Description
The core of glass fibers for IR consists of pure fused silica glass with low OH content and uniform refractive index across the entire diameter. The fibers are used in a wavelength range from 400 nm to 2400 nm (VIS-IR). The fibers themselves are covered with a coating either consisting of acrylate, silicone or polyimide.
The multimode fibers are not only used in optical data transmission, but also in sensor technology, spectroscopy, medical technology and laser applications.
Advantages of Dual Acrylate Coated Multimode Optical Fibers
Dual acrylate coated multimode optical fibers are designed to provide enhanced mechanical durability and improved environmental stability compared to standard single acrylate fibers. The dual-layer coating structure increases resistance to microbending, handling stress, and installation-induced deformation, resulting in more stable optical performance in industrial and laboratory environments. These fibers are well suited for VIS-IR optical transmission systems used in spectroscopy, sensing, laser delivery, and photonics applications where both optical performance and mechanical reliability are critical.
Improved Mechanical Stability for Industrial Fiber Integration
Dual acrylate coatings provide enhanced mechanical protection that helps maintain fiber integrity during installation, routing, and long-term operation. This improved durability reduces the risk of microbending losses and performance degradation in demanding industrial and photonics environments where fibers are frequently handled or deployed in constrained geometries.
FiberTech Dual Acrylate Coated Multimode Optical Fiber 84810051N
Specifications
| Core Diameter: | 200 um |
|---|---|
| Wavelength Range: | 400 – 2400 nm |
| Cable Length: | Not Specified |
| Fiber Core Material: | Silica |
| Fiber Length: | Custom |
| Clad Diameter: | 240 um |
| Coating Diameter (dual Acrylate): | 400 um |
| Jacket Diameter: | 600 um |
Got questions about specs? Use the inquiry form to ask.
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Features
- Step-Index Multimode VIS-IR Transmission: Designed for efficient optical transmission across visible and infrared wavelength ranges, supporting spectroscopy, sensing, and industrial photonics systems.
- Dual Acrylate Coating for Enhanced Durability: Dual-layer acrylate coating provides improved mechanical strength, better handling resistance, and reduced microbending sensitivity compared to single acrylate fibers.
- Stable Optical Performance Under Mechanical Stress: Optimized coating structure helps maintain transmission stability during installation, routing, and long-term system operation.
- Numerical Aperture 0.22 (Standard): Provides efficient light coupling and high optical throughput for a wide range of light sources and system configurations.
- Wide Operating Temperature Range: Suitable for operation in standard industrial and laboratory environments with stable performance under varying environmental conditions.
- Multiple Core Diameter Options: Available in various core sizes to support different optical power levels, coupling conditions, and system integration requirements.
- Compatible with VIS-IR Light Sources: Optimized for use with LEDs, lasers, and broadband sources used in spectroscopy, imaging, and analytical instrumentation.
- Flexible Integration in Optical Systems: Suitable for use in spectroscopy systems, sensing networks, machine vision setups, and general photonics instrumentation.
- Improved Fiber Handling and Installation Robustness: Dual coating structure enhances durability during bending, routing, and connectorization processes.
- Platform Fiber for Industrial Photonics: Serves as a standard building block fiber for a wide range of industrial, scientific, and OEM optical system designs.
Applications
- Spectroscopy Systems: VIS-IR light transmission for analytical and laboratory spectroscopy instruments.
- Industrial Optical Sensing: Fiber integration into measurement and sensing systems for industrial environments.
- Laser Beam Delivery: Stable optical transmission for low- to medium-power laser systems.
- Biomedical Instrumentation: Optical signal routing in diagnostic and biomedical photonics devices.
- Machine Vision Systems: Optical connectivity for imaging and inspection systems.
- Environmental Monitoring: Fiber-based sensing and detection systems for environmental analysis.
- Photonics Research Systems: Flexible fiber use in laboratory and experimental photonics setups.
- Optical Data Transmission: Short-range optical communication in instrumentation systems.
- Semiconductor Equipment: Optical routing in inspection and metrology tools.
- General Industrial Photonics: Broad use in integrated photonics and optical system design.
Frequently Asked Questions
What is the core material of the glass fibers for IR?
What are the applications of the multimode fibers?
What is the wavelength range that the fibers are used in?
What is the temperature range for the fibers with coating?
What is the short-term bending radius for the fibers?
Got more questions? Use the RFQ form to ask the supplier directly.
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