An optical fiber comprises a core and a cladding, which have different refractive indexes. When light is incident on the core, it propagates in the core by being totally reflected at the boundary between the core and the cladding. After traveling through the fiber, light spreads at an angle of approx. 60° at the cable end and is directed at the sensing object. Plastic (made of acrylic) & Glass (made of glass) are the types of Fiber cables The Fiber cable can be classified into parallel, coaxial, or partition types, depending on the structural arrangement of the fiber strands.
Sensing of minute objects can be performed by combining the fiber and spot lens. Ambient temperature -60 to +350 ºC. Lens for vacuum-resistant fiber is also available.
Usable in high-temperatures of 300ºC vacuum, The leakage of FV-BR1 is still less than a very slight 1.33 × 10-10 Pa · m3/s [He], so it can be used in vacuums with confidence. Usable in high temperatures of 300 °C...
Vacuum-resistant fiber & Vacuum-resistant flange, Easier and simpler. Amazingly easy to connect. Vacuum-resistant fiber flange designed to enable easy connection (one-touch connection) and disconnection of fibers one by one or at the same time. The one-touch connection just in 1...
It corresponds to various liquid events, from the contact (wetted) type to the pipe mounting type, and up to leak detection.
With the case and fiber sheath made of PFA, the fiber can be used with various types of chemical liquids. Since no metal components are used, there is no need to worry about metal contamination, even if the protective tube...
Sensing transparent objects is its advantage. Compared with the thru-beam type, it is easier to arrange the fibers since one side is a reflector.
It is a fiber in which the sensing distance is limited to a specific range. so it is not easily affected by the background.
It is not easily affected by surrounding obstacles even in long distances. Since the beam is narrow, it has a feature by which it is not easily affected by surrounding obstacles even over long distances.
Since it has a thin, rectangular shape, it can be installed in narrow locations. It is also a fiber with good workability and can be mounted directly with screws.
Ultra-small diameter fibers with a compact head ensure precision centering accuracy to stably detect minute parts. The 40 mm 1.575 in sleeve type can be bent in any direction.
It has reasonable pricing while drastically improving flexing performance. A built-in lens type has been added. User-friendly, high quality fiber. Improved centering accuracy and specularity. Has a slender shape that can be mounted in narrow locations using set screws.
Space-saving, Break-free, more flexible, square head fiber! Oil-resistant fibers have been added to the product line-up. These fibers provide a combination of break-free (10 million times bending durability [typical value, when bent back and forth at 180° with a bending...
Senses work with indefinite shape or position in the beam band without missing. It can also be used to determine the shape. It has a toughness that can be used in moving parts, toughness that can be bent with precision,...
Emitter intensity is also stable due to few curvatures and gaps in the beam axis. It is a fiber with superior light intensity stability and simple digital management when combined with the FX-500 series amplifier. It offers stable sensing with...
It has reasonable pricing while drastically improving flexing performance. A built-in lens type has been added. It is a standard fiber that is mounted using nuts. It has reasonable pricing while drastically improving flexing performance. With the lens installable type,...