Fiber optic thermometer that can be measured even in strong electric and magnetic fields.
The "fiber optic thermometer" enables accurate temperature measurement in high-frequency, microwave, strong magnetic field, and high-voltage environments, which are difficult to measure with conventional thermometers (thermocouples, resistance temperature detectors), without being affected by electric and magnetic fields. The Lsens fiber optic probe and sensor come in various types to suit all environments: a high-speed sampling type with a diameter of φ500μm, a corrosion-resistant type covered with PTFE, and a rigid polyimide type. The thermometer units are available in compact types for easy portability, panel mount types, and DIN rail mount types.
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basic information
【Features】 ■ Compact and easy to carry ■ Capable of recording data to SD memory cards ■ No influence from electric or magnetic fields ■ Real-time measurement in high-frequency, microwave, strong magnetic field, and high voltage environments ■ Measurement in a vacuum is possible ■ Measurement of extremely small points is possible * For more details, please refer to the PDF document or feel free to contact us. 【Other Features】 ■ Chemical resistance (fiber optic is coated with PTFE Teflon) ■ Standard equipped with micro USB port, Modbus port, and analog output ■ Fiber optic length can exceed 100m ■ Capable of measuring temperature on up to 256 channels (daisy chain)
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Applications/Examples of results
■Electric vehicles ■Temperature measurement in high voltage environments of power equipment ■Development of materials for microwave-cooked foods and packaging ■Temperature measurement of circuit components during operation ■Sterilization of medical instruments, etc.
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Company information
Our company started in 1988 as an overseas export trading company for vacuum thin film manufacturing equipment, and has expanded its operations as a "total planner of vacuum technology" up to the present day. During this time, we have focused on the development of optical thin film materials, as well as the sales of ion beam processes and refrigeration units (Sapcold). Additionally, we have developed and are set to launch the GCIB (Gas Cluster Ion Beam) process equipment, which is expected to be an important technology in the next generation of nano-processing. Starting with glasses and camera lenses, we now see new media continuously emerging in the optical-related industry, including digital cameras, mobile phones, and medical lenses.