We offer three types to suit your needs: standard type, large diameter type, and high collimation type!
The "Fiber Collimator HV-FC" is an optical component that emits collimated light (parallel light) from a fiber. We offer three types: "Standard Fiber Collimator," "Large Diameter Fiber Collimator," and "High Collimation Fiber Collimator." Please choose according to your application. 【Features】 ■ The emitted light from the fiber is collimated light (parallel light) ■ Three types available to suit different applications *For more details, please refer to the catalog or feel free to contact us.
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basic information
【Product Lineup】 ■ Standard Fiber Collimator HV-FCS → A collimator that utilizes a conventional FC connector by incorporating an aspheric lens into a standard fiber ferrule. ■ Large Diameter Fiber Collimator HV-FLC → A collimator that uses a larger lens than the standard fiber collimator to enhance focusing power, providing a simple collimator for the receiving optical system. ■ High Collimation Fiber Collimator HV-FLH → A collimator with very high collimation performance, offering a simple collimator for the emitting optical system. *For more details, please refer to the catalog or feel free to contact us.
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Applications/Examples of results
【Applications】 ■ Standard Fiber Collimator HV-FCS - Compact optical coupling components - Optical pointer (beam diameter is approximately 5mm even at a distance of 10m), etc. ■ Large Diameter Fiber Collimator HV-FLC - Receiver for reintroducing collimated light into the optical fiber, etc. ■ High Collimation Fiber Collimator HV-FLH - Emission system for optical systems requiring highly collimated light, etc. *For more details, please refer to the catalog or feel free to contact us.
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Company information
We have established 'High-precision measurement of physical quantities using light' as our management policy. Optical measurement technology has become an indispensable element of modern cutting-edge technology. We are confident that the demand for high-precision measurement will grow stronger with the advancement of science. By combining high-precision measurement with the excellent properties of light—non-invasive, non-intrusive, non-contact, and high-precision—we can expect further technological innovation. It may not be suitable for measuring mass-produced items, nor for online measurements. However, we are committed to making it useful for cutting-edge industries that require high-precision measurement of physical quantities.
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