Dual-Core Parallel Cylindrical Fiber Glass Capillary

Category： Borosilicate Glass
Material:Borosilicate glass
Size：Customizable
Tolerance：±0.001 to ±0.5mm
Applications:Pigtial,Collimator,Circulator,lsolator,Optical switch and other optical passive components
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Product Introduction:

Dual-Core Parallel Cylindrical Fiber Glass Capillary

The Dual-Core Parallel Cylindrical Fiber Glass Capillary is a cutting-edge product designed for a variety of applications in fields such as telecommunications, medical devices, and scientific research. This innovative capillary is engineered to provide enhanced performance, durability, and versatility, making it an essential component for modern technological advancements.

Specification：

Dual-core parellel fiber capillary
Specification	Dimension	Tolerance	Remark
Outer Diameter(mm)/length	0.99 /1.8mm	±0.005	Customization is acceptable
Inner Diameter(mm)	0.128mm	±0.002
Inner Diameter(mm)	0.254mm	±0.002
Length(mm)	6.5/7.0	±0.2
Lead width(mm)	0.75	±0.25
Lead depth(mm)	2	±1.0
Material	Borosilicate

Key Features:
Dual-Core Design:
The dual-core configuration allows for simultaneous transmission of multiple signals, increasing efficiency and reducing latency in data transfer. Each core can be optimized for different wavelengths, enhancing signal clarity and strength.
Cylindrical Structure:
The cylindrical design ensures uniform distribution of stress and minimizes the risk of breakage. This structure enhances the capillary's ability to withstand high pressures and extreme environmental conditions.

High Borosilicate Glass Material:

Made from high borosilicate glass, this capillary exhibits excellent thermal stability, chemical resistance, and mechanical properties. This ensures that it meets the performance requirements of fiber optic communication, providing reliable operation even in demanding environments.
Precision Engineering:
Manufactured with precision techniques, the capillary is designed to meet stringent industry standards. This guarantees consistent quality and performance across all units.

Applications:

Telecommunications: The capillary is primarily used in fiber optic communication systems to provide precise positioning for single or multiple fibers. This minimizes signal loss at connections and allows for specific functionalities, such as in fiber optic isolators and dense wavelength division multiplexing (DWDM) devices.
Fiber Optic Connectors: It is widely used in fiber optic connectors, such as LC and SC single-fiber interfaces. The capillary plays a crucial role in securing the fibers, ensuring that the two ends of the fibers are precisely aligned for efficient transmission of optical signals.
Medical Devices: Ideal for applications such as endoscopy and catheterization, where flexibility and precision are paramount.
Scientific Research: Utilized in laboratory settings for fluid transport, chemical analysis, and other experimental applications requiring accurate measurements and minimal contamination.
Industrial Automation: Suitable for sensors and actuators in automated systems, providing reliable signal transmission even in harsh industrial environments.

Benefits:

Enhanced Performance: The dual-core design allows for increased bandwidth and faster data rates, making it ideal for high-demand applications.
Durability: With its robust fiber glass construction, the capillary withstands harsh conditions, reducing the need for frequent replacements.
Versatility: The capillary can be tailored for specific applications, making it suitable for a wide range of industries and purposes.
Cost-Effective: By reducing the need for multiple cables and optimizing signal quality, the Dual-Core Parallel Cylindrical Fiber Glass Capillary offers a cost-efficient solution for complex systems.

Conclusion: The Dual-Core Parallel Cylindrical Fiber Glass Capillary represents the next generation of fiber optic technology, combining advanced engineering with practical applications. Its innovative design and superior materials make it an ideal choice for professionals seeking reliability and performance in their projects. Whether in telecommunications, medical, or industrial applications, this capillary is poised to meet the demands of modern technology, ensuring high-efficiency transmission and minimal signal loss in fiber optic connections.