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SN-ICP6500
Scienovo
Zn:0.5; Ni:1; Mn:0.5; Cr:1; Cu:1; Ba:0.1
8 hours RSD <1%
RSD < 0.5%
1 Years
OEM /ODM Service
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Product Description |
The SN-ICP6500 inductively coupled plasma emission spectrometer adopts a with newly developed vertical torch dual observation technology, which can measure elements of relatively large differences in content in a complex matrix. The patent- ed self-excited all-solid-state RF power supply ensures that the system will have excellent adaptability to samples, and offers a low-power standby mode, which greatly reduces argon consumption. The unique large-area array high-sensitivity ECCD sensor brings better performance to the product. Combined with many years of experience of 6000 series in spectroscopy instrument development, the SN-ICP6500 Type ICP-OES product offers the 8-hour stability index RSD of < 1%, and the preci- sion RSD of twin internal standard method of < 0.1%, and thus brings you stable and reliable analysis results.
Feature
A new generation of vertical torch dual observation technology
The SN-ICP6500 product adopts a newly developed vertical torch dual observation technology, which greatly reduces argon consumption and torch consumption, and can be used to measure elements of relatively large differences in content in a
complex matrix. The vertical torch prevents high salt deposition, and the radial observation avoids matrix interference, with which better sensitivity and repeatability can be achieved. The innovative vertical observation technology with adjustable height can optimize the observation position for different elements.
Patented self-excited all-solid-state RF power supply
The product integrates the self-excited all-solid-state RF power supply with EXPEC's third-generation patented technology to ensure that the equipment has better sample adaptability and stability. There won't be any flameout even if organic samples or even air is directly injected, thus eliminating the need for pre-treatment and preparation processes for organic samples such as oil products. The power range of the power supply is (500-1600) W, and its power adjustment range is better than that of most mainstream products. In the 500W low-power standby mode, the argon consumption is 5L/min, which adequately saves the cost of argon consumables for the user and eliminates the waiting time required between the repeated turning on and off of the stable RF power supply.
The large area array ECCD sensor improves the sensitivity and spectral range of the instrument.
As for the proprietary large area array ECCD sensor, its excellent low noise and deep ultraviolet response combined with anti-overflow design, provide the SN-ICP6500 with good detection limits. The large area array design ensures that the instrument can truly acquire the full spectrum in one take, and finish analyzing 72 elements in 10s.
8-hour stability RSD < 1%
Through high-precision temperature gradient field simulation, and air duct fluid dynamics simulation, in combination with repeated practical verification, the internal structure design has been optimized, which gives the structure greater resistance to environmental temperatures. Since the stability design of many key components such as RF power supply and injection system is incorporated into the instrument, the high stability of 8 hours RSD is below 1%, which has reached the leading level internationally.
Specification |
Product Model | SN-ICP6500 ICP-OES | |
Analyzing Performance Indicators | Detection Limit (Ug/L) | Zn:0.5; Ni:1;Mn:0.5;Cr:1;Cu:1;Ba:0.1 |
Stability | 8 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 | Large area array E-CCD | |
Refrigeration | TEC cooling packaged inside the sensor acts directly on the pixel | |
CCD Working Temperature | -10°C | |
Pixel | 1024x1024, 24umx24um | |
Exposure Method | one exposure | |
RF Power | Self-excited all solid-state RF power supply | |
Frequency | 27.12MHz | |
Output Power | Continuously adjustable, 500~1.6kW | |
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 constant temperature optical system, all solid-state mid-range | |
Wavelength Range | 160~900nm | |
Focal Length | 380mm | |
Grating | 87L/mm, 63.5-degree blaze | |
Optical Resolution | < 0.007nm@200nm | |
Observation Method | Vertical placement, two-way viewing | |
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 | 8.5L/min | |
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 |
The SN-ICP6500 inductively coupled plasma emission spectrometer adopts a with newly developed vertical torch dual observation technology, which can measure elements of relatively large differences in content in a complex matrix. The patent- ed self-excited all-solid-state RF power supply ensures that the system will have excellent adaptability to samples, and offers a low-power standby mode, which greatly reduces argon consumption. The unique large-area array high-sensitivity ECCD sensor brings better performance to the product. Combined with many years of experience of 6000 series in spectroscopy instrument development, the SN-ICP6500 Type ICP-OES product offers the 8-hour stability index RSD of < 1%, and the preci- sion RSD of twin internal standard method of < 0.1%, and thus brings you stable and reliable analysis results.
Feature
A new generation of vertical torch dual observation technology
The SN-ICP6500 product adopts a newly developed vertical torch dual observation technology, which greatly reduces argon consumption and torch consumption, and can be used to measure elements of relatively large differences in content in a
complex matrix. The vertical torch prevents high salt deposition, and the radial observation avoids matrix interference, with which better sensitivity and repeatability can be achieved. The innovative vertical observation technology with adjustable height can optimize the observation position for different elements.
Patented self-excited all-solid-state RF power supply
The product integrates the self-excited all-solid-state RF power supply with EXPEC's third-generation patented technology to ensure that the equipment has better sample adaptability and stability. There won't be any flameout even if organic samples or even air is directly injected, thus eliminating the need for pre-treatment and preparation processes for organic samples such as oil products. The power range of the power supply is (500-1600) W, and its power adjustment range is better than that of most mainstream products. In the 500W low-power standby mode, the argon consumption is 5L/min, which adequately saves the cost of argon consumables for the user and eliminates the waiting time required between the repeated turning on and off of the stable RF power supply.
The large area array ECCD sensor improves the sensitivity and spectral range of the instrument.
As for the proprietary large area array ECCD sensor, its excellent low noise and deep ultraviolet response combined with anti-overflow design, provide the SN-ICP6500 with good detection limits. The large area array design ensures that the instrument can truly acquire the full spectrum in one take, and finish analyzing 72 elements in 10s.
8-hour stability RSD < 1%
Through high-precision temperature gradient field simulation, and air duct fluid dynamics simulation, in combination with repeated practical verification, the internal structure design has been optimized, which gives the structure greater resistance to environmental temperatures. Since the stability design of many key components such as RF power supply and injection system is incorporated into the instrument, the high stability of 8 hours RSD is below 1%, which has reached the leading level internationally.
Specification |
Product Model | SN-ICP6500 ICP-OES | |
Analyzing Performance Indicators | Detection Limit (Ug/L) | Zn:0.5; Ni:1;Mn:0.5;Cr:1;Cu:1;Ba:0.1 |
Stability | 8 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 | Large area array E-CCD | |
Refrigeration | TEC cooling packaged inside the sensor acts directly on the pixel | |
CCD Working Temperature | -10°C | |
Pixel | 1024x1024, 24umx24um | |
Exposure Method | one exposure | |
RF Power | Self-excited all solid-state RF power supply | |
Frequency | 27.12MHz | |
Output Power | Continuously adjustable, 500~1.6kW | |
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 constant temperature optical system, all solid-state mid-range | |
Wavelength Range | 160~900nm | |
Focal Length | 380mm | |
Grating | 87L/mm, 63.5-degree blaze | |
Optical Resolution | < 0.007nm@200nm | |
Observation Method | Vertical placement, two-way viewing | |
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 | 8.5L/min | |
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 | |
