Metavision-8i: Advanced Optical Emission Spectrometer Dual-optics & CMOS sensors
Research in the field of spectrometry has continually been focused on ever-lower detection limits and faster analysis time coupled with high precision and accuracy. At Metal Power, our R&D team focuses on these while not losing sight of the need to deliver economic value across the product lifecycle. The Metavision-8i exemplifies all these endeavours, offering rapid, highly precise and accurate analysis for an extremely wide range of elements at very low levels in ferrous and non-ferrous metals while also offering exceptional economic value.
Innovative optics
The Metavision-8i advances optical analysis with its dual-optics system, designed for superior performance across a 140-620 nm wavelength range. It features dedicated Deep UV optics (140-220 nm) for precise detection of elements like Carbon, Sulphur, Phosphorus, Boron, and Nitrogen. The spectrometer offers comprehensive coverage for over 50 elements, with detection limits as low as ≤20 ppm for Carbon and Sulphur in steels and cast irons, and 20 ppm for Nitrogen. Additionally, it excels in non-ferrous metal analysis, achieving 99.9%+ purity, with some elements like Copper and Lead exceeding 99.98%. The Metavision-8i sets new standards in accuracy and versatility for various analytical applications.
Powering the best results
The Metavision-8i’s fully digital pulsed current-controlled power source ensures precise, computer-controlled adjustments for optimal plasma generation and tailored spectral output. With a wide input range of 90-270 V AC, it offers unmatched flexibility and reliability for global use.
Modular design
The Metavision-8i’s modular design ensures easy servicing and maintenance, with optimised subsystem isolation to prevent interference and noise. This allows engineers to access each system independently, protecting critical components during routine tasks like cleaning or consumable replacement. The design minimises downtime, enhances reliability, and reduces maintenance costs, making it highly service-friendly.