High output and high stability, dual-wavelength lighting, the ability to select the minimum necessary wavelengths from a rich wavelength library, easy to replace and expand, domestically produced and low-priced.
A light source that can simultaneously or alternately illuminate two different wavelengths of LEDs with high output and high stability. It allows for the selection of the minimum necessary wavelengths from a wide range of LEDs, from 405nm to IR. The replacement or expansion of LEDs is easy, and it is an LED light source for imaging that includes a light feedback/current regulation circuit. It is ideal not only for general fluorescence microscopes but also for wide-field illumination. Made in Japan, it offers low prices and reliable support.
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basic information
LED wavelengths: 405nm, 460nm, 530nm, 580nm, 620nm (500nm, 730nm, 780nm, 875nm, 940nm are negotiable) Control circuit: FD feedback circuit or constant current circuit Lighting control: Manual switch or external signal input (lights up at 1.5V or higher) Output control: Manual dial or wireless remote control (sold separately) LED protection circuit: Overcurrent suppression circuit and overheating suppression circuit Cooling method: Heat sink and electric fan Dimensions: Width 300 × Height 130 × Depth 350 (mm) Power supply: 100-220V, 200W
Price range
P4
Delivery Time
Applications/Examples of results
Membrane potential imaging, calcium imaging, GCaMP imaging, two-wavelength excitation, other fluorescence imaging.
Detailed information
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An LED of 530nm and an LED of 620nm were installed in LEX9, and when the 530nm LED was turned on.
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An LED of 530nm and an LED of 620nm were installed in LEX9, and when the 620nm LED was turned on.
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Company information
After developing a high-speed imaging device necessary for neuroscience research, Brain Vision was established in May 1998 as an official venture of RIKEN with the aim of commercializing various ideas that emerged during neuroscience research. To date, over 100 high-speed imaging devices have contributed to advanced research activities at major neuroscience and cardiac research institutions around the world. In recent years, it has also been highly regarded in the field of optoelectronics and has already contributed to research and development at related research institutions and liquid crystal manufacturers. Further contributions in various industrial fields are expected in the future. Brain Vision aims to provide innovative technologies born from neuroscience research to the market and contribute to the advancement of science and industry.
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