1310 -1550nm Multimode Fiber Collimator
Description
The GKER Photonics Multimode Dual Fiber Collimator (GK-MMC Series) is a critical component in optical communication systems, designed to provide precise collimation of light within multimode fiber optic networks. This collimator is engineered for high performance, offering low insertion loss and high return loss, ensuring minimal signal degradation in demanding applications such as isolators and fiber wavelength division multiplexers (FWDM). With advanced anti-reflection (AR) coating and precise manufacturing processes, the GK-MMC Series is capable of handling high optical power, making it ideal for use in high-power laser systems and other industrial applications.
The collimator is highly versatile, supporting multiple fiber core sizes, including 105/125 µm, 62.5/125 µm, and 50/125 µm, and is available in various center wavelengths, such as 1310 nm and 1550 nm. Its robust design ensures reliable performance across a wide operating temperature range, making it suitable for use in harsh environments. The product also offers customizable options, including different lens diameters, holder types, working distances, and connector types, allowing it to be tailored to specific application needs. Whether in telecommunication systems, data centers, or industrial automation, the GK-MMC Series provides the reliability and performance required for modern optical networks.
1310 -1550nm Multimode Fiber Collimator
Specifications |
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|---|---|
| Center Wavelength (λc): | 1310, 1550, or, specified nm |
| Operating Wavelength Range: | λc ± 30 nm |
| Working Distance: | 5, or specified mm |
| Typ. Insertion Loss: | 0.20 dB |
| Max. Insertion Loss: | 0.25 dB |
| Min. Return Loss: | 35 dB |
| Max. Tensile Load: | 5 N |
| Fiber Type: | Multimode Fiber 105/125, 62.5/125, 50/125 µm, or specified - |
| Operating Temperature: | - 5 to + 70 ℃ |
| Storage Temperature: | - 40 to + 85 ℃ |
Features
- Low Insertion Loss: Minimizes signal loss with a typical insertion loss of 0.20 dB
- High Return Loss: Ensures superior signal reflection with a minimum return loss of 35 dB
- High Power Handling: Advanced AR coating allows for high optical power handling
- Customizable Options: Available with various lens diameters, holder types, and connector types
- Wide Operating Temperature Range: Performs reliably in temperatures from -5°C to +70°C
- Versatile Fiber Compatibility: Supports multiple fiber core sizes including 105/125 µm, 62.5/125 µm, and 50/125 µm
Applications
- Optical Communication Systems: Ideal for integrating into optical networks for efficient light collimation
- Laser Applications: Suitable for use in high-power laser systems due to its advanced power handling capabilities
- Industrial Automation: Provides reliable performance in harsh environments with high-temperature stability
For pricing, technical or any other questions please contact the supplier
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How to order?
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Ships from:
China
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Sold by:
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On FindLight:
since 2024
Frequently Asked Questions
The typical insertion loss is 0.20 dB, ensuring minimal signal loss in your optical network.
The collimator supports center wavelengths of 1310 nm, 1550 nm, or specified wavelengths within the operating range of λc ± 30 nm.
The collimator is designed to handle high optical power, thanks to its advanced AR coating.
The minimum return loss is 35 dB, providing excellent signal reflection.
The collimator supports multimode fibers with core sizes of 105/125 µm, 62.5/125 µm, and 50/125 µm, or can be specified to your requirements.
The standard working distance is 5 mm, but it can be specified to meet your specific application needs.
The collimator can operate reliably within a temperature range of -5°C to +70°C.
Yes, the GK-MMC Series offers various customizable options including lens diameters, holder types, connector types, and fiber lengths.
The GK-MMC Series is ideal for optical communication systems, laser applications, and industrial automation, especially where high-power handling is required.
The maximum tensile load the collimator can handle is 5 N, ensuring durability in various applications.