in the external environment
Vehicle applications, stable and reliable
Patented FSC real-time drift correction algorithm for micro-drift correction
Back-illuminated high-speed CCD acquisition device
High UV response, requiring no UV fluorescent coating
Megapixels for a high-resolution experience
Three-stage TEC refrigeration design, reduce noise and obtain better dynamic range
Professional anti-spill design, allowing to analyze the high and low contents simultaneously
Specification |
Product Model | SN-ICP6000 | |
Analyzing Performance Indicators | Detection Limit (Ug/L) | Zn:2.5; Ni:5;Mn:2.5;Cr:5;Cu:5;Ba:0.5 |
Stability | 2 hours RSD <1% | |
Precision | RSD < 0.5% | |
Injection System | Quick detachable sampling system, concentric nebulizer, swirl spray chamber, four-channel 12 roller peristaltic pump, pump speed continuously and automatically adjustable | |
Optional high-salt and HF-resistant sampling system | ||
Ar Gas Path Control | Five-way imported high-precision MFC control | |
Plume Treatment | Extend the torch tube + silicon nitride cold cone interface, no need to configure an air compressor for tail flame cutting, and no need for water cooling to periodically damage and replace the cold cone | |
Detector | Spill-proof back-illuminated megapixel CCD | |
Refrigeration | Tailor-made three-stage array thermoelectric cooler | |
CCD Working Temperature | -45°C | |
Pixel | 1024x1024 | |
Exposure Method | double exposure | |
RF power | Self-excited all solid-state RF power supply | |
Frequency | 27.12MHz | |
Output Power | Continuously adjustable, 700~1.6kW | |
Power Stability | <0.1% | |
Frequency Stability | <0.01% | |
Rf Power Control Technology | Direct coupling, variable frequency impedance matching | |
Coil Cooling Method | Water-cooled coil | |
optical system | Automatic thermostatic optical system, mid-level | |
Wavelength Range | 165~870nm | |
Focal Length | 380mm | |
Grating | 52.91l/mm, 64-degree blaze, non-expanding Zerodur material | |
Optical Resolution | < 0.007nm@200nm | |
Observation Method | vertical observation | |
Argon Purge In UV Region | Multi-point array smart purge | |
Light Chamber Constant Temperature | 36℃ constant temperature | |
Optical Path Characteristics | Total Reflection Optical System | |
Other conditions of the system | Auxiliary Equipment | Autosampler, hydride generator, ion exchange unit |
Gas Consumption | Argon consumption is about 12L/min during normal analysis | |
Automatic Calibration Of Spectral Lines | Every time I ignite, only C, N, Ar spectral lines are used to automatically correct the spectral position, no wavelength calibration solution is required, no preheating and consumables for mercury lamp or neon lamp calibration | |
Very Short Settling Time | Patented full-spectrum real-time calibration technology (FSC), eliminating the influence of spectral drift on measurement |
Product Description |
Features
The inductively coupled plasma optical emission spectrometer of SN-ICP6000 series is a new full-spectrum direct-reading ICP-OES product launched by Shanghai Scienovo Scientific Instrument Co., Ltd. based on years of experience in the development of spectral instruments, incorporating the high-reliability radio frequency power supply, stable constant temperature two-dimensional spectrophotometer system spectroscopic system, high-speed CCD sensor for refrigeration and anti-spill design, easy-to-use torch chamber and sampling system, and combining with the original FSC spectral correction technology, thus providing stable performance and good experience for users.
Stable classic optical system
Classical echelle two-dimensional spectroscopic system
Thermal balance optical chamber with rapid response and constant temperature ensures the instrument stability
The distributed sealed argon filling design based on fluid mechanics simulation enables the optical system to quickly create a. high-purity argon atmosphere, and realize ultraviolet analysis, saving time and argon
The semi-isolated design of the host and the optical system balances the heat exchange, helping the optical system. accommodate the changes in the external environment
Vehicle applications, stable and reliable
Patented FSC real-time drift correction algorithm for micro-drift correction
Back-illuminated high-speed CCD acquisition device
High UV response, requiring no UV fluorescent coating
Megapixels for a high-resolution experience
Three-stage TEC refrigeration design, reduce noise and obtain better dynamic range
Professional anti-spill design, allowing to analyze the high and low contents simultaneously
Specification |
Product Model | SN-ICP6000 | |
Analyzing Performance Indicators | Detection Limit (Ug/L) | Zn:2.5; Ni:5;Mn:2.5;Cr:5;Cu:5;Ba:0.5 |
Stability | 2 hours RSD <1% | |
Precision | RSD < 0.5% | |
Injection System | Quick detachable sampling system, concentric nebulizer, swirl spray chamber, four-channel 12 roller peristaltic pump, pump speed continuously and automatically adjustable | |
Optional high-salt and HF-resistant sampling system | ||
Ar Gas Path Control | Five-way imported high-precision MFC control | |
Plume Treatment | Extend the torch tube + silicon nitride cold cone interface, no need to configure an air compressor for tail flame cutting, and no need for water cooling to periodically damage and replace the cold cone | |
Detector | Spill-proof back-illuminated megapixel CCD | |
Refrigeration | Tailor-made three-stage array thermoelectric cooler | |
CCD Working Temperature | -45°C | |
Pixel | 1024x1024 | |
Exposure Method | double exposure | |
RF power | Self-excited all solid-state RF power supply | |
Frequency | 27.12MHz | |
Output Power | Continuously adjustable, 700~1.6kW | |
Power Stability | <0.1% | |
Frequency Stability | <0.01% | |
Rf Power Control Technology | Direct coupling, variable frequency impedance matching | |
Coil Cooling Method | Water-cooled coil | |
optical system | Automatic thermostatic optical system, mid-level | |
Wavelength Range | 165~870nm | |
Focal Length | 380mm | |
Grating | 52.91l/mm, 64-degree blaze, non-expanding Zerodur material | |
Optical Resolution | < 0.007nm@200nm | |
Observation Method | vertical observation | |
Argon Purge In UV Region | Multi-point array smart purge | |
Light Chamber Constant Temperature | 36℃ constant temperature | |
Optical Path Characteristics | Total Reflection Optical System | |
Other conditions of the system | Auxiliary Equipment | Autosampler, hydride generator, ion exchange unit |
Gas Consumption | Argon consumption is about 12L/min during normal analysis | |
Automatic Calibration Of Spectral Lines | Every time I ignite, only C, N, Ar spectral lines are used to automatically correct the spectral position, no wavelength calibration solution is required, no preheating and consumables for mercury lamp or neon lamp calibration | |
Very Short Settling Time | Patented full-spectrum real-time calibration technology (FSC), eliminating the influence of spectral drift on measurement |
