Detector(s) | Light elements: F-PC (gas flow proportional counter), heavy elements; and SC (scintillation counter) | Silicon Drift Detector (SDD) | Heavy element detector - Scintillation counter (SC), Light element detector - Flow proportional counter (F-PC), Attenuator - In-out automatic exchanger (1/10) | SC (Scintillation counter), F-PC (Gas flow proportional counter)
Optional: S-PC LE (Gas sealed proportional counter: does not require P-10 gas) | SC Detector (heavy element), F-PC Detector (light element), 1/10 In-out automatic exchanger (Attenuator) |
Description | The new Supermini200 has improved software capabilities as well as a better footprint. As the world's only high-power benchtop sequential wavelength dispersive X-ray fluorescence (WDXRF) spectrometer for elemental analysis of oxygen (O) through uranium (U) of almost any material, the Rigaku The new Supermini200 has improved software capabilities as well as a better footprint. As the world's only high-power benchtop sequential wavelength dispersive X-ray fluorescence (WDXRF) spectrometer for elemental analysis of oxygen (O) through uranium (U) of almost any material, the Rigaku Supermini200 uniquely delivers low cost-of-ownership (COA) with high resolution and lower limits-of-detection (LLD).
Low cost of ownership
Not only is the Rigaku Supermini200 an affordable choice for your XRF elemental analysis needs, the running costs are also low. P10 gas for the flow proportional detector is the only consumable. The Supermini200 does not require a source of cooling water, plumbing, or an external chiller, thereby decreasing system maintenance and lowering the overall lifetime cost of ownership of the system and yearly budgets for consumables and maintenance.
Superior light element performance
Analyzing complex matrix materials with a wide range of light and heavy elements, from trace to high concentration levels, is the instrument's core competency. Rigaku Supermini200 delivers high sensitivity for light elements with superior spectral resolution for resolving line overlaps in complex matrices without the need for deconvolution. Analyzing low concentration levels of light elements (F, Na, Mg, Ca, Si, Al, and P) is easy.
High power X-ray tube
Supermini is the only high powered (200 W) X-ray tube benchtop WDXRF system, providing excellent excitation resulting in lower detection limits and shorter measurement times. A unique and proprietary optical system is also employed to enhance sensitivity beyond the gains of the tube power.
Features:
- Analyze fluorine through uranium (F -> U)
- Analyze: solids, liquids, powders, alloys and thin films
- Atmosphere: air, helium or vacuum
- X-ray tube: 50 kV, 200 W Pd-anode
- Primary beam filter: Zr is standard; Al optional
- Detectors: F-PC and scintillation
- Crystals: 3-position changer
- Autosampler: 12-position standard
- Vacuum: rotary pump standard
- Power: 100 – 120V (50/60 Hz) 15A or 200 – 240V (50/60 Hz) 10A
... Read More | The Rigaku NEX CG II is a fast and powerful XRF spectrometer that pushes the boundaries of EDXRF technology. It delivers rapid, non-destructive multi-element analyses (Na to U) from trace concentrations up to the percent level. The Cartesian configuration and indirect excitation provide increased The Rigaku NEX CG II is a fast and powerful XRF spectrometer that pushes the boundaries of EDXRF technology. It delivers rapid, non-destructive multi-element analyses (Na to U) from trace concentrations up to the percent level. The Cartesian configuration and indirect excitation provide increased signal-to-noise, even for challenging samples, making it an excellent choice for industrial quality control to advanced research applications.
The NEX CG II is a multi-purpose elemental analyzer that delivers rapid qualitative and quantitative elemental analyses and addresses needs across many industries. It is suited to chemical analysis in almost any matrix — from oils and liquids to solids, metals, polymers, powders, pastes, coatings, and thin films.
Cartesian Geometry and Polarization for Trace Level Sensitivity
Unlike conventional energy dispersive X-ray fluorescence (EDXRF) spectrometers, NEX CG II is an indirect excitation system using secondary targets rather than tube filters. Monochromatic and polarized excitation from secondary targets vastly improves detection limits for elements in highly scattering matrices like water, hydrocarbons, and biological materials. Secondary target excitation in full 90° Cartesian Geometry eliminates background noise. As a result, NEX CG II brings a new level of analytical sensitivity to XRF technology. Users can measure ultra-low and trace element concentrations, even in challenging sample types.
Features:
- Non-destructive elemental analysis for sodium (Na) to uranium (U)
- Rapid elemental analyses of solids, liquids, powders, coatings, and thin films
- Indirect excitation for exceptionally low detection limits
- High-power 50 kV, 50 W X-ray tube
- Large-area high-throughput silicon drift detector (SDD)
- Analysis in air, helium, or vacuum
- Powerful and easy to use QuantEZ® software with multilingual user interface
- Advanced RPF-SQX Fundamental Parameters software featuring Scattering FP
- Rigaku Profile Fitting (RPF) advanced algorithm for peak deconvolution
- Various automatic sample changers accommodating up to 52 mm samples
- Low cost of ownership backed by a 2-year warranty
... Read More | Rigaku's unique ZSX 400 sequential wavelength dispersive X-ray fluorescence (WDXRF) spectrometer was specifically designed to handle very large and/or heavy samples. Accepting samples up to 400 mm diameter, 50 mm thick and 30 kg weight, this system is ideal for analyzing sputtering targets, magneticRigaku's unique ZSX 400 sequential wavelength dispersive X-ray fluorescence (WDXRF) spectrometer was specifically designed to handle very large and/or heavy samples. Accepting samples up to 400 mm diameter, 50 mm thick and 30 kg weight, this system is ideal for analyzing sputtering targets, magnetic disks, or for multilayer film metrology or elemental analysis of large samples.
