High-power benchtop sequential WDXRF spectrometer
The Rigaku Supermini200 stands out from other XRF systems by combining advanced software with high-resolution performance in a compact design. This high-power benchtop sequential wavelength dispersive X-ray fluorescence (WDXRF) spectrometer can analyze elements from oxygen (O) to uranium (U) in nearly any material. It offers high-resolution results, lower limits-of-detection (LLD), and a low cost-of-ownership (COO).
The Supermini200 has improved software capabilities and 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) in almost any material. It offers a unique low cost-of-ownership (COO) with high resolution and lower limits-of-detection (LLD).
WDXRF performance with low costs
The Rigaku Supermini200 is not only an affordable choice for your XRF elemental analysis needs, but it also keeps operating costs low. The only consumable for the Supermini200 is P10 gas for the flow proportional detector. Additionally, it doesn’t need cooling water, plumbing, or an external chiller. This reduces system maintenance and lowers the total cost of ownership, as well as annual budgets for consumables and maintenance.
Superior light element performance
The instrument excels at analyzing complex matrix materials containing both light and heavy elements, from trace amounts to high concentrations. The Rigaku Supermini200 is a high-power benchtop sequential WDXRF spectrometer that offers high sensitivity for detecting light elements. It also provides superior spectral resolution, allowing it to resolve line overlaps in complex matrices without the need for deconvolution. This makes it easy to analyze low concentrations of light elements such as F, Na, Mg, Ca, Si, Al, and P.
High power X-ray tube with sequential WDXRF Spectrometer
The Supermini is the only benchtop WDXRF system with a high-powered 200 W X-ray tube. This strong excitation source allows for lower detection limits and faster measurement times. Additionally, it uses a unique proprietary optical system that further boosts sensitivity beyond what tube power alone can achieve.