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Fiber Bundles

Berlin, Germany based art photonics GmbH designs and manufactures various types of FlexiRay® fiber bundles and fiber converters for a broad spectral range from 0.2 to 18µm.    Our FlexiRay® bundles are designed to match customer application with different fiber types, diameters and using polymer or metal ...

Specifications

Number Of Fibers: > 1
Wavelength Range: 180-2500um
Length Of Bundle: >0.1 m
The Fiber Bundles & Converters from art photonics are part of the FlexiRay® product line, offering a wide range of fiber bundles and fiber converters designed to meet customer requirements. These bundles and converters are available in a broad spectral range from 0.2 to 17 µm and can be customized with different fiber ...

Specifications

Number Of Fibers: >1
Wavelength Range: 0.18-18um
Length Of Bundle: >0.5 m
Fiber Types: Silica, CIR (Chalcogenide InfraRed), PIR (Polycrystalline InfraRed)
Jacket Materials: Polymer, Metal
art photonics design and manufactures various types of FlexiRay® fiber bundles and fiber convertors for a broad spectral range from 0.2 to 18µm. FlexiRay® bundles are designed to match customer application with different fiber types, diameters and using polymer or metal jackets.

Specifications

Number Of Fibers: >1
Wavelength Range: 1.5-6.0um
Length Of Bundle: >5 m
IDIL Fibres Optiques proposes a wide range of tailor-made optical bundles, namely assemblies of multiple optical fibers.  In accordance with customer’s requirements: fiber types, materials and diameters, quantities (from small batch to several hundred), connectors types, customized ferrules, wavelength, numerical ...

Specifications

Number Of Fibers: >1
Wavelength Range: 0.2-5.5um
Length Of Bundle: > 0.1 m
Numerical Apertures: From 0.10 to 0.66
Dimensions: According the the type and number of fibers
Multi-branch Fused Sillica Fiber Optic Bundles BIC produces standard and customized fiber optic bundles are made from UV and IR-Field silica,plastic or optical glasses with different refractive indicts as appropriate to the requirement for the optically conductive material,which is ground and polished with stainless steel end ...

Specifications

Number Of Fibers: 152
Wavelength Range: 200-1100um
Length Of Bundle: 0.32 m
Operating Temperature: -65~+85 ℃
Numerical Aperture: 0.22

Frequently Asked Questions

An optical fiber bundle is a collection of multiple thin optical fibers that are bundled together to transmit light signals for illumination, visualization or other applications.

Fiber bundles are comprised of glass or plastic optical fibers, an adhesive (typically UV acrylics) that keeps the fibers glued together, and a jacket or housing that protects the bundle from the surrounding environment.

Fiber bundles are widely used in medical imaging, notably in endoscopes. Unlike single fibers, fiber bundles can transmit images and are thus great for imaging objects. They are also commonly used in optical communication networks as dividers and splitters that split the source into different channels. In fact, all submarine or cross-continental communication is supported by fiber bundles. They can also be found in laser machining applications as they can handle large power levels.

Optical fiber bundles are often classified as coherent or incoherent. When the fibers at both ends of the fiber follow the same ordering, the bundle is called coherent or ordered. Otherwise, they are referred to as incoherent or unordered.

The difference in spatial ordering of the single fibers in fiber bundles makes them suitable for different applications. Coherent or ordered fiber bundles are able to image an object while incoherent or unordered fiber bundles can only transmit light without preserving an image. In other words, they are used for illumination only.

Fiber bundles are known for being able to transmit wavelengths ranging from the UV to the IR.

While both copper cables and optical fiber cable bundle can transfer data, optical fiber bundles are more advantageous. Optical fiber bundles can transmit larger bandwidth data over much larger distances and with minimal loss. Moreover, unlike copper cables, they do not suffer from electromagnetic interference which leads to the modification or the loss of the signal.

The cross-section of fiber bundles is typically hexagonal as it is the best way to increase the packaging density and pack more fiber together within the same radius. This arrangement can also reduce cross-talk between the individual fibers which is defined as the power oscillating back and forth between the fibers.

There are 8 different Fiber Bundles from suppliers and manufacturers listed in this category. In just a few clicks you can compare different Fiber Bundles with each other and get an accurate quote based on your needs and specifications. Please note that the prices of Fiber Bundles vary significantly for different products based on various factors including technical parameters, features, brand name, etc. Please contact suppliers directly to inquire about the details and accurate pricing information for any product model. Simply navigate to the product page of interest and use the orange button to directly reach out to the respective supplier with one click.

Did You know?

Optical fiber bundles are collections of optical fibers that are tightly packed together to form a larger, flexible bundle. These bundles are commonly used in medical and industrial applications for transmitting light, allowing for visualization or illumination in tight spaces. Fiber bundles are also considered the backbone of submarine communications, the network that connects the different continents to each other. The individual fibers that make up the bundle are made of a core of glass or plastic surrounded by a cladding material, which helps to reflect the light back into the core. They are then coated with a protective layer to prevent damage. The fibers are then bundled together and wrapped with an additional protective layer to provide flexibility and durability. Optical fiber bundles have a wide range of applications, including endoscopy, microscopy, and industrial inspection. They are particularly useful in medical procedures, where they allow doctors to visualize and perform procedures inside the body without making large incisions. In microscopy, they allow for high-resolution imaging of small structures and particles, while in industrial inspection they can be used to inspect the inside of machinery and other difficult-to-reach areas. Optical Fiber bundles can have multiple inputs or outputs thus performing as converters or splitters, or they can have one output and one input only. Fiber bundles are known for their wide spectral range that stretches from the UV domain all the way to the mid-IR. They exhibit flexibility and robustness to elevated temperatures, bending, and other external factors.