Customized sample adapter system
Having the versatility to adapt to your specific sample types and analysis needs, the ZSX 400 is adaptable to various sample sizes and shapes using optional (made to order) adapter inserts. With a variable measurement spot (30 mm to 0.5 mm diameter with 5-step automatic selection) and mapping capability with multi-point measurements to check for sample uniformity, this uniquely flexible instrument can dramatically streamline your quality control processes.
Sample view camera with special lighting
Optional real-time camera allows the analysis point to be viewed on screen. The operator has complete certainty as to what is being measured.
Traditional WDXRF analytical capabilities
All analytical capabilities of a traditional instrument are retained in this "large sample" variant. Analyze beryllium (Be) through uranium (U) with high-resolution, high-precision WDXRF spectroscopy, from solids to liquids and powders to thin films. Analyze wide composition ranges (ppm to tens of percent) and thicknesses (sub Å to mm). Optionally available is diffraction peak interference rejection, for optimal results for single-crystal substrates. The Rigaku ZSX 400 complies with industry standards SEMI and CE.
Features
- Large sample analysis
- Up to 400 mm (diameter)
- Up to 50 mm (thickness)
- Up to 30 kg (mass)
- Sample adapter system
- Adaptable to various sample sizes
- Measurement spot
- 30 mm to 0.5 mm diameter
- 5-step automatic selection
- Mapping capability
- Allows multipoint measurements
- Sample view camera (option)
- General purpose
- Analyze Be - U
- Elemental range: ppm to %
- Thickness range: sub Å to mm
- Diffraction interference rejection (option)
- Accurate results for single-crystal substrates
- Compliance with industry standards
- Small footprint
50% footprint of the previous model ... Read More | Key Features
- High-end WDXRF – Ideal for industrial applications
- High throughput – Obtain accurate results in minutes
- Tube-above optics – Eliminates particulate contamination ensuring consistent, reliable results
- Extended detection rage – Be to Cm
- ZSX Guidance software – Increases usability
Key Features
- High-end WDXRF – Ideal for industrial applications
- High throughput – Obtain accurate results in minutes
- Tube-above optics – Eliminates particulate contamination ensuring consistent, reliable results
- Extended detection rage – Be to Cm
- ZSX Guidance software – Increases usability and assists with calibrations
- Attractive pricing - WDXRF performance at an affordable price
The ZSX Primus III NEXT provides rapid elemental analysis with the ability to rapidly quantify major and trace elements (Be to Cm). Its’ high-throughput, excellent sensitivity and affordable price point make it an ideal solution for industrial applications.
Tube-Above Optics
The system features Rigaku’s unique tube-above optical configuration which prevents dust and particles from contaminating optical components and distorting readings as well as minimizing maintenance and maximizing uptime. This makes it ideal for the analysis of pressed powder samples. Furthermore, using wavelength dispersive X-ray fluorescence (WDXRF) provides superior spectral resolution to energy dispersive X-ray fluorescence (EDXRF).
Improved Quality of Analytical results
The ZSX Primus III NEXT features a number of key upgrades from its predecessor resulting in improved results and high throughput levels. These include:
- The incorporation of a digital multi-channel analyzer (D-MCA) and the efficient control of each driving unit to improve the quantitative analysis throughput by 21%.
- A S-PC LE, an environmentally friendly gas-shielded proportional detector for light elements. The S-PC LE negates the need to install a detector gas cylinder
- Powerful ZSX Guidance software, common to Rigaku’s flagship WDXRF spectrometers enabling data sharing and including scheduler function to automate and streamline operations
... Read More | As a tube-above sequential wavelength dispersive X-ray fluorescence spectrometer, the Rigaku ZSX Primus IV delivers rapid quantitative determination of major and minor atomic elements, from beryllium (Be) through uranium (U), in a wide variety of sample types — with minimal standards.
Features:As a tube-above sequential wavelength dispersive X-ray fluorescence spectrometer, the Rigaku ZSX Primus IV delivers rapid quantitative determination of major and minor atomic elements, from beryllium (Be) through uranium (U), in a wide variety of sample types — with minimal standards.
Features:- Analysis of elements from Be to U
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ZSX Guidance expert system software
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Digital multi-channel analyzer (D-MCA)
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EZ Analysis interface for routine measurements
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Tube above optics minimizes contamination issues
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Small footprint uses less valuable lab space
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Micro analysis to analyze samples as small as 500 µm
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30µ tube delivers superior light element performance
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Mapping feature for elemental topography/distribution
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Helium seal means the optics are always under vacuum
... Read More |