Noble T7 full spectrum direct reading spectrometer Introduction Noble T7 full-spectrum direct reading spectrometer can quickly analyze solid metal samples. Whether from trace elements to high-concentration elements, it can be accurately and reliably analyzed, especially the detection accuracy of non-metal elements in the deep ultraviolet region is high. With many years of accumulation in the industry, Jiebo has designed this new, superior performance full-spectrum direct-reading spark spectrometer for the smelting industry and laboratories that have a large amount of metal analysis needs, which can meet the needs of customers in smelting, automotive, aerospace , Consumer goods and other industries. Detectable substrates: iron-based, copper-based, aluminum-based, nickel-based, cobalt-based, magnesium-based, titanium-based, zinc-based, lead-based, tin-based, and silver-based. Features: 1. High-performance optical system High-precision CMOS components can be used to determine the content of non-metal elements such as C, P, S, As, B, N and various metal elements; good repeatability and long-term stability. 2. Automatic optical path calibration Automatic optical path calibration, the optical system automatically scans the spectrum to ensure the correctness of reception and avoid tedious wave peak scanning work; The instrument automatically recognizes the specific spectrum line and compares it with the original storage line, determines the drift position, and finds out the current pixel position of the analysis line for measurement. 3. Plug-in lens design The vacuum optical system adopts a unique entrance window and vacuum isolation, and can be operated under the working condition of the vacuum system. The optical lens adopts a plug-in lens structure, which is convenient and quick for daily cleaning and maintenance. 4. Vacuum anti-return oil technology Multi-stage isolation vacuum oil return prevention technology, using vacuum pressure difference valve to ensure that the vacuum optical chamber is completely isolated from the vacuum when the vacuum pump is not working; a vacuum oil filter device is added in the middle to ensure that the oil in the vacuum pump does not enter the vacuum chamber, and the CMOS detector and optics are guaranteed The components work in a reliable environment. 5. Open Inspiration Stage The flexible sample clamp design of the open excitation platform can meet the needs of customer site analysis of samples of various shapes and sizes; with the use of small sample clamps, the minimum wire analysis can reach 3mm. 6. Jet electrode technology Adopting internationally advanced jet electrode technology, using tungsten electrode, in the excited state, an argon jet will be formed around the electrode, so that during the excitation process around the excitation point will not be in contact with the outside air, improve the excitation accuracy; coupled with unique argon The gas circuit design greatly reduces the amount of argon used, and also reduces the customer's use cost. Technical parameter: Optical system: Pa type-Longe Roland circle full spectrum vacuum optical system Wavelength range: 140~680nm Grating focal length: 401mm Detector: high performance CMOS array/CCD array Light source type: digital light source, high energy pre-ignition technology (HEPS) Discharge frequency: 100-1000Hz Discharge current: 500A Power supply: AC220V 50/60Hz 1000W Detection time: depends on the sample type, generally about 20S Electrode type: tungsten jet electrode Analysis gap: 4mm
Introduction Noble T7 full-spectrum direct reading spectrometer can quickly analyze solid metal samples. Whether from trace elements to high-concentration elements, it can be accurately and reliably analyzed, especially the detection accuracy of non-metal elements in the deep ultraviolet region is high. With many years of accumulation in the industry, Jiebo has designed this new, superior performance full-spectrum direct-reading spark spectrometer for the smelting industry and laboratories that have a large amount of metal analysis needs, which can meet the needs of customers in smelting, automotive, aerospace , Consumer goods and other industries. Detectable substrates: iron-based, copper-based, aluminum-based, nickel-based, cobalt-based, magnesium-based, titanium-based, zinc-based, lead-based, tin-based, and silver-based.
